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remove absolute control, update iterm rotation
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Quick-Flash authored and nerdCopter committed Jul 6, 2022
1 parent 3aab740 commit 2f8cac7
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Showing 9 changed files with 23 additions and 165 deletions.
3 changes: 0 additions & 3 deletions src/main/blackbox/blackbox.c
Original file line number Diff line number Diff line change
Expand Up @@ -1379,9 +1379,6 @@ static bool blackboxWriteSysinfo(void)
BLACKBOX_PRINT_HEADER_LINE(PARAM_NAME_ANTI_GRAVITY_MODE, "%d", currentPidProfile->antiGravityMode);
BLACKBOX_PRINT_HEADER_LINE(PARAM_NAME_ANTI_GRAVITY_THRESHOLD, "%d", currentPidProfile->itermThrottleThreshold);
BLACKBOX_PRINT_HEADER_LINE(PARAM_NAME_ANTI_GRAVITY_GAIN, "%d", currentPidProfile->itermAcceleratorGain);
#ifdef USE_ABSOLUTE_CONTROL
BLACKBOX_PRINT_HEADER_LINE(PARAM_NAME_ABS_CONTROL_GAIN, "%d", currentPidProfile->abs_control_gain);
#endif
#ifdef USE_INTEGRATED_YAW_CONTROL
BLACKBOX_PRINT_HEADER_LINE(PARAM_NAME_USE_INTEGRATED_YAW, "%d", currentPidProfile->use_integrated_yaw);
#endif
Expand Down
7 changes: 0 additions & 7 deletions src/main/cli/settings.c
Original file line number Diff line number Diff line change
Expand Up @@ -1142,13 +1142,6 @@ const clivalue_t valueTable[] = {
{ "horizon_tilt_effect", VAR_UINT8 | PROFILE_VALUE, .config.minmaxUnsigned = { 0, 250 }, PG_PID_PROFILE, offsetof(pidProfile_t, horizon_tilt_effect) },
{ "horizon_tilt_expert_mode", VAR_UINT8 | PROFILE_VALUE | MODE_LOOKUP, .config.lookup = { TABLE_OFF_ON }, PG_PID_PROFILE, offsetof(pidProfile_t, horizon_tilt_expert_mode) },

#if defined(USE_ABSOLUTE_CONTROL)
{ PARAM_NAME_ABS_CONTROL_GAIN, VAR_UINT8 | PROFILE_VALUE, .config.minmaxUnsigned = { 0, 20 }, PG_PID_PROFILE, offsetof(pidProfile_t, abs_control_gain) },
{ "abs_control_limit", VAR_UINT8 | PROFILE_VALUE, .config.minmaxUnsigned = { 10, 255 }, PG_PID_PROFILE, offsetof(pidProfile_t, abs_control_limit) },
{ "abs_control_error_limit", VAR_UINT8 | PROFILE_VALUE, .config.minmaxUnsigned = { 1, 45 }, PG_PID_PROFILE, offsetof(pidProfile_t, abs_control_error_limit) },
{ "abs_control_cutoff", VAR_UINT8 | PROFILE_VALUE, .config.minmaxUnsigned = { 1, 45 }, PG_PID_PROFILE, offsetof(pidProfile_t, abs_control_cutoff) },
#endif

#ifdef USE_INTEGRATED_YAW_CONTROL
{ PARAM_NAME_USE_INTEGRATED_YAW, VAR_UINT8 | PROFILE_VALUE | MODE_LOOKUP, .config.lookup = {TABLE_OFF_ON }, PG_PID_PROFILE, offsetof(pidProfile_t, use_integrated_yaw) },
{ "integrated_yaw_relax", VAR_UINT8 | PROFILE_VALUE, .config.minmaxUnsigned = { 0, 255 }, PG_PID_PROFILE, offsetof(pidProfile_t, integrated_yaw_relax) },
Expand Down
127 changes: 21 additions & 106 deletions src/main/flight/pid.c
Original file line number Diff line number Diff line change
Expand Up @@ -78,10 +78,6 @@ FAST_DATA_ZERO_INIT uint32_t targetPidLooptime;
FAST_DATA_ZERO_INIT pidAxisData_t pidData[XYZ_AXIS_COUNT];
FAST_DATA_ZERO_INIT pidRuntime_t pidRuntime;

#if defined(USE_ABSOLUTE_CONTROL)
STATIC_UNIT_TESTED FAST_DATA_ZERO_INIT float axisError[XYZ_AXIS_COUNT];
#endif

