removed inertia matrix for safe mode
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7f3f99c6aa
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@ -165,8 +165,8 @@ void AcsController::performSafe() {
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}
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}
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// get desired satellite rate, sun direction to align to and inertia
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// get desired satellite rate, sun direction to align to and inertia
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double sunTargetDir[3] = {0, 0, 0}, inertiaEive[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
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double sunTargetDir[3] = {0, 0, 0};
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guidance.getTargetParamsSafe(sunTargetDir, inertiaEive);
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guidance.getTargetParamsSafe(sunTargetDir);
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double magMomMtq[3] = {0, 0, 0}, errAng = 0.0;
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double magMomMtq[3] = {0, 0, 0}, errAng = 0.0;
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uint8_t safeCtrlStrat = safeCtrl.safeCtrlStrategy(
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uint8_t safeCtrlStrat = safeCtrl.safeCtrlStrategy(
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@ -178,20 +178,19 @@ void AcsController::performSafe() {
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case (acs::SafeModeStrategy::SAFECTRL_ACTIVE_MEKF):
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case (acs::SafeModeStrategy::SAFECTRL_ACTIVE_MEKF):
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safeCtrl.safeMekf(mgmDataProcessed.mgmVecTot.value, mekfData.satRotRateMekf.value,
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safeCtrl.safeMekf(mgmDataProcessed.mgmVecTot.value, mekfData.satRotRateMekf.value,
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susDataProcessed.sunIjkModel.value, mekfData.quatMekf.value, sunTargetDir,
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susDataProcessed.sunIjkModel.value, mekfData.quatMekf.value, sunTargetDir,
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inertiaEive, magMomMtq, errAng);
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magMomMtq, errAng);
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safeCtrlFailureFlag = false;
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safeCtrlFailureFlag = false;
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safeCtrlFailureCounter = 0;
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safeCtrlFailureCounter = 0;
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break;
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break;
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case (acs::SafeModeStrategy::SAFECTRL_WITHOUT_MEKF):
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case (acs::SafeModeStrategy::SAFECTRL_WITHOUT_MEKF):
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safeCtrl.safeNonMekf(mgmDataProcessed.mgmVecTot.value, gyrDataProcessed.gyrVecTot.value,
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safeCtrl.safeNonMekf(mgmDataProcessed.mgmVecTot.value, gyrDataProcessed.gyrVecTot.value,
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susDataProcessed.susVecTot.value, sunTargetDir, inertiaEive, magMomMtq,
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susDataProcessed.susVecTot.value, sunTargetDir, magMomMtq, errAng);
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errAng);
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safeCtrlFailureFlag = false;
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safeCtrlFailureFlag = false;
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safeCtrlFailureCounter = 0;
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safeCtrlFailureCounter = 0;
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break;
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break;
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case (acs::SafeModeStrategy::SAFECTRL_ECLIPSE_DAMPING):
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case (acs::SafeModeStrategy::SAFECTRL_ECLIPSE_DAMPING):
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safeCtrl.safeRateDamping(mgmDataProcessed.mgmVecTot.value, gyrDataProcessed.gyrVecTot.value,
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safeCtrl.safeRateDamping(mgmDataProcessed.mgmVecTot.value, gyrDataProcessed.gyrVecTot.value,
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sunTargetDir, inertiaEive, magMomMtq, errAng);
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sunTargetDir, magMomMtq, errAng);
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safeCtrlFailureFlag = false;
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safeCtrlFailureFlag = false;
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safeCtrlFailureCounter = 0;
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safeCtrlFailureCounter = 0;
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break;
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break;
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@ -539,19 +539,15 @@ ReturnValue_t Guidance::getDistributionMatrixRw(ACS::SensorValues *sensorValues,
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}
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}
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}
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}
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void Guidance::getTargetParamsSafe(double sunTargetSafe[3], double inertiaEive[3][3]) {
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void Guidance::getTargetParamsSafe(double sunTargetSafe[3]) {
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std::error_code e;
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std::error_code e;
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if (not std::filesystem::exists(SD_0_SKEWED_PTG_FILE, e) or
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if (not std::filesystem::exists(SD_0_SKEWED_PTG_FILE, e) or
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not std::filesystem::exists(SD_1_SKEWED_PTG_FILE, e)) {
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not std::filesystem::exists(SD_1_SKEWED_PTG_FILE, e)) {
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std::memcpy(sunTargetSafe, acsParameters->safeModeControllerParameters.sunTargetDir,
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std::memcpy(sunTargetSafe, acsParameters->safeModeControllerParameters.sunTargetDir,
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3 * sizeof(double));
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3 * sizeof(double));
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std::memcpy(inertiaEive, acsParameters->inertiaEIVE.inertiaMatrixDeployed,
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3 * 3 * sizeof(double));
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} else {
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} else {
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std::memcpy(sunTargetSafe, acsParameters->safeModeControllerParameters.sunTargetDirLeop,
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std::memcpy(sunTargetSafe, acsParameters->safeModeControllerParameters.sunTargetDirLeop,
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3 * sizeof(double));
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3 * sizeof(double));
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std::memcpy(inertiaEive, acsParameters->inertiaEIVE.inertiaMatrixUndeployed,
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3 * 3 * sizeof(double));
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}
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}
