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10
CHANGELOG.md
10
CHANGELOG.md
@ -17,6 +17,13 @@ change warranting a new major release:
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# [unreleased]
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## Added
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- In case the ACS Controller does recognize more than one RW to be invalid and therefore not
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available, it does not perform pointing control but aborts shortly after `sensorProcessing`. If the
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problem persits for 5 ACS cycles, the `MULTIPLE_RW_INVALID` event is triggered, which invokes the
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transition of the `AcsSubsystem` to safe mode.
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## Changed
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- Igrf13 model vector now outputs as uT instead of nT
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@ -29,6 +36,9 @@ change warranting a new major release:
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## Fixed
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- Fixed values for GYR sensor fusion
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- Fixed speed types for `rwHandlingParameter`
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- Pseudo inverse used for allocating torque to RWs and RW antistiction now actually consider the
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state of the RWs
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# [v1.27.2] 2023-02-14
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@ -23,6 +23,8 @@ static const uint8_t SUBSYSTEM_ID = SUBSYSTEM_ID::ACS_SUBSYSTEM;
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static const Event SAFE_RATE_VIOLATION = MAKE_EVENT(0, severity::MEDIUM);
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//!< The system has recovered from a safe rate rotation violation.
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static constexpr Event SAFE_RATE_RECOVERY = MAKE_EVENT(1, severity::MEDIUM);
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//!< Multiple RWs are invalid, not commandable and therefore higher ACS modes cannot be maintained.
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static constexpr Event MULTIPLE_RW_INVALID = MAKE_EVENT(2, severity::HIGH);
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extern const char* getModeStr(AcsMode mode);
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@ -15,6 +15,7 @@ AcsController::AcsController(object_id_t objectId)
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detumble(&acsParameters),
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ptgCtrl(&acsParameters),
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detumbleCounter{0},
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multipleRwUnavailableCounter{0},
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parameterHelper(this),
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mgmDataRaw(this),
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mgmDataProcessed(this),
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@ -263,7 +264,16 @@ void AcsController::performPointingCtrl() {
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double quatErrorComplete[4] = {0, 0, 0, 0}, quatError[3] = {0, 0, 0},
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deltaRate[3] = {0, 0, 0}; // ToDo: check if pointer needed
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double rwPseudoInv[4][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
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guidance.getDistributionMatrixRw(&sensorValues, *rwPseudoInv);
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ReturnValue_t result = guidance.getDistributionMatrixRw(&sensorValues, *rwPseudoInv);
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if (result == returnvalue::FAILED) {
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multipleRwUnavailableCounter++;
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if (multipleRwUnavailableCounter > 4) {
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triggerEvent(acs::MULTIPLE_RW_INVALID);
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}
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return;
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} else {
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multipleRwUnavailableCounter = 0;
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}
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double torquePtgRws[4] = {0, 0, 0, 0}, rwTrqNs[4] = {0, 0, 0, 0};
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double torqueRws[4] = {0, 0, 0, 0}, torqueRwsScaled[4] = {0, 0, 0, 0};
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double mgtDpDes[3] = {0, 0, 0};
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@ -385,10 +395,7 @@ void AcsController::performPointingCtrl() {
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}
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if (enableAntiStiction) {
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bool rwAvailable[4] = {true, true, true, true}; // WHICH INPUT SENSOR SET?
