meggert
c155f399b1
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201 lines
8.6 KiB
C++
201 lines
8.6 KiB
C++
#include "SafeCtrl.h"
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#include <fsfw/globalfunctions/math/MatrixOperations.h>
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#include <fsfw/globalfunctions/math/QuaternionOperations.h>
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#include <fsfw/globalfunctions/math/VectorOperations.h>
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#include <math.h>
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SafeCtrl::SafeCtrl(AcsParameters *acsParameters_) { acsParameters = acsParameters_; }
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SafeCtrl::~SafeCtrl() {}
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acs::ControlModeStrategy SafeCtrl::safeCtrlStrategy(const bool magFieldValid, const bool mekfValid,
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const bool satRotRateValid, const bool sunDirValid,
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const bool fusedRateTotalValid,
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const uint8_t mekfEnabled,
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const uint8_t gyrEnabled,
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const uint8_t dampingEnabled) {
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if (not magFieldValid) {
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return acs::ControlModeStrategy::CTRL_NO_MAG_FIELD_FOR_CONTROL;
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} else if (mekfEnabled and mekfValid) {
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return acs::ControlModeStrategy::SAFECTRL_MEKF;
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} else if (sunDirValid) {
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if (gyrEnabled and satRotRateValid) {
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return acs::ControlModeStrategy::SAFECTRL_GYR;
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} else if (not gyrEnabled and fusedRateTotalValid) {
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return acs::ControlModeStrategy::SAFECTRL_SUSMGM;
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} else {
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return acs::ControlModeStrategy::CTRL_NO_SENSORS_FOR_CONTROL;
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}
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} else if (not sunDirValid) {
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if (dampingEnabled) {
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if (gyrEnabled and satRotRateValid) {
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return acs::ControlModeStrategy::SAFECTRL_ECLIPSE_DAMPING_GYR;
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} else if (not gyrEnabled and satRotRateValid and fusedRateTotalValid) {
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return acs::ControlModeStrategy::SAFECTRL_ECLIPSE_DAMPING_SUSMGM;
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} else {
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return acs::ControlModeStrategy::CTRL_NO_SENSORS_FOR_CONTROL;
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}
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} else if (not dampingEnabled and satRotRateValid) {
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return acs::ControlModeStrategy::SAFECTRL_ECLIPSE_IDELING;
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} else {
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return acs::ControlModeStrategy::CTRL_NO_SENSORS_FOR_CONTROL;
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}
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} else {
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return acs::ControlModeStrategy::CTRL_NO_SENSORS_FOR_CONTROL;
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}
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}
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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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double *magMomB, double &errorAngle) {
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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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// convert sunDirModel to body rf
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double sunDirB[3] = {0, 0, 0};
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QuaternionOperations::multiplyVector(quatBI, sunDirModelI, sunDirB);
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// calculate angle alpha between sunDirRef and sunDir
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double dotSun = VectorOperations<double>::dot(sunDirRefB, sunDirB);
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errorAngle = acos(dotSun);
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splitRotationalRate(satRotRateB, sunDirB);
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calculateRotationalRateTorque(acsParameters->safeModeControllerParameters.k_parallelMekf,
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acsParameters->safeModeControllerParameters.k_orthoMekf);
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calculateAngleErrorTorque(sunDirB, sunDirRefB,
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acsParameters->safeModeControllerParameters.k_alignMekf);
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// sum of all torques
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for (uint8_t i = 0; i < 3; i++) {
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cmdTorque[i] = cmdAlign[i] + cmdOrtho[i] + cmdParallel[i];
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}
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calculateMagneticMoment(magMomB);
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}
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void SafeCtrl::safeGyr(const double *magFieldB, const double *satRotRateB, const double *sunDirB,
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const double *sunDirRefB, double *magMomB, double &errorAngle) {
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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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// calculate error angle between sunDirRef and sunDir
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double dotSun = VectorOperations<double>::dot(sunDirRefB, sunDirB);
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errorAngle = acos(dotSun);
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splitRotationalRate(satRotRateB, sunDirB);
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calculateRotationalRateTorque(acsParameters->safeModeControllerParameters.k_parallelGyr,
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acsParameters->safeModeControllerParameters.k_orthoGyr);
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calculateAngleErrorTorque(sunDirB, sunDirRefB,
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acsParameters->safeModeControllerParameters.k_alignGyr);
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// sum of all torques
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for (uint8_t i = 0; i < 3; i++) {
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cmdTorque[i] = cmdAlign[i] + cmdOrtho[i] + cmdParallel[i];
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}
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calculateMagneticMoment(magMomB);
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}
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void SafeCtrl::safeSusMgm(const double *magFieldB, const double *rotRateTotalB,
