#!/usr/bin/env python ''' fit best estimate of magnetometer offsets ''' import sys, time, os, math # allow import from the parent directory, where mavlink.py is sys.path.insert(0, os.path.join(os.path.dirname(os.path.realpath(__file__)), '..')) from optparse import OptionParser parser = OptionParser("magfit.py [options]") parser.add_option("--no-timestamps",dest="notimestamps", action='store_true', help="Log doesn't have timestamps") parser.add_option("--mav10", action='store_true', default=False, help="Use MAVLink protocol 1.0") parser.add_option("--minspeed", type='float', default=5.0, help="minimum ground speed to use") (opts, args) = parser.parse_args() if opts.mav10: os.environ['MAVLINK10'] = '1' import mavutil if len(args) < 1: print("Usage: magfit.py [options] ") sys.exit(1) class vec3(object): def __init__(self, x, y, z): self.x = x self.y = y self.z = z def __str__(self): return "%.1f %.1f %.1f" % (self.x, self.y, self.z) def heading_error1(parm, data): from math import sin, cos, atan2, degrees from numpy import dot xofs,yofs,zofs,a1,a2,a3,a4,a5,a6,a7,a8,a9,declination = parm ret = [] for d in data: x = d[0] + xofs y = d[1] + yofs z = d[2] + zofs r = d[3] p = d[4] h = d[5] headX = x*cos(p) + y*sin(r)*sin(p) + z*cos(r)*sin(p) headY = y*cos(r) - z*sin(r) heading = degrees(atan2(-headY,headX)) + declination if heading < 0: heading += 360 herror = h - heading if herror > 180: herror -= 360 if herror < -180: herror += 360 ret.append(herror) return ret def heading_error(parm, data): from math import sin, cos, atan2, degrees from numpy import dot xofs,yofs,zofs,a1,a2,a3,a4,a5,a6,a7,a8,a9,declination = parm a = [[1.0,a2,a3],[a4,a5,a6],[a7,a8,a9]] ret = [] for d in data: x = d[0] + xofs y = d[1] + yofs z = d[2] + zofs r = d[3] p = d[4] h = d[5] mv = [x, y, z] mv2 = dot(a, mv) x = mv2[0] y = mv2[1] z = mv2[2] headX = x*cos(p) + y*sin(r)*sin(p) + z*cos(r)*sin(p) headY = y*cos(r) - z*sin(r) heading = degrees(atan2(-headY,headX)) + declination if heading < 0: heading += 360 herror = h - heading if herror > 180: herror -= 360 if herror < -180: herror += 360 ret.append(herror) return ret def fit_data(data): import numpy, scipy from scipy import optimize p0 = [0.0, 0.0, 0.0, 1, 0, 0, 0, 1, 0, 0, 0, 1, 0] p1, ier = optimize.leastsq(heading_error1, p0[:], args=(data)) # p0 = p1[:] # p1, ier = optimize.leastsq(heading_error, p0[:], args=(data)) print(p1) if not ier in [1, 2, 3, 4]: raise RuntimeError("Unable to find solution") return p1 def magfit(logfile): '''find best magnetometer offset fit to a log file''' print("Processing log %s" % filename) mlog = mavutil.mavlink_connection(filename, notimestamps=opts.notimestamps) flying = False gps_heading = 0.0 data = [] # get the current mag offsets m = mlog.recv_match(type='SENSOR_OFFSETS') offsets = vec3(m.mag_ofs_x, m.mag_ofs_y, m.mag_ofs_z) attitude = mlog.recv_match(type='ATTITUDE') # now gather all the data while True: m = mlog.recv_match() if m is None: break if m.get_type() == "GPS_RAW": # flying if groundspeed more than 5 m/s flying = (m.v > opts.minspeed and m.fix_type == 2) gps_heading = m.hdg if m.get_type() == "ATTITUDE": attitude = m if m.get_type() == "SENSOR_OFFSETS": # update current offsets offsets = vec3(m.mag_ofs_x, m.mag_ofs_y, m.mag_ofs_z) if not flying: continue if m.get_type() == "RAW_IMU": data.append((m.xmag - offsets.x, m.ymag - offsets.y, m.zmag - offsets.z, attitude.roll, attitude.pitch, gps_heading)) print("Extracted %u data points" % len(data)) print("Current offsets: %s" % offsets) ofs2 = fit_data(data) print("Declination estimate: %.1f" % ofs2[-1]) new_offsets = vec3(ofs2[0], ofs2[1], ofs2[2]) a = [[ofs2[3], ofs2[4], ofs2[5]], [ofs2[6], ofs2[7], ofs2[8]], [ofs2[9], ofs2[10], ofs2[11]]] print(a) print("New offsets : %s" % new_offsets) total = 0.0 for filename in args: magfit(filename)