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Merge pull request #1403 from flapper-drones/fixPID
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Fix PID derivative kickoff and reset
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gemenerik authored Sep 9, 2024
2 parents 750995b + 64d8bc5 commit 557cee7
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Showing 9 changed files with 70 additions and 76 deletions.
6 changes: 3 additions & 3 deletions src/modules/interface/controller/attitude_controller.h
Original file line number Diff line number Diff line change
Expand Up @@ -56,17 +56,17 @@ void attitudeControllerCorrectRatePID(
/**
* Reset controller roll attitude PID
*/
void attitudeControllerResetRollAttitudePID(void);
void attitudeControllerResetRollAttitudePID(float rollActual);

/**
* Reset controller pitch attitude PID
*/
void attitudeControllerResetPitchAttitudePID(void);
void attitudeControllerResetPitchAttitudePID(float pitchActual);

/**
* Reset controller roll, pitch and yaw PID's.
*/
void attitudeControllerResetAllPID(void);
void attitudeControllerResetAllPID(float rollActual, float pitchActual, float yawActual);

/**
* Get the actuator output.
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2 changes: 1 addition & 1 deletion src/modules/interface/controller/position_controller.h
Original file line number Diff line number Diff line change
Expand Up @@ -31,7 +31,7 @@
// A position controller calculate the thrust, roll, pitch to approach
// a 3D position setpoint
void positionControllerInit();
void positionControllerResetAllPID();
void positionControllerResetAllPID(float xActual, float yActual, float zActual);
void positionControllerResetAllfilters();
void positionController(float* thrust, attitude_t *attitude, const setpoint_t *setpoint,
const state_t *state);
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42 changes: 18 additions & 24 deletions src/modules/src/controller/attitude_pid_controller.c
Original file line number Diff line number Diff line change
Expand Up @@ -143,14 +143,14 @@ void attitudeControllerCorrectRatePID(
float rollRateDesired, float pitchRateDesired, float yawRateDesired)
{
pidSetDesired(&pidRollRate, rollRateDesired);
rollOutput = saturateSignedInt16(pidUpdate(&pidRollRate, rollRateActual, true));
rollOutput = saturateSignedInt16(pidUpdate(&pidRollRate, rollRateActual, false));

pidSetDesired(&pidPitchRate, pitchRateDesired);
pitchOutput = saturateSignedInt16(pidUpdate(&pidPitchRate, pitchRateActual, true));
pitchOutput = saturateSignedInt16(pidUpdate(&pidPitchRate, pitchRateActual, false));

pidSetDesired(&pidYawRate, yawRateDesired);

yawOutput = saturateSignedInt16(pidUpdate(&pidYawRate, yawRateActual, true));
yawOutput = saturateSignedInt16(pidUpdate(&pidYawRate, yawRateActual, false));
}

void attitudeControllerCorrectAttitudePID(
Expand All @@ -159,41 +159,35 @@ void attitudeControllerCorrectAttitudePID(
float* rollRateDesired, float* pitchRateDesired, float* yawRateDesired)
{
pidSetDesired(&pidRoll, eulerRollDesired);
*rollRateDesired = pidUpdate(&pidRoll, eulerRollActual, true);
*rollRateDesired = pidUpdate(&pidRoll, eulerRollActual, false);

// Update PID for pitch axis
pidSetDesired(&pidPitch, eulerPitchDesired);
*pitchRateDesired = pidUpdate(&pidPitch, eulerPitchActual, true);
*pitchRateDesired = pidUpdate(&pidPitch, eulerPitchActual, false);

// Update PID for yaw axis
float yawError;
yawError = eulerYawDesired - eulerYawActual;
if (yawError > 180.0f)
yawError -= 360.0f;
else if (yawError < -180.0f)
yawError += 360.0f;
pidSetError(&pidYaw, yawError);
*yawRateDesired = pidUpdate(&pidYaw, eulerYawActual, false);
pidSetDesired(&pidYaw, eulerYawDesired);
*yawRateDesired = pidUpdate(&pidYaw, eulerYawActual, true);
}

void attitudeControllerResetRollAttitudePID(void)
void attitudeControllerResetRollAttitudePID(float rollActual)
{
pidReset(&pidRoll);
pidReset(&pidRoll, rollActual);
}

void attitudeControllerResetPitchAttitudePID(void)
void attitudeControllerResetPitchAttitudePID(float pitchActual)
{
pidReset(&pidPitch);
pidReset(&pidPitch, pitchActual);
}