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}
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}
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@ -12,7 +12,7 @@ class Guidance {
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Guidance(AcsParameters *acsParameters_);
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Guidance(AcsParameters *acsParameters_);
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virtual ~Guidance();
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virtual ~Guidance();
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void getTargetParamsSafe(double sunTargetSafe[3], double inertiaEive[3][3]);
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void getTargetParamsSafe(double sunTargetSafe[3]);
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ReturnValue_t solarArrayDeploymentComplete();
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ReturnValue_t solarArrayDeploymentComplete();
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// Function to get the target quaternion and refence rotation rate from gps position and
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// Function to get the target quaternion and refence rotation rate from gps position and
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@ -29,7 +29,7 @@ uint8_t SafeCtrl::safeCtrlStrategy(const bool magFieldValid, const ReturnValue_t
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void SafeCtrl::safeMekf(const double *magFieldB, const double *satRotRateB,
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void SafeCtrl::safeMekf(const double *magFieldB, const double *satRotRateB,
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const double *sunDirModelI, const double *quatBI, const double *sunDirRefB,
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const double *sunDirModelI, const double *quatBI, const double *sunDirRefB,
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const double inertiaMatrix[3][3], double *magMomB, double &errorAngle) {
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double *magMomB, double &errorAngle) {
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// convert magFieldB from uT to T
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// convert magFieldB from uT to T
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VectorOperations<double>::mulScalar(magFieldB, 1e-6, magFieldBT, 3);
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VectorOperations<double>::mulScalar(magFieldB, 1e-6, magFieldBT, 3);
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@ -42,9 +42,9 @@ void SafeCtrl::safeMekf(const double *magFieldB, const double *satRotRateB,
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errorAngle = acos(dotSun);
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errorAngle = acos(dotSun);
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splitRotationalRate(satRotRateB, sunDirB);
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splitRotationalRate(satRotRateB, sunDirB);
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calculateRotationalRateTorque(
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calculateRotationalRateTorque(sunDirB, sunDirRefB, errorAngle,
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sunDirB, sunDirRefB, errorAngle, acsParameters->safeModeControllerParameters.k_parallelMekf,
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acsParameters->safeModeControllerParameters.k_parallelMekf,
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acsParameters->safeModeControllerParameters.k_orthoMekf, inertiaMatrix);
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acsParameters->safeModeControllerParameters.k_orthoMekf);
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calculateAngleErrorTorque(sunDirB, sunDirRefB,
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calculateAngleErrorTorque(sunDirB, sunDirRefB,
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acsParameters->safeModeControllerParameters.k_alignMekf);
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acsParameters->safeModeControllerParameters.k_alignMekf);
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@ -57,8 +57,8 @@ void SafeCtrl::safeMekf(const double *magFieldB, const double *satRotRateB,
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}
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}
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void SafeCtrl::safeNonMekf(const double *magFieldB, const double *satRotRateB,
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void SafeCtrl::safeNonMekf(const double *magFieldB, const double *satRotRateB,
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const double *sunDirB, const double *sunDirRefB,
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const double *sunDirB, const double *sunDirRefB, double *magMomB,
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const double inertiaMatrix[3][3], double *magMomB, double &errorAngle) {
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double &errorAngle) {
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// convert magFieldB from uT to T
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// convert magFieldB from uT to T
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double magFieldBT[3] = {0, 0, 0};
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double magFieldBT[3] = {0, 0, 0};
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VectorOperations<double>::mulScalar(magFieldB, 1e-6, magFieldBT, 3);
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VectorOperations<double>::mulScalar(magFieldB, 1e-6, magFieldBT, 3);
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@ -70,8 +70,7 @@ void SafeCtrl::safeNonMekf(const double *magFieldB, const double *satRotRateB,
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splitRotationalRate(satRotRateB, sunDirB);
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splitRotationalRate(satRotRateB, sunDirB);
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calculateRotationalRateTorque(sunDirB, sunDirRefB, errorAngle,
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calculateRotationalRateTorque(sunDirB, sunDirRefB, errorAngle,
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acsParameters->safeModeControllerParameters.k_parallelNonMekf,
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acsParameters->safeModeControllerParameters.k_parallelNonMekf,
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acsParameters->safeModeControllerParameters.k_orthoNonMekf,
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acsParameters->safeModeControllerParameters.k_orthoNonMekf);
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inertiaMatrix);
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calculateAngleErrorTorque(sunDirB, sunDirRefB,
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calculateAngleErrorTorque(sunDirB, sunDirRefB,
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acsParameters->safeModeControllerParameters.k_alignNonMekf);
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acsParameters->safeModeControllerParameters.k_alignNonMekf);
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@ -84,8 +83,7 @@ void SafeCtrl::safeNonMekf(const double *magFieldB, const double *satRotRateB,
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}
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}
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void SafeCtrl::safeRateDamping(const double *magFieldB, const double *satRotRateB,
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void SafeCtrl::safeRateDamping(const double *magFieldB, const double *satRotRateB,
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const double *sunDirRefB, const double inertiaMatrix[3][3],
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const double *sunDirRefB, double *magMomB, double &errorAngle) {