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int32_t rwSpeed[4] = {sensorValues.rw1Set.currSpeed.value, sensorValues.rw2Set.currSpeed.value,
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sensorValues.rw3Set.currSpeed.value, sensorValues.rw4Set.currSpeed.value};
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ptgCtrl.rwAntistiction(rwAvailable, rwSpeed, torqueRwsScaled);
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ptgCtrl.rwAntistiction(&sensorValues, torqueRwsScaled);
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}
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int32_t cmdSpeedRws[4] = {0, 0, 0, 0};
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@ -50,6 +50,7 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
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PtgCtrl ptgCtrl;
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uint8_t detumbleCounter;
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uint8_t multipleRwUnavailableCounter;
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ParameterHelper parameterHelper;
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@ -294,17 +294,17 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
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parameterWrapper->set(rwMatrices.pseudoInverse);
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break;
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case 0x2:
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parameterWrapper->set(rwMatrices.without0);
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break;
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case 0x3:
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parameterWrapper->set(rwMatrices.without1);
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break;
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case 0x4:
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case 0x3:
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parameterWrapper->set(rwMatrices.without2);
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break;
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case 0x5:
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case 0x4:
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parameterWrapper->set(rwMatrices.without3);
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break;
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case 0x5:
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parameterWrapper->set(rwMatrices.without4);
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break;
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case 0x6:
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parameterWrapper->set(rwMatrices.nullspace);
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break;
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@ -788,9 +788,9 @@ class AcsParameters : public HasParametersIF {
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struct RwHandlingParameters {
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double inertiaWheel = 0.000028198;
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double maxTrq = 0.0032; // 3.2 [mNm]
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double stictionSpeed = 100; // 80; // RPM
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double stictionReleaseSpeed = 120; // RPM
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double maxTrq = 0.0032; // 3.2 [mNm]
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int32_t stictionSpeed = 100; // RPM
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int32_t stictionReleaseSpeed = 120; // RPM
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double stictionTorque = 0.0006;
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uint16_t rampTime = 10;
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@ -802,13 +802,13 @@ class AcsParameters : public HasParametersIF {
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{0.3907, 0.3907, 0.3907, 0.3907}};
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double pseudoInverse[4][3] = {
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{0.5432, 0, 0.6398}, {0, -0.5432, 0.6398}, {-0.5432, 0, 0.6398}, {0, 0.5432, 0.6398}};
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double without0[4][3] = {
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{0, 0, 0}, {0.5432, -0.5432, 1.2797}, {-1.0864, 0, 0}, {0.5432, 0.5432, 1.2797}};
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double without1[4][3] = {
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{0.5432, -0.5432, 1.2797}, {0, 0, 0}, {-0.5432, -0.5432, 1.2797}, {0, 1.0864, 0}};
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{0, 0, 0}, {0.5432, -0.5432, 1.2797}, {-1.0864, 0, 0}, {0.5432, 0.5432, 1.2797}};
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double without2[4][3] = {
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{1.0864, 0, 0}, {-0.5432, -0.5432, 1.2797}, {0, 0, 0}, {-0.5432, 0.5432, 1.2797}};
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{0.5432, -0.5432, 1.2797}, {0, 0, 0}, {-0.5432, -0.5432, 1.2797}, {0, 1.0864, 0}};
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double without3[4][3] = {
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{1.0864, 0, 0}, {-0.5432, -0.5432, 1.2797}, {0, 0, 0}, {-0.5432, 0.5432, 1.2797}};
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double without4[4][3] = {
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{0.5432, 0.5432, 1.2797}, {0, -1.0864, 0}, {-0.5432, 0.5432, 1.2797}, {0, 0, 0}};
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double nullspace[4] = {-0.5000, 0.5000, -0.5000, 0.5000};
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} rwMatrices;
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@ -610,104 +610,33 @@ void Guidance::comparePtg(double targetQuat[4], acsctrl::MekfData *mekfData, dou
