2023-04-01 01:12:14 -03:00
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#include "AP_AHRS_External.h"
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#if HAL_EXTERNAL_AHRS_ENABLED
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#include <AP_ExternalAHRS/AP_ExternalAHRS.h>
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#include <AP_AHRS/AP_AHRS.h>
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// true if the AHRS has completed initialisation
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bool AP_AHRS_External::initialised(void) const
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{
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return AP::externalAHRS().initialised();
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}
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void AP_AHRS_External::update()
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{
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AP::externalAHRS().update();
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}
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bool AP_AHRS_External::healthy() const {
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return AP::externalAHRS().healthy();
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}
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void AP_AHRS_External::get_results(AP_AHRS_Backend::Estimates &results)
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{
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Quaternion quat;
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if (!AP::externalAHRS().get_quaternion(quat)) {
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return;
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}
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quat.rotation_matrix(results.dcm_matrix);
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results.dcm_matrix = results.dcm_matrix * AP::ahrs().get_rotation_vehicle_body_to_autopilot_body();
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results.dcm_matrix.to_euler(&results.roll_rad, &results.pitch_rad, &results.yaw_rad);
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results.gyro_drift.zero();
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results.gyro_estimate = AP::externalAHRS().get_gyro();
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const Vector3f accel = AP::externalAHRS().get_accel();
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const Vector3f accel_ef = results.dcm_matrix * AP::ahrs().get_rotation_autopilot_body_to_vehicle_body() * accel;
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results.accel_ef = accel_ef;
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}
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bool AP_AHRS_External::get_location(struct Location &loc) const
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{
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return AP::externalAHRS().get_location(loc);
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}
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bool AP_AHRS_External::get_quaternion(Quaternion &quat) const
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{
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return AP::externalAHRS().get_quaternion(quat);
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}
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Vector2f AP_AHRS_External::groundspeed_vector()
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{
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return AP::externalAHRS().get_groundspeed_vector();
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}
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bool AP_AHRS_External::get_relative_position_NED_origin(Vector3f &vec) const
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{
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auto &extahrs = AP::externalAHRS();
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Location loc, orgn;
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if (extahrs.get_origin(orgn) &&
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extahrs.get_location(loc)) {
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const Vector2f diff2d = orgn.get_distance_NE(loc);
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vec = Vector3f(diff2d.x, diff2d.y,
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-(loc.alt - orgn.alt)*0.01);
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return true;
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}
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return false;
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}
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bool AP_AHRS_External::get_relative_position_NE_origin(Vector2f &posNE) const
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{
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auto &extahrs = AP::externalAHRS();
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Location loc, orgn;
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if (!extahrs.get_location(loc) ||
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!extahrs.get_origin(orgn)) {
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return false;
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}
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posNE = orgn.get_distance_NE(loc);
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return true;
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}
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bool AP_AHRS_External::get_relative_position_D_origin(float &posD) const
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{
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auto &extahrs = AP::externalAHRS();
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Location orgn, loc;
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if (!extahrs.get_origin(orgn) ||
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!extahrs.get_location(loc)) {
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return false;
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}
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posD = -(loc.alt - orgn.alt)*0.01;
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return true;
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}
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bool AP_AHRS_External::get_velocity_NED(Vector3f &vec) const
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{
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return AP::externalAHRS().get_velocity_NED(vec);
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}
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2023-05-31 04:24:15 -03:00
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bool AP_AHRS_External::get_vert_pos_rate_D(float &velocity) const
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2023-04-01 01:12:14 -03:00
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{
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return AP::externalAHRS().get_speed_down(velocity);
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}
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bool AP_AHRS_External::pre_arm_check(bool requires_position, char *failure_msg, uint8_t failure_msg_len) const
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{
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return AP::externalAHRS().pre_arm_check(failure_msg, failure_msg_len);
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}
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bool AP_AHRS_External::get_filter_status(nav_filter_status &status) const
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{
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AP::externalAHRS().get_filter_status(status);
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return true;
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}
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void AP_AHRS_External::send_ekf_status_report(GCS_MAVLINK &link) const
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{
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AP::externalAHRS().send_status_report(link);
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}
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bool AP_AHRS_External::get_origin(Location &ret) const
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{
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return AP::externalAHRS().get_origin(ret);
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}
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void AP_AHRS_External::get_control_limits(float &ekfGndSpdLimit, float &ekfNavVelGainScaler) const
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{
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// lower gains in VTOL controllers when flying on DCM
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ekfGndSpdLimit = 50.0;
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ekfNavVelGainScaler = 0.5;
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}
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#endif
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