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double *magMomB, double &errorAngle) {
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// convert magFieldB from uT to T
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// convert magFieldB from uT to T
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VectorOperations<double>::mulScalar(magFieldB, 1e-6, magFieldBT, 3);
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VectorOperations<double>::mulScalar(magFieldB, 1e-6, magFieldBT, 3);
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@ -95,8 +93,7 @@ void SafeCtrl::safeRateDamping(const double *magFieldB, const double *satRotRate
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splitRotationalRate(satRotRateB, sunDirRefB);
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splitRotationalRate(satRotRateB, sunDirRefB);
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calculateRotationalRateTorque(sunDirRefB, sunDirRefB, errorAngle,
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calculateRotationalRateTorque(sunDirRefB, sunDirRefB, errorAngle,
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acsParameters->safeModeControllerParameters.k_parallelNonMekf,
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acsParameters->safeModeControllerParameters.k_parallelNonMekf,
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acsParameters->safeModeControllerParameters.k_orthoNonMekf,
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acsParameters->safeModeControllerParameters.k_orthoNonMekf);
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inertiaMatrix);
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// sum of all torques
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// sum of all torques
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double cmdTorque[3] = {0, 0, 0};
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double cmdTorque[3] = {0, 0, 0};
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@ -116,15 +113,12 @@ void SafeCtrl::splitRotationalRate(const double *satRotRateB, const double *sunD
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void SafeCtrl::calculateRotationalRateTorque(const double *sunDirB, const double *sunDirRefB,
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void SafeCtrl::calculateRotationalRateTorque(const double *sunDirB, const double *sunDirRefB,
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double &errorAngle, const double gainParallel,
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double &errorAngle, const double gainParallel,
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const double gainOrtho,
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const double gainOrtho) {
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const double inertiaMatrix[3][3]) {
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// calculate torque for parallel rotational rate
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// calculate torque for parallel rotational rate
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VectorOperations<double>::mulScalar(satRotRateParallelB, -gainParallel, cmdParallel, 3);
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VectorOperations<double>::mulScalar(satRotRateParallelB, -gainParallel, cmdParallel, 3);
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// calculate torque for orthogonal rotational rate
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// calculate torque for orthogonal rotational rate
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double orthoFactor[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
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VectorOperations<double>::mulScalar(satRotRateOrthogonalB, -gainOrtho, cmdOrtho, 3);
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MatrixOperations<double>::multiplyScalar(*inertiaMatrix, -gainOrtho, *orthoFactor, 3, 3);
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MatrixOperations<double>::multiply(*orthoFactor, satRotRateOrthogonalB, cmdOrtho, 3, 3, 1);
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}
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}
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void SafeCtrl::calculateAngleErrorTorque(const double *sunDirB, const double *sunDirRefB,
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void SafeCtrl::calculateAngleErrorTorque(const double *sunDirB, const double *sunDirRefB,
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@ -17,21 +17,20 @@ class SafeCtrl {
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const uint8_t mekfEnabled, const uint8_t dampingEnabled);
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const uint8_t mekfEnabled, const uint8_t dampingEnabled);
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void safeMekf(const double *magFieldB, const double *satRotRateB, const double *sunDirModelI,
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void safeMekf(const double *magFieldB, const double *satRotRateB, const double *sunDirModelI,
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const double *quatBI, const double *sunDirRefB, const double inertiaMatrix[3][3],
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const double *quatBI, const double *sunDirRefB, double *magMomB,
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double *magMomB, double &errorAngle);
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void safeNonMekf(const double *magFieldB, const double *satRotRateB, const double *sunDirB,
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const double *sunDirRefB, const double inertiaMatrix[3][3], double *magMomB,
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double &errorAngle);
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double &errorAngle);
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void safeNonMekf(const double *magFieldB, const double *satRotRateB, const double *sunDirB,
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const double *sunDirRefB, double *magMomB, double &errorAngle);
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void safeRateDamping(const double *magFieldB, const double *satRotRateB, const double *sunDirRefB,
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void safeRateDamping(const double *magFieldB, const double *satRotRateB, const double *sunDirRefB,
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const double inertiaMatrix[3][3], double *magMomB, double &errorAngle);
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double *magMomB, double &errorAngle);
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void splitRotationalRate(const double *satRotRateB, const double *sunDirB);
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void splitRotationalRate(const double *satRotRateB, const double *sunDirB);
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void calculateRotationalRateTorque(const double *sunDirB, const double *sunDirRefB,
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void calculateRotationalRateTorque(const double *sunDirB, const double *sunDirRefB,
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double &errorAngle, const double gainParallel,
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double &errorAngle, const double gainParallel,
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const double gainOrtho, const double inertiaMatrix[3][3]);
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const double gainOrtho);
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void calculateAngleErrorTorque(const double *sunDirB, const double *sunDirRefB,
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void calculateAngleErrorTorque(const double *sunDirB, const double *sunDirRefB,
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const double gainAlign);
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const double gainAlign);
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