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// under 150 arcsec ??
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}
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void Guidance::getDistributionMatrixRw(ACS::SensorValues *sensorValues, double *rwPseudoInv) {
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if (sensorValues->rw1Set.isValid() && sensorValues->rw2Set.isValid() &&
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sensorValues->rw3Set.isValid() && sensorValues->rw4Set.isValid()) {
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rwPseudoInv[0] = acsParameters.rwMatrices.pseudoInverse[0][0];
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rwPseudoInv[1] = acsParameters.rwMatrices.pseudoInverse[0][1];
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rwPseudoInv[2] = acsParameters.rwMatrices.pseudoInverse[0][2];
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rwPseudoInv[3] = acsParameters.rwMatrices.pseudoInverse[1][0];
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rwPseudoInv[4] = acsParameters.rwMatrices.pseudoInverse[1][1];
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rwPseudoInv[5] = acsParameters.rwMatrices.pseudoInverse[1][2];
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rwPseudoInv[6] = acsParameters.rwMatrices.pseudoInverse[2][0];
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rwPseudoInv[7] = acsParameters.rwMatrices.pseudoInverse[2][1];
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rwPseudoInv[8] = acsParameters.rwMatrices.pseudoInverse[2][2];
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rwPseudoInv[9] = acsParameters.rwMatrices.pseudoInverse[3][0];
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rwPseudoInv[10] = acsParameters.rwMatrices.pseudoInverse[3][1];
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rwPseudoInv[11] = acsParameters.rwMatrices.pseudoInverse[3][2];
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ReturnValue_t Guidance::getDistributionMatrixRw(ACS::SensorValues *sensorValues,
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double *rwPseudoInv) {
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bool rw1valid = (sensorValues->rw1Set.state.value && sensorValues->rw1Set.state.isValid());
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bool rw2valid = (sensorValues->rw2Set.state.value && sensorValues->rw2Set.state.isValid());
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bool rw3valid = (sensorValues->rw3Set.state.value && sensorValues->rw3Set.state.isValid());
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bool rw4valid = (sensorValues->rw4Set.state.value && sensorValues->rw4Set.state.isValid());
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}
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else if (!(sensorValues->rw1Set.isValid()) && sensorValues->rw2Set.isValid() &&
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sensorValues->rw3Set.isValid() && sensorValues->rw4Set.isValid()) {
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rwPseudoInv[0] = acsParameters.rwMatrices.without0[0][0];
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rwPseudoInv[1] = acsParameters.rwMatrices.without0[0][1];
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rwPseudoInv[2] = acsParameters.rwMatrices.without0[0][2];
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rwPseudoInv[3] = acsParameters.rwMatrices.without0[1][0];
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rwPseudoInv[4] = acsParameters.rwMatrices.without0[1][1];
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rwPseudoInv[5] = acsParameters.rwMatrices.without0[1][2];
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rwPseudoInv[6] = acsParameters.rwMatrices.without0[2][0];
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rwPseudoInv[7] = acsParameters.rwMatrices.without0[2][1];
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rwPseudoInv[8] = acsParameters.rwMatrices.without0[2][2];
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rwPseudoInv[9] = acsParameters.rwMatrices.without0[3][0];
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rwPseudoInv[10] = acsParameters.rwMatrices.without0[3][1];
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rwPseudoInv[11] = acsParameters.rwMatrices.without0[3][2];
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}
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else if ((sensorValues->rw1Set.isValid()) && !(sensorValues->rw2Set.isValid()) &&
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sensorValues->rw3Set.isValid() && sensorValues->rw4Set.isValid()) {
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rwPseudoInv[0] = acsParameters.rwMatrices.without1[0][0];
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rwPseudoInv[1] = acsParameters.rwMatrices.without1[0][1];
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rwPseudoInv[2] = acsParameters.rwMatrices.without1[0][2];
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rwPseudoInv[3] = acsParameters.rwMatrices.without1[1][0];
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rwPseudoInv[4] = acsParameters.rwMatrices.without1[1][1];
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rwPseudoInv[5] = acsParameters.rwMatrices.without1[1][2];
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rwPseudoInv[6] = acsParameters.rwMatrices.without1[2][0];
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rwPseudoInv[7] = acsParameters.rwMatrices.without1[2][1];
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rwPseudoInv[8] = acsParameters.rwMatrices.without1[2][2];
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rwPseudoInv[9] = acsParameters.rwMatrices.without1[3][0];
