ardupilot/ArduCopter/control_guided.cpp

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/// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: nil -*-
#include "Copter.h"
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/*
* control_guided.pde - init and run calls for guided flight mode
*/
#ifndef GUIDED_LOOK_AT_TARGET_MIN_DISTANCE_CM
# define GUIDED_LOOK_AT_TARGET_MIN_DISTANCE_CM 500 // point nose at target if it is more than 5m away
#endif
#define GUIDED_POSVEL_TIMEOUT_MS 3000 // guided mode's position-velocity controller times out after 3seconds with no new updates
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static Vector3f posvel_pos_target_cm;
static Vector3f posvel_vel_target_cms;
static uint32_t posvel_update_time_ms;
static uint32_t vel_update_time_ms;
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struct Guided_Limit {
uint32_t timeout_ms; // timeout (in seconds) from the time that guided is invoked
float alt_min_cm; // lower altitude limit in cm above home (0 = no limit)
float alt_max_cm; // upper altitude limit in cm above home (0 = no limit)
float horiz_max_cm; // horizontal position limit in cm from where guided mode was initiated (0 = no limit)
uint32_t start_time;// system time in milliseconds that control was handed to the external computer
Vector3f start_pos; // start position as a distance from home in cm. used for checking horiz_max limit
} guided_limit;
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// guided_init - initialise guided controller
bool Copter::guided_init(bool ignore_checks)
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{
if (position_ok() || ignore_checks) {
// initialise yaw
set_auto_yaw_mode(get_default_auto_yaw_mode(false));
// start in position control mode
guided_pos_control_start();
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return true;
}else{
return false;
}
}
// guided_takeoff_start - initialises waypoint controller to implement take-off
void Copter::guided_takeoff_start(float final_alt_above_home)
{
guided_mode = Guided_TakeOff;
// initialise wpnav destination
Vector3f target_pos = inertial_nav.get_position();
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target_pos.z = pv_alt_above_origin(final_alt_above_home);
wp_nav.set_wp_destination(target_pos);
// initialise yaw
set_auto_yaw_mode(AUTO_YAW_HOLD);
// clear i term when we're taking off
set_throttle_takeoff();
}
// initialise guided mode's position controller
void Copter::guided_pos_control_start()
{
// set to position control mode
guided_mode = Guided_WP;
// initialise waypoint and spline controller
wp_nav.wp_and_spline_init();
// initialise wpnav to stopping point at current altitude
// To-Do: set to current location if disarmed?
// To-Do: set to stopping point altitude?
Vector3f stopping_point;
stopping_point.z = inertial_nav.get_altitude();
wp_nav.get_wp_stopping_point_xy(stopping_point);
wp_nav.set_wp_destination(stopping_point);
// initialise yaw
set_auto_yaw_mode(get_default_auto_yaw_mode(false));
}
// initialise guided mode's velocity controller
void Copter::guided_vel_control_start()
{
// set guided_mode to velocity controller
guided_mode = Guided_Velocity;
// initialize vertical speeds and leash lengths
pos_control.set_speed_z(-g.pilot_velocity_z_max, g.pilot_velocity_z_max);
pos_control.set_accel_z(g.pilot_accel_z);
// initialise velocity controller
pos_control.init_vel_controller_xyz();
}
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// initialise guided mode's posvel controller
void Copter::guided_posvel_control_start()
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{
// set guided_mode to velocity controller
guided_mode = Guided_PosVel;
pos_control.init_xy_controller();
// set speed and acceleration from wpnav's speed and acceleration
pos_control.set_speed_xy(wp_nav.get_speed_xy());
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pos_control.set_accel_xy(wp_nav.get_wp_acceleration());
const Vector3f& curr_pos = inertial_nav.get_position();
const Vector3f& curr_vel = inertial_nav.get_velocity();
