Merge pull request 'Different Rot Rate Source for Detumble' (#902) from use-different-rot-rate-for-detumble into main
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Reviewed-on: #902 Reviewed-by: Robin Müller <muellerr@irs.uni-stuttgart.de>
This commit is contained in:
commit
0166ebb185
@ -20,6 +20,10 @@ will consitute of a breaking change warranting a new major release:
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- STR quaternions are now used by the `MEKF` by default
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- STR quaternions are now used by the `MEKF` by default
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- Changed nominal `SUS Assembly` side to `B Side`.
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- Changed nominal `SUS Assembly` side to `B Side`.
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- Changed source for state machine of detumbling to SUS and MGM only.
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- Changed `FusedRotRateData` dataset to always display rotation rate from SUS and MGM.
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- Solution from `QUEST` will be set to invalid if sun vector and magnetic field vector are too close
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to each other.
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- Changed collection intervals of dataset collection
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- Changed collection intervals of dataset collection
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- `GPS Controller`: `GPS Set` to 60s
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- `GPS Controller`: `GPS Set` to 60s
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- `MTQ Handler`: `HK with Torque`, `HK without Torque` to 60s
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- `MTQ Handler`: `HK with Torque`, `HK without Torque` to 60s
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@ -232,7 +232,8 @@ void AcsController::performSafe() {
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acs::ControlModeStrategy safeCtrlStrat = safeCtrl.safeCtrlStrategy(
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acs::ControlModeStrategy safeCtrlStrat = safeCtrl.safeCtrlStrategy(
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mgmDataProcessed.mgmVecTot.isValid(), not mekfInvalidFlag,
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mgmDataProcessed.mgmVecTot.isValid(), not mekfInvalidFlag,
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gyrDataProcessed.gyrVecTot.isValid(), susDataProcessed.susVecTot.isValid(),
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gyrDataProcessed.gyrVecTot.isValid(), susDataProcessed.susVecTot.isValid(),
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fusedRotRateData.rotRateTotal.isValid(), acsParameters.safeModeControllerParameters.useMekf,
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fusedRotRateSourcesData.rotRateTotalSusMgm.isValid(),
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acsParameters.safeModeControllerParameters.useMekf,
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acsParameters.safeModeControllerParameters.useGyr,
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acsParameters.safeModeControllerParameters.useGyr,
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acsParameters.safeModeControllerParameters.dampingDuringEclipse);
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acsParameters.safeModeControllerParameters.dampingDuringEclipse);
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switch (safeCtrlStrat) {
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switch (safeCtrlStrat) {
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@ -251,9 +252,10 @@ void AcsController::performSafe() {
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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::ControlModeStrategy::SAFECTRL_SUSMGM):
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case (acs::ControlModeStrategy::SAFECTRL_SUSMGM):
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safeCtrl.safeSusMgm(mgmDataProcessed.mgmVecTot.value, fusedRotRateData.rotRateTotal.value,
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safeCtrl.safeSusMgm(mgmDataProcessed.mgmVecTot.value,
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fusedRotRateData.rotRateParallel.value,
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fusedRotRateSourcesData.rotRateTotalSusMgm.value,
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fusedRotRateData.rotRateOrthogonal.value,
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fusedRotRateSourcesData.rotRateParallelSusMgm.value,
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fusedRotRateSourcesData.rotRateOrthogonalSusMgm.value,
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susDataProcessed.susVecTot.value, sunTargetDir, magMomMtq, errAng);
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susDataProcessed.susVecTot.value, 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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@ -267,8 +269,8 @@ void AcsController::performSafe() {
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break;
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break;
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case (acs::ControlModeStrategy::SAFECTRL_ECLIPSE_DAMPING_SUSMGM):
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case (acs::ControlModeStrategy::SAFECTRL_ECLIPSE_DAMPING_SUSMGM):
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safeCtrl.safeRateDampingSusMgm(mgmDataProcessed.mgmVecTot.value,
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safeCtrl.safeRateDampingSusMgm(mgmDataProcessed.mgmVecTot.value,
