diff --git a/src/AutoPilotPlugins/PX4/ParameterFactMetaData.xml b/src/AutoPilotPlugins/PX4/ParameterFactMetaData.xml
index e8e2ce311460f19214e7c301ec50d03450e9295a..b53a862ec3d890b2ba4189542f1598949b1fbe1d 100644
--- a/src/AutoPilotPlugins/PX4/ParameterFactMetaData.xml
+++ b/src/AutoPilotPlugins/PX4/ParameterFactMetaData.xml
@@ -1,3043 +1,4607 @@
 <?xml version="1.0" ?>
-<parameters>
-    <group name="Battery Calibration">
-        <parameter name="BAT_V_EMPTY" type="FLOAT">
-            <short_desc>Empty cell voltage</short_desc>
-            <long_desc>Defines the voltage where a single cell of the battery is considered empty.</long_desc>
-            <default>3.4</default>
-            <unit>V</unit>
-        </parameter>
-        <parameter name="BAT_V_CHARGED" type="FLOAT">
-            <short_desc>Full cell voltage</short_desc>
-            <long_desc>Defines the voltage where a single cell of the battery is considered full.</long_desc>
-            <default>4.2</default>
-            <unit>V</unit>
-        </parameter>
-        <parameter name="BAT_V_LOAD_DROP" type="FLOAT">
-            <short_desc>Voltage drop per cell on 100% load</short_desc>
-            <long_desc>This implicitely defines the internal resistance
-                to maximum current ratio and assumes linearity.</long_desc>
-            <default>0.07</default>
-            <unit>V</unit>
-        </parameter>
-        <parameter name="BAT_N_CELLS" type="INT32">
-            <short_desc>Number of cells</short_desc>
-            <long_desc>Defines the number of cells the attached battery consists of.</long_desc>
-            <default>3</default>
-            <unit>S</unit>
-        </parameter>
-        <parameter name="BAT_CAPACITY" type="FLOAT">
-            <short_desc>Battery capacity</short_desc>
-            <long_desc>Defines the capacity of the attached battery.</long_desc>
-            <default>-1.0</default>
-            <unit>mA</unit>
-        </parameter>
-        <parameter name="BAT_V_SCALE_IO" type="INT32">
-            <short_desc>Scaling factor for battery voltage sensor on PX4IO</short_desc>
-            <default>10000</default>
-        </parameter>
-        <parameter name="BAT_V_SCALING" type="FLOAT">
-            <short_desc>Scaling factor for battery voltage sensor on FMU v2</short_desc>
-            <default>0.0082</default>
-        </parameter>
-        <parameter name="BAT_V_SCALING" type="FLOAT">
-            <short_desc>Scaling factor for battery voltage sensor on AeroCore</short_desc>
-            <long_desc>For R70 = 133K, R71 = 10K --&gt; scale = 1.8 * 143 / (4096*10) = 0.0063</long_desc>
-            <default>0.0063</default>
-        </parameter>
-        <parameter name="BAT_V_SCALING" type="FLOAT">
-            <short_desc>Scaling factor for battery voltage sensor on FMU v1</short_desc>
-            <long_desc>FMUv1 standalone: 1/(10 / (47+10)) * (3.3 / 4095) = 0.00459340659
-                FMUv1 with PX4IO: 0.00459340659
-                FMUv1 with PX4IOAR: (3.3f * 52.0f / 5.0f / 4095.0f) = 0.00838095238</long_desc>
-            <default>0.00459340659</default>
-        </parameter>
-        <parameter name="BAT_C_SCALING" type="FLOAT">
-            <short_desc>Scaling factor for battery current sensor</short_desc>
-            <default>0.0124</default>
-        </parameter>
-    </group>
-    <group name="Circuit Breaker">
-        <parameter name="CBRK_SUPPLY_CHK" type="INT32">
-            <short_desc>Circuit breaker for power supply check</short_desc>
-            <long_desc>Setting this parameter to 894281 will disable the power valid
-                checks in the commander.
-                WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>894281</max>
-        </parameter>
-        <parameter name="CBRK_RATE_CTRL" type="INT32">
-            <short_desc>Circuit breaker for rate controller output</short_desc>
-            <long_desc>Setting this parameter to 140253 will disable the rate
-                controller uORB publication.
-                WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>140253</max>
-        </parameter>
-        <parameter name="CBRK_IO_SAFETY" type="INT32">
-            <short_desc>Circuit breaker for IO safety</short_desc>
-            <long_desc>Setting this parameter to 894281 will disable IO safety.
-                WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>22027</max>
-        </parameter>
-        <parameter name="CBRK_AIRSPD_CHK" type="INT32">
-            <short_desc>Circuit breaker for airspeed sensor</short_desc>
-            <long_desc>Setting this parameter to 162128 will disable the check for an airspeed sensor.
-                WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>162128</max>
-        </parameter>
-        <parameter name="CBRK_FLIGHTTERM" type="INT32">
-            <short_desc>Circuit breaker for flight termination</short_desc>
-            <long_desc>Setting this parameter to 121212 will disable the flight termination action.
-                --&gt; The IO driver will not do flight termination if requested by the FMU
-                WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK</long_desc>
-            <default>121212</default>
-            <min>0</min>
-            <max>121212</max>
-        </parameter>
-        <parameter name="CBRK_ENGINEFAIL" type="INT32">
-            <short_desc>Circuit breaker for engine failure detection</short_desc>
-            <long_desc>Setting this parameter to 284953 will disable the engine failure detection.
-                If the aircraft is in engine failure mode the enine failure flag will be
-                set to healthy
-                WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK</long_desc>
-            <default>284953</default>
-            <min>0</min>
-            <max>284953</max>
-        </parameter>
-        <parameter name="CBRK_GPSFAIL" type="INT32">
-            <short_desc>Circuit breaker for gps failure detection</short_desc>
-            <long_desc>Setting this parameter to 240024 will disable the gps failure detection.
-                If the aircraft is in gps failure mode the gps failure flag will be
-                set to healthy
-                WARNING: ENABLING THIS CIRCUIT BREAKER IS AT OWN RISK</long_desc>
-            <default>240024</default>
-            <min>0</min>
-            <max>240024</max>
-        </parameter>
-    </group>
-    <group name="DLL">
-        <parameter name="NAV_DLL_CH_T" type="FLOAT">
-            <short_desc>Comms hold wait time</short_desc>
-            <long_desc>The amount of time in seconds the system should wait at the comms hold waypoint</long_desc>
-            <default>120.0</default>
-            <min>0.0</min>
-            <unit>seconds</unit>
-        </parameter>
-        <parameter name="NAV_DLL_CH_LAT" type="INT32">
-            <short_desc>Comms hold Lat</short_desc>
-            <long_desc>Latitude of comms hold waypoint</long_desc>
-            <default>-266072120</default>
-            <min>0</min>
-            <unit>degrees * 1e7</unit>
-        </parameter>
-        <parameter name="NAV_DLL_CH_LON" type="INT32">
-            <short_desc>Comms hold Lon</short_desc>
-            <long_desc>Longitude of comms hold waypoint</long_desc>
-            <default>1518453890</default>
-            <min>0</min>
-            <unit>degrees * 1e7</unit>
-        </parameter>
-        <parameter name="NAV_DLL_CH_ALT" type="FLOAT">
-            <short_desc>Comms hold alt</short_desc>
-            <long_desc>Altitude of comms hold waypoint</long_desc>
-            <default>600.0</default>
-            <min>0.0</min>
-            <unit>m</unit>
-        </parameter>
-        <parameter name="NAV_DLL_AH_T" type="FLOAT">
-            <short_desc>Aifield hole wait time</short_desc>
-            <long_desc>The amount of time in seconds the system should wait at the airfield home waypoint</long_desc>
-            <default>120.0</default>
-            <min>0.0</min>
-            <unit>seconds</unit>
-        </parameter>
-        <parameter name="NAV_DLL_N" type="INT32">
-            <short_desc>Number of allowed Datalink timeouts</short_desc>
-            <long_desc>After more than this number of data link timeouts the aircraft returns home directly</long_desc>
-            <default>2</default>
-            <min>0</min>
-            <max>1000</max>
-            <unit>timeouts</unit>
-        </parameter>
-        <parameter name="NAV_DLL_CHSK" type="INT32">
-            <short_desc>Skip comms hold wp</short_desc>
-            <long_desc>If set to 1 the system will skip the comms hold wp on data link loss and will directly fly to
-                airfield home</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="NAV_AH_LAT" type="INT32">
-            <short_desc>Airfield home Lat</short_desc>
-            <long_desc>Latitude of airfield home waypoint</long_desc>
-            <default>-265847810</default>
-            <min>0</min>
-            <unit>degrees * 1e7</unit>
-        </parameter>
-        <parameter name="NAV_AH_LON" type="INT32">
-            <short_desc>Airfield home Lon</short_desc>
-            <long_desc>Longitude of airfield home waypoint</long_desc>
-            <default>1518423250</default>
-            <min>0</min>
-            <unit>degrees * 1e7</unit>
-        </parameter>
-        <parameter name="NAV_AH_ALT" type="FLOAT">
-            <short_desc>Airfield home alt</short_desc>
-            <long_desc>Altitude of airfield home waypoint</long_desc>
-            <default>600.0</default>
-            <min>0.0</min>
-            <unit>m</unit>
-        </parameter>
-    </group>
-    <group name="FW Attitude Control">
-        <parameter name="FW_ATT_TC" type="FLOAT">
-            <short_desc>Attitude Time Constant</short_desc>
-            <long_desc>This defines the latency between a step input and the achieved setpoint
-                (inverse to a P gain). Half a second is a good start value and fits for
-                most average systems. Smaller systems may require smaller values, but as
-                this will wear out servos faster, the value should only be decreased as
-                needed.</long_desc>
-            <default>0.5</default>
-            <min>0.4</min>
-            <max>1.0</max>
-            <unit>seconds</unit>
-        </parameter>
-        <parameter name="FW_PR_P" type="FLOAT">
-            <short_desc>Pitch rate proportional gain</short_desc>
-            <long_desc>This defines how much the elevator input will be commanded depending on the
-                current body angular rate error.</long_desc>
-            <default>0.05</default>
-        </parameter>
-        <parameter name="FW_PR_I" type="FLOAT">
-            <short_desc>Pitch rate integrator gain</short_desc>
-            <long_desc>This gain defines how much control response will result out of a steady
-                state error. It trims any constant error.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>50.0</max>
-        </parameter>
-        <parameter name="FW_P_RMAX_POS" type="FLOAT">
-            <short_desc>Maximum positive / up pitch rate</short_desc>
-            <long_desc>This limits the maximum pitch up angular rate the controller will output (in
-                degrees per second). Setting a value of zero disables the limit.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>90.0</max>
-            <unit>deg/s</unit>
-        </parameter>
-        <parameter name="FW_P_RMAX_NEG" type="FLOAT">
-            <short_desc>Maximum negative / down pitch rate</short_desc>
-            <long_desc>This limits the maximum pitch down up angular rate the controller will
-                output (in degrees per second). Setting a value of zero disables the limit.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>90.0</max>
-            <unit>deg/s</unit>
-        </parameter>
-        <parameter name="FW_PR_IMAX" type="FLOAT">
-            <short_desc>Pitch rate integrator limit</short_desc>
-            <long_desc>The portion of the integrator part in the control surface deflection is
-                limited to this value</long_desc>
-            <default>0.2</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="FW_P_ROLLFF" type="FLOAT">
-            <short_desc>Roll to Pitch feedforward gain</short_desc>
-            <long_desc>This compensates during turns and ensures the nose stays level.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>2.0</max>
-        </parameter>
-        <parameter name="FW_RR_P" type="FLOAT">
-            <short_desc>Roll rate proportional Gain</short_desc>
-            <long_desc>This defines how much the aileron input will be commanded depending on the
-                current body angular rate error.</long_desc>
-            <default>0.05</default>
-        </parameter>
-        <parameter name="FW_RR_I" type="FLOAT">
-            <short_desc>Roll rate integrator Gain</short_desc>
-            <long_desc>This gain defines how much control response will result out of a steady
-                state error. It trims any constant error.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>100.0</max>
-        </parameter>
-        <parameter name="FW_RR_IMAX" type="FLOAT">
-            <short_desc>Roll Integrator Anti-Windup</short_desc>
-            <long_desc>The portion of the integrator part in the control surface deflection is limited to this value.</long_desc>
-            <default>0.2</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="FW_R_RMAX" type="FLOAT">
-            <short_desc>Maximum Roll Rate</short_desc>
-            <long_desc>This limits the maximum roll rate the controller will output (in degrees per
-                second). Setting a value of zero disables the limit.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>90.0</max>
-            <unit>deg/s</unit>
-        </parameter>
-        <parameter name="FW_YR_P" type="FLOAT">
-            <short_desc>Yaw rate proportional gain</short_desc>
-            <long_desc>This defines how much the rudder input will be commanded depending on the
-                current body angular rate error.</long_desc>
-            <default>0.05</default>
-        </parameter>
-        <parameter name="FW_YR_I" type="FLOAT">
-            <short_desc>Yaw rate integrator gain</short_desc>
-            <long_desc>This gain defines how much control response will result out of a steady
-                state error. It trims any constant error.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>50.0</max>
-        </parameter>
-        <parameter name="FW_YR_IMAX" type="FLOAT">
-            <short_desc>Yaw rate integrator limit</short_desc>
-            <long_desc>The portion of the integrator part in the control surface deflection is
-                limited to this value</long_desc>
-            <default>0.2</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="FW_Y_RMAX" type="FLOAT">
-            <short_desc>Maximum Yaw Rate</short_desc>
-            <long_desc>This limits the maximum yaw rate the controller will output (in degrees per
-                second). Setting a value of zero disables the limit.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>90.0</max>
-            <unit>deg/s</unit>
-        </parameter>
-        <parameter name="FW_RR_FF" type="FLOAT">
-            <short_desc>Roll rate feed forward</short_desc>
-            <long_desc>Direct feed forward from rate setpoint to control surface output</long_desc>
-            <default>0.3</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="FW_PR_FF" type="FLOAT">
-            <short_desc>Pitch rate feed forward</short_desc>
-            <long_desc>Direct feed forward from rate setpoint to control surface output</long_desc>
-            <default>0.4</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="FW_YR_FF" type="FLOAT">
-            <short_desc>Yaw rate feed forward</short_desc>
-            <long_desc>Direct feed forward from rate setpoint to control surface output</long_desc>
-            <default>0.3</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="FW_YCO_VMIN" type="FLOAT">
-            <short_desc>Minimal speed for yaw coordination</short_desc>
-            <long_desc>For airspeeds above this value, the yaw rate is calculated for a coordinated
-                turn. Set to a very high value to disable.</long_desc>
-            <default>1000.0</default>
-            <unit>m/s</unit>
-        </parameter>
-        <parameter name="FW_AIRSPD_MIN" type="FLOAT">
-            <short_desc>Minimum Airspeed</short_desc>
-            <long_desc>If the airspeed falls below this value, the TECS controller will try to
-                increase airspeed more aggressively.</long_desc>
-            <default>13.0</default>
-            <min>0.0</min>
-            <max>30.0</max>
-            <unit>m/s</unit>
-        </parameter>
-        <parameter name="FW_AIRSPD_TRIM" type="FLOAT">
-            <short_desc>Trim Airspeed</short_desc>
-            <long_desc>The TECS controller tries to fly at this airspeed.</long_desc>
-            <default>20.0</default>
-            <min>0.0</min>
-            <max>30.0</max>
-            <unit>m/s</unit>
-        </parameter>
-        <parameter name="FW_AIRSPD_MAX" type="FLOAT">
-            <short_desc>Maximum Airspeed</short_desc>
-            <long_desc>If the airspeed is above this value, the TECS controller will try to decrease
-                airspeed more aggressively.</long_desc>
-            <default>50.0</default>
-            <min>0.0</min>
-            <max>30.0</max>
-            <unit>m/s</unit>
-        </parameter>
-        <parameter name="FW_RSP_OFF" type="FLOAT">
-            <short_desc>Roll Setpoint Offset</short_desc>
-            <long_desc>An airframe specific offset of the roll setpoint in degrees, the value is
-                added to the roll setpoint and should correspond to the typical cruise speed
-                of the airframe.</long_desc>
-            <default>0.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="FW_PSP_OFF" type="FLOAT">
-            <short_desc>Pitch Setpoint Offset</short_desc>
-            <long_desc>An airframe specific offset of the pitch setpoint in degrees, the value is
-                added to the pitch setpoint and should correspond to the typical cruise
-                speed of the airframe.</long_desc>
-            <default>0.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="FW_MAN_R_MAX" type="FLOAT">
-            <short_desc>Max Manual Roll</short_desc>
-            <long_desc>Max roll for manual control in attitude stabilized mode</long_desc>
-            <default>45.0</default>
-            <min>0.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="FW_MAN_P_MAX" type="FLOAT">
-            <short_desc>Max Manual Pitch</short_desc>
-            <long_desc>Max pitch for manual control in attitude stabilized mode</long_desc>
-            <default>45.0</default>
-            <min>0.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-    </group>
-    <group name="Fixed Wing TECS">
-        <parameter name="FW_T_SINK_MIN" type="FLOAT">
-            <short_desc>Minimum descent rate</short_desc>
-            <long_desc>This is the sink rate of the aircraft with the throttle
-                set to THR_MIN and flown at the same airspeed as used
-                to measure FW_T_CLMB_MAX.</long_desc>
-            <default>2.0</default>
-        </parameter>
-        <parameter name="FW_T_SINK_MAX" type="FLOAT">
-            <short_desc>Maximum descent rate</short_desc>
-            <long_desc>This sets the maximum descent rate that the controller will use.
-                If this value is too large, the aircraft can over-speed on descent.
-                This should be set to a value that can be achieved without
-                exceeding the lower pitch angle limit and without over-speeding
-                the aircraft.</long_desc>
-            <default>5.0</default>
-        </parameter>
-        <parameter name="FW_T_TIME_CONST" type="FLOAT">
-            <short_desc>TECS time constant</short_desc>
-            <long_desc>This is the time constant of the TECS control algorithm (in seconds).
-                Smaller values make it faster to respond, larger values make it slower
-                to respond.</long_desc>
-            <default>5.0</default>
-        </parameter>
-        <parameter name="FW_T_THRO_CONST" type="FLOAT">
-            <short_desc>TECS Throttle time constant</short_desc>
-            <long_desc>This is the time constant of the TECS throttle control algorithm (in seconds).
-                Smaller values make it faster to respond, larger values make it slower
-                to respond.</long_desc>
-            <default>8.0</default>
-        </parameter>
-        <parameter name="FW_T_THR_DAMP" type="FLOAT">
-            <short_desc>Throttle damping factor</short_desc>
-            <long_desc>This is the damping gain for the throttle demand loop.
-                Increase to add damping to correct for oscillations in speed and height.</long_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="FW_T_INTEG_GAIN" type="FLOAT">
-            <short_desc>Integrator gain</short_desc>
-            <long_desc>This is the integrator gain on the control loop.
-                Increasing this gain increases the speed at which speed
-                and height offsets are trimmed out, but reduces damping and
-                increases overshoot.</long_desc>
-            <default>0.1</default>
-        </parameter>
-        <parameter name="FW_T_VERT_ACC" type="FLOAT">
-            <short_desc>Maximum vertical acceleration</short_desc>
-            <long_desc>This is the maximum vertical acceleration (in metres/second square)
-                either up or down that the controller will use to correct speed
-                or height errors. The default value of 7 m/s/s (equivalent to +- 0.7 g)
-                allows for reasonably aggressive pitch changes if required to recover
-                from under-speed conditions.</long_desc>
-            <default>7.0</default>
-        </parameter>
-        <parameter name="FW_T_HGT_OMEGA" type="FLOAT">
-            <short_desc>Complementary filter &quot;omega&quot; parameter for height</short_desc>
-            <long_desc>This is the cross-over frequency (in radians/second) of the complementary
-                filter used to fuse vertical acceleration and barometric height to obtain
-                an estimate of height rate and height. Increasing this frequency weights
-                the solution more towards use of the barometer, whilst reducing it weights
-                the solution more towards use of the accelerometer data.</long_desc>
-            <default>3.0</default>
-        </parameter>
-        <parameter name="FW_T_SPD_OMEGA" type="FLOAT">
-            <short_desc>Complementary filter &quot;omega&quot; parameter for speed</short_desc>
-            <long_desc>This is the cross-over frequency (in radians/second) of the complementary
-                filter used to fuse longitudinal acceleration and airspeed to obtain an
-                improved airspeed estimate. Increasing this frequency weights the solution
-                more towards use of the arispeed sensor, whilst reducing it weights the
-                solution more towards use of the accelerometer data.</long_desc>
-            <default>2.0</default>
-        </parameter>
-        <parameter name="FW_T_RLL2THR" type="FLOAT">
-            <short_desc>Roll -&gt; Throttle feedforward</short_desc>
-            <long_desc>Increasing this gain turn increases the amount of throttle that will
-                be used to compensate for the additional drag created by turning.
-                Ideally this should be set to  approximately 10 x the extra sink rate
-                in m/s created by a 45 degree bank turn. Increase this gain if
-                the aircraft initially loses energy in turns and reduce if the
-                aircraft initially gains energy in turns. Efficient high aspect-ratio
-                aircraft (eg powered sailplanes) can use a lower value, whereas
-                inefficient low aspect-ratio models (eg delta wings) can use a higher value.</long_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="FW_T_SPDWEIGHT" type="FLOAT">
-            <short_desc>Speed &lt;--&gt; Altitude priority</short_desc>
-            <long_desc>This parameter adjusts the amount of weighting that the pitch control
-                applies to speed vs height errors. Setting it to 0.0 will cause the
-                pitch control to control height and ignore speed errors. This will
-                normally improve height accuracy but give larger airspeed errors.
-                Setting it to 2.0 will cause the pitch control loop to control speed
-                and ignore height errors. This will normally reduce airspeed errors,
-                but give larger height errors. The default value of 1.0 allows the pitch
-                control to simultaneously control height and speed.
-                Note to Glider Pilots - set this parameter to 2.0 (The glider will
-                adjust its pitch angle to maintain airspeed, ignoring changes in height).</long_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="FW_T_PTCH_DAMP" type="FLOAT">
-            <short_desc>Pitch damping factor</short_desc>
-            <long_desc>This is the damping gain for the pitch demand loop. Increase to add
-                damping to correct for oscillations in height. The default value of 0.0
-                will work well provided the pitch to servo controller has been tuned
-                properly.</long_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FW_T_HRATE_P" type="FLOAT">
-            <short_desc>Height rate P factor</short_desc>
-            <default>0.05</default>
-        </parameter>
-        <parameter name="FW_T_HRATE_FF" type="FLOAT">
-            <short_desc>Height rate FF factor</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FW_T_SRATE_P" type="FLOAT">
-            <short_desc>Speed rate P factor</short_desc>
-            <default>0.05</default>
-        </parameter>
-    </group>
-    <group name="GPSF">
-        <parameter name="NAV_GPSF_LT" type="FLOAT">
-            <short_desc>Loiter time</short_desc>
-            <long_desc>The amount of time in seconds the system should do open loop loiter and wait for gps recovery
-                before it goes into flight termination.</long_desc>
-            <default>30.0</default>
-            <min>0.0</min>
-            <unit>seconds</unit>
-        </parameter>
-        <parameter name="NAV_GPSF_R" type="FLOAT">
-            <short_desc>Open loop loiter roll</short_desc>
-            <long_desc>Roll in degrees during the open loop loiter</long_desc>
-            <default>15.0</default>
-            <min>0.0</min>
-            <max>30.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="NAV_GPSF_P" type="FLOAT">
-            <short_desc>Open loop loiter pitch</short_desc>
-            <long_desc>Pitch in degrees during the open loop loiter</long_desc>
-            <default>0.0</default>
-            <min>-30.0</min>
-            <max>30.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="NAV_GPSF_TR" type="FLOAT">
-            <short_desc>Open loop loiter thrust</short_desc>
-            <long_desc>Thrust value which is set during the open loop loiter</long_desc>
-            <default>0.7</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-    </group>
-    <group name="Geofence">
-        <parameter name="GF_ON" type="INT32">
-            <short_desc>Enable geofence</short_desc>
-            <long_desc>Set to 1 to enable geofence.
-                Defaults to 1 because geofence is only enabled when the geofence.txt file is present.</long_desc>
-            <default>1</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="GF_ALTMODE" type="INT32">
-            <short_desc>Geofence altitude mode</short_desc>
-            <long_desc>Select which altitude reference should be used
-                0 = WGS84, 1 = AMSL</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="GF_SOURCE" type="INT32">
-            <short_desc>Geofence source</short_desc>
-            <long_desc>Select which position source should be used. Selecting GPS instead of global position makes sure that there is
-                no dependence on the position estimator
-                0 = global position, 1 = GPS</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="GF_COUNT" type="INT32">
-            <short_desc>Geofence counter limit</short_desc>
-            <long_desc>Set how many subsequent position measurements outside of the fence are needed before geofence violation is triggered</long_desc>
-            <default>-1</default>
-            <min>-1</min>
-            <max>10</max>
-        </parameter>
-    </group>
-    <group name="L1 Control">
-        <parameter name="FW_L1_PERIOD" type="FLOAT">
-            <short_desc>L1 period</short_desc>
-            <long_desc>This is the L1 distance and defines the tracking
-                point ahead of the aircraft its following.
-                A value of 25 meters works for most aircraft. Shorten
-                slowly during tuning until response is sharp without oscillation.</long_desc>
-            <default>25.0</default>
-            <min>1.0</min>
-            <max>100.0</max>
-        </parameter>
-        <parameter name="FW_L1_DAMPING" type="FLOAT">
-            <short_desc>L1 damping</short_desc>
-            <long_desc>Damping factor for L1 control.</long_desc>
-            <default>0.75</default>
-            <min>0.6</min>
-            <max>0.9</max>
-        </parameter>
-        <parameter name="FW_THR_CRUISE" type="FLOAT">
-            <short_desc>Cruise throttle</short_desc>
-            <long_desc>This is the throttle setting required to achieve the desired cruise speed. Most airframes have a value of 0.5-0.7.</long_desc>
-            <default>0.7</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="FW_THR_SLEW_MAX" type="FLOAT">
-            <short_desc>Throttle max slew rate</short_desc>
-            <long_desc>Maximum slew rate for the commanded throttle</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="FW_P_LIM_MIN" type="FLOAT">
-            <short_desc>Negative pitch limit</short_desc>
-            <long_desc>The minimum negative pitch the controller will output.</long_desc>
-            <default>-45.0</default>
-            <min>-60.0</min>
-            <max>0.0</max>
-            <unit>degrees</unit>
-        </parameter>
-        <parameter name="FW_P_LIM_MAX" type="FLOAT">
-            <short_desc>Positive pitch limit</short_desc>
-            <long_desc>The maximum positive pitch the controller will output.</long_desc>
-            <default>45.0</default>
-            <min>0.0</min>
-            <max>60.0</max>
-            <unit>degrees</unit>
-        </parameter>
-        <parameter name="FW_R_LIM" type="FLOAT">
-            <short_desc>Controller roll limit</short_desc>
-            <long_desc>The maximum roll the controller will output.</long_desc>
-            <default>45.0</default>
-            <min>0.0</min>
-            <unit>degrees</unit>
-        </parameter>
-        <parameter name="FW_THR_MAX" type="FLOAT">
-            <short_desc>Throttle limit max</short_desc>
-            <long_desc>This is the maximum throttle % that can be used by the controller.
-                For overpowered aircraft, this should be reduced to a value that
-                provides sufficient thrust to climb at the maximum pitch angle PTCH_MAX.</long_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="FW_THR_MIN" type="FLOAT">
-            <short_desc>Throttle limit min</short_desc>
-            <long_desc>This is the minimum throttle % that can be used by the controller.
-                For electric aircraft this will normally be set to zero, but can be set
-                to a small non-zero value if a folding prop is fitted to prevent the
-                prop from folding and unfolding repeatedly in-flight or to provide
-                some aerodynamic drag from a turning prop to improve the descent rate.
-                For aircraft with internal combustion engine this parameter should be set
-                for desired idle rpm.</long_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FW_THR_LND_MAX" type="FLOAT">
-            <short_desc>Throttle limit value before flare</short_desc>
-            <long_desc>This throttle value will be set as throttle limit at FW_LND_TLALT,
-                before arcraft will flare.</long_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="FW_CLMBOUT_DIFF" type="FLOAT">
-            <short_desc>Climbout Altitude difference</short_desc>
-            <long_desc>If the altitude error exceeds this parameter, the system will climb out
-                with maximum throttle and minimum airspeed until it is closer than this
-                distance to the desired altitude. Mostly used for takeoff waypoints / modes.
-                Set to zero to disable climbout mode (not recommended).</long_desc>
-            <default>25.0</default>
-        </parameter>
-        <parameter name="FW_T_CLMB_MAX" type="FLOAT">
-            <short_desc>Maximum climb rate</short_desc>
-            <long_desc>This is the best climb rate that the aircraft can achieve with
-                the throttle set to THR_MAX and the airspeed set to the
-                default value. For electric aircraft make sure this number can be
-                achieved towards the end of flight when the battery voltage has reduced.
-                The setting of this parameter can be checked by commanding a positive
-                altitude change of 100m in loiter, RTL or guided mode. If the throttle
-                required to climb is close to THR_MAX and the aircraft is maintaining
-                airspeed, then this parameter is set correctly. If the airspeed starts
-                to reduce, then the parameter is set to high, and if the throttle
-                demand required to climb and maintain speed is noticeably less than
-                FW_THR_MAX, then either FW_T_CLMB_MAX should be increased or
-                FW_THR_MAX reduced.</long_desc>
-            <default>5.0</default>
-        </parameter>
-        <parameter name="FW_LND_ANG" type="FLOAT">
-            <short_desc>Landing slope angle</short_desc>
-            <default>5.0</default>
-        </parameter>
-        <parameter name="FW_LND_HVIRT" type="FLOAT">
-            <short_desc>FW_LND_HVIRT</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="FW_LND_FLALT" type="FLOAT">
-            <short_desc>Landing flare altitude (relative to landing altitude)</short_desc>
-            <default>8.0</default>
-            <unit>meter</unit>
-        </parameter>
-        <parameter name="FW_LND_TLALT" type="FLOAT">
-            <short_desc>Landing throttle limit altitude (relative landing altitude)</short_desc>
-            <long_desc>Default of -1.0f lets the system default to applying throttle
-                limiting at 2/3 of the flare altitude.</long_desc>
-            <default>-1.0</default>
-            <unit>meter</unit>
-        </parameter>
-        <parameter name="FW_LND_HHDIST" type="FLOAT">
-            <short_desc>Landing heading hold horizontal distance</short_desc>
-            <default>15.0</default>
-        </parameter>
-        <parameter name="FW_LND_USETER" type="INT32">
-            <short_desc>Enable or disable usage of terrain estimate during landing</short_desc>
-            <long_desc>0: disabled, 1: enabled</long_desc>
-            <default>0</default>
-        </parameter>
-    </group>
-    <group name="Launch detection">
-        <parameter name="LAUN_ALL_ON" type="INT32">
-            <short_desc>Enable launch detection</short_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="LAUN_CAT_A" type="FLOAT">
-            <short_desc>Catapult accelerometer theshold</short_desc>
-            <long_desc>LAUN_CAT_A * LAUN_CAT_T serves as threshold to trigger launch detection.</long_desc>
-            <default>30.0</default>
-            <min>0</min>
-        </parameter>
-        <parameter name="LAUN_CAT_T" type="FLOAT">
-            <short_desc>Catapult time theshold</short_desc>
-            <long_desc>LAUN_CAT_A * LAUN_CAT_T serves as threshold to trigger launch detection.</long_desc>
-            <default>0.05</default>
-            <min>0</min>
-        </parameter>
-        <parameter name="LAUN_CAT_MDEL" type="FLOAT">
-            <short_desc>Motor delay</short_desc>
-            <long_desc>Delay between starting attitude control and powering up the throttle (giving throttle control to the controller)
-                Before this timespan is up the throttle will be set to LAUN_THR_PRE, set to 0 to deactivate</long_desc>
-            <default>0.0</default>
-            <min>0</min>
-            <unit>seconds</unit>
-        </parameter>
-        <parameter name="LAUN_CAT_PMAX" type="FLOAT">
-            <short_desc>Maximum pitch before the throttle is powered up (during motor delay phase)</short_desc>
-            <long_desc>This is an extra limit for the maximum pitch which is imposed in the phase before the throttle turns on.
-                This allows to limit the maximum pitch angle during a bungee launch (make the launch less steep).</long_desc>
-            <default>30.0</default>
-            <min>0</min>
-            <max>45</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="LAUN_THR_PRE" type="FLOAT">
-            <short_desc>Throttle setting while detecting launch</short_desc>
-            <long_desc>The throttle is set to this value while the system is waiting for the take-off.</long_desc>
-            <default>0.0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-    </group>
-    <group name="MAVLink">
-        <parameter name="MAV_SYS_ID" type="INT32">
-            <short_desc>MAVLink system ID</short_desc>
-            <default>1</default>
-        </parameter>
-        <parameter name="MAV_COMP_ID" type="INT32">
-            <short_desc>MAVLink component ID</short_desc>
-            <default>50</default>
-        </parameter>
-        <parameter name="MAV_TYPE" type="INT32">
-            <short_desc>MAVLink type</short_desc>
-            <default>MAV_TYPE_FIXED_WING</default>
-        </parameter>
-        <parameter name="MAV_USEHILGPS" type="INT32">
-            <short_desc>Use/Accept HIL GPS message (even if not in HIL mode)
-                If set to 1 incomming HIL GPS messages are parsed</short_desc>
-            <default>0</default>
-        </parameter>
-        <parameter name="MAV_FWDEXTSP" type="INT32">
-            <short_desc>Forward external setpoint messages
-                If set to 1 incomming external setpoint messages will be directly forwarded to the controllers if in offboard
-                control mode</short_desc>
-            <default>1</default>
-        </parameter>
-    </group>
-    <group name="Mission">
-        <parameter name="MIS_TAKEOFF_ALT" type="FLOAT">
-            <short_desc>Take-off altitude</short_desc>
-            <long_desc>Even if first waypoint has altitude less then MIS_TAKEOFF_ALT above home position, system will climb to
-                MIS_TAKEOFF_ALT on takeoff, then go to waypoint.</long_desc>
-            <default>10.0</default>
-            <unit>meters</unit>
-        </parameter>
-        <parameter name="MIS_ONBOARD_EN" type="INT32">
-            <short_desc>Enable persistent onboard mission storage</short_desc>
-            <long_desc>When enabled, missions that have been uploaded by the GCS are stored
-                and reloaded after reboot persistently.</long_desc>
-            <default>1</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="MIS_DIST_1WP" type="FLOAT">
-            <short_desc>Maximal horizontal distance from home to first waypoint</short_desc>
-            <long_desc>Failsafe check to prevent running mission stored from previous flight at a new takeoff location.
-                Set a value of zero or less to disable. The mission will not be started if the current
-                waypoint is more distant than MIS_DIS_1WP from the current position.</long_desc>
-            <default>500</default>
-            <min>0</min>
-            <max>1000</max>
-        </parameter>
-        <parameter name="MIS_ALTMODE" type="INT32">
-            <short_desc>Altitude setpoint mode</short_desc>
-            <long_desc>0: the system will follow a zero order hold altitude setpoint
-                1: the system will follow a first order hold altitude setpoint
-                values follow the definition in enum mission_altitude_mode</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="NAV_LOITER_RAD" type="FLOAT">
-            <short_desc>Loiter radius (FW only)</short_desc>
-            <long_desc>Default value of loiter radius for missions, loiter, RTL, etc. (fixedwing only).</long_desc>
-            <default>50.0</default>
-            <min>0.0</min>
-            <unit>meters</unit>
-        </parameter>
-        <parameter name="NAV_ACC_RAD" type="FLOAT">
-            <short_desc>Acceptance Radius</short_desc>
-            <long_desc>Default acceptance radius, overridden by acceptance radius of waypoint if set.</long_desc>
-            <default>25.0</default>
-            <min>1.0</min>
-            <unit>meters</unit>
-        </parameter>
-        <parameter name="NAV_DLL_OBC" type="INT32">
-            <short_desc>Set OBC mode for data link loss</short_desc>
-            <long_desc>If set to 1 the behaviour on data link loss is set to a mode according to the OBC rules</long_desc>
-            <default>0</default>
-            <min>0</min>
-        </parameter>
-        <parameter name="NAV_RCL_OBC" type="INT32">
-            <short_desc>Set OBC mode for rc loss</short_desc>
-            <long_desc>If set to 1 the behaviour on data link loss is set to a mode according to the OBC rules</long_desc>
-            <default>0</default>
-            <min>0</min>
-        </parameter>
-    </group>
-    <group name="Multicopter Attitude Control">
-        <parameter name="MC_ROLL_P" type="FLOAT">
-            <short_desc>Roll P gain</short_desc>
-            <long_desc>Roll proportional gain, i.e. desired angular speed in rad/s for error 1 rad.</long_desc>
-            <default>6.0</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MC_ROLLRATE_P" type="FLOAT">
-            <short_desc>Roll rate P gain</short_desc>
-            <long_desc>Roll rate proportional gain, i.e. control output for angular speed error 1 rad/s.</long_desc>
-            <default>0.1</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MC_ROLLRATE_I" type="FLOAT">
-            <short_desc>Roll rate I gain</short_desc>
-            <long_desc>Roll rate integral gain. Can be set to compensate static thrust difference or gravity center offset.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MC_ROLLRATE_D" type="FLOAT">
-            <short_desc>Roll rate D gain</short_desc>
-            <long_desc>Roll rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.</long_desc>
-            <default>0.002</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MC_PITCH_P" type="FLOAT">
-            <short_desc>Pitch P gain</short_desc>
-            <long_desc>Pitch proportional gain, i.e. desired angular speed in rad/s for error 1 rad.</long_desc>
-            <default>6.0</default>
-            <min>0.0</min>
-            <unit>1/s</unit>
-        </parameter>
-        <parameter name="MC_PITCHRATE_P" type="FLOAT">
-            <short_desc>Pitch rate P gain</short_desc>
-            <long_desc>Pitch rate proportional gain, i.e. control output for angular speed error 1 rad/s.</long_desc>
-            <default>0.1</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MC_PITCHRATE_I" type="FLOAT">
-            <short_desc>Pitch rate I gain</short_desc>
-            <long_desc>Pitch rate integral gain. Can be set to compensate static thrust difference or gravity center offset.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MC_PITCHRATE_D" type="FLOAT">
-            <short_desc>Pitch rate D gain</short_desc>
-            <long_desc>Pitch rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.</long_desc>
-            <default>0.002</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MC_YAW_P" type="FLOAT">
-            <short_desc>Yaw P gain</short_desc>
-            <long_desc>Yaw proportional gain, i.e. desired angular speed in rad/s for error 1 rad.</long_desc>
-            <default>2.0</default>
-            <min>0.0</min>
-            <unit>1/s</unit>
-        </parameter>
-        <parameter name="MC_YAWRATE_P" type="FLOAT">
-            <short_desc>Yaw rate P gain</short_desc>
-            <long_desc>Yaw rate proportional gain, i.e. control output for angular speed error 1 rad/s.</long_desc>
-            <default>0.3</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MC_YAWRATE_I" type="FLOAT">
-            <short_desc>Yaw rate I gain</short_desc>
-            <long_desc>Yaw rate integral gain. Can be set to compensate static thrust difference or gravity center offset.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MC_YAWRATE_D" type="FLOAT">
-            <short_desc>Yaw rate D gain</short_desc>
-            <long_desc>Yaw rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MC_YAW_FF" type="FLOAT">
-            <short_desc>Yaw feed forward</short_desc>
-            <long_desc>Feed forward weight for manual yaw control. 0 will give slow responce and no overshot, 1 - fast responce and big overshot.</long_desc>
-            <default>0.5</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MC_YAWRATE_MAX" type="FLOAT">
-            <short_desc>Max yaw rate</short_desc>
-            <long_desc>Limit for yaw rate, has effect for large rotations in autonomous mode, to avoid large control output and mixer saturation.</long_desc>
-            <default>120.0</default>
-            <min>0.0</min>
-            <max>360.0</max>
-            <unit>deg/s</unit>
-        </parameter>
-        <parameter name="MC_MAN_R_MAX" type="FLOAT">
-            <short_desc>Max manual roll</short_desc>
-            <default>35.0</default>
-            <min>0.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MC_MAN_P_MAX" type="FLOAT">
-            <short_desc>Max manual pitch</short_desc>
-            <default>35.0</default>
-            <min>0.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MC_MAN_Y_MAX" type="FLOAT">
-            <short_desc>Max manual yaw rate</short_desc>
-            <default>120.0</default>
-            <min>0.0</min>
-            <unit>deg/s</unit>
-        </parameter>
-        <parameter name="MC_ACRO_R_MAX" type="FLOAT">
-            <short_desc>Max acro roll rate</short_desc>
-            <default>90.0</default>
-            <min>0.0</min>
-            <max>360.0</max>
-            <unit>deg/s</unit>
-        </parameter>
-        <parameter name="MC_ACRO_P_MAX" type="FLOAT">
-            <short_desc>Max acro pitch rate</short_desc>
-            <default>90.0</default>
-            <min>0.0</min>
-            <max>360.0</max>
-            <unit>deg/s</unit>
-        </parameter>
-        <parameter name="MC_ACRO_Y_MAX" type="FLOAT">
-            <short_desc>Max acro yaw rate</short_desc>
-            <default>120.0</default>
-            <min>0.0</min>
-            <unit>deg/s</unit>
-        </parameter>
-    </group>
-    <group name="Multicopter Position Control">
-        <parameter name="MPC_THR_MIN" type="FLOAT">
-            <short_desc>Minimum thrust</short_desc>
-            <long_desc>Minimum vertical thrust. It's recommended to set it &gt; 0 to avoid free fall with zero thrust.</long_desc>
-            <default>0.1</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MPC_THR_MAX" type="FLOAT">
-            <short_desc>Maximum thrust</short_desc>
-            <long_desc>Limit max allowed thrust.</long_desc>
-            <default>1.0</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MPC_Z_P" type="FLOAT">
-            <short_desc>Proportional gain for vertical position error</short_desc>
-            <default>1.0</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MPC_Z_VEL_P" type="FLOAT">
-            <short_desc>Proportional gain for vertical velocity error</short_desc>
-            <default>0.1</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MPC_Z_VEL_I" type="FLOAT">
-            <short_desc>Integral gain for vertical velocity error</short_desc>
-            <long_desc>Non zero value allows hovering thrust estimation on stabilized or autonomous takeoff.</long_desc>
-            <default>0.02</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MPC_Z_VEL_D" type="FLOAT">
-            <short_desc>Differential gain for vertical velocity error</short_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MPC_Z_VEL_MAX" type="FLOAT">
-            <short_desc>Maximum vertical velocity</short_desc>
-            <long_desc>Maximum vertical velocity in AUTO mode and endpoint for stabilized modes (ALTCTRL, POSCTRL).</long_desc>
-            <default>5.0</default>
-            <min>0.0</min>
-            <unit>m/s</unit>
-        </parameter>
-        <parameter name="MPC_Z_FF" type="FLOAT">
-            <short_desc>Vertical velocity feed forward</short_desc>
-            <long_desc>Feed forward weight for altitude control in stabilized modes (ALTCTRL, POSCTRL). 0 will give slow responce and no overshot, 1 - fast responce and big overshot.</long_desc>
-            <default>0.5</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MPC_XY_P" type="FLOAT">
-            <short_desc>Proportional gain for horizontal position error</short_desc>
-            <default>1.0</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MPC_XY_VEL_P" type="FLOAT">
-            <short_desc>Proportional gain for horizontal velocity error</short_desc>
-            <default>0.1</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MPC_XY_VEL_I" type="FLOAT">
-            <short_desc>Integral gain for horizontal velocity error</short_desc>
-            <long_desc>Non-zero value allows to resist wind.</long_desc>
-            <default>0.02</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MPC_XY_VEL_D" type="FLOAT">
-            <short_desc>Differential gain for horizontal velocity error. Small values help reduce fast oscillations. If value is too big oscillations will appear again</short_desc>
-            <default>0.01</default>
-            <min>0.0</min>
-        </parameter>
-        <parameter name="MPC_XY_VEL_MAX" type="FLOAT">
-            <short_desc>Maximum horizontal velocity</short_desc>
-            <long_desc>Maximum horizontal velocity in AUTO mode and endpoint for position stabilized mode (POSCTRL).</long_desc>
-            <default>5.0</default>
-            <min>0.0</min>
-            <unit>m/s</unit>
-        </parameter>
-        <parameter name="MPC_XY_FF" type="FLOAT">
-            <short_desc>Horizontal velocity feed forward</short_desc>
-            <long_desc>Feed forward weight for position control in position control mode (POSCTRL). 0 will give slow responce and no overshot, 1 - fast responce and big overshot.</long_desc>
-            <default>0.5</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MPC_TILTMAX_AIR" type="FLOAT">
-            <short_desc>Maximum tilt angle in air</short_desc>
-            <long_desc>Limits maximum tilt in AUTO and POSCTRL modes during flight.</long_desc>
-            <default>45.0</default>
-            <min>0.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MPC_TILTMAX_LND" type="FLOAT">
-            <short_desc>Maximum tilt during landing</short_desc>
-            <long_desc>Limits maximum tilt angle on landing.</long_desc>
-            <default>15.0</default>
-            <min>0.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MPC_LAND_SPEED" type="FLOAT">
-            <short_desc>Landing descend rate</short_desc>
-            <default>1.0</default>
-            <min>0.0</min>
-            <unit>m/s</unit>
-        </parameter>
-    </group>
-    <group name="Payload drop">
-        <parameter name="BD_GPROPERTIES" type="FLOAT">
-            <short_desc>Ground drag property</short_desc>
-            <long_desc>This parameter encodes the ground drag coefficient and the corresponding
-                decrease in wind speed from the plane altitude to ground altitude.</long_desc>
-            <default>0.03</default>
-            <min>0.001</min>
-            <max>0.1</max>
-            <unit>unknown</unit>
-        </parameter>
-        <parameter name="BD_TURNRADIUS" type="FLOAT">
-            <short_desc>Plane turn radius</short_desc>
-            <long_desc>The planes known minimal turn radius - use a higher value
-                to make the plane maneuver more distant from the actual drop
-                position. This is to ensure the wings are level during the drop.</long_desc>
-            <default>120.0</default>
-            <min>30.0</min>
-            <max>500.0</max>
-            <unit>meter</unit>
-        </parameter>
-        <parameter name="BD_PRECISION" type="FLOAT">
-            <short_desc>Drop precision</short_desc>
-            <long_desc>If the system is closer than this distance on passing over the
-                drop position, it will release the payload. This is a safeguard
-                to prevent a drop out of the required accuracy.</long_desc>
-            <default>30.0</default>
-            <min>1.0</min>
-            <max>80.0</max>
-            <unit>meter</unit>
-        </parameter>
-        <parameter name="BD_OBJ_CD" type="FLOAT">
-            <short_desc>Payload drag coefficient of the dropped object</short_desc>
-            <long_desc>The drag coefficient (cd) is the typical drag
-                constant for air. It is in general object specific,
-                but the closest primitive shape to the actual object
-                should give good results:
-                http://en.wikipedia.org/wiki/Drag_coefficient</long_desc>
-            <default>0.1</default>
-            <min>0.08</min>
-            <max>1.5</max>
-            <unit>meter</unit>
-        </parameter>
-        <parameter name="BD_OBJ_MASS" type="FLOAT">
-            <short_desc>Payload mass</short_desc>
-            <long_desc>A typical small toy ball:
-                0.025 kg
-                OBC water bottle:
-                0.6 kg</long_desc>
-            <default>0.6</default>
-            <min>0.001</min>
-            <max>5.0</max>
-            <unit>kilogram</unit>
-        </parameter>
-        <parameter name="BD_OBJ_SURFACE" type="FLOAT">
-            <short_desc>Payload front surface area</short_desc>
-            <long_desc>A typical small toy ball:
-                (0.045 * 0.045) / 4.0 * pi = 0.001590 m^2
-                OBC water bottle:
-                (0.063 * 0.063) / 4.0 * pi = 0.003117 m^2</long_desc>
-            <default>0.00311724531</default>
-            <min>0.001</min>
-            <max>0.5</max>
-            <unit>m^2</unit>
-        </parameter>
-    </group>
-    <group name="Position Estimator">
-        <parameter name="PE_VEL_DELAY_MS" type="INT32">
-            <short_desc>Velocity estimate delay</short_desc>
-            <long_desc>The delay in milliseconds of the velocity estimate from GPS.</long_desc>
-            <default>230</default>
-            <min>0</min>
-            <max>1000</max>
-        </parameter>
-        <parameter name="PE_POS_DELAY_MS" type="INT32">
-            <short_desc>Position estimate delay</short_desc>
-            <long_desc>The delay in milliseconds of the position estimate from GPS.</long_desc>
-            <default>210</default>
-            <min>0</min>
-            <max>1000</max>
-        </parameter>
-        <parameter name="PE_HGT_DELAY_MS" type="INT32">
-            <short_desc>Height estimate delay</short_desc>
-            <long_desc>The delay in milliseconds of the height estimate from the barometer.</long_desc>
-            <default>350</default>
-            <min>0</min>
-            <max>1000</max>
-        </parameter>
-        <parameter name="PE_MAG_DELAY_MS" type="INT32">
-            <short_desc>Mag estimate delay</short_desc>
-            <long_desc>The delay in milliseconds of the magnetic field estimate from
-                the magnetometer.</long_desc>
-            <default>30</default>
-            <min>0</min>
-            <max>1000</max>
-        </parameter>
-        <parameter name="PE_TAS_DELAY_MS" type="INT32">
-            <short_desc>True airspeeed estimate delay</short_desc>
-            <long_desc>The delay in milliseconds of the airspeed estimate.</long_desc>
-            <default>210</default>
-            <min>0</min>
-            <max>1000</max>
-        </parameter>
-        <parameter name="PE_GPS_ALT_WGT" type="FLOAT">
-            <short_desc>GPS vs. barometric altitude update weight</short_desc>
-            <long_desc>RE-CHECK this.</long_desc>
-            <default>0.9</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="PE_EAS_NOISE" type="FLOAT">
-            <short_desc>Airspeed measurement noise</short_desc>
-            <long_desc>Increasing this value will make the filter trust this sensor
-                less and trust other sensors more.</long_desc>
-            <default>1.4</default>
-            <min>0.5</min>
-            <max>5.0</max>
-        </parameter>
-        <parameter name="PE_VELNE_NOISE" type="FLOAT">
-            <short_desc>Velocity measurement noise in north-east (horizontal) direction</short_desc>
-            <long_desc>Generic default: 0.3, multicopters: 0.5, ground vehicles: 0.5</long_desc>
-            <default>0.3</default>
-            <min>0.05</min>
-            <max>5.0</max>
-        </parameter>
-        <parameter name="PE_VELD_NOISE" type="FLOAT">
-            <short_desc>Velocity noise in down (vertical) direction</short_desc>
-            <long_desc>Generic default: 0.5, multicopters: 0.7, ground vehicles: 0.7</long_desc>
-            <default>0.5</default>
-            <min>0.05</min>
-            <max>5.0</max>
-        </parameter>
-        <parameter name="PE_POSNE_NOISE" type="FLOAT">
-            <short_desc>Position noise in north-east (horizontal) direction</short_desc>
-            <long_desc>Generic defaults: 0.5, multicopters: 0.5, ground vehicles: 0.5</long_desc>
-            <default>0.5</default>
-            <min>0.1</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="PE_POSD_NOISE" type="FLOAT">
-            <short_desc>Position noise in down (vertical) direction</short_desc>
-            <long_desc>Generic defaults: 0.5, multicopters: 1.0, ground vehicles: 1.0</long_desc>
-            <default>0.5</default>
-            <min>0.1</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="PE_MAG_NOISE" type="FLOAT">
-            <short_desc>Magnetometer measurement noise</short_desc>
-            <long_desc>Generic defaults: 0.05, multicopters: 0.05, ground vehicles: 0.05</long_desc>
-            <default>0.05</default>
-            <min>0.1</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="PE_GYRO_PNOISE" type="FLOAT">
-            <short_desc>Gyro process noise</short_desc>
-            <long_desc>Generic defaults: 0.015, multicopters: 0.015, ground vehicles: 0.015.
-                This noise controls how much the filter trusts the gyro measurements.
-                Increasing it makes the filter trust the gyro less and other sensors more.</long_desc>
-            <default>0.015</default>
-            <min>0.001</min>
-            <max>0.05</max>
-        </parameter>
-        <parameter name="PE_ACC_PNOISE" type="FLOAT">
-            <short_desc>Accelerometer process noise</short_desc>
-            <long_desc>Generic defaults: 0.25, multicopters: 0.25, ground vehicles: 0.25.
-                Increasing this value makes the filter trust the accelerometer less
-                and other sensors more.</long_desc>
-            <default>0.25</default>
-            <min>0.05</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="PE_GBIAS_PNOISE" type="FLOAT">
-            <short_desc>Gyro bias estimate process noise</short_desc>
-            <long_desc>Generic defaults: 1e-07f, multicopters: 1e-07f, ground vehicles: 1e-07f.
-                Increasing this value will make the gyro bias converge faster but noisier.</long_desc>
-            <default>1e-07</default>
-            <min>0.0000001</min>
-            <max>0.00001</max>
-        </parameter>
-        <parameter name="PE_ABIAS_PNOISE" type="FLOAT">
-            <short_desc>Accelerometer bias estimate process noise</short_desc>
-            <long_desc>Generic defaults: 0.0001f, multicopters: 0.0001f, ground vehicles: 0.0001f.
-                Increasing this value makes the bias estimation faster and noisier.</long_desc>
-            <default>0.00005</default>
-            <min>0.00001</min>
-            <max>0.001</max>
-        </parameter>
-        <parameter name="PE_MAGE_PNOISE" type="FLOAT">
-            <short_desc>Magnetometer earth frame offsets process noise</short_desc>
-            <long_desc>Generic defaults: 0.0001, multicopters: 0.0001, ground vehicles: 0.0001.
-                Increasing this value makes the magnetometer earth bias estimate converge
-                faster but also noisier.</long_desc>
-            <default>0.0003</default>
-            <min>0.0001</min>
-            <max>0.01</max>
-        </parameter>
-        <parameter name="PE_MAGB_PNOISE" type="FLOAT">
-            <short_desc>Magnetometer body frame offsets process noise</short_desc>
-            <long_desc>Generic defaults: 0.0003, multicopters: 0.0003, ground vehicles: 0.0003.