#if defined(USE_THROTTLE_BOOST)
FAST_DATA_ZERO_INIT float throttleBoost;
pt1Filter_t throttleLpf;
Expand Down Expand Up @@ -160,18 +156,14 @@ void resetPidProfile(pidProfile_t *pidProfile)
.itermLimit = 400,
.throttle_boost = 5,
.throttle_boost_cutoff = 15,
.iterm_rotation = false,
.iterm_rotation = true,
.iterm_relax = ITERM_RELAX_RP,
.iterm_relax_cutoff = ITERM_RELAX_CUTOFF_DEFAULT,
.iterm_relax_type = ITERM_RELAX_SETPOINT,
.acro_trainer_angle_limit = 20,
.acro_trainer_lookahead_ms = 50,
.acro_trainer_debug_axis = FD_ROLL,
.acro_trainer_gain = 75,
.abs_control_gain = 0,
.abs_control_limit = 90,
.abs_control_error_limit = 20,
.abs_control_cutoff = 11,
.antiGravityMode = ANTI_GRAVITY_SMOOTH,
.dterm_lpf1_static_hz = DTERM_LPF1_DYN_MIN_HZ_DEFAULT,
// NOTE: dynamic lpf is enabled by default so this setting is actually
Expand Down Expand Up @@ -285,9 +277,6 @@ void pidResetIterm(void)
{
for (int axis = 0; axis < 3; axis++) {
pidData[axis].I = 0.0f;
#if defined(USE_ABSOLUTE_CONTROL)
axisError[axis] = 0.0f;
#endif
}
}

Expand Down Expand Up @@ -614,47 +603,29 @@ static float accelerationLimit(int axis, float currentPidSetpoint)
return currentPidSetpoint;
}

static void rotateVector(float v[XYZ_AXIS_COUNT], float rotation[XYZ_AXIS_COUNT])
#define SIN2(R) ((R)-(R)*(R)*(R)/6)
#define COS2(R) (1.0f-(R)*(R)/2)

static inline void rotateAroundYaw(float *x, float *y, float r)
{
// rotate v around rotation vector rotation
// rotation in radians, all elements must be small
for (int i = 0; i < XYZ_AXIS_COUNT; i++) {
int i_1 = (i + 1) % 3;
int i_2 = (i + 2) % 3;
float newV = v[i_1] + v[i_2] * rotation[i];
v[i_2] -= v[i_1] * rotation[i];
v[i_1] = newV;
}
float a,b,s,c;

s = SIN2(r);
c = COS2(r);

a = x[0]*c + y[0]*s;
b = y[0]*c - x[0]*s;

x[0] = a;
y[0] = b;
}

STATIC_UNIT_TESTED void rotateItermAndAxisError()
STATIC_UNIT_TESTED void rotateIterm()
{
if (pidRuntime.itermRotation
#if defined(USE_ABSOLUTE_CONTROL)
|| pidRuntime.acGain > 0 || debugMode == DEBUG_AC_ERROR
#endif
) {
const float gyroToAngle = pidRuntime.dT * RAD;
float rotationRads[XYZ_AXIS_COUNT];
for (int i = FD_ROLL; i <= FD_YAW; i++) {
rotationRads[i] = gyro.gyroADCf[i] * gyroToAngle;
}
#if defined(USE_ABSOLUTE_CONTROL)
if (pidRuntime.acGain > 0 || debugMode == DEBUG_AC_ERROR) {
rotateVector(axisError, rotationRads);
}
#endif
if (pidRuntime.itermRotation) {
float v[XYZ_AXIS_COUNT];
for (int i = 0; i < XYZ_AXIS_COUNT; i++) {
v[i] = pidData[i].I;
}
rotateVector(v, rotationRads );
for (int i = 0; i < XYZ_AXIS_COUNT; i++) {
pidData[i].I = v[i];
}
}
if (pidRuntime.itermRotation) {
rotateAroundYaw(&pidData[FD_ROLL].I, &pidData[FD_ROLL].I, gyro.gyroADCf[FD_YAW] * pidRuntime.dT * RAD);
}

}

#ifdef USE_RC_SMOOTHING_FILTER
Expand All @@ -675,46 +646,6 @@ float FAST_CODE applyRcSmoothingFeedforwardFilter(int axis, float pidSetpointDel
#endif // USE_RC_SMOOTHING_FILTER

