ardupilot/APMrover2/mode_loiter.cpp

#include "mode.h"
#include "Rover.h"

bool ModeLoiter::_enter()
{
    // set _destination to reasonable stopping point
    calc_stopping_location(_destination);

    // initialise desired speed to current speed
    if (!attitude_control.get_forward_speed(_desired_speed)) {
        _desired_speed = 0.0f;
    }

    // initialise heading to current heading
    _desired_yaw_cd = ahrs.yaw_sensor;
    _yaw_error_cd = 0.0f;

    return true;
}

void ModeLoiter::update()
{
    // get distance (in meters) to destination
    _distance_to_destination = get_distance(rover.current_loc, _destination);

    // if within loiter radius slew desired speed towards zero and use existing desired heading
    if (_distance_to_destination <= g2.loit_radius) {
        // sailboats do not stop
        const float desired_speed_within_radius = g2.motors.has_sail() ? 0.1f : 0.0f;
        _desired_speed = attitude_control.get_desired_speed_accel_limited(desired_speed_within_radius, rover.G_Dt);
        _yaw_error_cd = 0.0f;
    } else {
        // P controller with hard-coded gain to convert distance to desired speed
        // To-Do: make gain configurable or calculate from attitude controller's maximum accelearation
        _desired_speed = MIN((_distance_to_destination - g2.loit_radius) * 0.5f, g.speed_cruise);

        // calculate bearing to destination
        _desired_yaw_cd = get_bearing_cd(rover.current_loc, _destination);
        _yaw_error_cd = wrap_180_cd(_desired_yaw_cd - ahrs.yaw_sensor);
        // if destination is behind vehicle, reverse towards it
        if (fabsf(_yaw_error_cd) > 9000 && g2.loit_type == 0) {
            _desired_yaw_cd = wrap_180_cd(_desired_yaw_cd + 18000);
            _yaw_error_cd = wrap_180_cd(_desired_yaw_cd - ahrs.yaw_sensor);
            _desired_speed = -_desired_speed;
        }

        // reduce desired speed if yaw_error is large
        // 45deg of error reduces speed to 75%, 90deg of error reduces speed to 50%
        float yaw_error_ratio = 1.0f - constrain_float(fabsf(_yaw_error_cd / 9000.0f), 0.0f, 1.0f) * 0.5f;
        _desired_speed *= yaw_error_ratio;
    }

    // run steering and throttle controllers
    calc_steering_to_heading(_desired_yaw_cd);
    calc_throttle(_desired_speed, false, true);
}
Rover: Loiter mode for boats 2018-04-28 03:31:31 -03:00			`#include "mode.h"`
			`#include "Rover.h"`

			`bool ModeLoiter::_enter()`
			`{`
			`// set _destination to reasonable stopping point`
			`calc_stopping_location(_destination);`

			`// initialise desired speed to current speed`
			`if (!attitude_control.get_forward_speed(_desired_speed)) {`
			`_desired_speed = 0.0f;`
			`}`

			`// initialise heading to current heading`
			`_desired_yaw_cd = ahrs.yaw_sensor;`
			`_yaw_error_cd = 0.0f;`

			`return true;`
			`}`

			`void ModeLoiter::update()`
			`{`
			`// get distance (in meters) to destination`
			`_distance_to_destination = get_distance(rover.current_loc, _destination);`

Rover: fix loiter comment 2018-09-27 21:11:09 -03:00			`// if within loiter radius slew desired speed towards zero and use existing desired heading`
Rover: add loiter radius parameter 2018-09-25 10:09:21 -03:00			`if (_distance_to_destination <= g2.loit_radius) {`
Rover: add sailboat support 2018-09-25 10:09:47 -03:00			`// sailboats do not stop`
			`const float desired_speed_within_radius = g2.motors.has_sail() ? 0.1f : 0.0f;`
			`_desired_speed = attitude_control.get_desired_speed_accel_limited(desired_speed_within_radius, rover.G_Dt);`
Rover: Loiter mode for boats 2018-04-28 03:31:31 -03:00			`_yaw_error_cd = 0.0f;`
			`} else {`
			`// P controller with hard-coded gain to convert distance to desired speed`
			`// To-Do: make gain configurable or calculate from attitude controller's maximum accelearation`
Rover: add loiter radius parameter 2018-09-25 10:09:21 -03:00			`_desired_speed = MIN((_distance_to_destination - g2.loit_radius) * 0.5f, g.speed_cruise);`
Rover: Loiter mode for boats 2018-04-28 03:31:31 -03:00
			`// calculate bearing to destination`
			`_desired_yaw_cd = get_bearing_cd(rover.current_loc, _destination);`
			`_yaw_error_cd = wrap_180_cd(_desired_yaw_cd - ahrs.yaw_sensor);`
			`// if destination is behind vehicle, reverse towards it`
Rover: Add loiter behaviour parameter 2018-08-07 01:22:51 -03:00			`if (fabsf(_yaw_error_cd) > 9000 && g2.loit_type == 0) {`
Rover: Loiter mode for boats 2018-04-28 03:31:31 -03:00			`_desired_yaw_cd = wrap_180_cd(_desired_yaw_cd + 18000);`
			`_yaw_error_cd = wrap_180_cd(_desired_yaw_cd - ahrs.yaw_sensor);`
			`_desired_speed = -_desired_speed;`
			`}`

			`// reduce desired speed if yaw_error is large`
Rover: remove SPEED_TURN_GAIN Loiter was the only mode using this, replaced with hardcoded gain. The desired speed in Loiter also uses a hardcoded gain so this should work 2018-06-05 00:33:13 -03:00			`// 45deg of error reduces speed to 75%, 90deg of error reduces speed to 50%`
			`float yaw_error_ratio = 1.0f - constrain_float(fabsf(_yaw_error_cd / 9000.0f), 0.0f, 1.0f) * 0.5f;`
Rover: Loiter mode for boats 2018-04-28 03:31:31 -03:00			`_desired_speed *= yaw_error_ratio;`
			`}`

			`// run steering and throttle controllers`
Rover: fix calls to calc_steering_to_heading reversed flag was being passed into the wrong argument 2018-09-10 04:25:15 -03:00			`calc_steering_to_heading(_desired_yaw_cd);`
Rover: Loiter mode for boats 2018-04-28 03:31:31 -03:00			`calc_throttle(_desired_speed, false, true);`
			`}`