mirror of https://github.com/ArduPilot/ardupilot
269 lines
10 KiB
Plaintext
269 lines
10 KiB
Plaintext
/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
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// get_smoothing_gain - returns smoothing gain to be passed into attitude_control.angle_ef_roll_pitch_rate_ef_yaw_smooth
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// result is a number from 2 to 12 with 2 being very sluggish and 12 being very crisp
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float get_smoothing_gain()
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{
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return (2.0f + (float)g.rc_feel_rp/10.0f);
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}
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// get_pilot_desired_angle - transform pilot's roll or pitch input into a desired lean angle
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// returns desired angle in centi-degrees
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static void get_pilot_desired_lean_angles(int16_t roll_in, int16_t pitch_in, int16_t &roll_out, int16_t &pitch_out)
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{
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static float _scaler = 1.0;
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static int16_t _angle_max = 0;
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// range check the input
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roll_in = constrain_int16(roll_in, -ROLL_PITCH_INPUT_MAX, ROLL_PITCH_INPUT_MAX);
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pitch_in = constrain_int16(pitch_in, -ROLL_PITCH_INPUT_MAX, ROLL_PITCH_INPUT_MAX);
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// return filtered roll if no scaling required
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if (aparm.angle_max == ROLL_PITCH_INPUT_MAX) {
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roll_out = roll_in;
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pitch_out = pitch_in;
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return;
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}
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// check if angle_max has been updated and redo scaler
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if (aparm.angle_max != _angle_max) {
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_angle_max = aparm.angle_max;
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_scaler = (float)aparm.angle_max/(float)ROLL_PITCH_INPUT_MAX;
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}
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// convert pilot input to lean angle
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roll_out = (int16_t)((float)roll_in * _scaler);
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pitch_out = (int16_t)((float)pitch_in * _scaler);
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}
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// get_pilot_desired_heading - transform pilot's yaw input into a desired heading
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// returns desired angle in centi-degrees
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// To-Do: return heading as a float?
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static float get_pilot_desired_yaw_rate(int16_t stick_angle)
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{
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// convert pilot input to the desired yaw rate
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return stick_angle * g.acro_yaw_p;
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}
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/*************************************************************
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* yaw controllers
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*************************************************************/
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// get_roi_yaw - returns heading towards location held in roi_WP
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// should be called at 100hz
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static float get_roi_yaw()
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{
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static uint8_t roi_yaw_counter = 0; // used to reduce update rate to 10hz
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roi_yaw_counter++;
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if (roi_yaw_counter >= 10) {
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roi_yaw_counter = 0;
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yaw_look_at_WP_bearing = pv_get_bearing_cd(inertial_nav.get_position(), roi_WP);
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}
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return yaw_look_at_WP_bearing;
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}
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static float get_look_ahead_yaw()
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{
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// Commanded Yaw to automatically look ahead.
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if (gps.status() >= AP_GPS::GPS_OK_FIX_2D && gps.ground_speed_cm() > YAW_LOOK_AHEAD_MIN_SPEED) {
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yaw_look_ahead_bearing = gps.ground_course_cd();
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}
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return yaw_look_ahead_bearing;
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}
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/*************************************************************
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* throttle control
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****************************************************************/
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// update_thr_cruise - update throttle cruise if necessary
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// should be called at 100hz
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static void update_thr_cruise()
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{
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// ensure throttle_avg has been initialised
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if( throttle_avg == 0 ) {
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throttle_avg = g.throttle_cruise;
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// update position controller
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pos_control.set_throttle_hover(throttle_avg);
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}
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// if not armed or landed exit
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if (!motors.armed() || ap.land_complete) {
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return;
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}
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// get throttle output
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int16_t throttle = g.rc_3.servo_out;
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// calc average throttle if we are in a level hover
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if (throttle > g.throttle_min && abs(climb_rate) < 60 && labs(ahrs.roll_sensor) < 500 && labs(ahrs.pitch_sensor) < 500) {
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throttle_avg = throttle_avg * 0.99f + (float)throttle * 0.01f;
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g.throttle_cruise = throttle_avg;
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// update position controller
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pos_control.set_throttle_hover(throttle_avg);
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}
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}
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// set_throttle_takeoff - allows parents to tell throttle controller we are taking off so I terms can be cleared
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static void
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set_throttle_takeoff()
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{
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// tell position controller to reset alt target and reset I terms
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pos_control.init_takeoff();
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// tell motors to do a slow start
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motors.slow_start(true);
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}
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// get_pilot_desired_throttle - transform pilot's throttle input to make cruise throttle mid stick
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// used only for manual throttle modes
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// returns throttle output 0 to 1000
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#define THROTTLE_IN_MIDDLE 500 // the throttle mid point
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static int16_t get_pilot_desired_throttle(int16_t throttle_control)
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{
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int16_t throttle_out;
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// exit immediately in the simple cases
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if( throttle_control == 0 || g.throttle_mid == 500) {
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return throttle_control;
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}
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// ensure reasonable throttle values
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throttle_control = constrain_int16(throttle_control,0,1000);
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g.throttle_mid = constrain_int16(g.throttle_mid,300,700);
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// check throttle is above, below or in the deadband
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if (throttle_control < THROTTLE_IN_MIDDLE) {
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// below the deadband
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throttle_out = g.throttle_min + ((float)(throttle_control-g.throttle_min))*((float)(g.throttle_mid - g.throttle_min))/((float)(500-g.throttle_min));