#if defined(USE_ITERM_RELAX)
#if defined(USE_ABSOLUTE_CONTROL)
STATIC_UNIT_TESTED void applyAbsoluteControl(const int axis, const float gyroRate, float *currentPidSetpoint, float *itermErrorRate)
{
if (pidRuntime.acGain > 0 || debugMode == DEBUG_AC_ERROR) {
const float setpointLpf = pt1FilterApply(&pidRuntime.acLpf[axis], *currentPidSetpoint);
const float setpointHpf = fabsf(*currentPidSetpoint - setpointLpf);
float acErrorRate = 0;
const float gmaxac = setpointLpf + 2 * setpointHpf;
const float gminac = setpointLpf - 2 * setpointHpf;
if (gyroRate >= gminac && gyroRate <= gmaxac) {
const float acErrorRate1 = gmaxac - gyroRate;
const float acErrorRate2 = gminac - gyroRate;
if (acErrorRate1 * axisError[axis] < 0) {
acErrorRate = acErrorRate1;
} else {
acErrorRate = acErrorRate2;
}
if (fabsf(acErrorRate * pidRuntime.dT) > fabsf(axisError[axis]) ) {
acErrorRate = -axisError[axis] * pidRuntime.pidFrequency;
}
} else {
acErrorRate = (gyroRate > gmaxac ? gmaxac : gminac ) - gyroRate;
}

if (isAirmodeActivated()) {
axisError[axis] = constrainf(axisError[axis] + acErrorRate * pidRuntime.dT,
-pidRuntime.acErrorLimit, pidRuntime.acErrorLimit);
const float acCorrection = constrainf(axisError[axis] * pidRuntime.acGain, -pidRuntime.acLimit, pidRuntime.acLimit);
*currentPidSetpoint += acCorrection;
*itermErrorRate += acCorrection;
DEBUG_SET(DEBUG_AC_CORRECTION, axis, lrintf(acCorrection * 10));
if (axis == FD_ROLL) {
DEBUG_SET(DEBUG_ITERM_RELAX, 3, lrintf(acCorrection * 10));
}
}
DEBUG_SET(DEBUG_AC_ERROR, axis, lrintf(axisError[axis] * 10));
}
}
#endif

STATIC_UNIT_TESTED void applyItermRelax(const int axis, const float iterm,
const float gyroRate, float *itermErrorRate, float *currentPidSetpoint)
{
Expand Down Expand Up @@ -742,10 +673,6 @@ STATIC_UNIT_TESTED void applyItermRelax(const int axis, const float iterm,
DEBUG_SET(DEBUG_ITERM_RELAX, 2, lrintf(*itermErrorRate));
}
}

#if defined(USE_ABSOLUTE_CONTROL)
applyAbsoluteControl(axis, gyroRate, currentPidSetpoint, itermErrorRate);
#endif
}
}
#endif
Expand Down Expand Up @@ -926,7 +853,7 @@ void FAST_CODE pidController(const pidProfile_t *pidProfile, timeUs_t currentTim
gyroRateDterm[axis] = pidRuntime.dtermLowpass2ApplyFn((filter_t *) &pidRuntime.dtermLowpass2[axis], gyroRateDterm[axis]);
}

rotateItermAndAxisError();
rotateIterm();

#ifdef USE_RPM_FILTER
rpmFilterUpdate();
Expand Down Expand Up @@ -1002,19 +929,13 @@ void FAST_CODE pidController(const pidProfile_t *pidProfile, timeUs_t currentTim

const float previousIterm = pidData[axis].I;
float itermErrorRate = errorRate;
#ifdef USE_ABSOLUTE_CONTROL
float uncorrectedSetpoint = currentPidSetpoint;
#endif

#if defined(USE_ITERM_RELAX)
if (!launchControlActive && !pidRuntime.inCrashRecoveryMode) {
applyItermRelax(axis, previousIterm, gyroRate, &itermErrorRate, &currentPidSetpoint);
errorRate = currentPidSetpoint - gyroRate;
}
#endif
#ifdef USE_ABSOLUTE_CONTROL
float setpointCorrection = currentPidSetpoint - uncorrectedSetpoint;
#endif

// --------low-level gyro-based PID based on 2DOF PID controller. ----------
// 2-DOF PID controller with optional filter on derivative term.
Expand Down Expand Up @@ -1114,18 +1035,12 @@ void FAST_CODE pidController(const pidProfile_t *pidProfile, timeUs_t currentTim
previousGyroRateDterm[axis] = gyroRateDterm[axis];