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fusedRotRateData.rotRateTotal.value, sunTargetDir, magMomMtq,
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fusedRotRateSourcesData.rotRateTotalSusMgm.value, sunTargetDir,
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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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@ -355,7 +357,7 @@ void AcsController::performPointingCtrl() {
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}
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}
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acs::ControlModeStrategy ptgCtrlStrat = ptgCtrl.pointingCtrlStrategy(
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acs::ControlModeStrategy ptgCtrlStrat = ptgCtrl.pointingCtrlStrategy(
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mgmDataProcessed.mgmVecTot.isValid(), not mekfInvalidFlag, strValid,
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mgmDataProcessed.mgmVecTot.isValid(), not mekfInvalidFlag, strValid,
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attitudeEstimationData.quatQuest.isValid(), fusedRotRateData.rotRateTotal.isValid(),
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attitudeEstimationData.quatQuest.isValid(), fusedRotRateData.rotRateTotalSource.isValid(),
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fusedRotRateData.rotRateSource.value, useMekf);
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fusedRotRateData.rotRateSource.value, useMekf);
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if (ptgCtrlStrat == acs::ControlModeStrategy::CTRL_NO_MAG_FIELD_FOR_CONTROL or
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if (ptgCtrlStrat == acs::ControlModeStrategy::CTRL_NO_MAG_FIELD_FOR_CONTROL or
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@ -387,11 +389,11 @@ void AcsController::performPointingCtrl() {
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quatBI[1] = sensorValues.strSet.caliQy.value;
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quatBI[1] = sensorValues.strSet.caliQy.value;
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quatBI[2] = sensorValues.strSet.caliQz.value;
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quatBI[2] = sensorValues.strSet.caliQz.value;
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quatBI[3] = sensorValues.strSet.caliQw.value;
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quatBI[3] = sensorValues.strSet.caliQw.value;
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std::memcpy(rotRateB, fusedRotRateData.rotRateTotal.value, sizeof(rotRateB));
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std::memcpy(rotRateB, fusedRotRateData.rotRateTotalSource.value, sizeof(rotRateB));
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break;
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break;
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case acs::ControlModeStrategy::PTGCTRL_QUEST:
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case acs::ControlModeStrategy::PTGCTRL_QUEST:
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std::memcpy(quatBI, attitudeEstimationData.quatQuest.value, sizeof(quatBI));
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std::memcpy(quatBI, attitudeEstimationData.quatQuest.value, sizeof(quatBI));
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std::memcpy(rotRateB, fusedRotRateData.rotRateTotal.value, sizeof(rotRateB));
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std::memcpy(rotRateB, fusedRotRateData.rotRateTotalSource.value, sizeof(rotRateB));
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break;
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break;
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default:
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default:
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sif::error << "AcsController: Invalid pointing mode strategy for performPointingCtrl"
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sif::error << "AcsController: Invalid pointing mode strategy for performPointingCtrl"
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@ -555,8 +557,8 @@ void AcsController::performPointingCtrl() {
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void AcsController::handleDetumbling() {
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void AcsController::handleDetumbling() {
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switch (detumbleState) {
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switch (detumbleState) {
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case DetumbleState::NO_DETUMBLE:
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case DetumbleState::NO_DETUMBLE:
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if (fusedRotRateData.rotRateTotal.isValid() and
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if (fusedRotRateData.rotRateTotalSusMgm.isValid() and
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VectorOperations<double>::norm(fusedRotRateData.rotRateTotal.value, 3) >
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VectorOperations<double>::norm(fusedRotRateData.rotRateTotalSusMgm.value, 3) >
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acsParameters.detumbleParameter.omegaDetumbleStart) {
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acsParameters.detumbleParameter.omegaDetumbleStart) {
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detumbleCounter++;
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detumbleCounter++;
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} else if (detumbleCounter > 0) {
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} else if (detumbleCounter > 0) {