// set target position and velocity to current position and velocity
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pos_control.set_xy_target(curr_pos.x, curr_pos.y);
pos_control.set_desired_velocity_xy(curr_vel.x, curr_vel.y);
// set vertical speed and acceleration
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pos_control.set_speed_z(wp_nav.get_speed_down(), wp_nav.get_speed_up());
pos_control.set_accel_z(wp_nav.get_accel_z());
// pilot always controls yaw
set_auto_yaw_mode(AUTO_YAW_HOLD);
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}
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// guided_set_destination - sets guided mode's target destination
void Copter::guided_set_destination(const Vector3f& destination)
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{
// ensure we are in position control mode
if (guided_mode != Guided_WP) {
guided_pos_control_start();
}
wp_nav.set_wp_destination(destination);
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}
// guided_set_velocity - sets guided mode's target velocity
void Copter::guided_set_velocity(const Vector3f& velocity)
{
// check we are in velocity control mode
if (guided_mode != Guided_Velocity) {
guided_vel_control_start();
}
vel_update_time_ms = millis();
// set position controller velocity target
pos_control.set_desired_velocity(velocity);
}
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// set guided mode posvel target
void Copter::guided_set_destination_posvel(const Vector3f& destination, const Vector3f& velocity) {
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// check we are in velocity control mode
if (guided_mode != Guided_PosVel) {
guided_posvel_control_start();
}
posvel_update_time_ms = millis();
posvel_pos_target_cm = destination;
posvel_vel_target_cms = velocity;
pos_control.set_pos_target(posvel_pos_target_cm);
}
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// guided_run - runs the guided controller
// should be called at 100hz or more
void Copter::guided_run()
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{
// call the correct auto controller
switch (guided_mode) {
case Guided_TakeOff:
// run takeoff controller
guided_takeoff_run();
break;
case Guided_WP:
// run position controller
guided_pos_control_run();
break;
case Guided_Velocity:
// run velocity controller
guided_vel_control_run();
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break;
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case Guided_PosVel:
// run position-velocity controller
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guided_posvel_control_run();
break;
}
}
// guided_takeoff_run - takeoff in guided mode
// called by guided_run at 100hz or more
void Copter::guided_takeoff_run()
{
// process pilot's yaw input
float target_yaw_rate = 0;
if (!failsafe.radio) {
// get pilot's desired yaw rate
target_yaw_rate = get_pilot_desired_yaw_rate(channel_yaw->control_in);
}
// run waypoint controller
wp_nav.update_wpnav();
// call z-axis position controller (wpnav should have already updated it's alt target)
pos_control.update_z_controller();
// roll & pitch from waypoint controller, yaw rate from pilot
attitude_control.angle_ef_roll_pitch_rate_ef_yaw(wp_nav.get_roll(), wp_nav.get_pitch(), target_yaw_rate);
}
// guided_pos_control_run - runs the guided position controller
// called from guided_run
void Copter::guided_pos_control_run()
{
// if not auto armed or motors not enabled set throttle to zero and exit immediately
if (!ap.auto_armed || !motors.get_interlock() || ap.land_complete) {
#if FRAME_CONFIG == HELI_FRAME // Helicopters always stabilize roll/pitch/yaw
// call attitude controller
attitude_control.angle_ef_roll_pitch_rate_ef_yaw_smooth(0, 0, 0, get_smoothing_gain());
attitude_control.set_throttle_out(0,false,g.throttle_filt);
#else // multicopters do not stabilize roll/pitch/yaw when disarmed
attitude_control.set_throttle_out_unstabilized(0,true,g.throttle_filt);
#endif
return;
}
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// process pilot's yaw input
float target_yaw_rate = 0;
if (!failsafe.radio) {