-                Increasing this value makes the magnetometer body bias estimate converge faster
-                but also noisier.</long_desc>
-            <default>0.0003</default>
-            <min>0.0001</min>
-            <max>0.01</max>
-        </parameter>
-        <parameter name="PE_POSDEV_INIT" type="FLOAT">
-            <short_desc>Threshold for filter initialization</short_desc>
-            <long_desc>If the standard deviation of the GPS position estimate is below this threshold
-                in meters, the filter will initialize.</long_desc>
-            <default>5.0</default>
-            <min>0.3</min>
-            <max>10.0</max>
-        </parameter>
-    </group>
-    <group name="Position Estimator INAV">
-        <parameter name="INAV_W_Z_BARO" type="FLOAT">
-            <short_desc>Z axis weight for barometer</short_desc>
-            <long_desc>Weight (cutoff frequency) for barometer altitude measurements.</long_desc>
-            <default>0.5</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="INAV_W_Z_GPS_P" type="FLOAT">
-            <short_desc>Z axis weight for GPS</short_desc>
-            <long_desc>Weight (cutoff frequency) for GPS altitude measurements. GPS altitude data is very noisy and should be used only as slow correction for baro offset.</long_desc>
-            <default>0.005</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="INAV_W_Z_VIS_P" type="FLOAT">
-            <short_desc>Z axis weight for vision</short_desc>
-            <long_desc>Weight (cutoff frequency) for vision altitude measurements. vision altitude data is very noisy and should be used only as slow correction for baro offset.</long_desc>
-            <default>0.5</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="INAV_W_Z_SONAR" type="FLOAT">
-            <short_desc>Z axis weight for sonar</short_desc>
-            <long_desc>Weight (cutoff frequency) for sonar measurements.</long_desc>
-            <default>3.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="INAV_W_XY_GPS_P" type="FLOAT">
-            <short_desc>XY axis weight for GPS position</short_desc>
-            <long_desc>Weight (cutoff frequency) for GPS position measurements.</long_desc>
-            <default>1.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="INAV_W_XY_GPS_V" type="FLOAT">
-            <short_desc>XY axis weight for GPS velocity</short_desc>
-            <long_desc>Weight (cutoff frequency) for GPS velocity measurements.</long_desc>
-            <default>2.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="INAV_W_XY_VIS_P" type="FLOAT">
-            <short_desc>XY axis weight for vision position</short_desc>
-            <long_desc>Weight (cutoff frequency) for vision position measurements.</long_desc>
-            <default>5.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="INAV_W_XY_VIS_V" type="FLOAT">
-            <short_desc>XY axis weight for vision velocity</short_desc>
-            <long_desc>Weight (cutoff frequency) for vision velocity measurements.</long_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="INAV_W_XY_FLOW" type="FLOAT">
-            <short_desc>XY axis weight for optical flow</short_desc>
-            <long_desc>Weight (cutoff frequency) for optical flow (velocity) measurements.</long_desc>
-            <default>5.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="INAV_W_XY_RES_V" type="FLOAT">
-            <short_desc>XY axis weight for resetting velocity</short_desc>
-            <long_desc>When velocity sources lost slowly decrease estimated horizontal velocity with this weight.</long_desc>
-            <default>0.5</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="INAV_W_GPS_FLOW" type="FLOAT">
-            <short_desc>XY axis weight factor for GPS when optical flow available</short_desc>
-            <long_desc>When optical flow data available, multiply GPS weights (for position and velocity) by this factor.</long_desc>
-            <default>0.1</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="INAV_W_ACC_BIAS" type="FLOAT">
-            <short_desc>Accelerometer bias estimation weight</short_desc>
-            <long_desc>Weight (cutoff frequency) for accelerometer bias estimation. 0 to disable.</long_desc>
-            <default>0.05</default>
-            <min>0.0</min>
-            <max>0.1</max>
-        </parameter>
-        <parameter name="INAV_FLOW_K" type="FLOAT">
-            <short_desc>Optical flow scale factor</short_desc>
-            <long_desc>Factor to convert raw optical flow (in pixels) to radians [rad/px].</long_desc>
-            <default>0.15</default>
-            <min>0.0</min>
-            <max>1.0</max>
-            <unit>rad/px</unit>
-        </parameter>
-        <parameter name="INAV_FLOW_Q_MIN" type="FLOAT">
-            <short_desc>Minimal acceptable optical flow quality</short_desc>
-            <long_desc>0 - lowest quality, 1 - best quality.</long_desc>
-            <default>0.5</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="INAV_SONAR_FILT" type="FLOAT">
-            <short_desc>Weight for sonar filter</short_desc>
-            <long_desc>Sonar filter detects spikes on sonar measurements and used to detect new surface level.</long_desc>
-            <default>0.05</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="INAV_SONAR_ERR" type="FLOAT">
-            <short_desc>Sonar maximal error for new surface</short_desc>
-            <long_desc>If sonar measurement error is larger than this value it skiped (spike) or accepted as new surface level (if offset is stable).</long_desc>
-            <default>0.5</default>
-            <min>0.0</min>
-            <max>1.0</max>
-            <unit>m</unit>
-        </parameter>
-        <parameter name="INAV_LAND_T" type="FLOAT">
-            <short_desc>Land detector time</short_desc>
-            <long_desc>Vehicle assumed landed if no altitude changes happened during this time on low throttle.</long_desc>
-            <default>3.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-            <unit>s</unit>
-        </parameter>
-        <parameter name="INAV_LAND_DISP" type="FLOAT">
-            <short_desc>Land detector altitude dispersion threshold</short_desc>
-            <long_desc>Dispersion threshold for triggering land detector.</long_desc>
-            <default>0.7</default>
-            <min>0.0</min>
-            <max>10.0</max>
-            <unit>m</unit>
-        </parameter>
-        <parameter name="INAV_LAND_THR" type="FLOAT">
-            <short_desc>Land detector throttle threshold</short_desc>
-            <long_desc>Value should be lower than minimal hovering thrust. Half of it is good choice.</long_desc>
-            <default>0.2</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="INAV_DELAY_GPS" type="FLOAT">
-            <short_desc>GPS delay</short_desc>
-            <long_desc>GPS delay compensation</long_desc>
-            <default>0.2</default>
-            <min>0.0</min>
-            <max>1.0</max>
-            <unit>s</unit>
-        </parameter>
-        <parameter name="CBRK_NO_VISION" type="INT32">
-            <short_desc>Disable vision input</short_desc>
-            <long_desc>Set to the appropriate key (328754) to disable vision input.</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-    </group>
-    <group name="RCL">
-        <parameter name="NAV_RCL_LT" type="FLOAT">
-            <short_desc>Loiter Time</short_desc>
-            <long_desc>The amount of time in seconds the system should loiter at current position before termination
-                Set to -1 to make the system skip loitering</long_desc>
-            <default>120.0</default>
-            <min>-1.0</min>
-            <unit>seconds</unit>
-        </parameter>
-    </group>
-    <group name="RTL">
-        <parameter name="RTL_LOITER_RAD" type="FLOAT">
-            <short_desc>Loiter radius after RTL (FW only)</short_desc>
-            <long_desc>Default value of loiter radius after RTL (fixedwing only).</long_desc>
-            <default>50.0</default>
-            <min>0.0</min>
-            <unit>meters</unit>
-        </parameter>
-        <parameter name="RTL_RETURN_ALT" type="FLOAT">
-            <short_desc>RTL altitude</short_desc>
-            <long_desc>Altitude to fly back in RTL in meters</long_desc>
-            <default>100</default>
-            <min>0</min>
-            <max>1</max>
-            <unit>meters</unit>
-        </parameter>
-        <parameter name="RTL_DESCEND_ALT" type="FLOAT">
-            <short_desc>RTL loiter altitude</short_desc>
-            <long_desc>Stay at this altitude above home position after RTL descending.
-                Land (i.e. slowly descend) from this altitude if autolanding allowed.</long_desc>
-            <default>20</default>
-            <min>0</min>
-            <max>100</max>
-            <unit>meters</unit>
-        </parameter>
-        <parameter name="RTL_LAND_DELAY" type="FLOAT">
-            <short_desc>RTL delay</short_desc>
-            <long_desc>Delay after descend before landing in RTL mode.
-                If set to -1 the system will not land but loiter at NAV_LAND_ALT.</long_desc>
-            <default>-1.0</default>
-            <min>-1.0</min>
-            <unit>seconds</unit>
-        </parameter>
-    </group>
-    <group name="Radio Calibration">
-        <parameter name="RC1_MIN" type="FLOAT">
-            <short_desc>RC Channel 1 Minimum</short_desc>
-            <long_desc>Minimum value for RC channel 1</long_desc>
-            <default>1000.0</default>
-            <min>800.0</min>
-            <max>1500.0</max>
-        </parameter>
-        <parameter name="RC1_TRIM" type="FLOAT">
-            <short_desc>RC Channel 1 Trim</short_desc>
-            <long_desc>Mid point value (same as min for throttle)</long_desc>
-            <default>1500.0</default>
-            <min>800.0</min>
-            <max>2200.0</max>
-        </parameter>
-        <parameter name="RC1_MAX" type="FLOAT">
-            <short_desc>RC Channel 1 Maximum</short_desc>
-            <long_desc>Maximum value for RC channel 1</long_desc>
-            <default>2000.0</default>
-            <min>1500.0</min>
-            <max>2200.0</max>
-        </parameter>
-        <parameter name="RC1_REV" type="FLOAT">
-            <short_desc>RC Channel 1 Reverse</short_desc>
-            <long_desc>Set to -1 to reverse channel.</long_desc>
-            <default>1.0</default>
-            <min>-1.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="RC1_DZ" type="FLOAT">
-            <short_desc>RC Channel 1 dead zone</short_desc>
-            <long_desc>The +- range of this value around the trim value will be considered as zero.</long_desc>
-            <default>10.0</default>
-            <min>0.0</min>
-            <max>100.0</max>
-        </parameter>
-        <parameter name="RC2_MIN" type="FLOAT">
-            <short_desc>RC Channel 2 Minimum</short_desc>
-            <long_desc>Minimum value for RC channel 2</long_desc>
-            <default>1000.0</default>
-            <min>800.0</min>
-            <max>1500.0</max>
-        </parameter>
-        <parameter name="RC2_TRIM" type="FLOAT">
-            <short_desc>RC Channel 2 Trim</short_desc>
-            <long_desc>Mid point value (same as min for throttle)</long_desc>
-            <default>1500.0</default>
-            <min>800.0</min>
-            <max>2200.0</max>
-        </parameter>
-        <parameter name="RC2_MAX" type="FLOAT">
-            <short_desc>RC Channel 2 Maximum</short_desc>
-            <long_desc>Maximum value for RC channel 2</long_desc>
-            <default>2000.0</default>
-            <min>1500.0</min>
-            <max>2200.0</max>
-        </parameter>
-        <parameter name="RC2_REV" type="FLOAT">
-            <short_desc>RC Channel 2 Reverse</short_desc>
-            <long_desc>Set to -1 to reverse channel.</long_desc>
-            <default>1.0</default>
-            <min>-1.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="RC2_DZ" type="FLOAT">
-            <short_desc>RC Channel 2 dead zone</short_desc>
-            <long_desc>The +- range of this value around the trim value will be considered as zero.</long_desc>
-            <default>10.0</default>
-            <min>0.0</min>
-            <max>100.0</max>
-        </parameter>
-        <parameter name="RC_DSM_BIND" type="INT32">
-            <short_desc>DSM binding trigger</short_desc>
-            <long_desc>-1 = Idle, 0 = Start DSM2 bind, 1 = Start DSMX bind</long_desc>
-            <default>-1</default>
-        </parameter>
-        <parameter name="RC_MAP_ROLL" type="INT32">
-            <short_desc>Roll control channel mapping</short_desc>
-            <long_desc>The channel index (starting from 1 for channel 1) indicates
-                which channel should be used for reading roll inputs from.
-                A value of zero indicates the switch is not assigned.</long_desc>
-            <default>1</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_PITCH" type="INT32">
-            <short_desc>Pitch control channel mapping</short_desc>
-            <long_desc>The channel index (starting from 1 for channel 1) indicates
-                which channel should be used for reading pitch inputs from.
-                A value of zero indicates the switch is not assigned.</long_desc>
-            <default>2</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_THROTTLE" type="INT32">
-            <short_desc>Throttle control channel mapping</short_desc>
-            <long_desc>The channel index (starting from 1 for channel 1) indicates
-                which channel should be used for reading throttle inputs from.
-                A value of zero indicates the switch is not assigned.</long_desc>
-            <default>3</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_YAW" type="INT32">
-            <short_desc>Yaw control channel mapping</short_desc>
-            <long_desc>The channel index (starting from 1 for channel 1) indicates
-                which channel should be used for reading yaw inputs from.
-                A value of zero indicates the switch is not assigned.</long_desc>
-            <default>4</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_MODE_SW" type="INT32">
-            <short_desc>Mode switch channel mapping</short_desc>
-            <long_desc>This is the main flight mode selector.
-                The channel index (starting from 1 for channel 1) indicates
-                which channel should be used for deciding about the main mode.
-                A value of zero indicates the switch is not assigned.</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_RETURN_SW" type="INT32">
-            <short_desc>Return switch channel mapping</short_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_POSCTL_SW" type="INT32">
-            <short_desc>Posctl switch channel mapping</short_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_LOITER_SW" type="INT32">
-            <short_desc>Loiter switch channel mapping</short_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_ACRO_SW" type="INT32">
-            <short_desc>Acro switch channel mapping</short_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_OFFB_SW" type="INT32">
-            <short_desc>Offboard switch channel mapping</short_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_FLAPS" type="INT32">
-            <short_desc>Flaps channel mapping</short_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_AUX1" type="INT32">
-            <short_desc>Auxiliary switch 1 channel mapping</short_desc>
-            <long_desc>Default function: Camera pitch</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_AUX2" type="INT32">
-            <short_desc>Auxiliary switch 2 channel mapping</short_desc>
-            <long_desc>Default function: Camera roll</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_MAP_AUX3" type="INT32">
-            <short_desc>Auxiliary switch 3 channel mapping</short_desc>
-            <long_desc>Default function: Camera azimuth / yaw</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_FAILS_THR" type="INT32">
-            <short_desc>Failsafe channel PWM threshold</short_desc>
-            <default>0</default>
-            <min>800</min>
-            <max>2200</max>
-        </parameter>
-    </group>
-    <group name="SD Logging">
-        <parameter name="SDLOG_RATE" type="INT32">
-            <short_desc>Logging rate</short_desc>
-            <long_desc>A value of -1 indicates the commandline argument
-                should be obeyed. A value of 0 sets the minimum rate,
-                any other value is interpreted as rate in Hertz. This
-                parameter is only read out before logging starts (which
-                commonly is before arming).</long_desc>
-            <default>-1</default>
-            <min>-1</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="SDLOG_EXT" type="INT32">
-            <short_desc>Enable extended logging mode</short_desc>
-            <long_desc>A value of -1 indicates the commandline argument
-                should be obeyed. A value of 0 disables extended
-                logging mode, a value of 1 enables it. This
-                parameter is only read out before logging starts
-                (which commonly is before arming).</long_desc>
-            <default>-1</default>
-            <min>-1</min>
-            <max>1</max>
-        </parameter>
-    </group>
-    <group name="Sensor Calibration">
-        <parameter name="SENS_GYRO_XOFF" type="FLOAT">
-            <short_desc>Gyro X-axis offset</short_desc>
-            <default>0.0</default>
-            <min>-10.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="SENS_GYRO_YOFF" type="FLOAT">
-            <short_desc>Gyro Y-axis offset</short_desc>
-            <default>0.0</default>
-            <min>-10.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="SENS_GYRO_ZOFF" type="FLOAT">
-            <short_desc>Gyro Z-axis offset</short_desc>
-            <default>0.0</default>
-            <min>-5.0</min>
-            <max>5.0</max>
-        </parameter>
-        <parameter name="SENS_GYRO_XSCALE" type="FLOAT">
-            <short_desc>Gyro X-axis scaling factor</short_desc>
-            <default>1.0</default>
-            <min>-1.5</min>
-            <max>1.5</max>
-        </parameter>
-        <parameter name="SENS_GYRO_YSCALE" type="FLOAT">
-            <short_desc>Gyro Y-axis scaling factor</short_desc>
-            <default>1.0</default>
-            <min>-1.5</min>
-            <max>1.5</max>
-        </parameter>
-        <parameter name="SENS_GYRO_ZSCALE" type="FLOAT">
-            <short_desc>Gyro Z-axis scaling factor</short_desc>
-            <default>1.0</default>
-            <min>-1.5</min>
-            <max>1.5</max>
-        </parameter>
-        <parameter name="SENS_MAG_XOFF" type="FLOAT">
-            <short_desc>Magnetometer X-axis offset</short_desc>
-            <default>0.0</default>
-            <min>-500.0</min>
-            <max>500.0</max>
-        </parameter>
-        <parameter name="SENS_MAG_YOFF" type="FLOAT">
-            <short_desc>Magnetometer Y-axis offset</short_desc>
-            <default>0.0</default>
-            <min>-500.0</min>
-            <max>500.0</max>
-        </parameter>
-        <parameter name="SENS_MAG_ZOFF" type="FLOAT">
-            <short_desc>Magnetometer Z-axis offset</short_desc>
-            <default>0.0</default>
-            <min>-500.0</min>
-            <max>500.0</max>
-        </parameter>
-        <parameter name="SENS_MAG_XSCALE" type="FLOAT">
-            <short_desc>Magnetometer X-axis scaling factor</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="SENS_MAG_YSCALE" type="FLOAT">
-            <short_desc>Magnetometer Y-axis scaling factor</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="SENS_MAG_ZSCALE" type="FLOAT">
-            <short_desc>Magnetometer Z-axis scaling factor</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="SENS_ACC_XOFF" type="FLOAT">
-            <short_desc>Accelerometer X-axis offset</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SENS_ACC_YOFF" type="FLOAT">
-            <short_desc>Accelerometer Y-axis offset</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SENS_ACC_ZOFF" type="FLOAT">
-            <short_desc>Accelerometer Z-axis offset</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SENS_ACC_XSCALE" type="FLOAT">
-            <short_desc>Accelerometer X-axis scaling factor</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="SENS_ACC_YSCALE" type="FLOAT">
-            <short_desc>Accelerometer Y-axis scaling factor</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="SENS_ACC_ZSCALE" type="FLOAT">
-            <short_desc>Accelerometer Z-axis scaling factor</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="SENS_DPRES_OFF" type="FLOAT">
-            <short_desc>Differential pressure sensor offset</short_desc>
-            <long_desc>The offset (zero-reading) in Pascal</long_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SENS_DPRES_ANSC" type="FLOAT">
-            <short_desc>Differential pressure sensor analog scaling</short_desc>
-            <long_desc>Pick the appropriate scaling from the datasheet.
-                this number defines the (linear) conversion from voltage
-                to Pascal (pa). For the MPXV7002DP this is 1000.
-                NOTE: If the sensor always registers zero, try switching
-                the static and dynamic tubes.</long_desc>
-            <default>0</default>
-        </parameter>
-        <parameter name="SENS_BARO_QNH" type="FLOAT">
-            <short_desc>QNH for barometer</short_desc>
-            <default>1013.25</default>
-            <min>500</min>
-            <max>1500</max>
-            <unit>hPa</unit>
-        </parameter>
-        <parameter name="SENS_BOARD_ROT" type="INT32">
-            <short_desc>Board rotation</short_desc>
-            <long_desc>This parameter defines the rotation of the FMU board relative to the platform.
-                Possible values are:
-                0 = No rotation
-                1 = Yaw 45°
-                2 = Yaw 90°
-                3 = Yaw 135°
-                4 = Yaw 180°
-                5 = Yaw 225°
-                6 = Yaw 270°
-                7 = Yaw 315°
-                8 = Roll 180°
-                9 = Roll 180°, Yaw 45°
-                10 = Roll 180°, Yaw 90°
-                11 = Roll 180°, Yaw 135°
-                12 = Pitch 180°
-                13 = Roll 180°, Yaw 225°
-                14 = Roll 180°, Yaw 270°
-                15 = Roll 180°, Yaw 315°
-                16 = Roll 90°
-                17 = Roll 90°, Yaw 45°
-                18 = Roll 90°, Yaw 90°
-                19 = Roll 90°, Yaw 135°
-                20 = Roll 270°
-                21 = Roll 270°, Yaw 45°
-                22 = Roll 270°, Yaw 90°
-                23 = Roll 270°, Yaw 135°
-                24 = Pitch 90°
-                25 = Pitch 270°</long_desc>
-            <default>0</default>
-        </parameter>
-        <parameter name="SENS_BOARD_Y_OFF" type="FLOAT">
-            <short_desc>Board rotation Y (Pitch) offset</short_desc>
-            <long_desc>This parameter defines a rotational offset in degrees around the Y (Pitch) axis. It allows the user
-                to fine tune the board offset in the event of misalignment.</long_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SENS_BOARD_X_OFF" type="FLOAT">
-            <short_desc>Board rotation X (Roll) offset</short_desc>
-            <long_desc>This parameter defines a rotational offset in degrees around the X (Roll) axis It allows the user
-                to fine tune the board offset in the event of misalignment.</long_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SENS_BOARD_Z_OFF" type="FLOAT">
-            <short_desc>Board rotation Z (YAW) offset</short_desc>
-            <long_desc>This parameter defines a rotational offset in degrees around the Z (Yaw) axis. It allows the user
-                to fine tune the board offset in the event of misalignment.</long_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SENS_EXT_MAG_ROT" type="INT32">
-            <short_desc>External magnetometer rotation</short_desc>
-            <long_desc>This parameter defines the rotation of the external magnetometer relative
-                to the platform (not relative to the FMU).