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@ -599,8 +601,8 @@ void AcsController::handleDetumbling() {
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detumbleState = DetumbleState::NO_DETUMBLE;
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detumbleState = DetumbleState::NO_DETUMBLE;
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break;
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break;
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case DetumbleState::IN_DETUMBLE:
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case DetumbleState::IN_DETUMBLE:
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if (fusedRotRateData.rotRateTotal.isValid() and
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if (fusedRotRateData.rotRateTotalSusMgm.isValid() and
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VectorOperations<double>::norm(fusedRotRateData.rotRateTotal.value, 3) <
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VectorOperations<double>::norm(fusedRotRateData.rotRateTotalSusMgm.value, 3) <
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acsParameters.detumbleParameter.omegaDetumbleEnd) {
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acsParameters.detumbleParameter.omegaDetumbleEnd) {
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detumbleCounter++;
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detumbleCounter++;
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} else if (detumbleCounter > 0) {
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} else if (detumbleCounter > 0) {
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@ -829,9 +831,8 @@ ReturnValue_t AcsController::initializeLocalDataPool(localpool::DataPool &localD
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localDataPoolMap.emplace(acsctrl::PoolIds::MTQ_TARGET_DIPOLE, &mtqTargetDipole);
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localDataPoolMap.emplace(acsctrl::PoolIds::MTQ_TARGET_DIPOLE, &mtqTargetDipole);
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poolManager.subscribeForRegularPeriodicPacket({actuatorCmdData.getSid(), enableHkSets, 30.0});
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poolManager.subscribeForRegularPeriodicPacket({actuatorCmdData.getSid(), enableHkSets, 30.0});
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// Fused Rot Rate
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// Fused Rot Rate
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localDataPoolMap.emplace(acsctrl::PoolIds::ROT_RATE_ORTHOGONAL, &rotRateOrthogonal);
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localDataPoolMap.emplace(acsctrl::PoolIds::ROT_RATE_TOT_SUSMGM, &rotRateTotSusMgm);
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localDataPoolMap.emplace(acsctrl::PoolIds::ROT_RATE_PARALLEL, &rotRateParallel);
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localDataPoolMap.emplace(acsctrl::PoolIds::ROT_RATE_TOT_SOURCE, &rotRateTotSource);
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localDataPoolMap.emplace(acsctrl::PoolIds::ROT_RATE_TOTAL, &rotRateTotal);
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localDataPoolMap.emplace(acsctrl::PoolIds::ROT_RATE_SOURCE, &rotRateSource);
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localDataPoolMap.emplace(acsctrl::PoolIds::ROT_RATE_SOURCE, &rotRateSource);
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poolManager.subscribeForRegularPeriodicPacket({fusedRotRateData.getSid(), enableHkSets, 30.0});
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poolManager.subscribeForRegularPeriodicPacket({fusedRotRateData.getSid(), enableHkSets, 30.0});
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// Fused Rot Rate Sources
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// Fused Rot Rate Sources
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@ -271,9 +271,8 @@ class AcsController : public ExtendedControllerBase, public ReceivesParameterMes
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// Fused Rot Rate
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// Fused Rot Rate
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acsctrl::FusedRotRateData fusedRotRateData;
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acsctrl::FusedRotRateData fusedRotRateData;
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PoolEntry<double> rotRateOrthogonal = PoolEntry<double>(3);
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PoolEntry<double> rotRateTotSusMgm = PoolEntry<double>(3);
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PoolEntry<double> rotRateParallel = PoolEntry<double>(3);
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PoolEntry<double> rotRateTotSource = PoolEntry<double>(3);
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PoolEntry<double> rotRateTotal = PoolEntry<double>(3);
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PoolEntry<uint8_t> rotRateSource = PoolEntry<uint8_t>();
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PoolEntry<uint8_t> rotRateSource = PoolEntry<uint8_t>();
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// Fused Rot Rate Sources
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// Fused Rot Rate Sources
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@ -38,6 +38,9 @@ ReturnValue_t AcsParameters::getParameter(uint8_t domainId, uint8_t parameterId,
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case 0x5:
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case 0x5:
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parameterWrapper->set(onBoardParams.questFilterWeight);
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parameterWrapper->set(onBoardParams.questFilterWeight);
