ardupilot/Rover/mode_steering.cpp

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

void ModeSteering::update()
{
    // get speed forward
    float speed;
    if (!attitude_control.get_forward_speed(speed)) {
        // no valid speed so stop
        g2.motors.set_throttle(0.0f);
        g2.motors.set_steering(0.0f);
        _desired_lat_accel = 0.0f;
        return;
    }

    float desired_steering, desired_speed;
    get_pilot_desired_steering_and_speed(desired_steering, desired_speed);

    bool reversed = is_negative(desired_speed);

    // determine if pilot is requesting pivot turn
    if (g2.motors.have_skid_steering() && is_zero(desired_speed)) {
        // pivot turning using turn rate controller
        // convert pilot steering input to desired turn rate in radians/sec
        const float target_turn_rate = (desired_steering / 4500.0f) * radians(g2.acro_turn_rate);
        _desired_lat_accel = 0.0f;

        // run steering turn rate controller and throttle controller
        const float steering_out = attitude_control.get_steering_out_rate(target_turn_rate,
                                                                          g2.motors.limit.steer_left,
                                                                          g2.motors.limit.steer_right,
                                                                          rover.G_Dt);
        set_steering(steering_out * 4500.0f);
    } else {
        // In steering mode we control lateral acceleration directly.
        // For regular steering vehicles we use the maximum lateral acceleration
        //  at full steering lock for this speed: V^2/R where R is the radius of turn.
        float max_g_force = speed * speed / MAX(g2.turn_radius, 0.1f);
        max_g_force = constrain_float(max_g_force, 0.1f, g.turn_max_g * GRAVITY_MSS);

        // convert pilot steering input to desired lateral acceleration
        _desired_lat_accel = max_g_force * (desired_steering / 4500.0f);

        // reverse target lateral acceleration if backing up
        if (reversed) {
            _desired_lat_accel = -_desired_lat_accel;
        }

        // run lateral acceleration to steering controller
        calc_steering_from_lateral_acceleration(_desired_lat_accel, reversed);
    }

    // run speed to throttle controller
    calc_throttle(desired_speed, true);
}
Rover: add control modes class 2017-07-18 23:17:45 -03:00			`#include "mode.h"`
			`#include "Rover.h"`

Rover: steering mode formatting change no functional change 2017-07-21 01:16:23 -03:00			`void ModeSteering::update()`
			`{`
Rover: use AR_AttitudeControl for throttle control also direct throttle nudge replaced with speed nudge calc_speed_max estimates vehicle's top speed based on cruise-speed and cruise-throttle steering mode now provides total target speed instead of using speed plug throttle nudge motor limits provided to attitude control to stop i-term buildup uses negative desired speed instead of reversed flag reporting to GCS uses new throttle controller braking is simply enabled and allows a reverse motor output regardless of vehicle speed 2017-08-08 21:24:30 -03:00			`// get speed forward`
			`float speed;`
			`if (!attitude_control.get_forward_speed(speed)) {`
Rover: modes use stop_vehicle to stop gently modes slow to a stop instead of immediately setting motors to zero vehicle centers steering when stopping 2017-08-10 00:06:43 -03:00			`// no valid speed so stop`
Rover: remove THR_MIN, THR_MAX parameters from vehicle enforcing these limits is now handled by AP_MotorsUGV class 2017-08-15 22:32:56 -03:00			`g2.motors.set_throttle(0.0f);`
Rover: use AR_AttitudeControl for throttle control also direct throttle nudge replaced with speed nudge calc_speed_max estimates vehicle's top speed based on cruise-speed and cruise-throttle steering mode now provides total target speed instead of using speed plug throttle nudge motor limits provided to attitude control to stop i-term buildup uses negative desired speed instead of reversed flag reporting to GCS uses new throttle controller braking is simply enabled and allows a reverse motor output regardless of vehicle speed 2017-08-08 21:24:30 -03:00			`g2.motors.set_steering(0.0f);`
Rover: fix logging of desired lateral acceleration 2019-05-06 02:57:03 -03:00			`_desired_lat_accel = 0.0f;`
Rover: use AR_AttitudeControl for throttle control also direct throttle nudge replaced with speed nudge calc_speed_max estimates vehicle's top speed based on cruise-speed and cruise-throttle steering mode now provides total target speed instead of using speed plug throttle nudge motor limits provided to attitude control to stop i-term buildup uses negative desired speed instead of reversed flag reporting to GCS uses new throttle controller braking is simply enabled and allows a reverse motor output regardless of vehicle speed 2017-08-08 21:24:30 -03:00			`return;`
			`}`
Rover: steering mode direction fix when reversing this corrects the rotation direction when moving backwards in steering mode so that it's consistent with manual mode 2017-07-21 01:17:19 -03:00
Rover: acro and steering use get_pilot_desired_steering_and_speed 2018-05-05 22:48:26 -03:00			`float desired_steering, desired_speed;`
			`get_pilot_desired_steering_and_speed(desired_steering, desired_speed);`