void attitudeControllerResetAllPID(void)
void attitudeControllerResetAllPID(float rollActual, float pitchActual, float yawActual)
{
pidReset(&pidRoll);
pidReset(&pidPitch);
pidReset(&pidYaw);
pidReset(&pidRollRate);
pidReset(&pidPitchRate);
pidReset(&pidYawRate);
pidReset(&pidRoll, rollActual);
pidReset(&pidPitch, pitchActual);
pidReset(&pidYaw, yawActual);
pidReset(&pidRollRate, 0);
pidReset(&pidPitchRate, 0);
pidReset(&pidYawRate, 0);
}

void attitudeControllerGetActuatorOutput(int16_t* roll, int16_t* pitch, int16_t* yaw)
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8 changes: 4 additions & 4 deletions src/modules/src/controller/controller_indi.c
Original file line number Diff line number Diff line change
Expand Up @@ -225,11 +225,11 @@ void controllerINDI(control_t *control, const setpoint_t *setpoint,
// behavior if level mode is engaged later
if (setpoint->mode.roll == modeVelocity) {
rateDesired.roll = radians(setpoint->attitudeRate.roll);
attitudeControllerResetRollAttitudePID();
attitudeControllerResetRollAttitudePID(state->attitude.roll);
}
if (setpoint->mode.pitch == modeVelocity) {
rateDesired.pitch = radians(setpoint->attitudeRate.pitch);
attitudeControllerResetPitchAttitudePID();
attitudeControllerResetPitchAttitudePID(state->attitude.pitch);
}

/*
Expand Down Expand Up @@ -317,8 +317,8 @@ void controllerINDI(control_t *control, const setpoint_t *setpoint,
float_rates_zero(&indi.u_in);

if(indi.thrust == 0){
attitudeControllerResetAllPID();
positionControllerResetAllPID();
attitudeControllerResetAllPID(state->attitude.roll, state->attitude.pitch, state->attitude.yaw);
positionControllerResetAllPID(state->position.x, state->position.y, state->position.z);

// Reset the calculated YAW angle for rate control
attitudeDesired.yaw = -state->attitude.yaw;
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8 changes: 4 additions & 4 deletions src/modules/src/controller/controller_pid.c
Original file line number Diff line number Diff line change
Expand Up @@ -113,11 +113,11 @@ void controllerPid(control_t *control, const setpoint_t *setpoint,
// behavior if level mode is engaged later
if (setpoint->mode.roll == modeVelocity) {
rateDesired.roll = setpoint->attitudeRate.roll;
attitudeControllerResetRollAttitudePID();
attitudeControllerResetRollAttitudePID(state->attitude.roll);
}
if (setpoint->mode.pitch == modeVelocity) {
rateDesired.pitch = setpoint->attitudeRate.pitch;
attitudeControllerResetPitchAttitudePID();
attitudeControllerResetPitchAttitudePID(state->attitude.pitch);
}

// TODO: Investigate possibility to subtract gyro drift.
Expand Down Expand Up @@ -154,8 +154,8 @@ void controllerPid(control_t *control, const setpoint_t *setpoint,
cmd_pitch = control->pitch;
cmd_yaw = control->yaw;

attitudeControllerResetAllPID();
positionControllerResetAllPID();
attitudeControllerResetAllPID(state->attitude.roll, state->attitude.pitch, state->attitude.yaw);
positionControllerResetAllPID(state->position.x, state->position.y, state->position.z);

// Reset the calculated YAW angle for rate control
attitudeDesired.yaw = state->attitude.yaw;
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16 changes: 8 additions & 8 deletions src/modules/src/controller/position_controller_pid.c
Original file line number Diff line number Diff line change
Expand Up @@ -184,7 +184,7 @@ static float runPid(float input, struct pidAxis_s *axis, float setpoint, float d
axis->setpoint = setpoint;

pidSetDesired(&axis->pid, axis->setpoint);
return pidUpdate(&axis->pid, input, true);
return pidUpdate(&axis->pid, input, false);
}


Expand Down Expand Up @@ -266,14 +266,14 @@ void velocityController(float* thrust, attitude_t *attitude, const Axis3f* setpo
*thrust = constrain(*thrust, 0, UINT16_MAX);
}

void positionControllerResetAllPID()
void positionControllerResetAllPID(float xActual, float yActual, float zActual)
{
pidReset(&this.pidX.pid);
pidReset(&this.pidY.pid);
pidReset(&this.pidZ.pid);
pidReset(&this.pidVX.pid);
pidReset(&this.pidVY.pid);
pidReset(&this.pidVZ.pid);
pidReset(&this.pidX.pid, xActual);
pidReset(&this.pidY.pid, yActual);
pidReset(&this.pidZ.pid, zActual);
pidReset(&this.pidVX.pid, 0);
pidReset(&this.pidVY.pid, 0);
pidReset(&this.pidVZ.pid, 0);
}