// get pilot's desired yaw rate
target_yaw_rate = get_pilot_desired_yaw_rate(channel_yaw->control_in);
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if (!is_zero(target_yaw_rate)) {
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set_auto_yaw_mode(AUTO_YAW_HOLD);
}
}
// run waypoint controller
wp_nav.update_wpnav();
// call z-axis position controller (wpnav should have already updated it's alt target)
pos_control.update_z_controller();
// call attitude controller
if (auto_yaw_mode == AUTO_YAW_HOLD) {
// roll & pitch from waypoint controller, yaw rate from pilot
attitude_control.angle_ef_roll_pitch_rate_ef_yaw(wp_nav.get_roll(), wp_nav.get_pitch(), target_yaw_rate);
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}else{
// roll, pitch from waypoint controller, yaw heading from auto_heading()
attitude_control.angle_ef_roll_pitch_yaw(wp_nav.get_roll(), wp_nav.get_pitch(), get_auto_heading(), true);
}
}
// guided_vel_control_run - runs the guided velocity controller
// called from guided_run
void Copter::guided_vel_control_run()
{
// if not auto armed or motors not enabled set throttle to zero and exit immediately
if (!ap.auto_armed || !motors.get_interlock() || ap.land_complete) {
// initialise velocity controller
pos_control.init_vel_controller_xyz();
#if FRAME_CONFIG == HELI_FRAME // Helicopters always stabilize roll/pitch/yaw
// call attitude controller
attitude_control.angle_ef_roll_pitch_rate_ef_yaw_smooth(0, 0, 0, get_smoothing_gain());
attitude_control.set_throttle_out(0,false,g.throttle_filt);
#else // multicopters do not stabilize roll/pitch/yaw when disarmed
attitude_control.set_throttle_out_unstabilized(0,true,g.throttle_filt);
#endif
return;
}
// process pilot's yaw input
float target_yaw_rate = 0;
if (!failsafe.radio) {
// get pilot's desired yaw rate
target_yaw_rate = get_pilot_desired_yaw_rate(channel_yaw->control_in);
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if (!is_zero(target_yaw_rate)) {
set_auto_yaw_mode(AUTO_YAW_HOLD);
}
}
// set velocity to zero if no updates received for 3 seconds
uint32_t tnow = millis();
if (tnow - vel_update_time_ms > GUIDED_POSVEL_TIMEOUT_MS && !pos_control.get_desired_velocity().is_zero()) {
pos_control.set_desired_velocity(Vector3f(0,0,0));
}
// calculate dt
float dt = pos_control.time_since_last_xy_update();
// update at poscontrol update rate
if (dt >= pos_control.get_dt_xy()) {
// sanity check dt
if (dt >= 0.2f) {
dt = 0.0f;
}
// call velocity controller which includes z axis controller
pos_control.update_vel_controller_xyz(ekfNavVelGainScaler);
}
// call attitude controller
if (auto_yaw_mode == AUTO_YAW_HOLD) {
// roll & pitch from waypoint controller, yaw rate from pilot
attitude_control.angle_ef_roll_pitch_rate_ef_yaw(pos_control.get_roll(), pos_control.get_pitch(), target_yaw_rate);
}else{
// roll, pitch from waypoint controller, yaw heading from auto_heading()
attitude_control.angle_ef_roll_pitch_yaw(pos_control.get_roll(), pos_control.get_pitch(), get_auto_heading(), true);
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}
}
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// guided_posvel_control_run - runs the guided spline controller
// called from guided_run
void Copter::guided_posvel_control_run()
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{
// if not auto armed or motors not enabled set throttle to zero and exit immediately
if (!ap.auto_armed || !motors.get_interlock() || ap.land_complete) {
// set target position and velocity to current position and velocity
pos_control.set_pos_target(inertial_nav.get_position());
pos_control.set_desired_velocity(Vector3f(0,0,0));
#if FRAME_CONFIG == HELI_FRAME // Helicopters always stabilize roll/pitch/yaw
// call attitude controller
attitude_control.angle_ef_roll_pitch_rate_ef_yaw_smooth(0, 0, 0, get_smoothing_gain());
attitude_control.set_throttle_out(0,false,g.throttle_filt);
#else // multicopters do not stabilize roll/pitch/yaw when disarmed
attitude_control.set_throttle_out_unstabilized(0,true,g.throttle_filt);
#endif
return;
}