// -----calculate feedforward component
#ifdef USE_ABSOLUTE_CONTROL
// include abs control correction in feedforward
pidSetpointDelta += setpointCorrection - pidRuntime.oldSetpointCorrection[axis];
pidRuntime.oldSetpointCorrection[axis] = setpointCorrection;
#endif

// no feedforward in launch control
float feedforwardGain = launchControlActive ? 0.0f : pidRuntime.pidCoefficient[axis].Kf;
if (feedforwardGain > 0) {
// halve feedforward in Level mode since stick sensitivity is weaker by about half
feedforwardGain *= FLIGHT_MODE(ANGLE_MODE) ? 0.5f : 1.0f;
// transition now calculated in feedforward.c when new RC data arrives
// transition now calculated in feedforward.c when new RC data arrives
float feedForward = feedforwardGain * pidSetpointDelta * pidRuntime.pidFrequency;

#ifdef USE_FEEDFORWARD
Expand Down
13 changes: 0 additions & 13 deletions src/main/flight/pid.h
Original file line number Diff line number Diff line change
Expand Up @@ -175,10 +175,6 @@ typedef struct pidProfile_s {
uint8_t acro_trainer_debug_axis; // The axis for which record debugging values are captured 0=roll, 1=pitch
uint8_t acro_trainer_gain; // The strength of the limiting. Raising may reduce overshoot but also lead to oscillation around the angle limit
uint16_t acro_trainer_lookahead_ms; // The lookahead window in milliseconds used to reduce overshoot
uint8_t abs_control_gain; // How strongly should the absolute accumulated error be corrected for
uint8_t abs_control_limit; // Limit to the correction
uint8_t abs_control_error_limit; // Limit to the accumulated error
uint8_t abs_control_cutoff; // Cutoff frequency for path estimation in abs control
uint8_t dterm_lpf2_type; // Filter type for 2nd dterm lowpass
uint16_t dterm_lpf1_dyn_min_hz; // Dterm lowpass filter 1 min hz when in dynamic mode
uint16_t dterm_lpf1_dyn_max_hz; // Dterm lowpass filter 1 max hz when in dynamic mode
Expand Down Expand Up @@ -319,15 +315,6 @@ typedef struct pidRuntime_s {
uint8_t itermRelaxCutoff;
#endif

#ifdef USE_ABSOLUTE_CONTROL
float acCutoff;
float acGain;
float acLimit;
float acErrorLimit;
pt1Filter_t acLpf[XYZ_AXIS_COUNT];
float oldSetpointCorrection[XYZ_AXIS_COUNT];
#endif

#ifdef USE_D_MIN
pt2Filter_t dMinRange[XYZ_AXIS_COUNT];
pt2Filter_t dMinLowpass[XYZ_AXIS_COUNT];
Expand Down
20 changes: 0 additions & 20 deletions src/main/flight/pid_init.c
Original file line number Diff line number Diff line change
Expand Up @@ -210,14 +210,6 @@ void pidInitFilters(const pidProfile_t *pidProfile)
}
#endif

#if defined(USE_ABSOLUTE_CONTROL)
if (pidRuntime.itermRelax) {
for (int i = 0; i < XYZ_AXIS_COUNT; i++) {
pt1FilterInit(&pidRuntime.acLpf[i], pt1FilterGain(pidRuntime.acCutoff, pidRuntime.dT));
}
}
#endif

#if defined(USE_D_MIN)
// Initialize the filters for all axis even if the d_min[axis] value is 0
// Otherwise if the pidProfile->d_min_xxx parameters are ever added to
Expand Down Expand Up @@ -338,17 +330,6 @@ void pidInitConfig(const pidProfile_t *pidProfile)
pidRuntime.acroTrainerGain = (float)pidProfile->acro_trainer_gain / 10.0f;
#endif // USE_ACRO_TRAINER

#if defined(USE_ABSOLUTE_CONTROL)
pidRuntime.acGain = (float)pidProfile->abs_control_gain;
pidRuntime.acLimit = (float)pidProfile->abs_control_limit;
pidRuntime.acErrorLimit = (float)pidProfile->abs_control_error_limit;
pidRuntime.acCutoff = (float)pidProfile->abs_control_cutoff;
for (int axis = FD_ROLL; axis <= FD_YAW; axis++) {
float iCorrection = -pidRuntime.acGain * PTERM_SCALE / ITERM_SCALE * pidRuntime.pidCoefficient[axis].Kp;
pidRuntime.pidCoefficient[axis].Ki = MAX(0.0f, pidRuntime.pidCoefficient[axis].Ki + iCorrection);
}
#endif