Rover: steering mode uses turn rate control when stopped 2018-05-06 02:28:54 -03:00			`bool reversed = is_negative(desired_speed);`

Rover: allow pivot turn in STEERING mode 2017-11-13 17:13:03 -04:00			`// determine if pilot is requesting pivot turn`
Rover: steering mode uses turn rate control when stopped 2018-05-06 02:28:54 -03:00			`if (g2.motors.have_skid_steering() && is_zero(desired_speed)) {`
			`// pivot turning using turn rate controller`
			`// convert pilot steering input to desired turn rate in radians/sec`
			`const float target_turn_rate = (desired_steering / 4500.0f) * radians(g2.acro_turn_rate);`
Rover: fix logging of desired lateral acceleration 2019-05-06 02:57:03 -03:00			`_desired_lat_accel = 0.0f;`
Rover: steering mode uses turn rate control when stopped 2018-05-06 02:28:54 -03:00
			`// run steering turn rate controller and throttle controller`
			`const float steering_out = attitude_control.get_steering_out_rate(target_turn_rate,`
			`g2.motors.limit.steer_left,`
Rover: pass dt to attitude controller 2018-05-21 22:05:20 -03:00			`g2.motors.limit.steer_right,`
			`rover.G_Dt);`
Rover: refactor motor.set_steering() to mode.set_steering() 2019-04-20 20:02:51 -03:00			`set_steering(steering_out * 4500.0f);`
Rover: allow pivot turn in STEERING mode 2017-11-13 17:13:03 -04:00			`} else {`
Rover: steering mode uses turn rate control when stopped 2018-05-06 02:28:54 -03:00			`// In steering mode we control lateral acceleration directly.`
			`// For regular steering vehicles we use the maximum lateral acceleration`
			`// at full steering lock for this speed: V^2/R where R is the radius of turn.`
			`float max_g_force = speed * speed / MAX(g2.turn_radius, 0.1f);`
			`max_g_force = constrain_float(max_g_force, 0.1f, g.turn_max_g * GRAVITY_MSS);`

			`// convert pilot steering input to desired lateral acceleration`
Rover: fix logging of desired lateral acceleration 2019-05-06 02:57:03 -03:00			`_desired_lat_accel = max_g_force * (desired_steering / 4500.0f);`
Rover: steering mode uses turn rate control when stopped 2018-05-06 02:28:54 -03:00
			`// reverse target lateral acceleration if backing up`
			`if (reversed) {`
Rover: fix logging of desired lateral acceleration 2019-05-06 02:57:03 -03:00			`_desired_lat_accel = -_desired_lat_accel;`
Rover: steering mode uses turn rate control when stopped 2018-05-06 02:28:54 -03:00			`}`

			`// run lateral acceleration to steering controller`
Rover: fix logging of desired lateral acceleration 2019-05-06 02:57:03 -03:00			`calc_steering_from_lateral_acceleration(_desired_lat_accel, reversed);`
Rover: steering mode direction fix when reversing this corrects the rotation direction when moving backwards in steering mode so that it's consistent with manual mode 2017-07-21 01:17:19 -03:00			`}`
Rover: add control modes class 2017-07-18 23:17:45 -03:00
Rover: acro and steering steer even with target speed of zero 2018-02-18 21:29:49 -04:00			`// run speed to throttle controller`
Rover: separate nudge from calc_throttle This is required because AR_WPNav produces an acceleration adjusted desired speed meaning in rare cases where the vehicle is moving in reverse at the time auto is engaged, the desired speed may be temporarily negative as the vehicle slows. In these situations we do not want to allow the vehicle's speed to be nudged to a higher reverse speed if the pilot's throttle stick is all the way down 2019-05-04 00:09:24 -03:00			`calc_throttle(desired_speed, true);`
Rover: add control modes class 2017-07-18 23:17:45 -03:00			`}`