void positionControllerResetAllfilters() {
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2 changes: 1 addition & 1 deletion src/modules/src/crtp_commander_rpyt.c
Original file line number Diff line number Diff line change
Expand Up @@ -140,7 +140,7 @@ void crtpCommanderRpytDecodeSetpoint(setpoint_t *setpoint, CRTPPacket *pk)
if (altHoldMode) {
if (!modeSet) { //Reset filter and PID values on first initiation of assist mode to prevent sudden reactions.
modeSet = true;
positionControllerResetAllPID();
positionControllerResetAllPID(0, 0, 0); // TODO: initialize with actual x, y, z position
positionControllerResetAllfilters();
}
setpoint->thrust = 0;
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19 changes: 5 additions & 14 deletions src/utils/interface/pid.h
Original file line number Diff line number Diff line change
Expand Up @@ -86,21 +86,20 @@ void pidSetIntegralLimit(PidObject* pid, const float limit);
/**
* Reset the PID error values
*
* @param[in] pid A pointer to the pid object.
* @param[in] limit Pid integral swing limit.
* @param[in] pid A pointer to the pid object.
* @param[in] initial Initial value of the controlled state.
*/
void pidReset(PidObject* pid);
void pidReset(PidObject* pid, float initial);

/**
* Update the PID parameters.
*
* @param[in] pid A pointer to the pid object.
* @param[in] measured The measured value
* @param[in] updateError Set to TRUE if error should be calculated.
* Set to False if pidSetError() has been used.
* @param[in] isYawAngle Set to TRUE if it is a PID on yaw angle, set to false otherwise
* @return PID algorithm output
*/
float pidUpdate(PidObject* pid, const float measured, const bool updateError);
float pidUpdate(PidObject* pid, const float measured, const bool isYawAngle);

/**
* Set a new set point for the PID to track.
Expand All @@ -122,14 +121,6 @@ float pidGetDesired(PidObject* pid);
*/
bool pidIsActive(PidObject* pid);

/**
* Set a new error. Use if a special error calculation is needed.
*
* @param[in] pid A pointer to the pid object.
* @param[in] error The new error
*/
void pidSetError(PidObject* pid, const float error);

/**
* Set a new proportional gain for the PID.
*
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43 changes: 26 additions & 17 deletions src/utils/src/pid.c
Original file line number Diff line number Diff line change
Expand Up @@ -54,15 +54,20 @@ void pidInit(PidObject* pid, const float desired, const float kp,
}
}

float pidUpdate(PidObject* pid, const float measured, const bool updateError)
float pidUpdate(PidObject* pid, const float measured, const bool isYawAngle)
{
float output = 0.0f;

if (updateError)
{
pid->error = pid->desired - measured;
pid->error = pid->desired - measured;

if (isYawAngle){
if (pid->error > 180.0f){
pid->error -= 360.0f;
} else if (pid->error < -180.0f){
pid->error += 360.0f;
}
}

pid->outP = pid->kp * pid->error;
output += pid->outP;

Expand All @@ -73,15 +78,24 @@ float pidUpdate(PidObject* pid, const float measured, const bool updateError)
* in the setpoint. By using the process variable for the derivative calculation, we achieve
* smoother and more stable control during setpoint changes.
*/
float deriv = -(measured - pid->prevMeasured) / pid->dt;
float delta = -(measured - pid->prevMeasured);

// For yaw measurements, take care of spikes when crossing 180deg <-> -180deg
if (isYawAngle){
if (delta > 180.0f){
delta -= 360.0f;
} else if (delta < -180.0f){
delta += 360.0f;
}
}

#if CONFIG_CONTROLLER_PID_FILTER_ALL
pid->deriv = deriv;
pid->deriv = delta / pid->dt;
#else
if (pid->enableDFilter){
pid->deriv = lpf2pApply(&pid->dFilter, deriv);
pid->deriv = lpf2pApply(&pid->dFilter, delta / pid->dt);
} else {
pid->deriv = deriv;
pid->deriv = delta / pid->dt;
}
#endif
if (isnan(pid->deriv)) {
Expand Down Expand Up @@ -116,7 +130,7 @@ float pidUpdate(PidObject* pid, const float measured, const bool updateError)
if (isnan(output)) {
output = 0;
}
#endif
#endif

// Constrain the total PID output (unless the outputLimit is zero)
if(pid->outputLimit != 0)
Expand All @@ -133,19 +147,14 @@ void pidSetIntegralLimit(PidObject* pid, const float limit) {
pid->iLimit = limit;
}

void pidReset(PidObject* pid)
void pidReset(PidObject* pid, const float actual)
{
pid->error = 0;
pid->prevMeasured = 0;
pid->prevMeasured = actual;
pid->integ = 0;
pid->deriv = 0;
}

void pidSetError(PidObject* pid, const float error)
{
pid->error = error;
}

void pidSetDesired(PidObject* pid, const float desired)
{
pid->desired = desired;
Expand Down

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