#ifdef USE_DYN_LPF
if (pidProfile->dterm_lpf1_dyn_min_hz > 0) {
switch (pidProfile->dterm_lpf1_type) {
Expand Down Expand Up @@ -440,4 +421,3 @@ void pidCopyProfile(uint8_t dstPidProfileIndex, uint8_t srcPidProfileIndex)
memcpy(pidProfilesMutable(dstPidProfileIndex), pidProfilesMutable(srcPidProfileIndex), sizeof(pidProfile_t));
}
}

10 changes: 1 addition & 9 deletions src/main/msp/msp.c
Original file line number Diff line number Diff line change
Expand Up @@ -1462,7 +1462,7 @@ static bool mspProcessOutCommand(int16_t cmdMSP, sbuf_t *dst)
sbufWriteU16(dst, (uint16_t)constrain(gpsSol.llh.altCm / 100, 0, UINT16_MAX)); // alt changed from 1m to 0.01m per lsb since MSP API 1.39 by RTH. To maintain backwards compatibility compensate to 1m per lsb in MSP again.
sbufWriteU16(dst, gpsSol.groundSpeed);
sbufWriteU16(dst, gpsSol.groundCourse);
// Added in API version 1.44
// Added in API version 1.44
sbufWriteU16(dst, gpsSol.hdop);
break;

Expand Down Expand Up @@ -1892,11 +1892,7 @@ static bool mspProcessOutCommand(int16_t cmdMSP, sbuf_t *dst)
sbufWriteU8(dst, 0);
sbufWriteU8(dst, 0);
#endif
#if defined(USE_ABSOLUTE_CONTROL)
sbufWriteU8(dst, currentPidProfile->abs_control_gain);
#else
sbufWriteU8(dst, 0);
#endif
#if defined(USE_THROTTLE_BOOST)
sbufWriteU8(dst, currentPidProfile->throttle_boost);
#else
Expand Down Expand Up @@ -2988,11 +2984,7 @@ static mspResult_e mspProcessInCommand(mspDescriptor_t srcDesc, int16_t cmdMSP,
sbufReadU8(src);
sbufReadU8(src);
#endif
#if defined(USE_ABSOLUTE_CONTROL)
currentPidProfile->abs_control_gain = sbufReadU8(src);
#else
sbufReadU8(src);
#endif
#if defined(USE_THROTTLE_BOOST)
currentPidProfile->throttle_boost = sbufReadU8(src);
#else
Expand Down
4 changes: 0 additions & 4 deletions src/main/target/common_post.h
Original file line number Diff line number Diff line change
Expand Up @@ -397,10 +397,6 @@ extern uint8_t __config_end;
#undef USE_DYN_IDLE
#endif

#ifndef USE_ITERM_RELAX
#undef USE_ABSOLUTE_CONTROL
#endif

#if defined(USE_CUSTOM_DEFAULTS)
#define USE_CUSTOM_DEFAULTS_ADDRESS
#endif
Expand Down
1 change: 0 additions & 1 deletion src/main/target/common_pre.h
Original file line number Diff line number Diff line change
Expand Up @@ -399,7 +399,6 @@ extern uint8_t _dmaram_end__;
#define USE_TELEMETRY_MAVLINK
#define USE_UNCOMMON_MIXERS
#define USE_SIGNATURE
#define USE_ABSOLUTE_CONTROL
#define USE_HOTT_TEXTMODE
#define USE_LED_STRIP_STATUS_MODE
#define USE_VARIO
Expand Down
3 changes: 1 addition & 2 deletions src/test/Makefile
Original file line number Diff line number Diff line change
Expand Up @@ -288,7 +288,7 @@ scheduler_unittest_SRC := \
$(USER_DIR)/common/streambuf.c

scheduler_unittest_DEFINES := \
USE_OSD=
USE_OSD=

sensor_gyro_unittest_SRC := \
$(USER_DIR)/sensors/gyro.c \
Expand Down Expand Up @@ -402,7 +402,6 @@ pid_unittest_SRC := \
pid_unittest_DEFINES := \
USE_ITERM_RELAX= \
USE_RC_SMOOTHING_FILTER= \
USE_ABSOLUTE_CONTROL= \
USE_LAUNCH_CONTROL= \
USE_FEEDFORWARD=

Expand Down

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