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}else if(throttle_control > THROTTLE_IN_MIDDLE) {
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// above the deadband
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throttle_out = g.throttle_mid + ((float)(throttle_control-500))*(float)(1000-g.throttle_mid)/500.0f;
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}else{
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// must be in the deadband
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throttle_out = g.throttle_mid;
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}
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return throttle_out;
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}
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// get_pilot_desired_climb_rate - transform pilot's throttle input to
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// climb rate in cm/s. we use radio_in instead of control_in to get the full range
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// without any deadzone at the bottom
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#define THROTTLE_IN_DEADBAND_TOP (THROTTLE_IN_MIDDLE+g.throttle_deadzone) // top of the deadband
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#define THROTTLE_IN_DEADBAND_BOTTOM (THROTTLE_IN_MIDDLE-g.throttle_deadzone) // bottom of the deadband
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static int16_t get_pilot_desired_climb_rate(int16_t throttle_control)
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{
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int16_t desired_rate = 0;
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// throttle failsafe check
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if( failsafe.radio ) {
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return 0;
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}
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// ensure a reasonable throttle value
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throttle_control = constrain_int16(throttle_control,0,1000);
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// ensure a reasonable deadzone
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g.throttle_deadzone = constrain_int16(g.throttle_deadzone, 0, 400);
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// check throttle is above, below or in the deadband
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if (throttle_control < THROTTLE_IN_DEADBAND_BOTTOM) {
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// below the deadband
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desired_rate = (int32_t)g.pilot_velocity_z_max * (throttle_control-THROTTLE_IN_DEADBAND_BOTTOM) / (THROTTLE_IN_MIDDLE - g.throttle_deadzone);
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}else if (throttle_control > THROTTLE_IN_DEADBAND_TOP) {
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// above the deadband
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desired_rate = (int32_t)g.pilot_velocity_z_max * (throttle_control-THROTTLE_IN_DEADBAND_TOP) / (THROTTLE_IN_MIDDLE - g.throttle_deadzone);
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}else{
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// must be in the deadband
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desired_rate = 0;
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}
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// desired climb rate for logging
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desired_climb_rate = desired_rate;
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return desired_rate;
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}
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// get_non_takeoff_throttle - a throttle somewhere between min and mid throttle which should not lead to a takeoff
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static int16_t get_non_takeoff_throttle()
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{
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return (g.throttle_mid / 2.0f);
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}
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// get_throttle_pre_takeoff - convert pilot's input throttle to a throttle output before take-off
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// used only for althold, loiter, hybrid flight modes
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// returns throttle output 0 to 1000
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static int16_t get_throttle_pre_takeoff(int16_t throttle_control)
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{
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int16_t throttle_out;
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// exit immediately if throttle_control is zero
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if (throttle_control <= 0) {
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return 0;
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}
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// sanity check throttle input
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throttle_control = constrain_int16(throttle_control,0,1000);
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// sanity check throttle_mid
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g.throttle_mid = constrain_int16(g.throttle_mid,300,700);
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// sanity check throttle_min vs throttle_mid
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if (g.throttle_min > get_non_takeoff_throttle()) {
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return g.throttle_min;
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}
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// check throttle is below top of deadband
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if (throttle_control < THROTTLE_IN_DEADBAND_TOP) {
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throttle_out = g.throttle_min + ((float)(throttle_control-g.throttle_min))*((float)(get_non_takeoff_throttle() - g.throttle_min))/((float)(THROTTLE_IN_DEADBAND_TOP-g.throttle_min));
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}else{
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// must be in the deadband
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throttle_out = get_non_takeoff_throttle();
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}
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return throttle_out;
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}
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// get_throttle_surface_tracking - hold copter at the desired distance above the ground
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// returns climb rate (in cm/s) which should be passed to the position controller
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static float get_throttle_surface_tracking(int16_t target_rate, float current_alt_target, float dt)
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{
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static uint32_t last_call_ms = 0;
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float distance_error;
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float velocity_correction;
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uint32_t now = millis();
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// reset target altitude if this controller has just been engaged
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if (now - last_call_ms > SONAR_TIMEOUT_MS) {
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target_sonar_alt = sonar_alt + current_alt_target - current_loc.alt;
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}
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last_call_ms = now;
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// adjust sonar target alt if motors have not hit their limits
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if ((target_rate<0 && !motors.limit.throttle_lower) || (target_rate>0 && !motors.limit.throttle_upper)) {
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target_sonar_alt += target_rate * dt;
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}
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// do not let target altitude get too far from current altitude above ground
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// Note: the 750cm limit is perhaps too wide but is consistent with the regular althold limits and helps ensure a smooth transition
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target_sonar_alt = constrain_float(target_sonar_alt,sonar_alt-pos_control.get_leash_down_z(),sonar_alt+pos_control.get_leash_up_z());
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// calc desired velocity correction from target sonar alt vs actual sonar alt (remove the error already passed to Altitude controller to avoid oscillations)
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distance_error = (target_sonar_alt - sonar_alt) - (current_alt_target - current_loc.alt);
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velocity_correction = distance_error * g.sonar_gain;
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velocity_correction = constrain_float(velocity_correction, -THR_SURFACE_TRACKING_VELZ_MAX, THR_SURFACE_TRACKING_VELZ_MAX);
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// return combined pilot climb rate + rate to correct sonar alt error
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return (target_rate + velocity_correction);
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}
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// set_accel_throttle_I_from_pilot_throttle - smoothes transition from pilot controlled throttle to autopilot throttle
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static void set_accel_throttle_I_from_pilot_throttle(int16_t pilot_throttle)
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{
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// shift difference between pilot's throttle and hover throttle into accelerometer I
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g.pid_throttle_accel.set_integrator(pilot_throttle-g.throttle_cruise);
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}
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