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const double *rotRateParallelB, const double *rotRateOrthogonalB,
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const double *sunDirB, const double *sunDirRefB, double *magMomB,
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double &errorAngle) {
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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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// calculate error angle between sunDirRef and sunDir
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double dotSun = VectorOperations<double>::dot(sunDirRefB, sunDirB);
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errorAngle = acos(dotSun);
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if (VectorOperations<double>::norm(rotRateParallelB, 3) != 0 and
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VectorOperations<double>::norm(rotRateOrthogonalB, 3) != 0) {
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std::memcpy(satRotRateParallelB, rotRateParallelB, sizeof(satRotRateParallelB));
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std::memcpy(satRotRateOrthogonalB, rotRateOrthogonalB, sizeof(satRotRateOrthogonalB));
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} else {
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splitRotationalRate(rotRateTotalB, sunDirB);
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}
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calculateRotationalRateTorque(acsParameters->safeModeControllerParameters.k_parallelSusMgm,
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acsParameters->safeModeControllerParameters.k_orthoSusMgm);
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calculateAngleErrorTorque(sunDirB, sunDirRefB,
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acsParameters->safeModeControllerParameters.k_alignSusMgm);
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// sum of all torques
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for (uint8_t i = 0; i < 3; i++) {
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cmdTorque[i] = cmdAlign[i] + cmdOrtho[i] + cmdParallel[i];
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}
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calculateMagneticMoment(magMomB);
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}
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void SafeCtrl::safeRateDampingGyr(const double *magFieldB, const double *satRotRateB,
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const double *sunDirRefB, double *magMomB, double &errorAngle) {
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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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// no error angle available for eclipse
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errorAngle = NAN;
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splitRotationalRate(satRotRateB, sunDirRefB);
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calculateRotationalRateTorque(acsParameters->safeModeControllerParameters.k_parallelGyr,
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acsParameters->safeModeControllerParameters.k_orthoGyr);
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// sum of all torques
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VectorOperations<double>::add(cmdParallel, cmdOrtho, cmdTorque, 3);
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// calculate magnetic moment to command
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calculateMagneticMoment(magMomB);
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}
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void SafeCtrl::safeRateDampingSusMgm(const double *magFieldB, const double *satRotRateB,
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const double *sunDirRefB, double *magMomB,
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double &errorAngle) {
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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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// no error angle available for eclipse
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errorAngle = NAN;
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splitRotationalRate(satRotRateB, sunDirRefB);
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calculateRotationalRateTorque(acsParameters->safeModeControllerParameters.k_parallelSusMgm,
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acsParameters->safeModeControllerParameters.k_orthoSusMgm);
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// sum of all torques
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VectorOperations<double>::add(cmdParallel, cmdOrtho, cmdTorque, 3);
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// calculate magnetic moment to command
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calculateMagneticMoment(magMomB);
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}
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void SafeCtrl::splitRotationalRate(const double *satRotRateB, const double *sunDirB) {
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// split rotational rate into parallel and orthogonal parts
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double parallelLength = VectorOperations<double>::dot(satRotRateB, sunDirB) *
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pow(VectorOperations<double>::norm(sunDirB, 3), -2);
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VectorOperations<double>::mulScalar(sunDirB, parallelLength, satRotRateParallelB, 3);
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VectorOperations<double>::subtract(satRotRateB, satRotRateParallelB, satRotRateOrthogonalB, 3);
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}
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void SafeCtrl::calculateRotationalRateTorque(const double gainParallel, const double gainOrtho) {
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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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// calculate torque for orthogonal rotational rate
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VectorOperations<double>::mulScalar(satRotRateOrthogonalB, -gainOrtho, cmdOrtho, 3);
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}
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void SafeCtrl::calculateAngleErrorTorque(const double *sunDirB, const double *sunDirRefB,
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const double gainAlign) {
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// calculate torque for alignment
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double crossAlign[3] = {0, 0, 0};
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VectorOperations<double>::cross(sunDirRefB, sunDirB, crossAlign);
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VectorOperations<double>::mulScalar(crossAlign, gainAlign, cmdAlign, 3);
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}
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void SafeCtrl::calculateMagneticMoment(double *magMomB) {
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double torqueMgt[3] = {0, 0, 0};
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VectorOperations<double>::cross(magFieldBT, cmdTorque, torqueMgt);
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double normMag = VectorOperations<double>::norm(magFieldBT, 3);
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VectorOperations<double>::mulScalar(torqueMgt, pow(normMag, -2), magMomB, 3);
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}
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