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break;
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break;
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case 0x6:
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parameterWrapper->set(onBoardParams.questAngleLimit);
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break;
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default:
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default:
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return INVALID_IDENTIFIER_ID;
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return INVALID_IDENTIFIER_ID;
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}
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}
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@ -26,6 +26,7 @@ class AcsParameters : public HasParametersIF {
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uint8_t fusedRateFromStr = true;
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uint8_t fusedRateFromStr = true;
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uint8_t fusedRateFromQuest = true;
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uint8_t fusedRateFromQuest = true;
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double questFilterWeight = 0.9;
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double questFilterWeight = 0.9;
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double questAngleLimit = 5 * DEG2RAD;
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} onBoardParams;
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} onBoardParams;
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struct InertiaEIVE {
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struct InertiaEIVE {
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@ -29,6 +29,20 @@ void AttitudeEstimation::quest(acsctrl::SusDataProcessed *susData,
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VectorOperations<double>::normalize(mgmData->mgmVecTot.value, normMgmB, 3);
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VectorOperations<double>::normalize(mgmData->mgmVecTot.value, normMgmB, 3);
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VectorOperations<double>::normalize(mgmData->magIgrfModel.value, normMgmI, 3);
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VectorOperations<double>::normalize(mgmData->magIgrfModel.value, normMgmI, 3);
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if ((std::acos(VectorOperations<double>::dot(normSusB, normMgmB)) <
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acsParameters->onBoardParams.questAngleLimit) or
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(std::acos(VectorOperations<double>::dot(normSusI, normMgmI)) <
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acsParameters->onBoardParams.questAngleLimit)) {
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{
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PoolReadGuard pg{attitudeEstimationData};
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if (pg.getReadResult() == returnvalue::OK) {
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std::memcpy(attitudeEstimationData->quatQuest.value, ZERO_VEC4, 4 * sizeof(double));
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attitudeEstimationData->quatQuest.setValid(false);
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}
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}
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return;
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}
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// Create Helper Vectors
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// Create Helper Vectors
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double normHelperB[3] = {0, 0, 0}, normHelperI[3] = {0, 0, 0}, helperCross[3] = {0, 0, 0},
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double normHelperB[3] = {0, 0, 0}, normHelperI[3] = {0, 0, 0}, helperCross[3] = {0, 0, 0},
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helperSum[3] = {0, 0, 0};
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helperSum[3] = {0, 0, 0};
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@ -19,13 +19,9 @@ void FusedRotationEstimation::estimateFusedRotationRate(
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acsParameters->onBoardParams.fusedRateFromStr)) {
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acsParameters->onBoardParams.fusedRateFromStr)) {
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PoolReadGuard pg(fusedRotRateData);
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PoolReadGuard pg(fusedRotRateData);
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if (pg.getReadResult() == returnvalue::OK) {
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if (pg.getReadResult() == returnvalue::OK) {
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std::memcpy(fusedRotRateData->rotRateOrthogonal.value, ZERO_VEC3, 3 * sizeof(double));
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std::memcpy(fusedRotRateData->rotRateTotalSource.value,
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fusedRotRateData->rotRateOrthogonal.setValid(false);
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std::memcpy(fusedRotRateData->rotRateParallel.value, ZERO_VEC3, 3 * sizeof(double));
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fusedRotRateData->rotRateParallel.setValid(false);
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std::memcpy(fusedRotRateData->rotRateTotal.value,
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fusedRotRateSourcesData->rotRateTotalStr.value, 3 * sizeof(double));