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rwPseudoInv[10] = acsParameters.rwMatrices.without1[3][1];
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rwPseudoInv[11] = acsParameters.rwMatrices.without1[3][2];
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}
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else if ((sensorValues->rw1Set.isValid()) && (sensorValues->rw2Set.isValid()) &&
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!(sensorValues->rw3Set.isValid()) && sensorValues->rw4Set.isValid()) {
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rwPseudoInv[0] = acsParameters.rwMatrices.without2[0][0];
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rwPseudoInv[1] = acsParameters.rwMatrices.without2[0][1];
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rwPseudoInv[2] = acsParameters.rwMatrices.without2[0][2];
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rwPseudoInv[3] = acsParameters.rwMatrices.without2[1][0];
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rwPseudoInv[4] = acsParameters.rwMatrices.without2[1][1];
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rwPseudoInv[5] = acsParameters.rwMatrices.without2[1][2];
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rwPseudoInv[6] = acsParameters.rwMatrices.without2[2][0];
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rwPseudoInv[7] = acsParameters.rwMatrices.without2[2][1];
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rwPseudoInv[8] = acsParameters.rwMatrices.without2[2][2];
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rwPseudoInv[9] = acsParameters.rwMatrices.without2[3][0];
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rwPseudoInv[10] = acsParameters.rwMatrices.without2[3][1];
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rwPseudoInv[11] = acsParameters.rwMatrices.without2[3][2];
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}
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else if ((sensorValues->rw1Set.isValid()) && (sensorValues->rw2Set.isValid()) &&
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(sensorValues->rw3Set.isValid()) && !(sensorValues->rw4Set.isValid())) {
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rwPseudoInv[0] = acsParameters.rwMatrices.without3[0][0];
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rwPseudoInv[1] = acsParameters.rwMatrices.without3[0][1];
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rwPseudoInv[2] = acsParameters.rwMatrices.without3[0][2];
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rwPseudoInv[3] = acsParameters.rwMatrices.without3[1][0];
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rwPseudoInv[4] = acsParameters.rwMatrices.without3[1][1];
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rwPseudoInv[5] = acsParameters.rwMatrices.without3[1][2];
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rwPseudoInv[6] = acsParameters.rwMatrices.without3[2][0];
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rwPseudoInv[7] = acsParameters.rwMatrices.without3[2][1];
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rwPseudoInv[8] = acsParameters.rwMatrices.without3[2][2];
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rwPseudoInv[9] = acsParameters.rwMatrices.without3[3][0];
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rwPseudoInv[10] = acsParameters.rwMatrices.without3[3][1];
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rwPseudoInv[11] = acsParameters.rwMatrices.without3[3][2];
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}
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else {
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if (rw1valid && rw2valid && rw3valid && rw4valid) {
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std::memcpy(rwPseudoInv, acsParameters.rwMatrices.pseudoInverse, 12 * sizeof(double));
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return returnvalue::OK;
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} else if (!rw1valid && rw2valid && rw3valid && rw4valid) {
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std::memcpy(rwPseudoInv, acsParameters.rwMatrices.without1, 12 * sizeof(double));
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return returnvalue::OK;
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} else if (rw1valid && !rw2valid && rw3valid && rw4valid) {
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std::memcpy(rwPseudoInv, acsParameters.rwMatrices.without2, 12 * sizeof(double));
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return returnvalue::OK;
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} else if (rw1valid && rw2valid && !rw3valid && rw4valid) {
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std::memcpy(rwPseudoInv, acsParameters.rwMatrices.without3, 12 * sizeof(double));
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return returnvalue::OK;
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} else if (rw1valid && rw2valid && rw3valid && !rw4valid) {
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std::memcpy(rwPseudoInv, acsParameters.rwMatrices.without4, 12 * sizeof(double));
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return returnvalue::OK;
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} else {
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// @note: This one takes the normal pseudoInverse of all four raction wheels valid.
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// Does not make sense, but is implemented that way in MATLAB ?!
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// Thought: It does not really play a role, because in case there are more then one
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// reaction wheel invalid the pointing control is destined to fail.
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rwPseudoInv[0] = acsParameters.rwMatrices.pseudoInverse[0][0];