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// process pilot's yaw input
float target_yaw_rate = 0;
if (!failsafe.radio) {
// get pilot's desired yaw rate
target_yaw_rate = get_pilot_desired_yaw_rate(channel_yaw->control_in);
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if (!is_zero(target_yaw_rate)) {
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set_auto_yaw_mode(AUTO_YAW_HOLD);
}
}
// set velocity to zero if no updates received for 3 seconds
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uint32_t tnow = millis();
if (tnow - posvel_update_time_ms > GUIDED_POSVEL_TIMEOUT_MS && !posvel_vel_target_cms.is_zero()) {
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posvel_vel_target_cms.zero();
}
// calculate dt
float dt = pos_control.time_since_last_xy_update();
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// update at poscontrol update rate
if (dt >= pos_control.get_dt_xy()) {
// sanity check dt
if (dt >= 0.2f) {
dt = 0.0f;
}
// advance position target using velocity target
posvel_pos_target_cm += posvel_vel_target_cms * dt;
// send position and velocity targets to position controller
pos_control.set_pos_target(posvel_pos_target_cm);
pos_control.set_desired_velocity_xy(posvel_vel_target_cms.x, posvel_vel_target_cms.y);
// run position controller
pos_control.update_xy_controller(AC_PosControl::XY_MODE_POS_AND_VEL_FF, ekfNavVelGainScaler, false);
}
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pos_control.update_z_controller();
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// call attitude controller
if (auto_yaw_mode == AUTO_YAW_HOLD) {
// roll & pitch from waypoint controller, yaw rate from pilot
attitude_control.angle_ef_roll_pitch_rate_ef_yaw(pos_control.get_roll(), pos_control.get_pitch(), target_yaw_rate);
}else{
// roll, pitch from waypoint controller, yaw heading from auto_heading()
attitude_control.angle_ef_roll_pitch_yaw(pos_control.get_roll(), pos_control.get_pitch(), get_auto_heading(), true);
}
}
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// Guided Limit code
// guided_limit_clear - clear/turn off guided limits
void Copter::guided_limit_clear()
{
guided_limit.timeout_ms = 0;
guided_limit.alt_min_cm = 0.0f;
guided_limit.alt_max_cm = 0.0f;
guided_limit.horiz_max_cm = 0.0f;
}
// guided_limit_set - set guided timeout and movement limits
void Copter::guided_limit_set(uint32_t timeout_ms, float alt_min_cm, float alt_max_cm, float horiz_max_cm)
{
guided_limit.timeout_ms = timeout_ms;
guided_limit.alt_min_cm = alt_min_cm;
guided_limit.alt_max_cm = alt_max_cm;
guided_limit.horiz_max_cm = horiz_max_cm;
}
// guided_limit_init_time_and_pos - initialise guided start time and position as reference for limit checking
// only called from AUTO mode's auto_nav_guided_start function
void Copter::guided_limit_init_time_and_pos()
{
// initialise start time
guided_limit.start_time = hal.scheduler->millis();
// initialise start position from current position
guided_limit.start_pos = inertial_nav.get_position();
}
// guided_limit_check - returns true if guided mode has breached a limit
// used when guided is invoked from the NAV_GUIDED_ENABLE mission command
bool Copter::guided_limit_check()
{
// check if we have passed the timeout
if ((guided_limit.timeout_ms > 0) && (millis() - guided_limit.start_time >= guided_limit.timeout_ms)) {
return true;
}
// get current location
const Vector3f& curr_pos = inertial_nav.get_position();
// check if we have gone below min alt
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if (!is_zero(guided_limit.alt_min_cm) && (curr_pos.z < guided_limit.alt_min_cm)) {
return true;
}
// check if we have gone above max alt
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if (!is_zero(guided_limit.alt_max_cm) && (curr_pos.z > guided_limit.alt_max_cm)) {
return true;
}
// check if we have gone beyond horizontal limit
if (guided_limit.horiz_max_cm > 0.0f) {
float horiz_move = pv_get_horizontal_distance_cm(guided_limit.start_pos, curr_pos);
if (horiz_move > guided_limit.horiz_max_cm) {
return true;
}
}
// if we got this far we must be within limits
return false;
}