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fusedRotRateSourcesData->rotRateTotalStr.value, 3 * sizeof(double));
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fusedRotRateData->rotRateTotal.setValid(true);
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fusedRotRateData->rotRateTotalSource.setValid(true);
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fusedRotRateData->rotRateSource.value = acs::rotrate::Source::STR;
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fusedRotRateData->rotRateSource.value = acs::rotrate::Source::STR;
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fusedRotRateData->rotRateSource.setValid(true);
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fusedRotRateData->rotRateSource.setValid(true);
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}
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}
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@ -34,41 +30,38 @@ void FusedRotationEstimation::estimateFusedRotationRate(
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acsParameters->onBoardParams.fusedRateFromQuest)) {
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acsParameters->onBoardParams.fusedRateFromQuest)) {
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PoolReadGuard pg(fusedRotRateData);
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PoolReadGuard pg(fusedRotRateData);
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if (pg.getReadResult() == returnvalue::OK) {
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if (pg.getReadResult() == returnvalue::OK) {
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std::memcpy(fusedRotRateData->rotRateOrthogonal.value, ZERO_VEC3, 3 * sizeof(double));
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std::memcpy(fusedRotRateData->rotRateTotalSource.value,
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fusedRotRateData->rotRateOrthogonal.setValid(false);
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std::memcpy(fusedRotRateData->rotRateParallel.value, ZERO_VEC3, 3 * sizeof(double));
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fusedRotRateData->rotRateParallel.setValid(false);
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std::memcpy(fusedRotRateData->rotRateTotal.value,
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fusedRotRateSourcesData->rotRateTotalQuest.value, 3 * sizeof(double));
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fusedRotRateSourcesData->rotRateTotalQuest.value, 3 * sizeof(double));
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fusedRotRateData->rotRateTotal.setValid(true);
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fusedRotRateData->rotRateTotalSource.setValid(true);
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fusedRotRateData->rotRateSource.value = acs::rotrate::Source::QUEST;
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fusedRotRateData->rotRateSource.value = acs::rotrate::Source::QUEST;
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fusedRotRateData->rotRateSource.setValid(true);
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fusedRotRateData->rotRateSource.setValid(true);
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}
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}
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} else if (fusedRotRateSourcesData->rotRateTotalSusMgm.isValid()) {
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} else if (fusedRotRateSourcesData->rotRateTotalSusMgm.isValid()) {
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std::memcpy(fusedRotRateData->rotRateOrthogonal.value,
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std::memcpy(fusedRotRateData->rotRateTotalSource.value,
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fusedRotRateSourcesData->rotRateOrthogonalSusMgm.value, 3 * sizeof(double));
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fusedRotRateData->rotRateOrthogonal.setValid(
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fusedRotRateSourcesData->rotRateOrthogonalSusMgm.isValid());
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std::memcpy(fusedRotRateData->rotRateParallel.value,
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fusedRotRateSourcesData->rotRateParallelSusMgm.value, 3 * sizeof(double));
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fusedRotRateData->rotRateParallel.setValid(
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fusedRotRateSourcesData->rotRateParallelSusMgm.isValid());
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std::memcpy(fusedRotRateData->rotRateTotal.value,
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fusedRotRateSourcesData->rotRateTotalSusMgm.value, 3 * sizeof(double));
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fusedRotRateSourcesData->rotRateTotalSusMgm.value, 3 * sizeof(double));
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fusedRotRateData->rotRateTotal.setValid(true);
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fusedRotRateData->rotRateTotalSource.setValid(true);
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fusedRotRateData->rotRateSource.value = acs::rotrate::Source::SUSMGM;
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fusedRotRateData->rotRateSource.value = acs::rotrate::Source::SUSMGM;
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fusedRotRateData->rotRateSource.setValid(true);
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fusedRotRateData->rotRateSource.setValid(true);
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} else {
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} else {
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PoolReadGuard pg(fusedRotRateData);
