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/**
* @file control.cpp
* Control functions for ekf attitude and position estimator.
*
* @author Paul Riseborough <p_riseborough@live.com.au>
*
*/
#include "ekf.h"
void Ekf::controlFusionModes()
{
// Determine the vehicle status
calculateVehicleStatus();
// optical flow fusion mode selection logic
_control_status.flags.opt_flow = false;
// GPS fusion mode selection logic
// To start use GPS we need angular alignment completed, the local NED origin set and fresh GPS data
if (!_control_status.flags.gps) {
if (_control_status.flags.angle_align && (_time_last_imu - _time_last_gps) < 5e5 && _NED_origin_initialised
&& (_time_last_imu - _last_gps_fail_us > 5e6)) {
_control_status.flags.gps = true;
resetPosition();
resetVelocity();
}
}
// decide when to start using optical flow data
if (!_control_status.flags.opt_flow) {
// TODO optical flow start logic
}
// handle the case when we are relying on GPS fusion and lose it
if (_control_status.flags.gps && !_control_status.flags.opt_flow) {
// We are relying on GPS aiding to constrain attitude drift so after 10 seconds without aiding we need to do something
if ((_time_last_imu - _time_last_pos_fuse > 10e6) && (_time_last_imu - _time_last_vel_fuse > 10e6)) {
if (_time_last_imu - _time_last_gps > 5e5) {
// if we don't have gps then we need to switch to the non-aiding mode, zero the veloity states
// and set the synthetic GPS position to the current estimate
_control_status.flags.gps = false;
_last_known_posNE(0) = _state.pos(0);
_last_known_posNE(1) = _state.pos(1);
_state.vel.setZero();
} else {
// Reset states to the last GPS measurement
resetPosition();
resetVelocity();
}
}
}
// handle the case when we are relying on optical flow fusion and lose it
if (_control_status.flags.opt_flow && !_control_status.flags.gps) {
// TODO
}
// Determine if we should use simple magnetic heading fusion which works better when there are large external disturbances
// or the more accurate 3-axis fusion
if (!_control_status.flags.armed) {
// always use simple mag fusion for initial startup
_control_status.flags.mag_hdg = true;
_control_status.flags.mag_3D = false;
} else {
if (_control_status.flags.in_air) {
// always use 3-axis mag fusion when airborne
_control_status.flags.mag_hdg = false;
_control_status.flags.mag_3D = true;
} else {
// always use simple heading fusion when on the ground
_control_status.flags.mag_hdg = true;
_control_status.flags.mag_3D = false;
}
}
// if we are using 3-axis magnetometer fusion, but without external aiding, then the declination needs to be fused as an observation to prevent long term heading drift
if (_control_status.flags.mag_3D && !_control_status.flags.gps) {
_control_status.flags.mag_dec = true;
} else {
_control_status.flags.mag_dec = false;
}
}
void Ekf::calculateVehicleStatus()
{
// determine if the vehicle is armed
_control_status.flags.armed = _vehicle_armed;
// record vertical position whilst disarmed to use as a height change reference
if (!_control_status.flags.armed) {
_last_disarmed_posD = _state.pos(2);
}
// Transition to in-air occurs when armed and when altitude has increased sufficiently from the altitude at arming
if (!_control_status.flags.in_air && _control_status.flags.armed && (_state.pos(2) - _last_disarmed_posD) < -1.0f) {
_control_status.flags.in_air = true;
}
// Transition to on-ground occurs when disarmed.
if (_control_status.flags.in_air && !_control_status.flags.armed) {
_control_status.flags.in_air = false;
}
}