-                See SENS_BOARD_ROT for possible values.</long_desc>
-            <default>0</default>
-        </parameter>
-        <parameter name="SENS_EXT_MAG" type="INT32">
-            <short_desc>Set usage of external magnetometer</short_desc>
-            <long_desc>* Set to 0 (default) to auto-detect (will try to get the external as primary)
-                * Set to 1 to force the external magnetometer as primary
-                * Set to 2 to force the internal magnetometer as primary</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>2</max>
-        </parameter>
-    </group>
-    <group name="System">
-        <parameter name="SYS_AUTOSTART" type="INT32">
-            <short_desc>Auto-start script index</short_desc>
-            <long_desc>Defines the auto-start script used to bootstrap the system.</long_desc>
-            <default>0</default>
-        </parameter>
-        <parameter name="SYS_AUTOCONFIG" type="INT32">
-            <short_desc>Automatically configure default values</short_desc>
-            <long_desc>Set to 1 to set platform-specific parameters to their default
-                values on next system startup.</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="SYS_USE_IO" type="INT32">
-            <short_desc>Set usage of IO board</short_desc>
-            <long_desc>Can be used to use a standard startup script but with a FMU only set-up. Set to 0 to force the FMU only set-up.</long_desc>
-            <default>1</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="SYS_RESTART_TYPE" type="INT32">
-            <short_desc>Set restart type</short_desc>
-            <long_desc>Set by px4io to indicate type of restart</long_desc>
-            <default>2</default>
-            <min>0</min>
-            <max>2</max>
-        </parameter>
-    </group>
-    <group name="UAVCAN">
-        <parameter name="UAVCAN_ENABLE" type="INT32">
-            <short_desc>Enable UAVCAN</short_desc>
-            <long_desc>Enables support for UAVCAN-interfaced actuators and sensors.</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="UAVCAN_NODE_ID" type="INT32">
-            <short_desc>UAVCAN Node ID</short_desc>
-            <long_desc>Read the specs at http://uavcan.org to learn more about Node ID.</long_desc>
-            <default>1</default>
-            <min>1</min>
-            <max>125</max>
-        </parameter>
-        <parameter name="UAVCAN_BITRATE" type="INT32">
-            <short_desc>UAVCAN CAN bus bitrate</short_desc>
-            <default>1000000</default>
-            <min>20000</min>
-            <max>1000000</max>
-        </parameter>
-    </group>
-    <group name="attitude_ekf">
-        <parameter name="EKF_ATT_V3_Q0" type="FLOAT">
-            <short_desc>Body angular rate process noise</short_desc>
-            <default>1e-4</default>
-        </parameter>
-        <parameter name="EKF_ATT_V3_Q1" type="FLOAT">
-            <short_desc>Body angular acceleration process noise</short_desc>
-            <default>0.08</default>
-        </parameter>
-        <parameter name="EKF_ATT_V3_Q2" type="FLOAT">
-            <short_desc>Acceleration process noise</short_desc>
-            <default>0.009</default>
-        </parameter>
-        <parameter name="EKF_ATT_V3_Q3" type="FLOAT">
-            <short_desc>Magnet field vector process noise</short_desc>
-            <default>0.005</default>
-        </parameter>
-        <parameter name="EKF_ATT_V4_R0" type="FLOAT">
-            <short_desc>Gyro measurement noise</short_desc>
-            <default>0.0008</default>
-        </parameter>
-        <parameter name="EKF_ATT_V4_R1" type="FLOAT">
-            <short_desc>Accel measurement noise</short_desc>
-            <default>10000.0</default>
-        </parameter>
-        <parameter name="EKF_ATT_V4_R2" type="FLOAT">
-            <short_desc>Mag measurement noise</short_desc>
-            <default>100.0</default>
-        </parameter>
-        <parameter name="ATT_J11" type="FLOAT">
-            <short_desc>Moment of inertia matrix diagonal entry (1, 1)</short_desc>
-            <default>0.0018</default>
-            <unit>kg*m^2</unit>
-        </parameter>
-        <parameter name="ATT_J22" type="FLOAT">
-            <short_desc>Moment of inertia matrix diagonal entry (2, 2)</short_desc>
-            <default>0.0018</default>
-            <unit>kg*m^2</unit>
-        </parameter>
-        <parameter name="ATT_J33" type="FLOAT">
-            <short_desc>Moment of inertia matrix diagonal entry (3, 3)</short_desc>
-            <default>0.0037</default>
-            <unit>kg*m^2</unit>
-        </parameter>
-        <parameter name="ATT_J_EN" type="INT32">
-            <short_desc>Moment of inertia enabled in estimator</short_desc>
-            <long_desc>If set to != 0 the moment of inertia will be used in the estimator</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-    </group>
-    <group name="commander">
-        <parameter name="COM_DL_LOSS_EN" type="INT32">
-            <short_desc>Datalink loss mode enabled</short_desc>
-            <long_desc>Set to 1 to enable actions triggered when the datalink is lost.</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="COM_DL_LOSS_T" type="INT32">
-            <short_desc>After this amount of seconds without datalink the data link lost mode triggers</short_desc>
-            <default>10</default>
-            <min>0</min>
-            <max>30</max>
-            <unit>second</unit>
-        </parameter>
-        <parameter name="COM_DL_REG_T" type="INT32">
-            <short_desc>After a data link loss: after this this amount of seconds with a healthy datalink the 'datalink loss'
-                flag is set back to false</short_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>30</max>
-            <unit>second</unit>
-        </parameter>
-        <parameter name="COM_EF_THROT" type="FLOAT">
-            <short_desc>Engine failure triggers only above this throttle value</short_desc>
-            <default>0.5</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="COM_EF_C2T" type="FLOAT">
-            <short_desc>Engine failure triggers only below this current/throttle value</short_desc>
-            <default>5.0</default>
-            <min>0.0</min>
-            <max>7.0</max>
-        </parameter>
-        <parameter name="COM_EF_TIME" type="FLOAT">
-            <short_desc>Engine failure triggers only if the throttle threshold and the
-                current to throttle threshold are violated for this time</short_desc>
-            <default>10.0</default>
-            <min>0.0</min>
-            <max>7.0</max>
-            <unit>second</unit>
-        </parameter>
-        <parameter name="COM_RC_LOSS_T" type="FLOAT">
-            <short_desc>After this amount of seconds without RC connection the rc lost flag is set to true</short_desc>
-            <default>0.5</default>
-            <min>0</min>
-            <max>35</max>
-            <unit>seconds</unit>
-        </parameter>
-    </group>
-    <group name="mTECS">
-        <parameter name="MT_ENABLED" type="INT32">
-            <short_desc>mTECS enabled</short_desc>
-            <long_desc>Set to 1 to enable mTECS</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>1</max>
-        </parameter>
-        <parameter name="MT_THR_FF" type="FLOAT">
-            <short_desc>Total Energy Rate Control Feedforward
-                Maps the total energy rate setpoint to the throttle setpoint</short_desc>
-            <default>0.7</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_THR_P" type="FLOAT">
-            <short_desc>Total Energy Rate Control P
-                Maps the total energy rate error to the throttle setpoint</short_desc>
-            <default>0.1</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_THR_I" type="FLOAT">
-            <short_desc>Total Energy Rate Control I
-                Maps the integrated total energy rate to the throttle setpoint</short_desc>
-            <default>0.25</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_THR_OFF" type="FLOAT">
-            <short_desc>Total Energy Rate Control Offset (Cruise throttle sp)</short_desc>
-            <default>0.7</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_PIT_FF" type="FLOAT">
-            <short_desc>Energy Distribution Rate Control Feedforward
-                Maps the energy distribution rate setpoint to the pitch setpoint</short_desc>
-            <default>0.4</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_PIT_P" type="FLOAT">
-            <short_desc>Energy Distribution Rate Control P
-                Maps the energy distribution rate error to the pitch setpoint</short_desc>
-            <default>0.03</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_PIT_I" type="FLOAT">
-            <short_desc>Energy Distribution Rate Control I
-                Maps the integrated energy distribution rate error to the pitch setpoint</short_desc>
-            <default>0.03</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_PIT_OFF" type="FLOAT">
-            <short_desc>Total Energy Distribution Offset (Cruise pitch sp)</short_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_THR_MIN" type="FLOAT">
-            <short_desc>Minimal Throttle Setpoint</short_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MT_THR_MAX" type="FLOAT">
-            <short_desc>Maximal Throttle Setpoint</short_desc>
-            <default>1.0</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MT_PIT_MIN" type="FLOAT">
-            <short_desc>Minimal Pitch Setpoint in Degrees</short_desc>
-            <default>-45.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MT_PIT_MAX" type="FLOAT">
-            <short_desc>Maximal Pitch Setpoint in Degrees</short_desc>
-            <default>20.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MT_ALT_LP" type="FLOAT">
-            <short_desc>Lowpass (cutoff freq.) for altitude</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="MT_FPA_LP" type="FLOAT">
-            <short_desc>Lowpass (cutoff freq.) for the flight path angle</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="MT_FPA_P" type="FLOAT">
-            <short_desc>P gain for the altitude control
-                Maps the altitude error to the flight path angle setpoint</short_desc>
-            <default>0.3</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_FPA_D" type="FLOAT">
-            <short_desc>D gain for the altitude control
-                Maps the change of altitude error to the flight path angle setpoint</short_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_FPA_D_LP" type="FLOAT">
-            <short_desc>Lowpass for FPA error derivative calculation (see MT_FPA_D)</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="MT_FPA_MIN" type="FLOAT">
-            <short_desc>Minimal flight path angle setpoint</short_desc>
-            <default>-20.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MT_FPA_MAX" type="FLOAT">
-            <short_desc>Maximal flight path angle setpoint</short_desc>
-            <default>30.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MT_A_LP" type="FLOAT">
-            <short_desc>Lowpass (cutoff freq.) for airspeed</short_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="MT_AD_LP" type="FLOAT">
-            <short_desc>Airspeed derivative calculation lowpass</short_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="MT_ACC_P" type="FLOAT">
-            <short_desc>P gain for the airspeed control
-                Maps the airspeed error to the acceleration setpoint</short_desc>
-            <default>0.3</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_ACC_D" type="FLOAT">
-            <short_desc>D gain for the airspeed control
-                Maps the change of airspeed error to the acceleration setpoint</short_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_ACC_D_LP" type="FLOAT">
-            <short_desc>Lowpass for ACC error derivative calculation (see MT_ACC_D)</short_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="MT_ACC_MIN" type="FLOAT">
-            <short_desc>Minimal acceleration (air)</short_desc>
-            <default>-40.0</default>
-            <unit>m/s^2</unit>
-        </parameter>
-        <parameter name="MT_ACC_MAX" type="FLOAT">
-            <short_desc>Maximal acceleration (air)</short_desc>
-            <default>40.0</default>
-            <unit>m/s^2</unit>
-        </parameter>
-        <parameter name="MT_TKF_THR_MIN" type="FLOAT">
-            <short_desc>Minimal throttle during takeoff</short_desc>
-            <default>1.0</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MT_TKF_THR_MAX" type="FLOAT">
-            <short_desc>Maximal throttle during takeoff</short_desc>
-            <default>1.0</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MT_TKF_PIT_MIN" type="FLOAT">
-            <short_desc>Minimal pitch during takeoff</short_desc>
-            <default>0.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MT_TKF_PIT_MAX" type="FLOAT">
-            <short_desc>Maximal pitch during takeoff</short_desc>
-            <default>45.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MT_USP_THR_MIN" type="FLOAT">
-            <short_desc>Minimal throttle in underspeed mode</short_desc>
-            <default>1.0</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MT_USP_THR_MAX" type="FLOAT">
-            <short_desc>Maximal throttle in underspeed mode</short_desc>
-            <default>1.0</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MT_USP_PIT_MIN" type="FLOAT">
-            <short_desc>Minimal pitch in underspeed mode</short_desc>
-            <default>-45.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MT_USP_PIT_MAX" type="FLOAT">
-            <short_desc>Maximal pitch in underspeed mode</short_desc>
-            <default>0.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MT_LND_THR_MIN" type="FLOAT">
-            <short_desc>Minimal throttle in landing mode (only last phase of landing)</short_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MT_LND_THR_MAX" type="FLOAT">
-            <short_desc>Maximal throttle in landing mode (only last phase of landing)</short_desc>
-            <default>0.0</default>
-            <min>0.0</min>
-            <max>1.0</max>
-        </parameter>
-        <parameter name="MT_LND_PIT_MIN" type="FLOAT">
-            <short_desc>Minimal pitch in landing mode</short_desc>
-            <default>-5.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MT_LND_PIT_MAX" type="FLOAT">
-            <short_desc>Maximal pitch in landing mode</short_desc>
-            <default>15.0</default>
-            <min>-90.0</min>
-            <max>90.0</max>
-            <unit>deg</unit>
-        </parameter>
-        <parameter name="MT_THR_I_MAX" type="FLOAT">
-            <short_desc>Integrator Limit for Total Energy Rate Control</short_desc>
-            <default>10.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-        <parameter name="MT_PIT_I_MAX" type="FLOAT">
-            <short_desc>Integrator Limit for Energy Distribution Rate Control</short_desc>
-            <default>10.0</default>
-            <min>0.0</min>
-            <max>10.0</max>
-        </parameter>
-    </group>
-    <group name="Miscellaneous">
-        <parameter name="EXFW_HDNG_P" type="FLOAT">
-            <short_desc>EXFW_HDNG_P</short_desc>
-            <default>0.1</default>
-        </parameter>
-        <parameter name="EXFW_ROLL_P" type="FLOAT">
-            <short_desc>EXFW_ROLL_P</short_desc>
-            <default>0.2</default>
-        </parameter>
-        <parameter name="EXFW_PITCH_P" type="FLOAT">
-            <short_desc>EXFW_PITCH_P</short_desc>
-            <default>0.2</default>
-        </parameter>
-        <parameter name="FPE_LO_THRUST" type="FLOAT">
-            <short_desc>FPE_LO_THRUST</short_desc>
-            <default>0.4</default>
-        </parameter>
-        <parameter name="FPE_SONAR_LP_U" type="FLOAT">
-            <short_desc>FPE_SONAR_LP_U</short_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="FPE_SONAR_LP_L" type="FLOAT">
-            <short_desc>FPE_SONAR_LP_L</short_desc>
-            <default>0.2</default>
-        </parameter>
-        <parameter name="FPE_DEBUG" type="INT32">
-            <short_desc>FPE_DEBUG</short_desc>
-            <default>0</default>
-        </parameter>
-        <parameter name="FSC_S_P" type="FLOAT">
-            <short_desc>FSC_S_P</short_desc>
-            <default>0.1</default>
-        </parameter>
-        <parameter name="FSC_L_PITCH" type="FLOAT">
-            <short_desc>FSC_L_PITCH</short_desc>
-            <default>0.4</default>
-        </parameter>
-        <parameter name="FSC_L_ROLL" type="FLOAT">
-            <short_desc>FSC_L_ROLL</short_desc>
-            <default>0.4</default>
-        </parameter>
-        <parameter name="ATT_MAG_DECL" type="FLOAT">
-            <short_desc>ATT_MAG_DECL</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="ATT_ACC_COMP" type="INT32">
-            <short_desc>ATT_ACC_COMP</short_desc>
-            <default>2</default>
-        </parameter>
-        <parameter name="SO3_COMP_KP" type="FLOAT">
-            <short_desc>SO3_COMP_KP</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="SO3_COMP_KI" type="FLOAT">
-            <short_desc>SO3_COMP_KI</short_desc>
-            <default>0.05</default>
-        </parameter>
-        <parameter name="SO3_ROLL_OFFS" type="FLOAT">
-            <short_desc>SO3_ROLL_OFFS</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SO3_PITCH_OFFS" type="FLOAT">
-            <short_desc>SO3_PITCH_OFFS</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SO3_YAW_OFFS" type="FLOAT">
-            <short_desc>SO3_YAW_OFFS</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="TRIM_ROLL" type="FLOAT">
-            <short_desc>TRIM_ROLL</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="TRIM_PITCH" type="FLOAT">
-            <short_desc>TRIM_PITCH</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="TRIM_YAW" type="FLOAT">
-            <short_desc>TRIM_YAW</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="TEST_MIN" type="FLOAT">
-            <short_desc>TEST_MIN</short_desc>
-            <default>-1.0</default>
-        </parameter>
-        <parameter name="TEST_MAX" type="FLOAT">
-            <short_desc>TEST_MAX</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="TEST_TRIM" type="FLOAT">
-            <short_desc>TEST_TRIM</short_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="TEST_HP" type="FLOAT">
-            <short_desc>TEST_HP</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="TEST_LP" type="FLOAT">
-            <short_desc>TEST_LP</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="TEST_P" type="FLOAT">
-            <short_desc>TEST_P</short_desc>
-            <default>0.2</default>
-        </parameter>
-        <parameter name="TEST_I" type="FLOAT">
-            <short_desc>TEST_I</short_desc>
-            <default>0.1</default>
-        </parameter>
-        <parameter name="TEST_I_MAX" type="FLOAT">
-            <short_desc>TEST_I_MAX</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="TEST_D" type="FLOAT">
-            <short_desc>TEST_D</short_desc>
-            <default>0.01</default>
-        </parameter>
-        <parameter name="TEST_D_LP" type="FLOAT">
-            <short_desc>TEST_D_LP</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="TEST_MEAN" type="FLOAT">
-            <short_desc>TEST_MEAN</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="TEST_DEV" type="FLOAT">
-            <short_desc>TEST_DEV</short_desc>
-            <default>2.0</default>
-        </parameter>
-        <parameter name="FWB_P_LP" type="FLOAT">
-            <short_desc>FWB_P_LP</short_desc>
-            <default>300.0</default>
-        </parameter>
-        <parameter name="FWB_Q_LP" type="FLOAT">
-            <short_desc>FWB_Q_LP</short_desc>
-            <default>300.0</default>
-        </parameter>
-        <parameter name="FWB_R_LP" type="FLOAT">
-            <short_desc>FWB_R_LP</short_desc>
-            <default>300.0</default>
-        </parameter>
-        <parameter name="FWB_R_HP" type="FLOAT">
-            <short_desc>FWB_R_HP</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="FWB_P2AIL" type="FLOAT">
-            <short_desc>FWB_P2AIL</short_desc>
-            <default>0.3</default>
-        </parameter>
-        <parameter name="FWB_Q2ELV" type="FLOAT">
-            <short_desc>FWB_Q2ELV</short_desc>
-            <default>0.1</default>
-        </parameter>
-        <parameter name="FWB_R2RDR" type="FLOAT">
-            <short_desc>FWB_R2RDR</short_desc>
-            <default>0.1</default>
-        </parameter>
-        <parameter name="FWB_PSI2PHI" type="FLOAT">
-            <short_desc>FWB_PSI2PHI</short_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="FWB_PHI2P" type="FLOAT">
-            <short_desc>FWB_PHI2P</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="FWB_PHI_LIM_MAX" type="FLOAT">
-            <short_desc>FWB_PHI_LIM_MAX</short_desc>
-            <default>0.3</default>
-        </parameter>
-        <parameter name="FWB_V2THE_P" type="FLOAT">
-            <short_desc>FWB_V2THE_P</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="FWB_V2THE_I" type="FLOAT">
-            <short_desc>FWB_V2THE_I</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_V2THE_D" type="FLOAT">
-            <short_desc>FWB_V2THE_D</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_V2THE_D_LP" type="FLOAT">
-            <short_desc>FWB_V2THE_D_LP</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_V2THE_I_MAX" type="FLOAT">
-            <short_desc>FWB_V2THE_I_MAX</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_THE_MIN" type="FLOAT">
-            <short_desc>FWB_THE_MIN</short_desc>
-            <default>-0.5</default>
-        </parameter>
-        <parameter name="FWB_THE_MAX" type="FLOAT">
-            <short_desc>FWB_THE_MAX</short_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="FWB_THE2Q_P" type="FLOAT">
-            <short_desc>FWB_THE2Q_P</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="FWB_THE2Q_I" type="FLOAT">
-            <short_desc>FWB_THE2Q_I</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_THE2Q_D" type="FLOAT">
-            <short_desc>FWB_THE2Q_D</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_THE2Q_D_LP" type="FLOAT">
-            <short_desc>FWB_THE2Q_D_LP</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_THE2Q_I_MAX" type="FLOAT">
-            <short_desc>FWB_THE2Q_I_MAX</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_H2THR_P" type="FLOAT">
-            <short_desc>FWB_H2THR_P</short_desc>
-            <default>0.01</default>
-        </parameter>
-        <parameter name="FWB_H2THR_I" type="FLOAT">
-            <short_desc>FWB_H2THR_I</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_H2THR_D" type="FLOAT">
-            <short_desc>FWB_H2THR_D</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_H2THR_D_LP" type="FLOAT">
-            <short_desc>FWB_H2THR_D_LP</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_H2THR_I_MAX" type="FLOAT">
-            <short_desc>FWB_H2THR_I_MAX</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_XT2YAW_MAX" type="FLOAT">
-            <short_desc>FWB_XT2YAW_MAX</short_desc>
-            <default>1.57</default>
-        </parameter>
-        <parameter name="FWB_XT2YAW" type="FLOAT">
-            <short_desc>FWB_XT2YAW</short_desc>
-            <default>0.005</default>
-        </parameter>
-        <parameter name="FWB_V_MIN" type="FLOAT">
-            <short_desc>FWB_V_MIN</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="FWB_V_CMD" type="FLOAT">
-            <short_desc>FWB_V_CMD</short_desc>
-            <default>12.0</default>
-        </parameter>
-        <parameter name="FWB_V_MAX" type="FLOAT">
-            <short_desc>FWB_V_MAX</short_desc>
-            <default>16.0</default>
-        </parameter>
-        <parameter name="FWB_CR_MAX" type="FLOAT">
-            <short_desc>FWB_CR_MAX</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="FWB_CR2THR_P" type="FLOAT">
-            <short_desc>FWB_CR2THR_P</short_desc>
-            <default>0.01</default>
-        </parameter>
-        <parameter name="FWB_CR2THR_I" type="FLOAT">
-            <short_desc>FWB_CR2THR_I</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_CR2THR_D" type="FLOAT">
-            <short_desc>FWB_CR2THR_D</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_CR2THR_D_LP" type="FLOAT">
-            <short_desc>FWB_CR2THR_D_LP</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_CR2THR_I_MAX" type="FLOAT">
-            <short_desc>FWB_CR2THR_I_MAX</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="FWB_TRIM_THR" type="FLOAT">
-            <short_desc>FWB_TRIM_THR</short_desc>
-            <default>0.8</default>
-        </parameter>
-        <parameter name="FWB_TRIM_V" type="FLOAT">
-            <short_desc>FWB_TRIM_V</short_desc>
-            <default>12.0</default>
-        </parameter>
-        <parameter name="FW_FLARE_PMIN" type="FLOAT">
-            <short_desc>Flare, minimum pitch</short_desc>
-            <long_desc>Minimum pitch during flare, a positive sign means nose up
-                Applied once FW_LND_TLALT is reached</long_desc>
-            <default>2.5</default>
-        </parameter>
-        <parameter name="FW_FLARE_PMAX" type="FLOAT">
-            <short_desc>Flare, maximum pitch</short_desc>
-            <long_desc>Maximum pitch during flare, a positive sign means nose up
-                Applied once FW_LND_TLALT is reached</long_desc>
-            <default>15.0</default>
-        </parameter>
-        <parameter name="SEG_TH2V_P" type="FLOAT">
-            <short_desc>SEG_TH2V_P</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="SEG_TH2V_I" type="FLOAT">
-            <short_desc>SEG_TH2V_I</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SEG_TH2V_I_MAX" type="FLOAT">
-            <short_desc>SEG_TH2V_I_MAX</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="SEG_Q2V" type="FLOAT">
-            <short_desc>SEG_Q2V</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC3_MIN" type="FLOAT">
-            <short_desc>RC3_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC3_TRIM" type="FLOAT">
-            <short_desc>RC3_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC3_MAX" type="FLOAT">
-            <short_desc>RC3_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC3_REV" type="FLOAT">
-            <short_desc>RC3_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC3_DZ" type="FLOAT">
-            <short_desc>RC3_DZ</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="RC4_MIN" type="FLOAT">
-            <short_desc>RC4_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC4_TRIM" type="FLOAT">
-            <short_desc>RC4_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC4_MAX" type="FLOAT">
-            <short_desc>RC4_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC4_REV" type="FLOAT">
-            <short_desc>RC4_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC4_DZ" type="FLOAT">
-            <short_desc>RC4_DZ</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="RC5_MIN" type="FLOAT">
-            <short_desc>RC5_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC5_TRIM" type="FLOAT">
-            <short_desc>RC5_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC5_MAX" type="FLOAT">
-            <short_desc>RC5_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC5_REV" type="FLOAT">
-            <short_desc>RC5_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC5_DZ" type="FLOAT">
-            <short_desc>RC5_DZ</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="RC6_MIN" type="FLOAT">
-            <short_desc>RC6_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC6_TRIM" type="FLOAT">
-            <short_desc>RC6_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC6_MAX" type="FLOAT">
-            <short_desc>RC6_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC6_REV" type="FLOAT">
-            <short_desc>RC6_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC6_DZ" type="FLOAT">
-            <short_desc>RC6_DZ</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="RC7_MIN" type="FLOAT">
-            <short_desc>RC7_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC7_TRIM" type="FLOAT">
-            <short_desc>RC7_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC7_MAX" type="FLOAT">
-            <short_desc>RC7_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC7_REV" type="FLOAT">
-            <short_desc>RC7_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC7_DZ" type="FLOAT">
-            <short_desc>RC7_DZ</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="RC8_MIN" type="FLOAT">
-            <short_desc>RC8_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC8_TRIM" type="FLOAT">
-            <short_desc>RC8_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC8_MAX" type="FLOAT">
-            <short_desc>RC8_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC8_REV" type="FLOAT">
-            <short_desc>RC8_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC8_DZ" type="FLOAT">
-            <short_desc>RC8_DZ</short_desc>
-            <default>10.0</default>
-        </parameter>
-        <parameter name="RC9_MIN" type="FLOAT">
-            <short_desc>RC9_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC9_TRIM" type="FLOAT">
-            <short_desc>RC9_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC9_MAX" type="FLOAT">
-            <short_desc>RC9_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC9_REV" type="FLOAT">
-            <short_desc>RC9_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC9_DZ" type="FLOAT">
-            <short_desc>RC9_DZ</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="RC10_MIN" type="FLOAT">
-            <short_desc>RC10_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC10_TRIM" type="FLOAT">
-            <short_desc>RC10_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC10_MAX" type="FLOAT">
-            <short_desc>RC10_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC10_REV" type="FLOAT">
-            <short_desc>RC10_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC10_DZ" type="FLOAT">
-            <short_desc>RC10_DZ</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="RC11_MIN" type="FLOAT">
-            <short_desc>RC11_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC11_TRIM" type="FLOAT">
-            <short_desc>RC11_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC11_MAX" type="FLOAT">
-            <short_desc>RC11_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC11_REV" type="FLOAT">
-            <short_desc>RC11_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC11_DZ" type="FLOAT">
-            <short_desc>RC11_DZ</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="RC12_MIN" type="FLOAT">
-            <short_desc>RC12_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC12_TRIM" type="FLOAT">
-            <short_desc>RC12_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC12_MAX" type="FLOAT">
-            <short_desc>RC12_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC12_REV" type="FLOAT">
-            <short_desc>RC12_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC12_DZ" type="FLOAT">
-            <short_desc>RC12_DZ</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="RC13_MIN" type="FLOAT">
-            <short_desc>RC13_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC13_TRIM" type="FLOAT">
-            <short_desc>RC13_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC13_MAX" type="FLOAT">
-            <short_desc>RC13_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC13_REV" type="FLOAT">
-            <short_desc>RC13_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC13_DZ" type="FLOAT">
-            <short_desc>RC13_DZ</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="RC14_MIN" type="FLOAT">
-            <short_desc>RC14_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC14_TRIM" type="FLOAT">
-            <short_desc>RC14_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC14_MAX" type="FLOAT">
-            <short_desc>RC14_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC14_REV" type="FLOAT">
-            <short_desc>RC14_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC14_DZ" type="FLOAT">
-            <short_desc>RC14_DZ</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="RC15_MIN" type="FLOAT">
-            <short_desc>RC15_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC15_TRIM" type="FLOAT">
-            <short_desc>RC15_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC15_MAX" type="FLOAT">
-            <short_desc>RC15_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC15_REV" type="FLOAT">
-            <short_desc>RC15_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC15_DZ" type="FLOAT">
-            <short_desc>RC15_DZ</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="RC16_MIN" type="FLOAT">
-            <short_desc>RC16_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC16_TRIM" type="FLOAT">
-            <short_desc>RC16_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC16_MAX" type="FLOAT">
-            <short_desc>RC16_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC16_REV" type="FLOAT">
-            <short_desc>RC16_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC16_DZ" type="FLOAT">
-            <short_desc>RC16_DZ</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="RC17_MIN" type="FLOAT">
-            <short_desc>RC17_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC17_TRIM" type="FLOAT">
-            <short_desc>RC17_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC17_MAX" type="FLOAT">
-            <short_desc>RC17_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC17_REV" type="FLOAT">
-            <short_desc>RC17_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC17_DZ" type="FLOAT">
-            <short_desc>RC17_DZ</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="RC18_MIN" type="FLOAT">
-            <short_desc>RC18_MIN</short_desc>
-            <default>1000</default>
-        </parameter>
-        <parameter name="RC18_TRIM" type="FLOAT">
-            <short_desc>RC18_TRIM</short_desc>
-            <default>1500</default>
-        </parameter>
-        <parameter name="RC18_MAX" type="FLOAT">
-            <short_desc>RC18_MAX</short_desc>
-            <default>2000</default>
-        </parameter>
-        <parameter name="RC18_REV" type="FLOAT">
-            <short_desc>RC18_REV</short_desc>
-            <default>1.0</default>
-        </parameter>
-        <parameter name="RC18_DZ" type="FLOAT">
-            <short_desc>RC18_DZ</short_desc>
-            <default>0.0</default>
-        </parameter>
-        <parameter name="RC_RL1_DSM_VCC" type="INT32">
-            <short_desc>RC_RL1_DSM_VCC</short_desc>
-            <default>0</default>
-        </parameter>
-        <parameter name="RC_MAP_FAILSAFE" type="INT32">
-            <short_desc>Failsafe channel mapping</short_desc>
-            <long_desc>The RC mapping index indicates which channel is used for failsafe
-                If 0, whichever channel is mapped to throttle is used
-                otherwise the value indicates the specific rc channel to use</long_desc>
-            <default>0</default>
-            <min>0</min>
-            <max>18</max>
-        </parameter>
-        <parameter name="RC_ASSIST_TH" type="FLOAT">
-            <short_desc>Threshold for selecting assist mode</short_desc>
-            <long_desc>min:-1
-                max:+1
-                0-1 indicate where in the full channel range the threshold sits
-                0 : min
-                1 : max
-                sign indicates polarity of comparison
-                positive : true when channel&gt;th
-                negative : true when channel&lt;th</long_desc>
-            <default>0.25</default>
-        </parameter>
-        <parameter name="RC_AUTO_TH" type="FLOAT">
-            <short_desc>Threshold for selecting auto mode</short_desc>
-            <long_desc>min:-1
-                max:+1
-                0-1 indicate where in the full channel range the threshold sits
-                0 : min
-                1 : max
-                sign indicates polarity of comparison
-                positive : true when channel&gt;th
-                negative : true when channel&lt;th</long_desc>
-            <default>0.75</default>
-        </parameter>
-        <parameter name="RC_POSCTL_TH" type="FLOAT">
-            <short_desc>Threshold for selecting posctl mode</short_desc>
-            <long_desc>min:-1
-                max:+1
-                0-1 indicate where in the full channel range the threshold sits
-                0 : min
-                1 : max
-                sign indicates polarity of comparison
-                positive : true when channel&gt;th
-                negative : true when channel&lt;th</long_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="RC_RETURN_TH" type="FLOAT">
-            <short_desc>Threshold for selecting return to launch mode</short_desc>
-            <long_desc>min:-1
-                max:+1
-                0-1 indicate where in the full channel range the threshold sits
-                0 : min
-                1 : max
-                sign indicates polarity of comparison
-                positive : true when channel&gt;th
-                negative : true when channel&lt;th</long_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="RC_LOITER_TH" type="FLOAT">
-            <short_desc>Threshold for selecting loiter mode</short_desc>
-            <long_desc>min:-1
-                max:+1
-                0-1 indicate where in the full channel range the threshold sits
-                0 : min
-                1 : max
-                sign indicates polarity of comparison
-                positive : true when channel&gt;th
-                negative : true when channel&lt;th</long_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="RC_ACRO_TH" type="FLOAT">
-            <short_desc>Threshold for selecting acro mode</short_desc>
-            <long_desc>min:-1
-                max:+1
-                0-1 indicate where in the full channel range the threshold sits
-                0 : min
-                1 : max
-                sign indicates polarity of comparison
-                positive : true when channel&gt;th
-                negative : true when channel&lt;th</long_desc>
-            <default>0.5</default>
-        </parameter>
-        <parameter name="RC_OFFB_TH" type="FLOAT">
-            <short_desc>Threshold for selecting offboard mode</short_desc>
-            <long_desc>min:-1
-                max:+1
-                0-1 indicate where in the full channel range the threshold sits
-                0 : min
-                1 : max
-                sign indicates polarity of comparison
-                positive : true when channel&gt;th
-                negative : true when channel&lt;th</long_desc>
-            <default>0.5</default>
-        </parameter>
-    </group>
-</parameters>
+    <parameters>
+        <group name="Battery Calibration">
+            <parameter>
+                <code>BAT_CAPACITY</code>
+                <type>FLOAT</type>
+                <short_desc>Battery capacity</short_desc>
+                <long_desc>Defines the capacity of the attached battery.</long_desc>
+                <default>-1.0</default>
+                <unit>mA</unit>
+            </parameter>
+            <parameter>
+                <code>BAT_C_SCALING</code>
+                <type>FLOAT</type>
+                <short_desc>Scaling factor for battery current sensor</short_desc>
+                <default>0.0124</default>
+            </parameter>
+            <parameter>
+                <code>BAT_N_CELLS</code>
+                <type>INT32</type>
+                <short_desc>Number of cells</short_desc>
+                <long_desc>Defines the number of cells the attached battery consists of.</long_desc>
+                <default>3</default>
+                <unit>S</unit>
+            </parameter>
+            <parameter>
+                <code>BAT_V_CHARGED</code>
+                <type>FLOAT</type>
+                <short_desc>Full cell voltage</short_desc>
+                <long_desc>Defines the voltage where a single cell of the battery is considered full.</long_desc>
+                <default>4.2</default>
+                <unit>V</unit>
+            </parameter>
+            <parameter>
+                <code>BAT_V_EMPTY</code>
+                <type>FLOAT</type>
+                <short_desc>Empty cell voltage</short_desc>
+                <long_desc>Defines the voltage where a single cell of the battery is considered empty.</long_desc>
+                <default>3.4</default>
+                <unit>V</unit>
+            </parameter>
+            <parameter>
+                <code>BAT_V_LOAD_DROP</code>
+                <type>FLOAT</type>
+                <short_desc>Voltage drop per cell on 100% load</short_desc>
+                <long_desc>This implicitely defines the internal resistance
+to maximum current ratio and assumes linearity.</long_desc>
+                <default>0.07</default>
+                <unit>V</unit>
+            </parameter>
+            <parameter>
+                <code>BAT_V_SCALE_IO</code>
+                <type>INT32</type>
+                <short_desc>Scaling factor for battery voltage sensor on PX4IO</short_desc>
+                <default>10000</default>
+            </parameter>
+            <parameter>
+                <code>BAT_V_SCALING</code>
+                <type>FLOAT</type>
+                <short_desc>Scaling factor for battery voltage sensor on FMU v2</short_desc>
+                <default>0.0082</default>
+            </parameter>
+            <parameter>
+                <code>BAT_V_SCALING</code>
+                <type>FLOAT</type>
+                <short_desc>Scaling factor for battery voltage sensor on AeroCore</short_desc>
+                <long_desc>For R70 = 133K, R71 = 10K --&gt; scale = 1.8 * 143 / (4096*10) = 0.0063</long_desc>
+                <default>0.0063</default>
+            </parameter>
+            <parameter>
+                <code>BAT_V_SCALING</code>
+                <type>FLOAT</type>
+                <short_desc>Scaling factor for battery voltage sensor on FMU v1</short_desc>
+                <long_desc>FMUv1 standalone: 1/(10 / (47+10)) * (3.3 / 4095) = 0.00459340659
+FMUv1 with PX4IO: 0.00459340659
+FMUv1 with PX4IOAR: (3.3f * 52.0f / 5.0f / 4095.0f) = 0.00838095238</long_desc>
+                <default>0.00459340659</default>
+            </parameter>
+        </group>
+        <group name="DLL">
+            <parameter>
+                <code>NAV_AH_ALT</code>
+                <type>FLOAT</type>
+                <short_desc>Airfield home alt</short_desc>
+                <long_desc>Altitude of airfield home waypoint</long_desc>
+                <default>600.0</default>
+                <min>0.0</min>
+                <unit>m</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_AH_LAT</code>
+                <type>INT32</type>
+                <short_desc>Airfield home Lat</short_desc>
+                <long_desc>Latitude of airfield home waypoint</long_desc>
+                <default>-265847810</default>
+                <min>0</min>
+                <unit>degrees * 1e7</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_AH_LON</code>
+                <type>INT32</type>
+                <short_desc>Airfield home Lon</short_desc>
+                <long_desc>Longitude of airfield home waypoint</long_desc>
+                <default>1518423250</default>
+                <min>0</min>
+                <unit>degrees * 1e7</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_DLL_AH_T</code>
+                <type>FLOAT</type>
+                <short_desc>Aifield hole wait time</short_desc>
+                <long_desc>The amount of time in seconds the system should wait at the airfield home waypoint</long_desc>
+                <default>120.0</default>
+                <min>0.0</min>
+                <unit>seconds</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_DLL_CHSK</code>
+                <type>INT32</type>
+                <short_desc>Skip comms hold wp</short_desc>
+                <long_desc>If set to 1 the system will skip the comms hold wp on data link loss and will directly fly to
+airfield home</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>NAV_DLL_CH_ALT</code>
+                <type>FLOAT</type>
+                <short_desc>Comms hold alt</short_desc>
+                <long_desc>Altitude of comms hold waypoint</long_desc>
+                <default>600.0</default>
+                <min>0.0</min>
+                <unit>m</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_DLL_CH_LAT</code>
+                <type>INT32</type>
+                <short_desc>Comms hold Lat</short_desc>
+                <long_desc>Latitude of comms hold waypoint</long_desc>
+                <default>-266072120</default>
+                <min>0</min>
+                <unit>degrees * 1e7</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_DLL_CH_LON</code>
+                <type>INT32</type>
+                <short_desc>Comms hold Lon</short_desc>
+                <long_desc>Longitude of comms hold waypoint</long_desc>
+                <default>1518453890</default>
+                <min>0</min>
+                <unit>degrees * 1e7</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_DLL_CH_T</code>
+                <type>FLOAT</type>
+                <short_desc>Comms hold wait time</short_desc>
+                <long_desc>The amount of time in seconds the system should wait at the comms hold waypoint</long_desc>
+                <default>120.0</default>
+                <min>0.0</min>
+                <unit>seconds</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_DLL_N</code>
+                <type>INT32</type>
+                <short_desc>Number of allowed Datalink timeouts</short_desc>
+                <long_desc>After more than this number of data link timeouts the aircraft returns home directly</long_desc>
+                <default>2</default>
+                <min>0</min>
+                <max>1000</max>
+            </parameter>
+        </group>
+        <group name="FW Attitude Control">
+            <parameter>
+                <code>FW_AIRSPD_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum Airspeed</short_desc>
+                <long_desc>If the airspeed is above this value, the TECS controller will try to decrease
+airspeed more aggressively.</long_desc>
+                <default>20.0</default>
+                <min>0.0</min>
+                <max>40</max>
+                <unit>m/s</unit>
+            </parameter>
+            <parameter>
+                <code>FW_AIRSPD_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimum Airspeed</short_desc>
+                <long_desc>If the airspeed falls below this value, the TECS controller will try to
+increase airspeed more aggressively.</long_desc>
+                <default>10.0</default>
+                <min>0.0</min>
+                <max>40</max>
+                <unit>m/s</unit>
+            </parameter>
+            <parameter>
+                <code>FW_AIRSPD_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>Trim Airspeed</short_desc>
+                <long_desc>The TECS controller tries to fly at this airspeed.</long_desc>
+                <default>15.0</default>
+                <min>0.0</min>
+                <max>40</max>
+                <unit>m/s</unit>
+            </parameter>
+            <parameter>
+                <code>FW_ATT_TC</code>
+                <type>FLOAT</type>
+                <short_desc>Attitude Time Constant</short_desc>
+                <long_desc>This defines the latency between a step input and the achieved setpoint
+(inverse to a P gain). Half a second is a good start value and fits for
+most average systems. Smaller systems may require smaller values, but as
+this will wear out servos faster, the value should only be decreased as
+needed.</long_desc>
+                <default>0.5</default>
+                <min>0.4</min>
+                <max>1.0</max>
+                <unit>seconds</unit>
+            </parameter>
+            <parameter>
+                <code>FW_MAN_P_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max Manual Pitch</short_desc>
+                <long_desc>Max pitch for manual control in attitude stabilized mode</long_desc>
+                <default>45.0</default>
+                <min>0.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>FW_MAN_R_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max Manual Roll</short_desc>
+                <long_desc>Max roll for manual control in attitude stabilized mode</long_desc>
+                <default>45.0</default>
+                <min>0.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>FW_PR_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch rate feed forward</short_desc>
+                <long_desc>Direct feed forward from rate setpoint to control surface output</long_desc>
+                <default>0.4</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_PR_I</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch rate integrator gain</short_desc>
+                <long_desc>This gain defines how much control response will result out of a steady
+state error. It trims any constant error.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>50.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_PR_IMAX</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch rate integrator limit</short_desc>
+                <long_desc>The portion of the integrator part in the control surface deflection is
+limited to this value</long_desc>
+                <default>0.2</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_PR_P</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch rate proportional gain</short_desc>
+                <long_desc>This defines how much the elevator input will be commanded depending on the
+current body angular rate error.</long_desc>
+                <default>0.05</default>
+            </parameter>
+            <parameter>
+                <code>FW_PSP_OFF</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch Setpoint Offset</short_desc>
+                <long_desc>An airframe specific offset of the pitch setpoint in degrees, the value is
+added to the pitch setpoint and should correspond to the typical cruise
+speed of the airframe.</long_desc>
+                <default>0.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>FW_P_RMAX_NEG</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum negative / down pitch rate</short_desc>
+                <long_desc>This limits the maximum pitch down up angular rate the controller will
+output (in degrees per second). Setting a value of zero disables the limit.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>90.0</max>
+                <unit>deg/s</unit>
+            </parameter>
+            <parameter>
+                <code>FW_P_RMAX_POS</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum positive / up pitch rate</short_desc>
+                <long_desc>This limits the maximum pitch up angular rate the controller will output (in
+degrees per second). Setting a value of zero disables the limit.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>90.0</max>
+                <unit>deg/s</unit>
+            </parameter>
+            <parameter>
+                <code>FW_RR_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Roll rate feed forward</short_desc>
+                <long_desc>Direct feed forward from rate setpoint to control surface output</long_desc>
+                <default>0.3</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_RR_I</code>
+                <type>FLOAT</type>
+                <short_desc>Roll rate integrator Gain</short_desc>
+                <long_desc>This gain defines how much control response will result out of a steady
+state error. It trims any constant error.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>100.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_RR_IMAX</code>
+                <type>FLOAT</type>
+                <short_desc>Roll Integrator Anti-Windup</short_desc>
+                <long_desc>The portion of the integrator part in the control surface deflection is limited to this value.</long_desc>
+                <default>0.2</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_RR_P</code>
+                <type>FLOAT</type>
+                <short_desc>Roll rate proportional Gain</short_desc>
+                <long_desc>This defines how much the aileron input will be commanded depending on the
+current body angular rate error.</long_desc>
+                <default>0.05</default>
+            </parameter>
+            <parameter>
+                <code>FW_RSP_OFF</code>
+                <type>FLOAT</type>
+                <short_desc>Roll Setpoint Offset</short_desc>
+                <long_desc>An airframe specific offset of the roll setpoint in degrees, the value is
+added to the roll setpoint and should correspond to the typical cruise speed
+of the airframe.</long_desc>
+                <default>0.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>FW_R_RMAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum Roll Rate</short_desc>
+                <long_desc>This limits the maximum roll rate the controller will output (in degrees per
+second). Setting a value of zero disables the limit.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>90.0</max>
+                <unit>deg/s</unit>
+            </parameter>
+            <parameter>
+                <code>FW_YCO_METHOD</code>
+                <type>INT32</type>
+                <short_desc>Method used for yaw coordination</short_desc>
+                <long_desc>The param value sets the method used to calculate the yaw rate
+0: open-loop zero lateral acceleration based on kinematic constraints
+1: closed-loop: try to reduce lateral acceleration to 0 by measuring the acceleration</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+                <unit>m/s</unit>
+            </parameter>
+            <parameter>
+                <code>FW_YCO_VMIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal speed for yaw coordination</short_desc>
+                <long_desc>For airspeeds above this value, the yaw rate is calculated for a coordinated
+turn. Set to a very high value to disable.</long_desc>
+                <default>1000.0</default>
+                <unit>m/s</unit>
+            </parameter>
+            <parameter>
+                <code>FW_YR_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Yaw rate feed forward</short_desc>
+                <long_desc>Direct feed forward from rate setpoint to control surface output</long_desc>
+                <default>0.3</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_YR_I</code>
+                <type>FLOAT</type>
+                <short_desc>Yaw rate integrator gain</short_desc>
+                <long_desc>This gain defines how much control response will result out of a steady
+state error. It trims any constant error.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>50.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_YR_IMAX</code>
+                <type>FLOAT</type>
+                <short_desc>Yaw rate integrator limit</short_desc>
+                <long_desc>The portion of the integrator part in the control surface deflection is
+limited to this value</long_desc>
+                <default>0.2</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_YR_P</code>
+                <type>FLOAT</type>
+                <short_desc>Yaw rate proportional gain</short_desc>
+                <long_desc>This defines how much the rudder input will be commanded depending on the
+current body angular rate error.</long_desc>
+                <default>0.05</default>
+            </parameter>
+            <parameter>
+                <code>FW_Y_RMAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum Yaw Rate</short_desc>
+                <long_desc>This limits the maximum yaw rate the controller will output (in degrees per
+second). Setting a value of zero disables the limit.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>90.0</max>
+                <unit>deg/s</unit>
+            </parameter>
+        </group>
+        <group name="Fixed Wing TECS">
+            <parameter>
+                <code>FW_T_HGT_OMEGA</code>
+                <type>FLOAT</type>
+                <short_desc>Complementary filter &quot;omega&quot; parameter for height</short_desc>
+                <long_desc>This is the cross-over frequency (in radians/second) of the complementary
+filter used to fuse vertical acceleration and barometric height to obtain
+an estimate of height rate and height. Increasing this frequency weights
+the solution more towards use of the barometer, whilst reducing it weights
+the solution more towards use of the accelerometer data.</long_desc>
+                <default>3.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_HRATE_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Height rate FF factor</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_HRATE_P</code>
+                <type>FLOAT</type>
+                <short_desc>Height rate P factor</short_desc>
+                <default>0.05</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_INTEG_GAIN</code>
+                <type>FLOAT</type>
+                <short_desc>Integrator gain</short_desc>
+                <long_desc>This is the integrator gain on the control loop.
+Increasing this gain increases the speed at which speed
+and height offsets are trimmed out, but reduces damping and
+increases overshoot.</long_desc>
+                <default>0.1</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_PTCH_DAMP</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch damping factor</short_desc>
+                <long_desc>This is the damping gain for the pitch demand loop. Increase to add
+damping to correct for oscillations in height. The default value of 0.0
+will work well provided the pitch to servo controller has been tuned
+properly.</long_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_RLL2THR</code>
+                <type>FLOAT</type>
+                <short_desc>Roll -&gt; Throttle feedforward</short_desc>
+                <long_desc>Increasing this gain turn increases the amount of throttle that will
+be used to compensate for the additional drag created by turning.
+Ideally this should be set to  approximately 10 x the extra sink rate
+in m/s created by a 45 degree bank turn. Increase this gain if
+the aircraft initially loses energy in turns and reduce if the
+aircraft initially gains energy in turns. Efficient high aspect-ratio
+aircraft (eg powered sailplanes) can use a lower value, whereas
+inefficient low aspect-ratio models (eg delta wings) can use a higher value.</long_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_SINK_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum descent rate</short_desc>
+                <long_desc>This sets the maximum descent rate that the controller will use.
+If this value is too large, the aircraft can over-speed on descent.
+This should be set to a value that can be achieved without
+exceeding the lower pitch angle limit and without over-speeding
+the aircraft.</long_desc>
+                <default>5.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_SINK_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimum descent rate</short_desc>
+                <long_desc>This is the sink rate of the aircraft with the throttle
+set to THR_MIN and flown at the same airspeed as used
+to measure FW_T_CLMB_MAX.</long_desc>
+                <default>2.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_SPDWEIGHT</code>
+                <type>FLOAT</type>
+                <short_desc>Speed &lt;--&gt; Altitude priority</short_desc>
+                <long_desc>This parameter adjusts the amount of weighting that the pitch control
+applies to speed vs height errors. Setting it to 0.0 will cause the
+pitch control to control height and ignore speed errors. This will
+normally improve height accuracy but give larger airspeed errors.
+Setting it to 2.0 will cause the pitch control loop to control speed
+and ignore height errors. This will normally reduce airspeed errors,
+but give larger height errors. The default value of 1.0 allows the pitch
+control to simultaneously control height and speed.
+Note to Glider Pilots - set this parameter to 2.0 (The glider will
+adjust its pitch angle to maintain airspeed, ignoring changes in height).</long_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_SPD_OMEGA</code>
+                <type>FLOAT</type>
+                <short_desc>Complementary filter &quot;omega&quot; parameter for speed</short_desc>
+                <long_desc>This is the cross-over frequency (in radians/second) of the complementary
+filter used to fuse longitudinal acceleration and airspeed to obtain an
+improved airspeed estimate. Increasing this frequency weights the solution
+more towards use of the arispeed sensor, whilst reducing it weights the
+solution more towards use of the accelerometer data.</long_desc>
+                <default>2.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_SRATE_P</code>
+                <type>FLOAT</type>
+                <short_desc>Speed rate P factor</short_desc>
+                <default>0.05</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_THRO_CONST</code>
+                <type>FLOAT</type>
+                <short_desc>TECS Throttle time constant</short_desc>
+                <long_desc>This is the time constant of the TECS throttle control algorithm (in seconds).
+Smaller values make it faster to respond, larger values make it slower
+to respond.</long_desc>
+                <default>8.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_THR_DAMP</code>
+                <type>FLOAT</type>
+                <short_desc>Throttle damping factor</short_desc>
+                <long_desc>This is the damping gain for the throttle demand loop.
+Increase to add damping to correct for oscillations in speed and height.</long_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_TIME_CONST</code>
+                <type>FLOAT</type>
+                <short_desc>TECS time constant</short_desc>
+                <long_desc>This is the time constant of the TECS control algorithm (in seconds).
+Smaller values make it faster to respond, larger values make it slower
+to respond.</long_desc>
+                <default>5.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_T_VERT_ACC</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum vertical acceleration</short_desc>
+                <long_desc>This is the maximum vertical acceleration (in metres/second square)
+either up or down that the controller will use to correct speed
+or height errors. The default value of 7 m/s/s (equivalent to +- 0.7 g)
+allows for reasonably aggressive pitch changes if required to recover
+from under-speed conditions.</long_desc>
+                <default>7.0</default>
+            </parameter>
+        </group>
+        <group name="GPSF">
+            <parameter>
+                <code>NAV_GPSF_LT</code>
+                <type>FLOAT</type>
+                <short_desc>Loiter time</short_desc>
+                <long_desc>The amount of time in seconds the system should do open loop loiter and wait for gps recovery
+before it goes into flight termination.</long_desc>
+                <default>30.0</default>
+                <min>0.0</min>
+                <unit>seconds</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_GPSF_P</code>
+                <type>FLOAT</type>
+                <short_desc>Open loop loiter pitch</short_desc>
+                <long_desc>Pitch in degrees during the open loop loiter</long_desc>
+                <default>0.0</default>
+                <min>-30.0</min>
+                <max>30.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_GPSF_R</code>
+                <type>FLOAT</type>
+                <short_desc>Open loop loiter roll</short_desc>
+                <long_desc>Roll in degrees during the open loop loiter</long_desc>
+                <default>15.0</default>
+                <min>0.0</min>
+                <max>30.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_GPSF_TR</code>
+                <type>FLOAT</type>
+                <short_desc>Open loop loiter thrust</short_desc>
+                <long_desc>Thrust value which is set during the open loop loiter</long_desc>
+                <default>0.7</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+        </group>
+        <group name="Geofence">
+            <parameter>
+                <code>GF_ALTMODE</code>
+                <type>INT32</type>
+                <short_desc>Geofence altitude mode</short_desc>
+                <long_desc>Select which altitude reference should be used
+0 = WGS84, 1 = AMSL</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>GF_COUNT</code>
+                <type>INT32</type>
+                <short_desc>Geofence counter limit</short_desc>
+                <long_desc>Set how many subsequent position measurements outside of the fence are needed before geofence violation is triggered</long_desc>
+                <default>-1</default>
+                <min>-1</min>
+                <max>10</max>
+            </parameter>
+            <parameter>
+                <code>GF_ON</code>
+                <type>INT32</type>
+                <short_desc>Enable geofence</short_desc>
+                <long_desc>Set to 1 to enable geofence.
+Defaults to 1 because geofence is only enabled when the geofence.txt file is present.</long_desc>
+                <default>1</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>GF_SOURCE</code>
+                <type>INT32</type>
+                <short_desc>Geofence source</short_desc>
+                <long_desc>Select which position source should be used. Selecting GPS instead of global position makes sure that there is
+no dependence on the position estimator
+0 = global position, 1 = GPS</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+        </group>
+        <group name="L1 Control">
+            <parameter>
+                <code>FW_CLMBOUT_DIFF</code>
+                <type>FLOAT</type>
+                <short_desc>Climbout Altitude difference</short_desc>
+                <long_desc>If the altitude error exceeds this parameter, the system will climb out
+with maximum throttle and minimum airspeed until it is closer than this
+distance to the desired altitude. Mostly used for takeoff waypoints / modes.
+Set to zero to disable climbout mode (not recommended).</long_desc>
+                <default>25.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_L1_DAMPING</code>
+                <type>FLOAT</type>
+                <short_desc>L1 damping</short_desc>
+                <long_desc>Damping factor for L1 control.</long_desc>
+                <default>0.75</default>
+                <min>0.6</min>
+                <max>0.9</max>
+            </parameter>
+            <parameter>
+                <code>FW_L1_PERIOD</code>
+                <type>FLOAT</type>
+                <short_desc>L1 period</short_desc>
+                <long_desc>This is the L1 distance and defines the tracking
+point ahead of the aircraft its following.
+A value of 25 meters works for most aircraft. Shorten
+slowly during tuning until response is sharp without oscillation.</long_desc>
+                <default>25.0</default>
+                <min>1.0</min>
+                <max>100.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_LND_ANG</code>
+                <type>FLOAT</type>
+                <short_desc>Landing slope angle</short_desc>
+                <default>5.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_LND_FLALT</code>
+                <type>FLOAT</type>
+                <short_desc>Landing flare altitude (relative to landing altitude)</short_desc>
+                <default>8.0</default>
+                <unit>meter</unit>
+            </parameter>
+            <parameter>
+                <code>FW_LND_HHDIST</code>
+                <type>FLOAT</type>
+                <short_desc>Landing heading hold horizontal distance</short_desc>
+                <default>15.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_LND_HVIRT</code>
+                <type>FLOAT</type>
+                <short_desc>FW_LND_HVIRT</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_LND_TLALT</code>
+                <type>FLOAT</type>
+                <short_desc>Landing throttle limit altitude (relative landing altitude)</short_desc>
+                <long_desc>Default of -1.0f lets the system default to applying throttle
+limiting at 2/3 of the flare altitude.</long_desc>
+                <default>-1.0</default>
+                <unit>meter</unit>
+            </parameter>
+            <parameter>
+                <code>FW_LND_USETER</code>
+                <type>INT32</type>
+                <short_desc>Enable or disable usage of terrain estimate during landing</short_desc>
+                <long_desc>0: disabled, 1: enabled</long_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>FW_P_LIM_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Positive pitch limit</short_desc>
+                <long_desc>The maximum positive pitch the controller will output.</long_desc>
+                <default>45.0</default>
+                <min>0.0</min>
+                <max>60.0</max>
+                <unit>degrees</unit>
+            </parameter>
+            <parameter>
+                <code>FW_P_LIM_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Negative pitch limit</short_desc>
+                <long_desc>The minimum negative pitch the controller will output.</long_desc>
+                <default>-45.0</default>
+                <min>-60.0</min>
+                <max>0.0</max>
+                <unit>degrees</unit>
+            </parameter>
+            <parameter>
+                <code>FW_R_LIM</code>
+                <type>FLOAT</type>
+                <short_desc>Controller roll limit</short_desc>
+                <long_desc>The maximum roll the controller will output.</long_desc>
+                <default>45.0</default>
+                <min>0.0</min>
+                <unit>degrees</unit>
+            </parameter>
+            <parameter>
+                <code>FW_THR_CRUISE</code>
+                <type>FLOAT</type>
+                <short_desc>Cruise throttle</short_desc>
+                <long_desc>This is the throttle setting required to achieve the desired cruise speed. Most airframes have a value of 0.5-0.7.</long_desc>
+                <default>0.7</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_THR_LND_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Throttle limit value before flare</short_desc>
+                <long_desc>This throttle value will be set as throttle limit at FW_LND_TLALT,
+before arcraft will flare.</long_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_THR_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Throttle limit max</short_desc>
+                <long_desc>This is the maximum throttle % that can be used by the controller.
+For overpowered aircraft, this should be reduced to a value that
+provides sufficient thrust to climb at the maximum pitch angle PTCH_MAX.</long_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_THR_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Throttle limit min</short_desc>
+                <long_desc>This is the minimum throttle % that can be used by the controller.
+For electric aircraft this will normally be set to zero, but can be set
+to a small non-zero value if a folding prop is fitted to prevent the
+prop from folding and unfolding repeatedly in-flight or to provide
+some aerodynamic drag from a turning prop to improve the descent rate.
+For aircraft with internal combustion engine this parameter should be set
+for desired idle rpm.</long_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_THR_SLEW_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Throttle max slew rate</short_desc>
+                <long_desc>Maximum slew rate for the commanded throttle</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>FW_T_CLMB_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum climb rate</short_desc>
+                <long_desc>This is the best climb rate that the aircraft can achieve with
+the throttle set to THR_MAX and the airspeed set to the
+default value. For electric aircraft make sure this number can be
+achieved towards the end of flight when the battery voltage has reduced.
+The setting of this parameter can be checked by commanding a positive
+altitude change of 100m in loiter, RTL or guided mode. If the throttle
+required to climb is close to THR_MAX and the aircraft is maintaining
+airspeed, then this parameter is set correctly. If the airspeed starts
+to reduce, then the parameter is set to high, and if the throttle
+demand required to climb and maintain speed is noticeably less than
+FW_THR_MAX, then either FW_T_CLMB_MAX should be increased or
+FW_THR_MAX reduced.</long_desc>
+                <default>5.0</default>
+            </parameter>
+        </group>
+        <group name="Land Detector">
+            <parameter>
+                <code>LNDFW_AIRSPD_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Airspeed max</short_desc>
+                <long_desc>Maximum airspeed allowed to trigger a land (m/s)</long_desc>
+                <default>10.00</default>
+            </parameter>
+            <parameter>
+                <code>LNDFW_VEL_XY_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Fixedwing max horizontal velocity</short_desc>
+                <long_desc>Maximum horizontal velocity allowed to trigger a land (m/s)</long_desc>
+                <default>0.20</default>
+            </parameter>
+            <parameter>
+                <code>LNDFW_VEL_Z_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Fixedwing max climb rate</short_desc>
+                <long_desc>Maximum vertical velocity allowed to trigger a land (m/s up and down)</long_desc>
+                <default>10.00</default>
+            </parameter>
+            <parameter>
+                <code>LNDMC_ROT_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Multicopter max rotation</short_desc>
+                <long_desc>Maximum allowed around each axis to trigger a land (degrees per second)</long_desc>
+                <default>20.0</default>
+            </parameter>
+            <parameter>
+                <code>LNDMC_THR_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Multicopter max throttle</short_desc>
+                <long_desc>Maximum actuator output on throttle before triggering a land</long_desc>
+                <default>0.20</default>
+            </parameter>
+            <parameter>
+                <code>LNDMC_XY_VEL_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Multicopter max horizontal velocity</short_desc>
+                <long_desc>Maximum horizontal velocity allowed to trigger a land (m/s)</long_desc>
+                <default>1.00</default>
+            </parameter>
+            <parameter>
+                <code>LNDMC_Z_VEL_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Multicopter max climb rate</short_desc>
+                <long_desc>Maximum vertical velocity allowed to trigger a land (m/s up and down)</long_desc>
+                <default>0.30</default>
+            </parameter>
+        </group>
+        <group name="Launch detection">
+            <parameter>
+                <code>LAUN_ALL_ON</code>
+                <type>INT32</type>
+                <short_desc>Enable launch detection</short_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>LAUN_CAT_A</code>
+                <type>FLOAT</type>
+                <short_desc>Catapult accelerometer theshold</short_desc>
+                <long_desc>LAUN_CAT_A * LAUN_CAT_T serves as threshold to trigger launch detection.</long_desc>
+                <default>30.0</default>
+                <min>0</min>
+            </parameter>
+            <parameter>
+                <code>LAUN_CAT_MDEL</code>
+                <type>FLOAT</type>
+                <short_desc>Motor delay</short_desc>
+                <long_desc>Delay between starting attitude control and powering up the throttle (giving throttle control to the controller)
+Before this timespan is up the throttle will be set to LAUN_THR_PRE, set to 0 to deactivate</long_desc>
+                <default>0.0</default>
+                <min>0</min>
+                <unit>seconds</unit>
+            </parameter>
+            <parameter>
+                <code>LAUN_CAT_PMAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum pitch before the throttle is powered up (during motor delay phase)</short_desc>
+                <long_desc>This is an extra limit for the maximum pitch which is imposed in the phase before the throttle turns on.