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rwPseudoInv[1] = acsParameters.rwMatrices.pseudoInverse[0][1];
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rwPseudoInv[2] = acsParameters.rwMatrices.pseudoInverse[0][2];
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rwPseudoInv[3] = acsParameters.rwMatrices.pseudoInverse[1][0];
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rwPseudoInv[4] = acsParameters.rwMatrices.pseudoInverse[1][1];
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rwPseudoInv[5] = acsParameters.rwMatrices.pseudoInverse[1][2];
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rwPseudoInv[6] = acsParameters.rwMatrices.pseudoInverse[2][0];
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rwPseudoInv[7] = acsParameters.rwMatrices.pseudoInverse[2][1];
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rwPseudoInv[8] = acsParameters.rwMatrices.pseudoInverse[2][2];
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rwPseudoInv[9] = acsParameters.rwMatrices.pseudoInverse[3][0];
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rwPseudoInv[10] = acsParameters.rwMatrices.pseudoInverse[3][1];
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rwPseudoInv[11] = acsParameters.rwMatrices.pseudoInverse[3][2];
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return returnvalue::FAILED;
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}
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}
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@ -67,7 +67,7 @@ class Guidance {
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// @note: will give back the pseudoinverse matrix for the reaction wheel depending on the valid
|
||||
// reation wheel maybe can be done in "commanding.h"
|
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void getDistributionMatrixRw(ACS::SensorValues *sensorValues, double *rwPseudoInv);
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ReturnValue_t getDistributionMatrixRw(ACS::SensorValues *sensorValues, double *rwPseudoInv);
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private:
|
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AcsParameters acsParameters;
|
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|
@ -161,8 +161,14 @@ void PtgCtrl::ptgNullspace(AcsParameters::PointingLawParameters *pointingLawPara
|
||||
VectorOperations<double>::mulScalar(rwTrqNs, -1, rwTrqNs, 4);
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||||
}
|
||||
|
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void PtgCtrl::rwAntistiction(const bool *rwAvailable, const int32_t *omegaRw,
|
||||
double *torqueCommand) {
|
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void PtgCtrl::rwAntistiction(ACS::SensorValues *sensorValues, double *torqueCommand) {
|
||||
bool rwAvailable[4] = {
|
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(sensorValues->rw1Set.state.value && sensorValues->rw1Set.state.isValid()),
|
||||
(sensorValues->rw2Set.state.value && sensorValues->rw2Set.state.isValid()),
|
||||
(sensorValues->rw3Set.state.value && sensorValues->rw3Set.state.isValid()),
|
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(sensorValues->rw4Set.state.value && sensorValues->rw4Set.state.isValid())};
|
||||
int32_t omegaRw[4] = {sensorValues->rw1Set.currSpeed.value, sensorValues->rw2Set.currSpeed.value,
|
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sensorValues->rw3Set.currSpeed.value, sensorValues->rw4Set.currSpeed.value};
|
||||
for (uint8_t i = 0; i < 4; i++) {
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if (rwAvailable[i]) {
|
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if (torqueMemory[i] != 0) {
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|
@ -54,11 +54,10 @@ class PtgCtrl {
|
||||
const int32_t *speedRw3, double *rwTrqNs);
|
||||
|
||||
/* @brief: Commands the stiction torque in case wheel speed is to low
|
||||
* @param: rwAvailable Boolean Flag for all reaction wheels
|
||||
* omegaRw current wheel speed of reaction wheels
|
||||
* @param: sensorValues class containing all RW related values
|
||||
* torqueCommand modified torque after antistiction
|
||||
*/
|
||||
void rwAntistiction(const bool *rwAvailable, const int32_t *omegaRw, double *torqueCommand);
|
||||
void rwAntistiction(ACS::SensorValues *sensorValues, double *torqueCommand);
|
||||
|
||||
private:
|
||||
AcsParameters::RwHandlingParameters *rwHandlingParameters;
|
||||
|
@ -42,6 +42,11 @@ ReturnValue_t AcsSubsystem::initialize() {
|
||||
if (result != returnvalue::OK) {
|
||||
sif::error << "AcsSubsystem: Subscribing for acs::SAFE_RATE_RECOVERY failed" << std::endl;
|
||||
}
|
||||
result =
|
||||
manager->subscribeToEvent(eventQueue->getId(), event::getEventId(acs::MULTIPLE_RW_INVALID));
|
||||
if (result != returnvalue::OK) {
|
||||
sif::error << "AcsSubsystem: Subscribing for acs::MULTIPLE_RW_INVALID failed" << std::endl;
|
||||
}
|
||||
return Subsystem::initialize();
|
||||
}
|
||||
|
||||
@ -64,12 +69,13 @@ void AcsSubsystem::handleEventMessages() {
|
||||
sif::error << "AcsSubsystem: sending DETUMBLE mode cmd to self has failed" << std::endl;
|
||||
}
|
||||
}
|
||||
if (event.getEvent() == acs::SAFE_RATE_RECOVERY) {
|
||||
if (event.getEvent() == acs::SAFE_RATE_RECOVERY ||
|
||||
event.getEvent() == acs::MULTIPLE_RW_INVALID) {
|
||||
CommandMessage msg;
|
||||
ModeMessage::setCmdModeMessage(msg, acs::AcsMode::SAFE, 0);
|
||||
ReturnValue_t result = commandQueue->sendMessage(commandQueue->getId(), &msg);
|
||||
if (result != returnvalue::OK) {
|
||||
sif::error << "AcsSubsystem: sending IDLE mode cmd to self has failed" << std::endl;
|
||||
sif::error << "AcsSubsystem: sending SAFE mode cmd to self has failed" << std::endl;
|
||||
}
|
||||
}
|
||||
break;
|
||||
|
Loading…
Reference in New Issue
Block a user