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PoolReadGuard pg(fusedRotRateData);
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if (pg.getReadResult() == returnvalue::OK) {
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if (pg.getReadResult() == returnvalue::OK) {
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std::memcpy(fusedRotRateData->rotRateOrthogonal.value, ZERO_VEC3, 3 * sizeof(double));
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std::memcpy(fusedRotRateData->rotRateTotalSource.value, ZERO_VEC3, 3 * sizeof(double));
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std::memcpy(fusedRotRateData->rotRateParallel.value, ZERO_VEC3, 3 * sizeof(double));
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fusedRotRateData->rotRateTotalSource.setValid(false);
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std::memcpy(fusedRotRateData->rotRateTotal.value, ZERO_VEC3, 3 * sizeof(double));
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fusedRotRateData->setValidity(false, true);
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|
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fusedRotRateData->rotRateSource.value = acs::rotrate::Source::NONE;
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fusedRotRateData->rotRateSource.value = acs::rotrate::Source::NONE;
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fusedRotRateData->rotRateSource.setValid(true);
|
fusedRotRateData->rotRateSource.setValid(true);
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}
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}
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}
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}
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|
if (fusedRotRateSourcesData->rotRateTotalSusMgm.isValid()) {
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std::memcpy(fusedRotRateData->rotRateTotalSusMgm.value,
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fusedRotRateSourcesData->rotRateTotalSusMgm.value, 3 * sizeof(double));
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fusedRotRateData->rotRateTotalSusMgm.setValid(true);
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} else {
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PoolReadGuard pg(fusedRotRateData);
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|
if (pg.getReadResult() == returnvalue::OK) {
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std::memcpy(fusedRotRateData->rotRateTotalSusMgm.value, ZERO_VEC3, 3 * sizeof(double));
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|
fusedRotRateData->rotRateTotalSusMgm.setValid(false);
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}
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}
|
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}
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}
|
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|
|
||||||
void FusedRotationEstimation::estimateFusedRotationRateStr(
|
void FusedRotationEstimation::estimateFusedRotationRateStr(
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|
@ -129,9 +129,8 @@ enum PoolIds : lp_id_t {
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RW_TARGET_SPEED,
|
RW_TARGET_SPEED,
|
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MTQ_TARGET_DIPOLE,
|
MTQ_TARGET_DIPOLE,
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||||||
// Fused Rotation Rate
|
// Fused Rotation Rate
|
||||||
ROT_RATE_ORTHOGONAL,
|
ROT_RATE_TOT_SUSMGM,
|
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ROT_RATE_PARALLEL,
|
ROT_RATE_TOT_SOURCE,
|
||||||
ROT_RATE_TOTAL,
|
|
||||||
ROT_RATE_SOURCE,
|
ROT_RATE_SOURCE,
|
||||||
// Fused Rotation Rate Sources
|
// Fused Rotation Rate Sources
|
||||||
ROT_RATE_ORTHOGONAL_SUSMGM,
|
ROT_RATE_ORTHOGONAL_SUSMGM,
|
||||||
@ -151,7 +150,7 @@ static constexpr uint8_t GPS_SET_PROCESSED_ENTRIES = 6;
|
|||||||
static constexpr uint8_t ATTITUDE_ESTIMATION_SET_ENTRIES = 4;
|
static constexpr uint8_t ATTITUDE_ESTIMATION_SET_ENTRIES = 4;
|
||||||
static constexpr uint8_t CTRL_VAL_SET_ENTRIES = 5;
|
static constexpr uint8_t CTRL_VAL_SET_ENTRIES = 5;
|
||||||
static constexpr uint8_t ACT_CMD_SET_ENTRIES = 3;
|
static constexpr uint8_t ACT_CMD_SET_ENTRIES = 3;
|
||||||
static constexpr uint8_t FUSED_ROT_RATE_SET_ENTRIES = 4;
|
static constexpr uint8_t FUSED_ROT_RATE_SET_ENTRIES = 3;
|
||||||
static constexpr uint8_t FUSED_ROT_RATE_SOURCES_SET_ENTRIES = 5;
|
static constexpr uint8_t FUSED_ROT_RATE_SOURCES_SET_ENTRIES = 5;
|
||||||
|
|
||||||
/**
|
/**
|
||||||
@ -318,10 +317,10 @@ class FusedRotRateData : public StaticLocalDataSet<FUSED_ROT_RATE_SET_ENTRIES> {
|
|||||||
FusedRotRateData(HasLocalDataPoolIF* hkOwner)
|
FusedRotRateData(HasLocalDataPoolIF* hkOwner)
|
||||||
: StaticLocalDataSet(hkOwner, FUSED_ROTATION_RATE_DATA) {}
|
: StaticLocalDataSet(hkOwner, FUSED_ROTATION_RATE_DATA) {}
|
||||||
|
|
||||||
lp_vec_t<double, 3> rotRateOrthogonal =
|
lp_vec_t<double, 3> rotRateTotalSusMgm =
|
||||||
lp_vec_t<double, 3>(sid.objectId, ROT_RATE_ORTHOGONAL, this);
|
lp_vec_t<double, 3>(sid.objectId, ROT_RATE_TOT_SUSMGM, this);
|
||||||
lp_vec_t<double, 3> rotRateParallel = lp_vec_t<double, 3>(sid.objectId, ROT_RATE_PARALLEL, this);
|
lp_vec_t<double, 3> rotRateTotalSource =
|
||||||
lp_vec_t<double, 3> rotRateTotal = lp_vec_t<double, 3>(sid.objectId, ROT_RATE_TOTAL, this);
|
lp_vec_t<double, 3>(sid.objectId, ROT_RATE_TOT_SOURCE, this);
|
||||||
lp_var_t<uint8_t> rotRateSource = lp_var_t<uint8_t>(sid.objectId, ROT_RATE_SOURCE, this);
|
lp_var_t<uint8_t> rotRateSource = lp_var_t<uint8_t>(sid.objectId, ROT_RATE_SOURCE, this);
|
||||||
|
|
||||||
private:
|
private:
|
||||||
|
Loading…
Reference in New Issue
Block a user