mirror of https://github.com/ArduPilot/ardupilot
169 lines
6.3 KiB
Plaintext
169 lines
6.3 KiB
Plaintext
/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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/*
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* control_ofloiter.pde - init and run calls for of_loiter (optical flow loiter) flight mode
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*/
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#if OPTFLOW == ENABLED
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#define OPTFLOW_ALT_MAX_CM 1500 // maximum altitude above home that optical flow sensor will be used
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#define OPTFLOW_TIMEOUT_MS 200 // timeout in milliseconds after which we will give up on optical flow readings and return control to the pilot
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#define OPTFLOW_RP_RATE_LIM (2000/MAIN_LOOP_RATE) // limit in centi-degrees/sec on rate of change of roll-pitch target. Equal to 20deg/sec
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// ofloiter_init - initialise ofloiter controller
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static bool ofloiter_init(bool ignore_checks)
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{
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if (optflow.enabled() || ignore_checks) {
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// initialize vertical speed and acceleration
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pos_control.set_speed_z(-g.pilot_velocity_z_max, g.pilot_velocity_z_max);
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pos_control.set_accel_z(g.pilot_accel_z);
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// initialise altitude target to stopping point
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pos_control.set_target_to_stopping_point_z();
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// initialise of_roll, pitch to current attitude
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of_roll = ahrs.roll_sensor;
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of_pitch = ahrs.pitch_sensor;
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reset_optflow_I();
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return true;
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}else{
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return false;
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}
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}
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// ofloiter_run - runs the optical flow loiter controller
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// should be called at 100hz or more
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static void ofloiter_run()
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{
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int16_t target_roll, target_pitch;
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float final_roll, final_pitch;
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float target_yaw_rate = 0;
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float target_climb_rate = 0;
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// if not auto armed set throttle to zero and exit immediately
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if(!ap.auto_armed) {
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attitude_control.relax_bf_rate_controller();
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attitude_control.set_yaw_target_to_current_heading();
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attitude_control.set_throttle_out(0, false);
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pos_control.set_alt_target_to_current_alt();
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of_roll = ahrs.roll_sensor;
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of_pitch = ahrs.pitch_sensor;
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reset_optflow_I();
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return;
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}
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// process pilot inputs
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if (!failsafe.radio) {
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// apply SIMPLE mode transform to pilot inputs
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update_simple_mode();
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// convert pilot input to lean angles
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get_pilot_desired_lean_angles(g.rc_1.control_in, g.rc_2.control_in, target_roll, target_pitch);
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// get pilot's desired yaw rate
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target_yaw_rate = get_pilot_desired_yaw_rate(g.rc_4.control_in);
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// get pilot desired climb rate
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target_climb_rate = get_pilot_desired_climb_rate(g.rc_3.control_in);
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// check for pilot requested take-off
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if (ap.land_complete && target_climb_rate > 0) {
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// indicate we are taking off
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set_land_complete(false);
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// clear i term when we're taking off
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set_throttle_takeoff();
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}
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}
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// when landed reset targets and output zero throttle
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if (ap.land_complete) {
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attitude_control.relax_bf_rate_controller();
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attitude_control.set_yaw_target_to_current_heading();
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// move throttle to between minimum and non-takeoff-throttle to keep us on the ground
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attitude_control.set_throttle_out(get_throttle_pre_takeoff(g.rc_3.control_in), false);
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pos_control.set_alt_target_to_current_alt();
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of_roll = ahrs.roll_sensor;
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of_pitch = ahrs.pitch_sensor;
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}else{
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// mix in user control with optical flow
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get_of_roll_pitch(target_roll, target_pitch, final_roll, final_pitch);
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// call attitude controller
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attitude_control.angle_ef_roll_pitch_rate_ef_yaw_smooth(final_roll, final_pitch, target_yaw_rate, get_smoothing_gain());
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// run altitude controller
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if (sonar_alt_health >= SONAR_ALT_HEALTH_MAX) {
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// if sonar is ok, use surface tracking
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target_climb_rate = get_throttle_surface_tracking(target_climb_rate, pos_control.get_alt_target(), G_Dt);
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}
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// update altitude target and call position controller
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pos_control.set_alt_target_from_climb_rate(target_climb_rate, G_Dt);
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pos_control.update_z_controller();
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}
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}
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// calculate modified roll/pitch depending upon optical flow calculated position
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static void get_of_roll_pitch(int16_t input_roll, int16_t input_pitch, float &roll_out, float &pitch_out)
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{
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static uint32_t last_of_update = 0;
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float dt;
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Vector2f vel;
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// To-Do: pass input_roll, input_pitch through to roll_out, pitch_out if input is non-zero or previous iteration was non-zero
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// check if new optflow data available
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if (optflow.last_update() != last_of_update) {
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// calculate dt and sanity check
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dt = (optflow.last_update() - last_of_update) / 1000.0f;
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if (dt > 0.2f) {
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dt = 0.0f;
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g.pid_optflow_roll.reset_I();
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g.pid_optflow_pitch.reset_I();
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}
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last_of_update = optflow.last_update();
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// get latest velocity from sensor
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vel = optflow.velocity();
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}
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// calculate time since last update
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uint32_t time_since_update_ms = millis() - last_of_update;
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// use pilot roll input if input is non-zero, altitude above 15m or optical flow sensor has timed out
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if (input_roll != 0 || current_loc.alt > OPTFLOW_ALT_MAX_CM || time_since_update_ms > OPTFLOW_TIMEOUT_MS) {
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roll_out = input_roll;
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} else {
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// run velocity through pid controller
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roll_out = g.pid_optflow_roll.get_pid(-vel.x, dt);
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// limit amount of change and maximum angle
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// To-Do: replace reliance on of_roll, of_pitch within this function
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roll_out = constrain_float(roll_out, (of_roll-OPTFLOW_RP_RATE_LIM), (of_roll+OPTFLOW_RP_RATE_LIM));
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}
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// use pilot pitch input if input is non-zero, altitude above 15m or optical flow sensor has timed out
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if (input_pitch != 0 || current_loc.alt > OPTFLOW_ALT_MAX_CM || time_since_update_ms > OPTFLOW_TIMEOUT_MS) {
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pitch_out = input_pitch;
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} else {
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// run velocity through pid controller
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pitch_out = g.pid_optflow_pitch.get_pid(vel.y, dt);
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// limit amount of change and maximum angle
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// To-Do: replace reliance on of_roll, of_pitch within this function
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pitch_out = constrain_float(pitch_out, (of_pitch-OPTFLOW_RP_RATE_LIM), (of_pitch+OPTFLOW_RP_RATE_LIM));
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}
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}
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// reset_optflow_I - reset optflow position hold I terms
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static void reset_optflow_I(void)
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{
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g.pid_optflow_roll.reset_I();
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g.pid_optflow_pitch.reset_I();
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}
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#endif // OPTFLOW == ENABLED
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