mirror of https://github.com/ArduPilot/ardupilot
133 lines
5.9 KiB
C++
133 lines
5.9 KiB
C++
/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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This class inherits from AC_AttitudeControl_Multi and provides functionality
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specific to tailsitter quadplanes.
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1) "body-frame" roll control mode for all tailsitters
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2) a relax_attitude_controller method needed for coping with vectored tailsitters
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*/
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#include "AC_AttitudeControl_TS.h"
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AC_AttitudeControl_TS::AC_AttitudeControl_TS(AP_AHRS_View &ahrs, const AP_Vehicle::MultiCopter &aparm, AP_MotorsMulticopter& motors, float dt) :
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AC_AttitudeControl_Multi(ahrs, aparm, motors, dt)
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{
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}
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void AC_AttitudeControl_TS::relax_attitude_controllers(bool exclude_pitch)
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{
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// If exclude_pitch: relax roll and yaw rate controller outputs only,
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// leaving pitch controller active to let TVBS motors tilt up while in throttle_wait
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if (exclude_pitch) {
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// Get the current attitude quaternion
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Quaternion current_attitude;
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_ahrs.get_quat_body_to_ned(current_attitude);
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Vector3f current_eulers;
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current_attitude.to_euler(current_eulers.x, current_eulers.y, current_eulers.z);
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// set target attitude to zero pitch with (approximate) current roll and yaw
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// by rotating the current_attitude quaternion by the error in desired pitch
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Quaternion pitch_rotation;
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pitch_rotation.from_axis_angle(Vector3f(0, -1, 0), current_eulers.y);
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_attitude_target_quat = current_attitude * pitch_rotation;
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_attitude_target_quat.normalize();
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_attitude_target_quat.to_euler(_attitude_target_euler_angle.x, _attitude_target_euler_angle.y, _attitude_target_euler_angle.z);
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_attitude_ang_error = current_attitude.inverse() * _attitude_target_quat;
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// Initialize the roll and yaw angular rate variables to the current rate
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_attitude_target_ang_vel = _ahrs.get_gyro();
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ang_vel_to_euler_rate(_attitude_target_euler_angle, _attitude_target_ang_vel, _attitude_target_euler_rate);
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_rate_target_ang_vel.x = _ahrs.get_gyro().x;
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_rate_target_ang_vel.z = _ahrs.get_gyro().z;
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// Reset the roll and yaw I terms
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get_rate_roll_pid().reset_I();
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get_rate_yaw_pid().reset_I();
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} else {
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// relax all attitude controllers
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AC_AttitudeControl::relax_attitude_controllers();
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}
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}
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// Command euler yaw rate and pitch angle with roll angle specified in body frame
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// (used only by tailsitter quadplanes)
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// If plane_controls is true, swap the effects of roll and yaw as euler pitch approaches 90 degrees
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void AC_AttitudeControl_TS::input_euler_rate_yaw_euler_angle_pitch_bf_roll(bool plane_controls, float body_roll_cd, float euler_pitch_cd, float euler_yaw_rate_cds)
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{
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// Convert from centidegrees on public interface to radians
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float euler_yaw_rate = radians(euler_yaw_rate_cds*0.01f);
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float euler_pitch = radians(constrain_float(euler_pitch_cd * 0.01f, -90.0f, 90.0f));
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float body_roll = radians(-body_roll_cd * 0.01f);
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const float cpitch = cosf(euler_pitch);
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const float spitch = fabsf(sinf(euler_pitch));
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// Compute attitude error
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Quaternion attitude_vehicle_quat;
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Quaternion error_quat;
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_ahrs.get_quat_body_to_ned(attitude_vehicle_quat);
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error_quat = attitude_vehicle_quat.inverse() * _attitude_target_quat;
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Vector3f att_error;
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error_quat.to_axis_angle(att_error);
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// update heading
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float yaw_rate = euler_yaw_rate;
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if (plane_controls) {
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yaw_rate = (euler_yaw_rate * spitch) + (body_roll * cpitch);
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}
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// limit yaw error
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float yaw_error = fabsf(att_error.z);
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float error_ratio = yaw_error / M_PI_2;
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if (error_ratio > 1) {
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yaw_rate /= (error_ratio * error_ratio);
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}
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_attitude_target_euler_angle.z = wrap_PI(_attitude_target_euler_angle.z + yaw_rate * _dt);
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// init attitude target to desired euler yaw and pitch with zero roll
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_attitude_target_quat.from_euler(0, euler_pitch, _attitude_target_euler_angle.z);
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// apply body-frame yaw/roll (this is roll/yaw for a tailsitter in forward flight)
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// rotate body_roll axis by |sin(pitch angle)|
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Quaternion bf_roll_Q;
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bf_roll_Q.from_axis_angle(Vector3f(0, 0, spitch * body_roll));
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// rotate body_yaw axis by cos(pitch angle)
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Quaternion bf_yaw_Q;
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if (plane_controls) {
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bf_yaw_Q.from_axis_angle(Vector3f(cpitch, 0, 0), euler_yaw_rate);
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} else {
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bf_yaw_Q.from_axis_angle(Vector3f(-cpitch * body_roll, 0, 0));
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}
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_attitude_target_quat = _attitude_target_quat * bf_roll_Q * bf_yaw_Q;
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// _attitude_target_euler_angle roll and pitch: Note: roll/yaw will be indeterminate when pitch is near +/-90
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// These should be used only for logging target eulers, with the caveat noted above.
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// Also note that _attitude_target_quat.from_euler() should only be used in special circumstances
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// such as when attitude is specified directly in terms of Euler angles.
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// _attitude_target_euler_angle.x = _attitude_target_quat.get_euler_roll();
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// _attitude_target_euler_angle.y = euler_pitch;
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// Set rate feedforward requests to zero
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_attitude_target_euler_rate.zero();
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_attitude_target_ang_vel.zero();
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// Compute attitude error
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error_quat = attitude_vehicle_quat.inverse() * _attitude_target_quat;
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error_quat.to_axis_angle(att_error);
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// Compute the angular velocity target from the attitude error
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_rate_target_ang_vel = update_ang_vel_target_from_att_error(att_error);
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}
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