+This allows to limit the maximum pitch angle during a bungee launch (make the launch less steep).</long_desc>
+                <default>30.0</default>
+                <min>0</min>
+                <max>45</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>LAUN_CAT_T</code>
+                <type>FLOAT</type>
+                <short_desc>Catapult time theshold</short_desc>
+                <long_desc>LAUN_CAT_A * LAUN_CAT_T serves as threshold to trigger launch detection.</long_desc>
+                <default>0.05</default>
+                <min>0</min>
+            </parameter>
+            <parameter>
+                <code>LAUN_THR_PRE</code>
+                <type>FLOAT</type>
+                <short_desc>Throttle setting while detecting launch</short_desc>
+                <long_desc>The throttle is set to this value while the system is waiting for the take-off.</long_desc>
+                <default>0.0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+        </group>
+        <group name="MAVLink">
+            <parameter>
+                <code>MAV_COMP_ID</code>
+                <type>INT32</type>
+                <short_desc>MAVLink component ID</short_desc>
+                <default>50</default>
+            </parameter>
+            <parameter>
+                <code>MAV_FWDEXTSP</code>
+                <type>INT32</type>
+                <short_desc>Forward external setpoint messages
+If set to 1 incomming external setpoint messages will be directly forwarded to the controllers if in offboard
+control mode</short_desc>
+                <default>1</default>
+            </parameter>
+            <parameter>
+                <code>MAV_SYS_ID</code>
+                <type>INT32</type>
+                <short_desc>MAVLink system ID</short_desc>
+                <default>1</default>
+            </parameter>
+            <parameter>
+                <code>MAV_TYPE</code>
+                <type>INT32</type>
+                <short_desc>MAVLink type</short_desc>
+                <default>MAV_TYPE_FIXED_WING</default>
+            </parameter>
+            <parameter>
+                <code>MAV_USEHILGPS</code>
+                <type>INT32</type>
+                <short_desc>Use/Accept HIL GPS message (even if not in HIL mode)
+If set to 1 incomming HIL GPS messages are parsed</short_desc>
+                <default>0</default>
+            </parameter>
+        </group>
+        <group name="MKBLCTRL Testmode">
+            <parameter>
+                <code>MKBLCTRL_TEST</code>
+                <type>INT32</type>
+                <short_desc>Enables testmode (Identify) of MKBLCTRL Driver</short_desc>
+                <default>0</default>
+            </parameter>
+        </group>
+        <group name="Mission">
+            <parameter>
+                <code>MIS_ALTMODE</code>
+                <type>INT32</type>
+                <short_desc>Altitude setpoint mode</short_desc>
+                <long_desc>0: the system will follow a zero order hold altitude setpoint
+1: the system will follow a first order hold altitude setpoint
+values follow the definition in enum mission_altitude_mode</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>MIS_DIST_1WP</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal horizontal distance from home to first waypoint</short_desc>
+                <long_desc>Failsafe check to prevent running mission stored from previous flight at a new takeoff location.
+Set a value of zero or less to disable. The mission will not be started if the current
+waypoint is more distant than MIS_DIS_1WP from the current position.</long_desc>
+                <default>500</default>
+                <min>0</min>
+                <max>1000</max>
+            </parameter>
+            <parameter>
+                <code>MIS_ONBOARD_EN</code>
+                <type>INT32</type>
+                <short_desc>Enable persistent onboard mission storage</short_desc>
+                <long_desc>When enabled, missions that have been uploaded by the GCS are stored
+and reloaded after reboot persistently.</long_desc>
+                <default>1</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>MIS_TAKEOFF_ALT</code>
+                <type>FLOAT</type>
+                <short_desc>Take-off altitude</short_desc>
+                <long_desc>Even if first waypoint has altitude less then MIS_TAKEOFF_ALT above home position, system will climb to
+MIS_TAKEOFF_ALT on takeoff, then go to waypoint.</long_desc>
+                <default>10.0</default>
+                <unit>meters</unit>
+            </parameter>
+            <parameter>
+                <code>MIS_YAWMODE</code>
+                <type>INT32</type>
+                <short_desc>Multirotor only. Yaw setpoint mode</short_desc>
+                <long_desc>0: Set the yaw heading to the yaw value specified for the destination waypoint.
+1: Maintain a yaw heading pointing towards the next waypoint.
+2: Maintain a yaw heading that always points to the home location.
+3: Maintain a yaw heading that always points away from the home location (ie: back always faces home).
+The values are defined in the enum mission_altitude_mode</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>3</max>
+            </parameter>
+            <parameter>
+                <code>NAV_ACC_RAD</code>
+                <type>FLOAT</type>
+                <short_desc>Acceptance Radius</short_desc>
+                <long_desc>Default acceptance radius, overridden by acceptance radius of waypoint if set.</long_desc>
+                <default>10.0</default>
+                <min>0.05</min>
+                <max>200</max>
+                <unit>meters</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_DLL_OBC</code>
+                <type>INT32</type>
+                <short_desc>Set OBC mode for data link loss</short_desc>
+                <long_desc>If set to 1 the behaviour on data link loss is set to a mode according to the OBC rules</long_desc>
+                <default>0</default>
+                <min>0</min>
+            </parameter>
+            <parameter>
+                <code>NAV_LOITER_RAD</code>
+                <type>FLOAT</type>
+                <short_desc>Loiter radius (FW only)</short_desc>
+                <long_desc>Default value of loiter radius for missions, loiter, RTL, etc. (fixedwing only).</long_desc>
+                <default>50.0</default>
+                <min>20</min>
+                <max>200</max>
+                <unit>meters</unit>
+            </parameter>
+            <parameter>
+                <code>NAV_RCL_OBC</code>
+                <type>INT32</type>
+                <short_desc>Set OBC mode for rc loss</short_desc>
+                <long_desc>If set to 1 the behaviour on data link loss is set to a mode according to the OBC rules</long_desc>
+                <default>0</default>
+                <min>0</min>
+            </parameter>
+        </group>
+        <group name="Multicopter Attitude Control">
+            <parameter>
+                <code>MC_ACRO_P_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max acro pitch rate</short_desc>
+                <default>90.0</default>
+                <min>0.0</min>
+                <max>360.0</max>
+                <unit>deg/s</unit>
+            </parameter>
+            <parameter>
+                <code>MC_ACRO_R_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max acro roll rate</short_desc>
+                <default>90.0</default>
+                <min>0.0</min>
+                <max>360.0</max>
+                <unit>deg/s</unit>
+            </parameter>
+            <parameter>
+                <code>MC_ACRO_Y_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max acro yaw rate</short_desc>
+                <default>120.0</default>
+                <min>0.0</min>
+                <unit>deg/s</unit>
+            </parameter>
+            <parameter>
+                <code>MC_PITCHRATE_D</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch rate D gain</short_desc>
+                <long_desc>Pitch rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.</long_desc>
+                <default>0.002</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_PITCHRATE_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch rate feedforward</short_desc>
+                <long_desc>Improves tracking performance.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_PITCHRATE_I</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch rate I gain</short_desc>
+                <long_desc>Pitch rate integral gain. Can be set to compensate static thrust difference or gravity center offset.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_PITCHRATE_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max pitch rate</short_desc>
+                <long_desc>Limit for pitch rate, has effect for large rotations in autonomous mode, to avoid large control output and mixer saturation.</long_desc>
+                <default>360.0</default>
+                <min>0.0</min>
+                <max>360.0</max>
+                <unit>deg/s</unit>
+            </parameter>
+            <parameter>
+                <code>MC_PITCHRATE_P</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch rate P gain</short_desc>
+                <long_desc>Pitch rate proportional gain, i.e. control output for angular speed error 1 rad/s.</long_desc>
+                <default>0.1</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_PITCH_P</code>
+                <type>FLOAT</type>
+                <short_desc>Pitch P gain</short_desc>
+                <long_desc>Pitch proportional gain, i.e. desired angular speed in rad/s for error 1 rad.</long_desc>
+                <default>6.0</default>
+                <min>0.0</min>
+                <unit>1/s</unit>
+            </parameter>
+            <parameter>
+                <code>MC_ROLLRATE_D</code>
+                <type>FLOAT</type>
+                <short_desc>Roll rate D gain</short_desc>
+                <long_desc>Roll rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.</long_desc>
+                <default>0.002</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_ROLLRATE_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Roll rate feedforward</short_desc>
+                <long_desc>Improves tracking performance.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_ROLLRATE_I</code>
+                <type>FLOAT</type>
+                <short_desc>Roll rate I gain</short_desc>
+                <long_desc>Roll rate integral gain. Can be set to compensate static thrust difference or gravity center offset.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_ROLLRATE_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max roll rate</short_desc>
+                <long_desc>Limit for roll rate, has effect for large rotations in autonomous mode, to avoid large control output and mixer saturation.</long_desc>
+                <default>360.0</default>
+                <min>0.0</min>
+                <max>360.0</max>
+                <unit>deg/s</unit>
+            </parameter>
+            <parameter>
+                <code>MC_ROLLRATE_P</code>
+                <type>FLOAT</type>
+                <short_desc>Roll rate P gain</short_desc>
+                <long_desc>Roll rate proportional gain, i.e. control output for angular speed error 1 rad/s.</long_desc>
+                <default>0.1</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_ROLL_P</code>
+                <type>FLOAT</type>
+                <short_desc>Roll P gain</short_desc>
+                <long_desc>Roll proportional gain, i.e. desired angular speed in rad/s for error 1 rad.</long_desc>
+                <default>6.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_YAWRATE_D</code>
+                <type>FLOAT</type>
+                <short_desc>Yaw rate D gain</short_desc>
+                <long_desc>Yaw rate differential gain. Small values help reduce fast oscillations. If value is too big oscillations will appear again.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_YAWRATE_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Yaw rate feedforward</short_desc>
+                <long_desc>Improves tracking performance.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_YAWRATE_I</code>
+                <type>FLOAT</type>
+                <short_desc>Yaw rate I gain</short_desc>
+                <long_desc>Yaw rate integral gain. Can be set to compensate static thrust difference or gravity center offset.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_YAWRATE_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max yaw rate</short_desc>
+                <long_desc>Limit for yaw rate, has effect for large rotations in autonomous mode, to avoid large control output and mixer saturation.</long_desc>
+                <default>120.0</default>
+                <min>0.0</min>
+                <max>360.0</max>
+                <unit>deg/s</unit>
+            </parameter>
+            <parameter>
+                <code>MC_YAWRATE_P</code>
+                <type>FLOAT</type>
+                <short_desc>Yaw rate P gain</short_desc>
+                <long_desc>Yaw rate proportional gain, i.e. control output for angular speed error 1 rad/s.</long_desc>
+                <default>0.3</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MC_YAW_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Yaw feed forward</short_desc>
+                <long_desc>Feed forward weight for manual yaw control. 0 will give slow responce and no overshot, 1 - fast responce and big overshot.</long_desc>
+                <default>0.5</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MC_YAW_P</code>
+                <type>FLOAT</type>
+                <short_desc>Yaw P gain</short_desc>
+                <long_desc>Yaw proportional gain, i.e. desired angular speed in rad/s for error 1 rad.</long_desc>
+                <default>2.0</default>
+                <min>0.0</min>
+                <unit>1/s</unit>
+            </parameter>
+        </group>
+        <group name="Multicopter Position Control">
+            <parameter>
+                <code>MPC_LAND_SPEED</code>
+                <type>FLOAT</type>
+                <short_desc>Landing descend rate</short_desc>
+                <default>1.0</default>
+                <min>0.0</min>
+                <unit>m/s</unit>
+            </parameter>
+            <parameter>
+                <code>MPC_MAN_P_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max manual pitch</short_desc>
+                <default>35.0</default>
+                <min>0.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MPC_MAN_R_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max manual roll</short_desc>
+                <default>35.0</default>
+                <min>0.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MPC_MAN_Y_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Max manual yaw rate</short_desc>
+                <default>120.0</default>
+                <min>0.0</min>
+                <unit>deg/s</unit>
+            </parameter>
+            <parameter>
+                <code>MPC_THR_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum thrust</short_desc>
+                <long_desc>Limit max allowed thrust.</long_desc>
+                <default>1.0</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MPC_THR_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimum thrust</short_desc>
+                <long_desc>Minimum vertical thrust. It's recommended to set it &gt; 0 to avoid free fall with zero thrust.</long_desc>
+                <default>0.1</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MPC_TILTMAX_AIR</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum tilt angle in air</short_desc>
+                <long_desc>Limits maximum tilt in AUTO and POSCTRL modes during flight.</long_desc>
+                <default>45.0</default>
+                <min>0.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MPC_TILTMAX_LND</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum tilt during landing</short_desc>
+                <long_desc>Limits maximum tilt angle on landing.</long_desc>
+                <default>15.0</default>
+                <min>0.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MPC_XY_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Horizontal velocity feed forward</short_desc>
+                <long_desc>Feed forward weight for position control in position control mode (POSCTRL). 0 will give slow responce and no overshot, 1 - fast responce and big overshot.</long_desc>
+                <default>0.5</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MPC_XY_P</code>
+                <type>FLOAT</type>
+                <short_desc>Proportional gain for horizontal position error</short_desc>
+                <default>1.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MPC_XY_VEL_D</code>
+                <type>FLOAT</type>
+                <short_desc>Differential gain for horizontal velocity error. Small values help reduce fast oscillations. If value is too big oscillations will appear again</short_desc>
+                <default>0.01</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MPC_XY_VEL_I</code>
+                <type>FLOAT</type>
+                <short_desc>Integral gain for horizontal velocity error</short_desc>
+                <long_desc>Non-zero value allows to resist wind.</long_desc>
+                <default>0.02</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MPC_XY_VEL_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum horizontal velocity</short_desc>
+                <long_desc>Maximum horizontal velocity in AUTO mode and endpoint for position stabilized mode (POSCTRL).</long_desc>
+                <default>5.0</default>
+                <min>0.0</min>
+                <unit>m/s</unit>
+            </parameter>
+            <parameter>
+                <code>MPC_XY_VEL_P</code>
+                <type>FLOAT</type>
+                <short_desc>Proportional gain for horizontal velocity error</short_desc>
+                <default>0.1</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MPC_Z_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Vertical velocity feed forward</short_desc>
+                <long_desc>Feed forward weight for altitude control in stabilized modes (ALTCTRL, POSCTRL). 0 will give slow responce and no overshot, 1 - fast responce and big overshot.</long_desc>
+                <default>0.5</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MPC_Z_P</code>
+                <type>FLOAT</type>
+                <short_desc>Proportional gain for vertical position error</short_desc>
+                <default>1.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MPC_Z_VEL_D</code>
+                <type>FLOAT</type>
+                <short_desc>Differential gain for vertical velocity error</short_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MPC_Z_VEL_I</code>
+                <type>FLOAT</type>
+                <short_desc>Integral gain for vertical velocity error</short_desc>
+                <long_desc>Non zero value allows hovering thrust estimation on stabilized or autonomous takeoff.</long_desc>
+                <default>0.02</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>MPC_Z_VEL_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum vertical velocity</short_desc>
+                <long_desc>Maximum vertical velocity in AUTO mode and endpoint for stabilized modes (ALTCTRL, POSCTRL).</long_desc>
+                <default>5.0</default>
+                <min>0.0</min>
+                <unit>m/s</unit>
+            </parameter>
+            <parameter>
+                <code>MPC_Z_VEL_P</code>
+                <type>FLOAT</type>
+                <short_desc>Proportional gain for vertical velocity error</short_desc>
+                <default>0.1</default>
+                <min>0.0</min>
+            </parameter>
+        </group>
+        <group name="Payload drop">
+            <parameter>
+                <code>BD_GPROPERTIES</code>
+                <type>FLOAT</type>
+                <short_desc>Ground drag property</short_desc>
+                <long_desc>This parameter encodes the ground drag coefficient and the corresponding
+decrease in wind speed from the plane altitude to ground altitude.</long_desc>
+                <default>0.03</default>
+                <min>0.001</min>
+                <max>0.1</max>
+                <unit>unknown</unit>
+            </parameter>
+            <parameter>
+                <code>BD_OBJ_CD</code>
+                <type>FLOAT</type>
+                <short_desc>Payload drag coefficient of the dropped object</short_desc>
+                <long_desc>The drag coefficient (cd) is the typical drag
+constant for air. It is in general object specific,
+but the closest primitive shape to the actual object
+should give good results:
+http://en.wikipedia.org/wiki/Drag_coefficient</long_desc>
+                <default>0.1</default>
+                <min>0.08</min>
+                <max>1.5</max>
+                <unit>meter</unit>
+            </parameter>
+            <parameter>
+                <code>BD_OBJ_MASS</code>
+                <type>FLOAT</type>
+                <short_desc>Payload mass</short_desc>
+                <long_desc>A typical small toy ball:
+0.025 kg
+OBC water bottle:
+0.6 kg</long_desc>
+                <default>0.6</default>
+                <min>0.001</min>
+                <max>5.0</max>
+                <unit>kilogram</unit>
+            </parameter>
+            <parameter>
+                <code>BD_OBJ_SURFACE</code>
+                <type>FLOAT</type>
+                <short_desc>Payload front surface area</short_desc>
+                <long_desc>A typical small toy ball:
+(0.045 * 0.045) / 4.0 * pi = 0.001590 m^2
+OBC water bottle:
+(0.063 * 0.063) / 4.0 * pi = 0.003117 m^2</long_desc>
+                <default>0.00311724531</default>
+                <min>0.001</min>
+                <max>0.5</max>
+                <unit>m^2</unit>
+            </parameter>
+            <parameter>
+                <code>BD_PRECISION</code>
+                <type>FLOAT</type>
+                <short_desc>Drop precision</short_desc>
+                <long_desc>If the system is closer than this distance on passing over the
+drop position, it will release the payload. This is a safeguard
+to prevent a drop out of the required accuracy.</long_desc>
+                <default>30.0</default>
+                <min>1.0</min>
+                <max>80.0</max>
+                <unit>meter</unit>
+            </parameter>
+            <parameter>
+                <code>BD_TURNRADIUS</code>
+                <type>FLOAT</type>
+                <short_desc>Plane turn radius</short_desc>
+                <long_desc>The planes known minimal turn radius - use a higher value
+to make the plane maneuver more distant from the actual drop
+position. This is to ensure the wings are level during the drop.</long_desc>
+                <default>120.0</default>
+                <min>30.0</min>
+                <max>500.0</max>
+                <unit>meter</unit>
+            </parameter>
+        </group>
+        <group name="Position Estimator">
+            <parameter>
+                <code>PE_ABIAS_PNOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer bias estimate process noise</short_desc>
+                <long_desc>Generic defaults: 0.0001f, multicopters: 0.0001f, ground vehicles: 0.0001f.
+Increasing this value makes the bias estimation faster and noisier.</long_desc>
+                <default>0.0002</default>
+                <min>0.00001</min>
+                <max>0.001</max>
+            </parameter>
+            <parameter>
+                <code>PE_ACC_PNOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer process noise</short_desc>
+                <long_desc>Generic defaults: 0.25, multicopters: 0.25, ground vehicles: 0.25.
+Increasing this value makes the filter trust the accelerometer less
+and other sensors more.</long_desc>
+                <default>0.25</default>
+                <min>0.05</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>PE_EAS_NOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Airspeed measurement noise</short_desc>
+                <long_desc>Increasing this value will make the filter trust this sensor
+less and trust other sensors more.</long_desc>
+                <default>1.4</default>
+                <min>0.5</min>
+                <max>5.0</max>
+            </parameter>
+            <parameter>
+                <code>PE_GBIAS_PNOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro bias estimate process noise</short_desc>
+                <long_desc>Generic defaults: 1e-07f, multicopters: 1e-07f, ground vehicles: 1e-07f.
+Increasing this value will make the gyro bias converge faster but noisier.</long_desc>
+                <default>1e-06</default>
+                <min>0.0000001</min>
+                <max>0.00001</max>
+            </parameter>
+            <parameter>
+                <code>PE_GPS_ALT_WGT</code>
+                <type>FLOAT</type>
+                <short_desc>GPS vs. barometric altitude update weight</short_desc>
+                <long_desc>RE-CHECK this.</long_desc>
+                <default>0.9</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>PE_GYRO_PNOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro process noise</short_desc>
+                <long_desc>Generic defaults: 0.015, multicopters: 0.015, ground vehicles: 0.015.
+This noise controls how much the filter trusts the gyro measurements.
+Increasing it makes the filter trust the gyro less and other sensors more.</long_desc>
+                <default>0.015</default>
+                <min>0.001</min>
+                <max>0.05</max>
+            </parameter>
+            <parameter>
+                <code>PE_HGT_DELAY_MS</code>
+                <type>INT32</type>
+                <short_desc>Height estimate delay</short_desc>
+                <long_desc>The delay in milliseconds of the height estimate from the barometer.</long_desc>
+                <default>350</default>
+                <min>0</min>
+                <max>1000</max>
+            </parameter>
+            <parameter>
+                <code>PE_MAGB_PNOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer body frame offsets process noise</short_desc>
+                <long_desc>Generic defaults: 0.0003, multicopters: 0.0003, ground vehicles: 0.0003.
+Increasing this value makes the magnetometer body bias estimate converge faster
+but also noisier.</long_desc>
+                <default>0.0003</default>
+                <min>0.0001</min>
+                <max>0.01</max>
+            </parameter>
+            <parameter>
+                <code>PE_MAGE_PNOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer earth frame offsets process noise</short_desc>
+                <long_desc>Generic defaults: 0.0001, multicopters: 0.0001, ground vehicles: 0.0001.
+Increasing this value makes the magnetometer earth bias estimate converge
+faster but also noisier.</long_desc>
+                <default>0.0003</default>
+                <min>0.0001</min>
+                <max>0.01</max>
+            </parameter>
+            <parameter>
+                <code>PE_MAG_DELAY_MS</code>
+                <type>INT32</type>
+                <short_desc>Mag estimate delay</short_desc>
+                <long_desc>The delay in milliseconds of the magnetic field estimate from
+the magnetometer.</long_desc>
+                <default>30</default>
+                <min>0</min>
+                <max>1000</max>
+            </parameter>
+            <parameter>
+                <code>PE_MAG_NOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer measurement noise</short_desc>
+                <long_desc>Generic defaults: 0.05, multicopters: 0.05, ground vehicles: 0.05</long_desc>
+                <default>0.05</default>
+                <min>0.1</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>PE_POSDEV_INIT</code>
+                <type>FLOAT</type>
+                <short_desc>Threshold for filter initialization</short_desc>
+                <long_desc>If the standard deviation of the GPS position estimate is below this threshold
+in meters, the filter will initialize.</long_desc>
+                <default>5.0</default>
+                <min>0.3</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>PE_POSD_NOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Position noise in down (vertical) direction</short_desc>
+                <long_desc>Generic defaults: 0.5, multicopters: 1.0, ground vehicles: 1.0</long_desc>
+                <default>0.5</default>
+                <min>0.1</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>PE_POSNE_NOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Position noise in north-east (horizontal) direction</short_desc>
+                <long_desc>Generic defaults: 0.5, multicopters: 0.5, ground vehicles: 0.5</long_desc>
+                <default>0.5</default>
+                <min>0.1</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>PE_POS_DELAY_MS</code>
+                <type>INT32</type>
+                <short_desc>Position estimate delay</short_desc>
+                <long_desc>The delay in milliseconds of the position estimate from GPS.</long_desc>
+                <default>210</default>
+                <min>0</min>
+                <max>1000</max>
+            </parameter>
+            <parameter>
+                <code>PE_TAS_DELAY_MS</code>
+                <type>INT32</type>
+                <short_desc>True airspeeed estimate delay</short_desc>
+                <long_desc>The delay in milliseconds of the airspeed estimate.</long_desc>
+                <default>210</default>
+                <min>0</min>
+                <max>1000</max>
+            </parameter>
+            <parameter>
+                <code>PE_VELD_NOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Velocity noise in down (vertical) direction</short_desc>
+                <long_desc>Generic default: 0.5, multicopters: 0.7, ground vehicles: 0.7</long_desc>
+                <default>0.5</default>
+                <min>0.05</min>
+                <max>5.0</max>
+            </parameter>
+            <parameter>
+                <code>PE_VELNE_NOISE</code>
+                <type>FLOAT</type>
+                <short_desc>Velocity measurement noise in north-east (horizontal) direction</short_desc>
+                <long_desc>Generic default: 0.3, multicopters: 0.5, ground vehicles: 0.5</long_desc>
+                <default>0.3</default>
+                <min>0.05</min>
+                <max>5.0</max>
+            </parameter>
+            <parameter>
+                <code>PE_VEL_DELAY_MS</code>
+                <type>INT32</type>
+                <short_desc>Velocity estimate delay</short_desc>
+                <long_desc>The delay in milliseconds of the velocity estimate from GPS.</long_desc>
+                <default>230</default>
+                <min>0</min>
+                <max>1000</max>
+            </parameter>
+        </group>
+        <group name="Position Estimator INAV">
+            <parameter>
+                <code>CBRK_NO_VISION</code>
+                <type>INT32</type>
+                <short_desc>Disable vision input</short_desc>
+                <long_desc>Set to the appropriate key (328754) to disable vision input.</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>INAV_DELAY_GPS</code>
+                <type>FLOAT</type>
+                <short_desc>GPS delay</short_desc>
+                <long_desc>GPS delay compensation</long_desc>
+                <default>0.2</default>
+                <min>0.0</min>
+                <max>1.0</max>
+                <unit>s</unit>
+            </parameter>
+            <parameter>
+                <code>INAV_ENABLED</code>
+                <type>INT32</type>
+                <short_desc>INAV enabled</short_desc>
+                <long_desc>If set to 1, use INAV for position estimation
+the system uses the combined attitude / position
+filter framework.</long_desc>
+                <default>1</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>INAV_FLOW_K</code>
+                <type>FLOAT</type>
+                <short_desc>Optical flow scale factor</short_desc>
+                <long_desc>Factor to convert raw optical flow (in pixels) to radians [rad/px].</long_desc>
+                <default>0.15</default>
+                <min>0.0</min>
+                <max>1.0</max>
+                <unit>rad/px</unit>
+            </parameter>
+            <parameter>
+                <code>INAV_FLOW_Q_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal acceptable optical flow quality</short_desc>
+                <long_desc>0 - lowest quality, 1 - best quality.</long_desc>
+                <default>0.5</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_LAND_DISP</code>
+                <type>FLOAT</type>
+                <short_desc>Land detector altitude dispersion threshold</short_desc>
+                <long_desc>Dispersion threshold for triggering land detector.</long_desc>
+                <default>0.7</default>
+                <min>0.0</min>
+                <max>10.0</max>
+                <unit>m</unit>
+            </parameter>
+            <parameter>
+                <code>INAV_LAND_T</code>
+                <type>FLOAT</type>
+                <short_desc>Land detector time</short_desc>
+                <long_desc>Vehicle assumed landed if no altitude changes happened during this time on low throttle.</long_desc>
+                <default>3.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+                <unit>s</unit>
+            </parameter>
+            <parameter>
+                <code>INAV_LAND_THR</code>
+                <type>FLOAT</type>
+                <short_desc>Land detector throttle threshold</short_desc>
+                <long_desc>Value should be lower than minimal hovering thrust. Half of it is good choice.</long_desc>
+                <default>0.2</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_SONAR_ERR</code>
+                <type>FLOAT</type>
+                <short_desc>Sonar maximal error for new surface</short_desc>
+                <long_desc>If sonar measurement error is larger than this value it skiped (spike) or accepted as new surface level (if offset is stable).</long_desc>
+                <default>0.5</default>
+                <min>0.0</min>
+                <max>1.0</max>
+                <unit>m</unit>
+            </parameter>
+            <parameter>
+                <code>INAV_SONAR_FILT</code>
+                <type>FLOAT</type>
+                <short_desc>Weight for sonar filter</short_desc>
+                <long_desc>Sonar filter detects spikes on sonar measurements and used to detect new surface level.</long_desc>
+                <default>0.05</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_ACC_BIAS</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer bias estimation weight</short_desc>
+                <long_desc>Weight (cutoff frequency) for accelerometer bias estimation. 0 to disable.</long_desc>
+                <default>0.05</default>
+                <min>0.0</min>
+                <max>0.1</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_GPS_FLOW</code>
+                <type>FLOAT</type>
+                <short_desc>XY axis weight factor for GPS when optical flow available</short_desc>
+                <long_desc>When optical flow data available, multiply GPS weights (for position and velocity) by this factor.</long_desc>
+                <default>0.1</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_XY_FLOW</code>
+                <type>FLOAT</type>
+                <short_desc>XY axis weight for optical flow</short_desc>
+                <long_desc>Weight (cutoff frequency) for optical flow (velocity) measurements.</long_desc>
+                <default>5.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_XY_GPS_P</code>
+                <type>FLOAT</type>
+                <short_desc>XY axis weight for GPS position</short_desc>
+                <long_desc>Weight (cutoff frequency) for GPS position measurements.</long_desc>
+                <default>1.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_XY_GPS_V</code>
+                <type>FLOAT</type>
+                <short_desc>XY axis weight for GPS velocity</short_desc>
+                <long_desc>Weight (cutoff frequency) for GPS velocity measurements.</long_desc>
+                <default>2.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_XY_RES_V</code>
+                <type>FLOAT</type>
+                <short_desc>XY axis weight for resetting velocity</short_desc>
+                <long_desc>When velocity sources lost slowly decrease estimated horizontal velocity with this weight.</long_desc>
+                <default>0.5</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_XY_VIS_P</code>
+                <type>FLOAT</type>
+                <short_desc>XY axis weight for vision position</short_desc>
+                <long_desc>Weight (cutoff frequency) for vision position measurements.</long_desc>
+                <default>7.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_XY_VIS_V</code>
+                <type>FLOAT</type>
+                <short_desc>XY axis weight for vision velocity</short_desc>
+                <long_desc>Weight (cutoff frequency) for vision velocity measurements.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_Z_BARO</code>
+                <type>FLOAT</type>
+                <short_desc>Z axis weight for barometer</short_desc>
+                <long_desc>Weight (cutoff frequency) for barometer altitude measurements.</long_desc>
+                <default>0.5</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_Z_GPS_P</code>
+                <type>FLOAT</type>
+                <short_desc>Z axis weight for GPS</short_desc>
+                <long_desc>Weight (cutoff frequency) for GPS altitude measurements. GPS altitude data is very noisy and should be used only as slow correction for baro offset.</long_desc>
+                <default>0.005</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_Z_GPS_V</code>
+                <type>FLOAT</type>
+                <short_desc>Z velocity weight for GPS</short_desc>
+                <long_desc>Weight (cutoff frequency) for GPS altitude velocity measurements.</long_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_Z_SONAR</code>
+                <type>FLOAT</type>
+                <short_desc>Z axis weight for sonar</short_desc>
+                <long_desc>Weight (cutoff frequency) for sonar measurements.</long_desc>
+                <default>3.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>INAV_W_Z_VIS_P</code>
+                <type>FLOAT</type>
+                <short_desc>Z axis weight for vision</short_desc>
+                <long_desc>Weight (cutoff frequency) for vision altitude measurements. vision altitude data is very noisy and should be used only as slow correction for baro offset.</long_desc>
+                <default>0.5</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+        </group>
+        <group name="RCL">
+            <parameter>
+                <code>NAV_RCL_LT</code>
+                <type>FLOAT</type>
+                <short_desc>Loiter Time</short_desc>
+                <long_desc>The amount of time in seconds the system should loiter at current position before termination
+Set to -1 to make the system skip loitering</long_desc>
+                <default>120.0</default>
+                <min>-1.0</min>
+                <unit>seconds</unit>
+            </parameter>
+        </group>
+        <group name="RTL">
+            <parameter>
+                <code>RTL_DESCEND_ALT</code>
+                <type>FLOAT</type>
+                <short_desc>RTL loiter altitude</short_desc>
+                <long_desc>Stay at this altitude above home position after RTL descending.
+Land (i.e. slowly descend) from this altitude if autolanding allowed.</long_desc>
+                <default>30</default>
+                <min>2</min>
+                <max>100</max>
+                <unit>meters</unit>
+            </parameter>
+            <parameter>
+                <code>RTL_LAND_DELAY</code>
+                <type>FLOAT</type>
+                <short_desc>RTL delay</short_desc>
+                <long_desc>Delay after descend before landing in RTL mode.
+If set to -1 the system will not land but loiter at NAV_LAND_ALT.</long_desc>
+                <default>-1.0</default>
+                <min>-1</min>
+                <max>300</max>
+                <unit>seconds</unit>
+            </parameter>
+            <parameter>
+                <code>RTL_LOITER_RAD</code>
+                <type>FLOAT</type>
+                <short_desc>Loiter radius after RTL (FW only)</short_desc>
+                <long_desc>Default value of loiter radius after RTL (fixedwing only).</long_desc>
+                <default>50.0</default>
+                <min>20</min>
+                <max>200</max>
+                <unit>meters</unit>
+            </parameter>
+            <parameter>
+                <code>RTL_RETURN_ALT</code>
+                <type>FLOAT</type>
+                <short_desc>RTL altitude</short_desc>
+                <long_desc>Altitude to fly back in RTL in meters</long_desc>
+                <default>60</default>
+                <min>0</min>
+                <max>150</max>
+                <unit>meters</unit>
+            </parameter>
+        </group>
+        <group name="Radio Calibration">
+            <parameter>
+                <code>RC1_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC Channel 1 dead zone</short_desc>
+                <long_desc>The +- range of this value around the trim value will be considered as zero.</long_desc>
+                <default>10.0</default>
+                <min>0.0</min>
+                <max>100.0</max>
+            </parameter>
+            <parameter>
+                <code>RC1_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC Channel 1 Maximum</short_desc>
+                <long_desc>Maximum value for RC channel 1</long_desc>
+                <default>2000.0</default>
+                <min>1500.0</min>
+                <max>2200.0</max>
+            </parameter>
+            <parameter>
+                <code>RC1_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC Channel 1 Minimum</short_desc>
+                <long_desc>Minimum value for RC channel 1</long_desc>
+                <default>1000.0</default>
+                <min>800.0</min>
+                <max>1500.0</max>
+            </parameter>
+            <parameter>
+                <code>RC1_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC Channel 1 Reverse</short_desc>
+                <long_desc>Set to -1 to reverse channel.</long_desc>
+                <default>1.0</default>
+                <min>-1.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>RC1_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC Channel 1 Trim</short_desc>
+                <long_desc>Mid point value (same as min for throttle)</long_desc>
+                <default>1500.0</default>
+                <min>800.0</min>
+                <max>2200.0</max>
+            </parameter>
+            <parameter>
+                <code>RC2_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC Channel 2 dead zone</short_desc>
+                <long_desc>The +- range of this value around the trim value will be considered as zero.</long_desc>
+                <default>10.0</default>
+                <min>0.0</min>
+                <max>100.0</max>
+            </parameter>
+            <parameter>
+                <code>RC2_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC Channel 2 Maximum</short_desc>
+                <long_desc>Maximum value for RC channel 2</long_desc>
+                <default>2000.0</default>
+                <min>1500.0</min>
+                <max>2200.0</max>
+            </parameter>
+            <parameter>
+                <code>RC2_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC Channel 2 Minimum</short_desc>
+                <long_desc>Minimum value for RC channel 2</long_desc>
+                <default>1000.0</default>
+                <min>800.0</min>
+                <max>1500.0</max>
+            </parameter>
+            <parameter>
+                <code>RC2_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC Channel 2 Reverse</short_desc>
+                <long_desc>Set to -1 to reverse channel.</long_desc>
+                <default>1.0</default>
+                <min>-1.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>RC2_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC Channel 2 Trim</short_desc>
+                <long_desc>Mid point value (same as min for throttle)</long_desc>
+                <default>1500.0</default>
+                <min>800.0</min>
+                <max>2200.0</max>
+            </parameter>
+            <parameter>
+                <code>RC_CHAN_CNT</code>
+                <type>INT32</type>
+                <short_desc>RC channel count</short_desc>
+                <long_desc>This parameter is used by Ground Station software to save the number
+of channels which were used during RC calibration. It is only meant
+for ground station use.</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_DSM_BIND</code>
+                <type>INT32</type>
+                <short_desc>DSM binding trigger</short_desc>
+                <long_desc>-1 = Idle, 0 = Start DSM2 bind, 1 = Start DSMX bind</long_desc>
+                <default>-1</default>
+            </parameter>
+            <parameter>
+                <code>RC_FAILS_THR</code>
+                <type>INT32</type>
+                <short_desc>Failsafe channel PWM threshold</short_desc>
+                <default>0</default>
+                <min>800</min>
+                <max>2200</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_ACRO_SW</code>
+                <type>INT32</type>
+                <short_desc>Acro switch channel mapping</short_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_AUX1</code>
+                <type>INT32</type>
+                <short_desc>Auxiliary switch 1 channel mapping</short_desc>
+                <long_desc>Default function: Camera pitch</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_AUX2</code>
+                <type>INT32</type>
+                <short_desc>Auxiliary switch 2 channel mapping</short_desc>
+                <long_desc>Default function: Camera roll</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_AUX3</code>
+                <type>INT32</type>
+                <short_desc>Auxiliary switch 3 channel mapping</short_desc>
+                <long_desc>Default function: Camera azimuth / yaw</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_FLAPS</code>
+                <type>INT32</type>
+                <short_desc>Flaps channel mapping</short_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_LOITER_SW</code>
+                <type>INT32</type>
+                <short_desc>Loiter switch channel mapping</short_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_MODE_SW</code>
+                <type>INT32</type>
+                <short_desc>Mode switch channel mapping</short_desc>
+                <long_desc>This is the main flight mode selector.
+The channel index (starting from 1 for channel 1) indicates
+which channel should be used for deciding about the main mode.
+A value of zero indicates the switch is not assigned.</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_OFFB_SW</code>
+                <type>INT32</type>
+                <short_desc>Offboard switch channel mapping</short_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_PARAM1</code>
+                <type>INT32</type>
+                <short_desc>Channel which changes a parameter</short_desc>
+                <long_desc>Can be used for parameter tuning with the RC. This one is further referenced as the 1st parameter channel.
+Set to 0 to deactivate *</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_PARAM2</code>
+                <type>INT32</type>
+                <short_desc>Channel which changes a parameter</short_desc>
+                <long_desc>Can be used for parameter tuning with the RC. This one is further referenced as the 2nd parameter channel.
+Set to 0 to deactivate *</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_PARAM3</code>
+                <type>INT32</type>
+                <short_desc>Channel which changes a parameter</short_desc>
+                <long_desc>Can be used for parameter tuning with the RC. This one is further referenced as the 3th parameter channel.
+Set to 0 to deactivate *</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_PITCH</code>
+                <type>INT32</type>
+                <short_desc>Pitch control channel mapping</short_desc>
+                <long_desc>The channel index (starting from 1 for channel 1) indicates
+which channel should be used for reading pitch inputs from.
+A value of zero indicates the switch is not assigned.</long_desc>
+                <default>2</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_POSCTL_SW</code>
+                <type>INT32</type>
+                <short_desc>Posctl switch channel mapping</short_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_RETURN_SW</code>
+                <type>INT32</type>
+                <short_desc>Return switch channel mapping</short_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_ROLL</code>
+                <type>INT32</type>
+                <short_desc>Roll control channel mapping</short_desc>
+                <long_desc>The channel index (starting from 1 for channel 1) indicates
+which channel should be used for reading roll inputs from.
+A value of zero indicates the switch is not assigned.</long_desc>
+                <default>1</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_THROTTLE</code>
+                <type>INT32</type>
+                <short_desc>Throttle control channel mapping</short_desc>
+                <long_desc>The channel index (starting from 1 for channel 1) indicates
+which channel should be used for reading throttle inputs from.
+A value of zero indicates the switch is not assigned.</long_desc>
+                <default>3</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_YAW</code>
+                <type>INT32</type>
+                <short_desc>Yaw control channel mapping</short_desc>
+                <long_desc>The channel index (starting from 1 for channel 1) indicates
+which channel should be used for reading yaw inputs from.
+A value of zero indicates the switch is not assigned.</long_desc>
+                <default>4</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_TH_USER</code>
+                <type>INT32</type>
+                <short_desc>RC mode switch threshold automaic distribution</short_desc>
+                <long_desc>This parameter is used by Ground Station software to specify whether
+the threshold values for flight mode switches were automatically calculated.
+0 indicates that the threshold values were set by the user. Any other value
+indicates that the threshold value where automatically set by the ground
+station software. It is only meant for ground station use.</long_desc>
+                <default>1</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+        </group>
+        <group name="SD Logging">
+            <parameter>
+                <code>SDLOG_EXT</code>
+                <type>INT32</type>
+                <short_desc>Enable extended logging mode</short_desc>
+                <long_desc>A value of -1 indicates the commandline argument
+should be obeyed. A value of 0 disables extended
+logging mode, a value of 1 enables it. This
+parameter is only read out before logging starts
+(which commonly is before arming).</long_desc>
+                <default>-1</default>
+                <min>-1</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>SDLOG_RATE</code>
+                <type>INT32</type>
+                <short_desc>Logging rate</short_desc>
+                <long_desc>A value of -1 indicates the commandline argument
+should be obeyed. A value of 0 sets the minimum rate,
+any other value is interpreted as rate in Hertz. This
+parameter is only read out before logging starts (which
+commonly is before arming).</long_desc>
+                <default>-1</default>
+                <min>-1</min>
+                <max>1</max>
+            </parameter>
+        </group>
+        <group name="Sensor Calibration">
+            <parameter>
+                <code>CAL_ACC0_ID</code>
+                <type>INT32</type>
+                <short_desc>ID of the Accelerometer that the calibration is for</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC0_XOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer X-axis offset</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC0_XSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer X-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC0_YOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Y-axis offset</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC0_YSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Y-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC0_ZOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Z-axis offset</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC0_ZSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Z-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC1_ID</code>
+                <type>INT32</type>
+                <short_desc>ID of the Accelerometer that the calibration is for</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC1_XOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer X-axis offset</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC1_XSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer X-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC1_YOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Y-axis offset</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC1_YSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Y-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC1_ZOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Z-axis offset</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC1_ZSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Z-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC2_ID</code>
+                <type>INT32</type>
+                <short_desc>ID of the Accelerometer that the calibration is for</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC2_XOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer X-axis offset</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC2_XSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer X-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC2_YOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Y-axis offset</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC2_YSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Y-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC2_ZOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Z-axis offset</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_ACC2_ZSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Accelerometer Z-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_BOARD_ID</code>
+                <type>INT32</type>
+                <short_desc>ID of the board this parameter set was calibrated on</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO0_ID</code>
+                <type>INT32</type>
+                <short_desc>ID of the Gyro that the calibration is for</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO0_XOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro X-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-10.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO0_XSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro X-axis scaling factor</short_desc>
+                <default>1.0</default>
+                <min>-1.5</min>
+                <max>1.5</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO0_YOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Y-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-10.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO0_YSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Y-axis scaling factor</short_desc>
+                <default>1.0</default>
+                <min>-1.5</min>
+                <max>1.5</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO0_ZOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Z-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-5.0</min>
+                <max>5.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO0_ZSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Z-axis scaling factor</short_desc>
+                <default>1.0</default>
+                <min>-1.5</min>
+                <max>1.5</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO1_ID</code>
+                <type>INT32</type>
+                <short_desc>ID of the Gyro that the calibration is for</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO1_XOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro X-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-10.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO1_XSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro X-axis scaling factor</short_desc>
+                <default>1.0</default>
+                <min>-1.5</min>
+                <max>1.5</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO1_YOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Y-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-10.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO1_YSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Y-axis scaling factor</short_desc>
+                <default>1.0</default>
+                <min>-1.5</min>
+                <max>1.5</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO1_ZOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Z-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-5.0</min>
+                <max>5.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO1_ZSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Z-axis scaling factor</short_desc>
+                <default>1.0</default>
+                <min>-1.5</min>
+                <max>1.5</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO2_ID</code>
+                <type>INT32</type>
+                <short_desc>ID of the Gyro that the calibration is for</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO2_XOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro X-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-10.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO2_XSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro X-axis scaling factor</short_desc>
+                <default>1.0</default>
+                <min>-1.5</min>
+                <max>1.5</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO2_YOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Y-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-10.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO2_YSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Y-axis scaling factor</short_desc>
+                <default>1.0</default>
+                <min>-1.5</min>
+                <max>1.5</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO2_ZOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Z-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-5.0</min>
+                <max>5.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_GYRO2_ZSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro Z-axis scaling factor</short_desc>
+                <default>1.0</default>
+                <min>-1.5</min>
+                <max>1.5</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG0_ID</code>
+                <type>INT32</type>
+                <short_desc>ID of Magnetometer the calibration is for</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG0_ROT</code>
+                <type>INT32</type>
+                <short_desc>Rotation of magnetometer 0 relative to airframe</short_desc>
+                <long_desc>An internal magnetometer will force a value of -1, so a GCS
+should only attempt to configure the rotation if the value is
+greater than or equal to zero.</long_desc>
+                <default>-1</default>
+                <min>-1</min>
+                <max>30</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG0_XOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer X-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-500.0</min>
+                <max>500.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG0_XSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer X-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG0_YOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Y-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-500.0</min>
+                <max>500.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG0_YSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Y-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG0_ZOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Z-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-500.0</min>
+                <max>500.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG0_ZSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Z-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG1_ID</code>
+                <type>INT32</type>
+                <short_desc>ID of Magnetometer the calibration is for</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG1_ROT</code>
+                <type>INT32</type>
+                <short_desc>Rotation of magnetometer 1 relative to airframe</short_desc>
+                <long_desc>An internal magnetometer will force a value of -1, so a GCS
+should only attempt to configure the rotation if the value is
+greater than or equal to zero.</long_desc>
+                <default>-1</default>
+                <min>-1</min>
+                <max>30</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG1_XOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer X-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-500.0</min>
+                <max>500.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG1_XSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer X-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG1_YOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Y-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-500.0</min>
+                <max>500.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG1_YSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Y-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG1_ZOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Z-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-500.0</min>
+                <max>500.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG1_ZSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Z-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG2_ID</code>
+                <type>INT32</type>
+                <short_desc>ID of Magnetometer the calibration is for</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG2_ROT</code>
+                <type>INT32</type>
+                <short_desc>Rotation of magnetometer 2 relative to airframe</short_desc>
+                <long_desc>An internal magnetometer will force a value of -1, so a GCS
+should only attempt to configure the rotation if the value is
+greater than or equal to zero.</long_desc>
+                <default>-1</default>
+                <min>-1</min>
+                <max>30</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG2_XOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer X-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-500.0</min>
+                <max>500.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG2_XSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer X-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG2_YOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Y-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-500.0</min>
+                <max>500.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG2_YSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Y-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG2_ZOFF</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Z-axis offset</short_desc>
+                <default>0.0</default>
+                <min>-500.0</min>
+                <max>500.0</max>
+            </parameter>
+            <parameter>
+                <code>CAL_MAG2_ZSCALE</code>
+                <type>FLOAT</type>
+                <short_desc>Magnetometer Z-axis scaling factor</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>SENS_BARO_QNH</code>
+                <type>FLOAT</type>
+                <short_desc>QNH for barometer</short_desc>
+                <default>1013.25</default>
+                <min>500</min>
+                <max>1500</max>
+                <unit>hPa</unit>
+            </parameter>
+            <parameter>
+                <code>SENS_BOARD_ROT</code>
+                <type>INT32</type>
+                <short_desc>Board rotation</short_desc>
+                <long_desc>This parameter defines the rotation of the FMU board relative to the platform.
+Possible values are:
+0 = No rotation
+1 = Yaw 45°
+2 = Yaw 90°
+3 = Yaw 135°
+4 = Yaw 180°
+5 = Yaw 225°
+6 = Yaw 270°
+7 = Yaw 315°
+8 = Roll 180°
+9 = Roll 180°, Yaw 45°
+10 = Roll 180°, Yaw 90°
+11 = Roll 180°, Yaw 135°
+12 = Pitch 180°
+13 = Roll 180°, Yaw 225°
+14 = Roll 180°, Yaw 270°
+15 = Roll 180°, Yaw 315°
+16 = Roll 90°
+17 = Roll 90°, Yaw 45°
+18 = Roll 90°, Yaw 90°
+19 = Roll 90°, Yaw 135°
+20 = Roll 270°
+21 = Roll 270°, Yaw 45°
+22 = Roll 270°, Yaw 90°
+23 = Roll 270°, Yaw 135°
+24 = Pitch 90°
+25 = Pitch 270°</long_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>SENS_BOARD_X_OFF</code>
+                <type>FLOAT</type>
+                <short_desc>Board rotation X (Roll) offset</short_desc>
+                <long_desc>This parameter defines a rotational offset in degrees around the X (Roll) axis It allows the user
+to fine tune the board offset in the event of misalignment.</long_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>SENS_BOARD_Y_OFF</code>
+                <type>FLOAT</type>
+                <short_desc>Board rotation Y (Pitch) offset</short_desc>
+                <long_desc>This parameter defines a rotational offset in degrees around the Y (Pitch) axis. It allows the user
+to fine tune the board offset in the event of misalignment.</long_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>SENS_BOARD_Z_OFF</code>
+                <type>FLOAT</type>
+                <short_desc>Board rotation Z (YAW) offset</short_desc>
+                <long_desc>This parameter defines a rotational offset in degrees around the Z (Yaw) axis. It allows the user
+to fine tune the board offset in the event of misalignment.</long_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>SENS_DPRES_ANSC</code>
+                <type>FLOAT</type>
+                <short_desc>Differential pressure sensor analog scaling</short_desc>
+                <long_desc>Pick the appropriate scaling from the datasheet.
+this number defines the (linear) conversion from voltage
+to Pascal (pa). For the MPXV7002DP this is 1000.
+NOTE: If the sensor always registers zero, try switching
+the static and dynamic tubes.</long_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>SENS_DPRES_OFF</code>
+                <type>FLOAT</type>
+                <short_desc>Differential pressure sensor offset</short_desc>
+                <long_desc>The offset (zero-reading) in Pascal</long_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>SENS_EXT_MAG</code>
+                <type>INT32</type>
+                <short_desc>Set usage of external magnetometer</short_desc>
+                <long_desc>* Set to 0 (default) to auto-detect (will try to get the external as primary)
+* Set to 1 to force the external magnetometer as primary
+* Set to 2 to force the internal magnetometer as primary</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>2</max>
+            </parameter>
+            <parameter>
+                <code>SENS_EXT_MAG_ROT</code>
+                <type>INT32</type>
+                <short_desc>External magnetometer rotation</short_desc>
+                <long_desc>This parameter defines the rotation of the external magnetometer relative
+to the platform (not relative to the FMU).
+See SENS_BOARD_ROT for possible values.</long_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>SENS_FLOW_ROT</code>
+                <type>INT32</type>
+                <short_desc>PX4Flow board rotation</short_desc>
+                <long_desc>This parameter defines the rotation of the PX4FLOW board relative to the platform.
+Zero rotation is defined as Y on flow board pointing towards front of vehicle
+Possible values are:
+0 = No rotation
+1 = Yaw 45°
+2 = Yaw 90°
+3 = Yaw 135°
+4 = Yaw 180°
+5 = Yaw 225°
+6 = Yaw 270°
+7 = Yaw 315°</long_desc>
+                <default>0</default>
+            </parameter>
+        </group>
+        <group name="System">
+            <parameter>
+                <code>SYS_AUTOCONFIG</code>
+                <type>INT32</type>
+                <short_desc>Automatically configure default values</short_desc>
+                <long_desc>Set to 1 to reset parameters on next system startup (setting defaults).
+Platform-specific values are used if available.
+RC* parameters are preserved.</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>SYS_AUTOSTART</code>
+                <type>INT32</type>
+                <short_desc>Auto-start script index</short_desc>
+                <long_desc>Defines the auto-start script used to bootstrap the system.</long_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>SYS_COMPANION</code>
+                <type>INT32</type>
+                <short_desc>Companion computer interface</short_desc>
+                <long_desc>Configures the baud rate of the companion computer interface.
+Set to zero to disable, set to 921600 to enable.
+CURRENTLY ONLY SUPPORTS 921600 BAUD! Use extras.txt for
+other baud rates.</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>921600</max>
+            </parameter>
+            <parameter>
+                <code>SYS_PARAM_VER</code>
+                <type>INT32</type>
+                <short_desc>Parameter version</short_desc>
+                <long_desc>This monotonically increasing number encodes the parameter compatibility set.
+whenever it increases parameters might not be backwards compatible and
+ground control stations should suggest a fresh configuration.</long_desc>
+                <default>1</default>
+                <min>0</min>
+            </parameter>
+            <parameter>
+                <code>SYS_RESTART_TYPE</code>
+                <type>INT32</type>
+                <short_desc>Set restart type</short_desc>
+                <long_desc>Set by px4io to indicate type of restart</long_desc>
+                <default>2</default>
+                <min>0</min>
+                <max>2</max>
+            </parameter>
+            <parameter>
+                <code>SYS_USE_IO</code>
+                <type>INT32</type>
+                <short_desc>Set usage of IO board</short_desc>
+                <long_desc>Can be used to use a standard startup script but with a FMU only set-up. Set to 0 to force the FMU only set-up.</long_desc>
+                <default>1</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+        </group>
+        <group name="UAVCAN">
+            <parameter>
+                <code>UAVCAN_BITRATE</code>
+                <type>INT32</type>
+                <short_desc>UAVCAN CAN bus bitrate</short_desc>
+                <default>1000000</default>
+                <min>20000</min>
+                <max>1000000</max>
+            </parameter>
+            <parameter>
+                <code>UAVCAN_ENABLE</code>
+                <type>INT32</type>
+                <short_desc>Enable UAVCAN</short_desc>
+                <long_desc>Enables support for UAVCAN-interfaced actuators and sensors.</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>UAVCAN_NODE_ID</code>
+                <type>INT32</type>
+                <short_desc>UAVCAN Node ID</short_desc>
+                <long_desc>Read the specs at http://uavcan.org to learn more about Node ID.</long_desc>
+                <default>1</default>
+                <min>1</min>
+                <max>125</max>
+            </parameter>
+        </group>
+        <group name="VTOL Attitude Control">
+            <parameter>
+                <code>VT_ARSP_LP_GAIN</code>
+                <type>FLOAT</type>
+                <short_desc>Total airspeed estimate low-pass filter gain</short_desc>
+                <long_desc>Gain for tuning the low-pass filter for the total airspeed estimate</long_desc>
+                <default>0.3</default>
+                <min>0.0</min>
+                <max>0.99</max>
+            </parameter>
+            <parameter>
+                <code>VT_FW_PERM_STAB</code>
+                <type>INT32</type>
+                <short_desc>Permanent stabilization in fw mode</short_desc>
+                <long_desc>If set to one this parameter will cause permanent attitude stabilization in fw mode.
+This parameter has been introduced for pure convenience sake.</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>VT_FW_PITCH_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>Fixed wing pitch trim</short_desc>
+                <long_desc>This parameter allows to adjust the neutral elevon position in fixed wing mode.</long_desc>
+                <default>0.0</default>
+                <min>-1</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>VT_IDLE_PWM_MC</code>
+                <type>INT32</type>
+                <short_desc>Idle speed of VTOL when in multicopter mode</short_desc>
+                <default>900</default>
+                <min>900</min>
+            </parameter>
+            <parameter>
+                <code>VT_MC_ARSPD_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximum airspeed in multicopter mode</short_desc>
+                <long_desc>This is the maximum speed of the air flowing over the control surfaces.</long_desc>
+                <default>30.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>VT_MC_ARSPD_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimum airspeed in multicopter mode</short_desc>
+                <long_desc>This is the minimum speed of the air flowing over the control surfaces.</long_desc>
+                <default>10.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>VT_MC_ARSPD_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>Trim airspeed when in multicopter mode</short_desc>
+                <long_desc>This is the airflow over the control surfaces for which no airspeed scaling is applied in multicopter mode.</long_desc>
+                <default>10.0</default>
+                <min>0.0</min>
+            </parameter>
+            <parameter>
+                <code>VT_MOT_COUNT</code>
+                <type>INT32</type>
+                <short_desc>VTOL number of engines</short_desc>
+                <default>0</default>
+                <min>1</min>
+            </parameter>
+            <parameter>
+                <code>VT_POWER_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Motor max power</short_desc>
+                <long_desc>Indicates the maximum power the motor is able to produce. Used to calculate
+propeller efficiency map.</long_desc>
+                <default>120.0</default>
+                <min>1</min>
+            </parameter>
+            <parameter>
+                <code>VT_PROP_EFF</code>
+                <type>FLOAT</type>
+                <short_desc>Propeller efficiency parameter</short_desc>
+                <long_desc>Influences propeller efficiency at different power settings. Should be tuned beforehand.</long_desc>
+                <default>0.0</default>
+                <min>0.5</min>
+                <max>0.9</max>
+            </parameter>
+        </group>
+        <group name="attitude_ekf">
+            <parameter>
+                <code>ATT_J11</code>
+                <type>FLOAT</type>
+                <short_desc>Moment of inertia matrix diagonal entry (1, 1)</short_desc>
+                <default>0.0018</default>
+                <unit>kg*m^2</unit>
+            </parameter>
+            <parameter>
+                <code>ATT_J22</code>
+                <type>FLOAT</type>
+                <short_desc>Moment of inertia matrix diagonal entry (2, 2)</short_desc>
+                <default>0.0018</default>
+                <unit>kg*m^2</unit>
+            </parameter>
+            <parameter>
+                <code>ATT_J33</code>
+                <type>FLOAT</type>
+                <short_desc>Moment of inertia matrix diagonal entry (3, 3)</short_desc>
+                <default>0.0037</default>
+                <unit>kg*m^2</unit>
+            </parameter>
+            <parameter>
+                <code>ATT_J_EN</code>
+                <type>INT32</type>
+                <short_desc>Moment of inertia enabled in estimator</short_desc>
+                <long_desc>If set to != 0 the moment of inertia will be used in the estimator</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>EKF_ATT_V3_Q0</code>
+                <type>FLOAT</type>
+                <short_desc>Body angular rate process noise</short_desc>
+                <default>1e-4</default>
+            </parameter>
+            <parameter>
+                <code>EKF_ATT_V3_Q1</code>
+                <type>FLOAT</type>
+                <short_desc>Body angular acceleration process noise</short_desc>
+                <default>0.08</default>
+            </parameter>
+            <parameter>
+                <code>EKF_ATT_V3_Q2</code>
+                <type>FLOAT</type>
+                <short_desc>Acceleration process noise</short_desc>
+                <default>0.009</default>
+            </parameter>
+            <parameter>
+                <code>EKF_ATT_V3_Q3</code>
+                <type>FLOAT</type>
+                <short_desc>Magnet field vector process noise</short_desc>
+                <default>0.005</default>
+            </parameter>
+            <parameter>
+                <code>EKF_ATT_V4_R0</code>
+                <type>FLOAT</type>
+                <short_desc>Gyro measurement noise</short_desc>
+                <default>0.0008</default>
+            </parameter>
+            <parameter>
+                <code>EKF_ATT_V4_R1</code>
+                <type>FLOAT</type>
+                <short_desc>Accel measurement noise</short_desc>
+                <default>10000.0</default>
+            </parameter>
+            <parameter>
+                <code>EKF_ATT_V4_R2</code>
+                <type>FLOAT</type>
+                <short_desc>Mag measurement noise</short_desc>
+                <default>100.0</default>
+            </parameter>
+        </group>
+        <group name="commander">
+            <parameter>
+                <code>COM_AUTOS_PAR</code>
+                <type>INT32</type>
+                <short_desc>If not equal to zero the commander will automatically save parameters to persistent storage once changed.
+Default is on, as the interoperability with currently deployed GCS solutions depends on parameters
+being sticky. Developers can default it to off</short_desc>
+                <default>1</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>COM_DL_LOSS_EN</code>
+                <type>INT32</type>
+                <short_desc>Datalink loss mode enabled</short_desc>
+                <long_desc>Set to 1 to enable actions triggered when the datalink is lost.</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>COM_DL_LOSS_T</code>
+                <type>INT32</type>
+                <short_desc>After this amount of seconds without datalink the data link lost mode triggers</short_desc>
+                <default>10</default>
+                <min>0</min>
+                <max>30</max>
+                <unit>second</unit>
+            </parameter>
+            <parameter>
+                <code>COM_DL_REG_T</code>
+                <type>INT32</type>
+                <short_desc>After a data link loss: after this this amount of seconds with a healthy datalink the 'datalink loss'
+flag is set back to false</short_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>30</max>
+                <unit>second</unit>
+            </parameter>
+            <parameter>
+                <code>COM_EF_C2T</code>
+                <type>FLOAT</type>
+                <short_desc>Engine failure triggers only below this current/throttle value</short_desc>
+                <default>5.0</default>
+                <min>0.0</min>
+                <max>7.0</max>
+            </parameter>
+            <parameter>
+                <code>COM_EF_THROT</code>
+                <type>FLOAT</type>
+                <short_desc>Engine failure triggers only above this throttle value</short_desc>
+                <default>0.5</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>COM_EF_TIME</code>
+                <type>FLOAT</type>
+                <short_desc>Engine failure triggers only if the throttle threshold and the
+current to throttle threshold are violated for this time</short_desc>
+                <default>10.0</default>
+                <min>0.0</min>
+                <max>7.0</max>
+                <unit>second</unit>
+            </parameter>
+            <parameter>
+                <code>COM_RC_LOSS_T</code>
+                <type>FLOAT</type>
+                <short_desc>After this amount of seconds without RC connection the rc lost flag is set to true</short_desc>
+                <default>0.5</default>
+                <min>0</min>
+                <max>35</max>
+                <unit>second</unit>
+            </parameter>
+        </group>
+        <group name="mTECS">
+            <parameter>
+                <code>MT_ACC_D</code>
+                <type>FLOAT</type>
+                <short_desc>D gain for the airspeed control
+Maps the change of airspeed error to the acceleration setpoint</short_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_ACC_D_LP</code>
+                <type>FLOAT</type>
+                <short_desc>Lowpass for ACC error derivative calculation (see MT_ACC_D)</short_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>MT_ACC_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal acceleration (air)</short_desc>
+                <default>40.0</default>
+                <unit>m/s^2</unit>
+            </parameter>
+            <parameter>
+                <code>MT_ACC_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal acceleration (air)</short_desc>
+                <default>-40.0</default>
+                <unit>m/s^2</unit>
+            </parameter>
+            <parameter>
+                <code>MT_ACC_P</code>
+                <type>FLOAT</type>
+                <short_desc>P gain for the airspeed control
+Maps the airspeed error to the acceleration setpoint</short_desc>
+                <default>0.3</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_AD_LP</code>
+                <type>FLOAT</type>
+                <short_desc>Airspeed derivative calculation lowpass</short_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>MT_ALT_LP</code>
+                <type>FLOAT</type>
+                <short_desc>Lowpass (cutoff freq.) for altitude</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>MT_A_LP</code>
+                <type>FLOAT</type>
+                <short_desc>Lowpass (cutoff freq.) for airspeed</short_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>MT_ENABLED</code>
+                <type>INT32</type>
+                <short_desc>mTECS enabled</short_desc>
+                <long_desc>Set to 1 to enable mTECS</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>1</max>
+            </parameter>
+            <parameter>
+                <code>MT_FPA_D</code>
+                <type>FLOAT</type>
+                <short_desc>D gain for the altitude control
+Maps the change of altitude error to the flight path angle setpoint</short_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_FPA_D_LP</code>
+                <type>FLOAT</type>
+                <short_desc>Lowpass for FPA error derivative calculation (see MT_FPA_D)</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>MT_FPA_LP</code>
+                <type>FLOAT</type>
+                <short_desc>Lowpass (cutoff freq.) for the flight path angle</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>MT_FPA_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal flight path angle setpoint</short_desc>
+                <default>30.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MT_FPA_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal flight path angle setpoint</short_desc>
+                <default>-20.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MT_FPA_P</code>
+                <type>FLOAT</type>
+                <short_desc>P gain for the altitude control
+Maps the altitude error to the flight path angle setpoint</short_desc>
+                <default>0.3</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_LND_PIT_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal pitch in landing mode</short_desc>
+                <default>15.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MT_LND_PIT_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal pitch in landing mode</short_desc>
+                <default>-5.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MT_LND_THR_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal throttle in landing mode (only last phase of landing)</short_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_LND_THR_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal throttle in landing mode (only last phase of landing)</short_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_PIT_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Energy Distribution Rate Control Feedforward
+Maps the energy distribution rate setpoint to the pitch setpoint</short_desc>
+                <default>0.4</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_PIT_I</code>
+                <type>FLOAT</type>
+                <short_desc>Energy Distribution Rate Control I
+Maps the integrated energy distribution rate error to the pitch setpoint</short_desc>
+                <default>0.03</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_PIT_I_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Integrator Limit for Energy Distribution Rate Control</short_desc>
+                <default>10.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_PIT_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal Pitch Setpoint in Degrees</short_desc>
+                <default>20.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MT_PIT_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal Pitch Setpoint in Degrees</short_desc>
+                <default>-45.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MT_PIT_OFF</code>
+                <type>FLOAT</type>
+                <short_desc>Total Energy Distribution Offset (Cruise pitch sp)</short_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_PIT_P</code>
+                <type>FLOAT</type>
+                <short_desc>Energy Distribution Rate Control P
+Maps the energy distribution rate error to the pitch setpoint</short_desc>
+                <default>0.03</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_THR_FF</code>
+                <type>FLOAT</type>
+                <short_desc>Total Energy Rate Control Feedforward
+Maps the total energy rate setpoint to the throttle setpoint</short_desc>
+                <default>0.7</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_THR_I</code>
+                <type>FLOAT</type>
+                <short_desc>Total Energy Rate Control I
+Maps the integrated total energy rate to the throttle setpoint</short_desc>
+                <default>0.25</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_THR_I_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Integrator Limit for Total Energy Rate Control</short_desc>
+                <default>10.0</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_THR_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal Throttle Setpoint</short_desc>
+                <default>1.0</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_THR_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal Throttle Setpoint</short_desc>
+                <default>0.0</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_THR_OFF</code>
+                <type>FLOAT</type>
+                <short_desc>Total Energy Rate Control Offset (Cruise throttle sp)</short_desc>
+                <default>0.7</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_THR_P</code>
+                <type>FLOAT</type>
+                <short_desc>Total Energy Rate Control P
+Maps the total energy rate error to the throttle setpoint</short_desc>
+                <default>0.1</default>
+                <min>0.0</min>
+                <max>10.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_TKF_PIT_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal pitch during takeoff</short_desc>
+                <default>45.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MT_TKF_PIT_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal pitch during takeoff</short_desc>
+                <default>0.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MT_TKF_THR_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal throttle during takeoff</short_desc>
+                <default>1.0</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_TKF_THR_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal throttle during takeoff</short_desc>
+                <default>1.0</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_USP_PIT_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal pitch in underspeed mode</short_desc>
+                <default>0.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MT_USP_PIT_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal pitch in underspeed mode</short_desc>
+                <default>-45.0</default>
+                <min>-90.0</min>
+                <max>90.0</max>
+                <unit>deg</unit>
+            </parameter>
+            <parameter>
+                <code>MT_USP_THR_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>Maximal throttle in underspeed mode</short_desc>
+                <default>1.0</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+            <parameter>
+                <code>MT_USP_THR_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>Minimal throttle in underspeed mode</short_desc>
+                <default>1.0</default>
+                <min>0.0</min>
+                <max>1.0</max>
+            </parameter>
+        </group>
+        <group name="Miscellaneous">
+            <parameter>
+                <code>ATT_ACC_COMP</code>
+                <type>INT32</type>
+                <short_desc>ATT_ACC_COMP</short_desc>
+                <default>2</default>
+            </parameter>
+            <parameter>
+                <code>ATT_MAG_DECL</code>
+                <type>FLOAT</type>
+                <short_desc>ATT_MAG_DECL</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>EXFW_HDNG_P</code>
+                <type>FLOAT</type>
+                <short_desc>EXFW_HDNG_P</short_desc>
+                <default>0.1</default>
+            </parameter>
+            <parameter>
+                <code>EXFW_PITCH_P</code>
+                <type>FLOAT</type>
+                <short_desc>EXFW_PITCH_P</short_desc>
+                <default>0.2</default>
+            </parameter>
+            <parameter>
+                <code>EXFW_ROLL_P</code>
+                <type>FLOAT</type>
+                <short_desc>EXFW_ROLL_P</short_desc>
+                <default>0.2</default>
+            </parameter>
+            <parameter>
+                <code>FPE_DEBUG</code>
+                <type>INT32</type>
+                <short_desc>FPE_DEBUG</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>FPE_LO_THRUST</code>
+                <type>FLOAT</type>
+                <short_desc>FPE_LO_THRUST</short_desc>
+                <default>0.4</default>
+            </parameter>
+            <parameter>
+                <code>FPE_SONAR_LP_L</code>
+                <type>FLOAT</type>
+                <short_desc>FPE_SONAR_LP_L</short_desc>
+                <default>0.2</default>
+            </parameter>
+            <parameter>
+                <code>FPE_SONAR_LP_U</code>
+                <type>FLOAT</type>
+                <short_desc>FPE_SONAR_LP_U</short_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>FWB_CR2THR_D</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_CR2THR_D</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_CR2THR_D_LP</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_CR2THR_D_LP</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_CR2THR_I</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_CR2THR_I</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_CR2THR_I_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_CR2THR_I_MAX</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_CR2THR_P</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_CR2THR_P</short_desc>
+                <default>0.01</default>
+            </parameter>
+            <parameter>
+                <code>FWB_CR_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_CR_MAX</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_H2THR_D</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_H2THR_D</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_H2THR_D_LP</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_H2THR_D_LP</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_H2THR_I</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_H2THR_I</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_H2THR_I_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_H2THR_I_MAX</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_H2THR_P</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_H2THR_P</short_desc>
+                <default>0.01</default>
+            </parameter>
+            <parameter>
+                <code>FWB_P2AIL</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_P2AIL</short_desc>
+                <default>0.3</default>
+            </parameter>
+            <parameter>
+                <code>FWB_PHI2P</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_PHI2P</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_PHI_LIM_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_PHI_LIM_MAX</short_desc>
+                <default>0.3</default>
+            </parameter>
+            <parameter>
+                <code>FWB_PSI2PHI</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_PSI2PHI</short_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>FWB_P_LP</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_P_LP</short_desc>
+                <default>300.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_Q2ELV</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_Q2ELV</short_desc>
+                <default>0.1</default>
+            </parameter>
+            <parameter>
+                <code>FWB_Q_LP</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_Q_LP</short_desc>
+                <default>300.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_R2RDR</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_R2RDR</short_desc>
+                <default>0.1</default>
+            </parameter>
+            <parameter>
+                <code>FWB_R_HP</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_R_HP</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_R_LP</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_R_LP</short_desc>
+                <default>300.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_THE2Q_D</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_THE2Q_D</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_THE2Q_D_LP</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_THE2Q_D_LP</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_THE2Q_I</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_THE2Q_I</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_THE2Q_I_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_THE2Q_I_MAX</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_THE2Q_P</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_THE2Q_P</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_THE_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_THE_MAX</short_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>FWB_THE_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_THE_MIN</short_desc>
+                <default>-0.5</default>
+            </parameter>
+            <parameter>
+                <code>FWB_TRIM_THR</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_TRIM_THR</short_desc>
+                <default>0.8</default>
+            </parameter>
+            <parameter>
+                <code>FWB_TRIM_V</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_TRIM_V</short_desc>
+                <default>12.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_V2THE_D</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_V2THE_D</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_V2THE_D_LP</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_V2THE_D_LP</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_V2THE_I</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_V2THE_I</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_V2THE_I_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_V2THE_I_MAX</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_V2THE_P</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_V2THE_P</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_V_CMD</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_V_CMD</short_desc>
+                <default>12.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_V_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_V_MAX</short_desc>
+                <default>16.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_V_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_V_MIN</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>FWB_XT2YAW</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_XT2YAW</short_desc>
+                <default>0.005</default>
+            </parameter>
+            <parameter>
+                <code>FWB_XT2YAW_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>FWB_XT2YAW_MAX</short_desc>
+                <default>1.57</default>
+            </parameter>
+            <parameter>
+                <code>FW_FLARE_PMAX</code>
+                <type>FLOAT</type>
+                <short_desc>Flare, maximum pitch</short_desc>
+                <long_desc>Maximum pitch during flare, a positive sign means nose up
+Applied once FW_LND_TLALT is reached</long_desc>
+                <default>15.0</default>
+            </parameter>
+            <parameter>
+                <code>FW_FLARE_PMIN</code>
+                <type>FLOAT</type>
+                <short_desc>Flare, minimum pitch</short_desc>
+                <long_desc>Minimum pitch during flare, a positive sign means nose up
+Applied once FW_LND_TLALT is reached</long_desc>
+                <default>2.5</default>
+            </parameter>
+            <parameter>
+                <code>RC10_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC10_DZ</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>RC10_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC10_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC10_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC10_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC10_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC10_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC10_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC10_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC11_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC11_DZ</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>RC11_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC11_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC11_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC11_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC11_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC11_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC11_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC11_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC12_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC12_DZ</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>RC12_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC12_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC12_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC12_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC12_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC12_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC12_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC12_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC13_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC13_DZ</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>RC13_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC13_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC13_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC13_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC13_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC13_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC13_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC13_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC14_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC14_DZ</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>RC14_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC14_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC14_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC14_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC14_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC14_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC14_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC14_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC15_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC15_DZ</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>RC15_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC15_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC15_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC15_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC15_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC15_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC15_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC15_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC16_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC16_DZ</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>RC16_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC16_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC16_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC16_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC16_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC16_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC16_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC16_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC17_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC17_DZ</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>RC17_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC17_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC17_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC17_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC17_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC17_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC17_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC17_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC18_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC18_DZ</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>RC18_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC18_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC18_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC18_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC18_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC18_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC18_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC18_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC3_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC3_DZ</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>RC3_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC3_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC3_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC3_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC3_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC3_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC3_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC3_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC4_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC4_DZ</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>RC4_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC4_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC4_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC4_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC4_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC4_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC4_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC4_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC5_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC5_DZ</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>RC5_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC5_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC5_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC5_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC5_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC5_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC5_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC5_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC6_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC6_DZ</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>RC6_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC6_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC6_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC6_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC6_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC6_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC6_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC6_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC7_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC7_DZ</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>RC7_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC7_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC7_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC7_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC7_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC7_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC7_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC7_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC8_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC8_DZ</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>RC8_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC8_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC8_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC8_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC8_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC8_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC8_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC8_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC9_DZ</code>
+                <type>FLOAT</type>
+                <short_desc>RC9_DZ</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>RC9_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>RC9_MAX</short_desc>
+                <default>2000</default>
+            </parameter>
+            <parameter>
+                <code>RC9_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>RC9_MIN</short_desc>
+                <default>1000</default>
+            </parameter>
+            <parameter>
+                <code>RC9_REV</code>
+                <type>FLOAT</type>
+                <short_desc>RC9_REV</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>RC9_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>RC9_TRIM</short_desc>
+                <default>1500</default>
+            </parameter>
+            <parameter>
+                <code>RC_ACRO_TH</code>
+                <type>FLOAT</type>
+                <short_desc>Threshold for selecting acro mode</short_desc>
+                <long_desc>min:-1
+max:+1
+0-1 indicate where in the full channel range the threshold sits
+0 : min
+1 : max
+sign indicates polarity of comparison
+positive : true when channel&gt;th
+negative : true when channel&lt;th</long_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>RC_ASSIST_TH</code>
+                <type>FLOAT</type>
+                <short_desc>Threshold for selecting assist mode</short_desc>
+                <long_desc>min:-1
+max:+1
+0-1 indicate where in the full channel range the threshold sits
+0 : min
+1 : max
+sign indicates polarity of comparison
+positive : true when channel&gt;th
+negative : true when channel&lt;th</long_desc>
+                <default>0.25</default>
+            </parameter>
+            <parameter>
+                <code>RC_AUTO_TH</code>
+                <type>FLOAT</type>
+                <short_desc>Threshold for selecting auto mode</short_desc>
+                <long_desc>min:-1
+max:+1
+0-1 indicate where in the full channel range the threshold sits
+0 : min
+1 : max
+sign indicates polarity of comparison
+positive : true when channel&gt;th
+negative : true when channel&lt;th</long_desc>
+                <default>0.75</default>
+            </parameter>
+            <parameter>
+                <code>RC_LOITER_TH</code>
+                <type>FLOAT</type>
+                <short_desc>Threshold for selecting loiter mode</short_desc>
+                <long_desc>min:-1
+max:+1
+0-1 indicate where in the full channel range the threshold sits
+0 : min
+1 : max
+sign indicates polarity of comparison
+positive : true when channel&gt;th
+negative : true when channel&lt;th</long_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>RC_MAP_FAILSAFE</code>
+                <type>INT32</type>
+                <short_desc>Failsafe channel mapping</short_desc>
+                <long_desc>The RC mapping index indicates which channel is used for failsafe
+If 0, whichever channel is mapped to throttle is used
+otherwise the value indicates the specific rc channel to use</long_desc>
+                <default>0</default>
+                <min>0</min>
+                <max>18</max>
+            </parameter>
+            <parameter>
+                <code>RC_OFFB_TH</code>
+                <type>FLOAT</type>
+                <short_desc>Threshold for selecting offboard mode</short_desc>
+                <long_desc>min:-1
+max:+1
+0-1 indicate where in the full channel range the threshold sits
+0 : min
+1 : max
+sign indicates polarity of comparison
+positive : true when channel&gt;th
+negative : true when channel&lt;th</long_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>RC_POSCTL_TH</code>
+                <type>FLOAT</type>
+                <short_desc>Threshold for selecting posctl mode</short_desc>
+                <long_desc>min:-1
+max:+1
+0-1 indicate where in the full channel range the threshold sits
+0 : min
+1 : max
+sign indicates polarity of comparison
+positive : true when channel&gt;th
+negative : true when channel&lt;th</long_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>RC_RETURN_TH</code>
+                <type>FLOAT</type>
+                <short_desc>Threshold for selecting return to launch mode</short_desc>
+                <long_desc>min:-1
+max:+1
+0-1 indicate where in the full channel range the threshold sits
+0 : min
+1 : max
+sign indicates polarity of comparison
+positive : true when channel&gt;th
+negative : true when channel&lt;th</long_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>RC_RL1_DSM_VCC</code>
+                <type>INT32</type>
+                <short_desc>RC_RL1_DSM_VCC</short_desc>
+                <default>0</default>
+            </parameter>
+            <parameter>
+                <code>RV_YAW_P</code>
+                <type>FLOAT</type>
+                <short_desc>RV_YAW_P</short_desc>
+                <default>0.1</default>
+            </parameter>
+            <parameter>
+                <code>SEG_Q2V</code>
+                <type>FLOAT</type>
+                <short_desc>SEG_Q2V</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>SEG_TH2V_I</code>
+                <type>FLOAT</type>
+                <short_desc>SEG_TH2V_I</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>SEG_TH2V_I_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>SEG_TH2V_I_MAX</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>SEG_TH2V_P</code>
+                <type>FLOAT</type>
+                <short_desc>SEG_TH2V_P</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>SO3_COMP_KI</code>
+                <type>FLOAT</type>
+                <short_desc>SO3_COMP_KI</short_desc>
+                <default>0.05</default>
+            </parameter>
+            <parameter>
+                <code>SO3_COMP_KP</code>
+                <type>FLOAT</type>
+                <short_desc>SO3_COMP_KP</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>SO3_PITCH_OFFS</code>
+                <type>FLOAT</type>
+                <short_desc>SO3_PITCH_OFFS</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>SO3_ROLL_OFFS</code>
+                <type>FLOAT</type>
+                <short_desc>SO3_ROLL_OFFS</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>SO3_YAW_OFFS</code>
+                <type>FLOAT</type>
+                <short_desc>SO3_YAW_OFFS</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>TEST_D</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_D</short_desc>
+                <default>0.01</default>
+            </parameter>
+            <parameter>
+                <code>TEST_DEV</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_DEV</short_desc>
+                <default>2.0</default>
+            </parameter>
+            <parameter>
+                <code>TEST_D_LP</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_D_LP</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>TEST_HP</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_HP</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>TEST_I</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_I</short_desc>
+                <default>0.1</default>
+            </parameter>
+            <parameter>
+                <code>TEST_I_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_I_MAX</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>TEST_LP</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_LP</short_desc>
+                <default>10.0</default>
+            </parameter>
+            <parameter>
+                <code>TEST_MAX</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_MAX</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>TEST_MEAN</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_MEAN</short_desc>
+                <default>1.0</default>
+            </parameter>
+            <parameter>
+                <code>TEST_MIN</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_MIN</short_desc>
+                <default>-1.0</default>
+            </parameter>
+            <parameter>
+                <code>TEST_P</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_P</short_desc>
+                <default>0.2</default>
+            </parameter>
+            <parameter>
+                <code>TEST_TRIM</code>
+                <type>FLOAT</type>
+                <short_desc>TEST_TRIM</short_desc>
+                <default>0.5</default>
+            </parameter>
+            <parameter>
+                <code>TRIM_PITCH</code>
+                <type>FLOAT</type>
+                <short_desc>TRIM_PITCH</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>TRIM_ROLL</code>
+                <type>FLOAT</type>
+                <short_desc>TRIM_ROLL</short_desc>
+                <default>0.0</default>
+            </parameter>
+            <parameter>
+                <code>TRIM_YAW</code>
+                <type>FLOAT</type>
+                <short_desc>TRIM_YAW</short_desc>
+                <default>0.0</default>
+            </parameter>
+        </group>
+    </parameters>