ardupilot/ArduSub/Attitude.cpp

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#include "Sub.h"
// get_pilot_desired_angle - transform pilot's roll or pitch input into a desired lean angle
// returns desired angle in centi-degrees
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void Sub::get_pilot_desired_lean_angles(float roll_in, float pitch_in, float &roll_out, float &pitch_out, float angle_max)
{
// sanity check angle max parameter
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aparm.angle_max.set(constrain_int16(aparm.angle_max,1000,8000));
// limit max lean angle
angle_max = constrain_float(angle_max, 1000, aparm.angle_max);
// scale roll_in, pitch_in to ANGLE_MAX parameter range
float scaler = aparm.angle_max/(float)ROLL_PITCH_INPUT_MAX;
roll_in *= scaler;
pitch_in *= scaler;
// do circular limit
float total_in = norm(pitch_in, roll_in);
if (total_in > angle_max) {
float ratio = angle_max / total_in;
roll_in *= ratio;
pitch_in *= ratio;
}
// do lateral tilt to euler roll conversion
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roll_in = (18000/M_PI) * atanf(cosf(pitch_in*(M_PI/18000))*tanf(roll_in*(M_PI/18000)));
// return
roll_out = roll_in;
pitch_out = pitch_in;
}
// get_pilot_desired_heading - transform pilot's yaw input into a
// desired yaw rate
// returns desired yaw rate in centi-degrees per second
float Sub::get_pilot_desired_yaw_rate(int16_t stick_angle) const
{
// convert pilot input to the desired yaw rate
return stick_angle * g.acro_yaw_p;
}
// check for ekf yaw reset and adjust target heading
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void Sub::check_ekf_yaw_reset()
{
float yaw_angle_change_rad;
uint32_t new_ekfYawReset_ms = ahrs.getLastYawResetAngle(yaw_angle_change_rad);
if (new_ekfYawReset_ms != ekfYawReset_ms) {
attitude_control.inertial_frame_reset();
ekfYawReset_ms = new_ekfYawReset_ms;
}
}
/*************************************************************
* yaw controllers
*************************************************************/
// get_roi_yaw - returns heading towards location held in roi_WP
// should be called at 100hz
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float Sub::get_roi_yaw()
{
static uint8_t roi_yaw_counter = 0; // used to reduce update rate to 100hz
roi_yaw_counter++;
if (roi_yaw_counter >= 4) {
roi_yaw_counter = 0;
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yaw_look_at_WP_bearing = get_bearing_cd(inertial_nav.get_position_xy_cm(), roi_WP.xy());
}
return yaw_look_at_WP_bearing;
}
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float Sub::get_look_ahead_yaw()
{
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const Vector3f& vel = inertial_nav.get_velocity_neu_cms();
const float speed_sq = vel.xy().length_squared();
// Commanded Yaw to automatically look ahead.
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if (position_ok() && (speed_sq > (YAW_LOOK_AHEAD_MIN_SPEED * YAW_LOOK_AHEAD_MIN_SPEED))) {
yaw_look_ahead_bearing = degrees(atan2f(vel.y,vel.x))*100.0f;
}
return yaw_look_ahead_bearing;
}
/*************************************************************
* throttle control
****************************************************************/
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// get_pilot_desired_climb_rate - transform pilot's throttle input to climb rate in cm/s
// without any deadzone at the bottom
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float Sub::get_pilot_desired_climb_rate(float throttle_control)
{
// throttle failsafe check
if (failsafe.pilot_input) {
return 0.0f;
}
float desired_rate = 0.0f;
float mid_stick = channel_throttle->get_control_mid();
float deadband_top = mid_stick + g.throttle_deadzone * gain;
float deadband_bottom = mid_stick - g.throttle_deadzone * gain;
// ensure a reasonable throttle value
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throttle_control = constrain_float(throttle_control,0.0f,1000.0f);
// ensure a reasonable deadzone
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g.throttle_deadzone.set(constrain_int16(g.throttle_deadzone, 0, 400));
// check throttle is above, below or in the deadband
if (throttle_control < deadband_bottom) {
// below the deadband
desired_rate = get_pilot_speed_dn() * (throttle_control-deadband_bottom) / deadband_bottom;
} else if (throttle_control > deadband_top) {
// above the deadband
desired_rate = g.pilot_speed_up * (throttle_control-deadband_top) / (1000.0f-deadband_top);
} else {
// must be in the deadband
desired_rate = 0.0f;
}
// desired climb rate for logging
desired_climb_rate = desired_rate;
return desired_rate;
}
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// get_surface_tracking_climb_rate - hold vehicle at the desired distance above the ground
// returns climb rate (in cm/s) which should be passed to the position controller
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float Sub::get_surface_tracking_climb_rate(int16_t target_rate, float current_alt_target, float dt)
{
#if RANGEFINDER_ENABLED == ENABLED
static uint32_t last_call_ms = 0;
float distance_error;
float velocity_correction;
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float current_alt = inertial_nav.get_position_z_up_cm();
uint32_t now = AP_HAL::millis();
// reset target altitude if this controller has just been engaged
if (now - last_call_ms > RANGEFINDER_TIMEOUT_MS) {
target_rangefinder_alt = rangefinder_state.alt_cm + current_alt_target - current_alt;
}
last_call_ms = now;
// adjust rangefinder target alt if motors have not hit their limits
if ((target_rate<0 && !motors.limit.throttle_lower) || (target_rate>0 && !motors.limit.throttle_upper)) {
target_rangefinder_alt += target_rate * dt;
}
// do not let target altitude get too far from current altitude above ground
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target_rangefinder_alt = constrain_float(target_rangefinder_alt,
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rangefinder_state.alt_cm - pos_control.get_pos_error_z_down_cm(),
rangefinder_state.alt_cm + pos_control.get_pos_error_z_up_cm());
// calc desired velocity correction from target rangefinder alt vs actual rangefinder alt (remove the error already passed to Altitude controller to avoid oscillations)
distance_error = (target_rangefinder_alt - rangefinder_state.alt_cm) - (current_alt_target - current_alt);
velocity_correction = distance_error * g.rangefinder_gain;
velocity_correction = constrain_float(velocity_correction, -THR_SURFACE_TRACKING_VELZ_MAX, THR_SURFACE_TRACKING_VELZ_MAX);
// return combined pilot climb rate + rate to correct rangefinder alt error
return (target_rate + velocity_correction);
#else
return (float)target_rate;
#endif
}
// rotate vector from vehicle's perspective to North-East frame
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void Sub::rotate_body_frame_to_NE(float &x, float &y)
{
float ne_x = x*ahrs.cos_yaw() - y*ahrs.sin_yaw();
float ne_y = x*ahrs.sin_yaw() + y*ahrs.cos_yaw();
x = ne_x;
y = ne_y;
}
// It will return the PILOT_SPEED_DN value if non zero, otherwise if zero it returns the PILOT_SPEED_UP value.
uint16_t Sub::get_pilot_speed_dn() const
{
if (g.pilot_speed_dn == 0) {
return abs(g.pilot_speed_up);
}
return abs(g.pilot_speed_dn);
}