Exemplo n.º 1
0
def horiz_errorFunc():
    # compute error function using global data structures
    horiz_ned = [0, 0, 0]  # any value works here (as long as it's consistent
    result = []
    for r in data:
        camera.update_PROJ(horiz_ned, r[3], r[4], r[5]) # aircraft body attit
        #print("video:", r[1]*r2d, r[2]*r2d)
        roll, pitch = camera.find_horizon()
        #result.append( r[1] - (r[5] + xk[2]) )
        #result.append( r[2] - (r[4] + xk[1]) )
        if not roll is None:
            result.append( r[1] - roll )
            result.append( r[2] - pitch )
    return np.array(result)
Exemplo n.º 2
0
        flight_mode = 'auto'            

    if 'mission' in data:
        excite_mode = mission['excite']
        test_index = mission['test_index']

    record = iter.next()
    hud1.update_task(record)
    while 'imu' in record and record['imu']['time'] < time:
        record = iter.next()
        hud1.update_task(record)

    ned = navpy.lla2ned( lat_deg, lon_deg, filt_alt,
                         ref[0], ref[1], ref[2] )
    #print 'ned:', ned
    camera.update_PROJ(ned, yaw_rad, pitch_rad, roll_rad)

    method = cv2.INTER_AREA
    #method = cv2.INTER_LANCZOS4
    frame_scale = cv2.resize(frame, (0,0), fx=args.scale, fy=args.scale,
                             interpolation=method)
    frame_undist = cv2.undistort(frame_scale, K, np.array(dist))

    # Create hud draw space
    if not experimental_overlay:
        hud1_frame = frame_undist.copy()
    else:
        hud1_frame = np.zeros((frame_undist.shape), np.uint8)

    hud1.update_time(time, gps['unix_sec'])
    if 'event' in data: