/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*- #ifndef __AP_AHRS_DCM_H__ #define __AP_AHRS_DCM_H__ /* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* * DCM based AHRS (Attitude Heading Reference System) interface for * ArduPilot * */ class AP_AHRS_DCM : public AP_AHRS { public: // Constructors AP_AHRS_DCM(AP_InertialSensor &ins, AP_Baro &baro, AP_GPS &gps) : AP_AHRS(ins, baro, gps), _omega_I_sum_time(0.0f), _renorm_val_sum(0.0f), _renorm_val_count(0), _error_rp(1.0f), _error_yaw(1.0f), _gps_last_update(0), _ra_deltat(0.0f), _ra_sum_start(0), _last_declination(0.0f), _mag_earth(1,0), _have_gps_lock(false), _last_lat(0), _last_lng(0), _position_offset_north(0.0f), _position_offset_east(0.0f), _have_position(false), _last_wind_time(0), _last_airspeed(0.0f), _last_consistent_heading(0), _imu1_weight(0.5f), _last_failure_ms(0), _last_startup_ms(0) { _dcm_matrix.identity(); // these are experimentally derived from the simulator // with large drift levels _ki = 0.0087f; _ki_yaw = 0.01f; } // return the smoothed gyro vector corrected for drift const Vector3f &get_gyro(void) const { return _omega; } // return rotation matrix representing rotaton from body to earth axes const Matrix3f &get_rotation_body_to_ned(void) const { return _body_dcm_matrix; } // return the current drift correction integrator value const Vector3f &get_gyro_drift(void) const { return _omega_I; } // reset the current gyro drift estimate // should be called if gyro offsets are recalculated void reset_gyro_drift(void); // Methods void update(void); void reset(bool recover_eulers = false); // reset the current attitude, used on new IMU calibration void reset_attitude(const float &roll, const float &pitch, const float &yaw); // dead-reckoning support virtual bool get_position(struct Location &loc) const; // status reporting float get_error_rp(void) const { return _error_rp; } float get_error_yaw(void) const { return _error_yaw; } // return a wind estimation vector, in m/s Vector3f wind_estimate(void) { return _wind; } // return an airspeed estimate if available. return true // if we have an estimate bool airspeed_estimate(float *airspeed_ret) const; bool use_compass(void); void set_home(const Location &loc); void estimate_wind(void); // is the AHRS subsystem healthy? bool healthy(void) const; // time that the AHRS has been up uint32_t uptime_ms(void) const; private: float _ki; float _ki_yaw; // Methods void matrix_update(float _G_Dt); void normalize(void); void check_matrix(void); bool renorm(Vector3f const &a, Vector3f &result); void drift_correction(float deltat); void drift_correction_yaw(void); float yaw_error_compass(); void euler_angles(void); bool have_gps(void) const; bool use_fast_gains(void) const; // primary representation of attitude of board used for all inertial calculations Matrix3f _dcm_matrix; // primary representation of attitude of flight vehicle body Matrix3f _body_dcm_matrix; Vector3f _omega_P; // accel Omega proportional correction Vector3f _omega_yaw_P; // proportional yaw correction Vector3f _omega_I; // Omega Integrator correction Vector3f _omega_I_sum; float _omega_I_sum_time; Vector3f _omega; // Corrected Gyro_Vector data // variables to cope with delaying the GA sum to match GPS lag Vector3f ra_delayed(uint8_t instance, const Vector3f &ra); Vector3f _ra_delay_buffer[INS_MAX_INSTANCES]; // P term gain based on spin rate float _P_gain(float spin_rate); // P term yaw gain based on rate of change of horiz velocity float _yaw_gain(void) const; // state to support status reporting float _renorm_val_sum; uint16_t _renorm_val_count; float _error_rp; float _error_yaw; // time in millis when we last got a GPS heading uint32_t _gps_last_update; // state of accel drift correction Vector3f _ra_sum[INS_MAX_INSTANCES]; Vector3f _last_velocity; float _ra_deltat; uint32_t _ra_sum_start; // the earths magnetic field float _last_declination; Vector2f _mag_earth; // whether we have GPS lock bool _have_gps_lock; // the lat/lng where we last had GPS lock int32_t _last_lat; int32_t _last_lng; // position offset from last GPS lock float _position_offset_north; float _position_offset_east; // whether we have a position estimate bool _have_position; // support for wind estimation Vector3f _last_fuse; Vector3f _last_vel; uint32_t _last_wind_time; float _last_airspeed; uint32_t _last_consistent_heading; // estimated wind in m/s Vector3f _wind; float _imu1_weight; // last time AHRS failed in milliseconds uint32_t _last_failure_ms; // time when DCM was last reset uint32_t _last_startup_ms; }; #endif // __AP_AHRS_DCM_H__