revert single axis pointing to original code
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@ -16,13 +16,13 @@ Guidance::Guidance(AcsParameters *acsParameters_) : acsParameters(*acsParameters
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Guidance::~Guidance() {}
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void Guidance::targetQuatPtgSingleAxis(timeval now, double posSatE[3], double refDirB[3],
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double quatIB[4], double targetQuat[4],
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double targetSatRotRate[3]) {
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void Guidance::targetQuatPtgSingleAxis(timeval now, double posSatE[3], double velSatE[3],
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double sunDirI[3], double refDirB[3], double quatBI[4],
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double targetQuat[4], double targetSatRotRate[3]) {
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//-------------------------------------------------------------------------------------
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// Calculation of target quaternion to groundstation or given latitude, longitude and altitude
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//-------------------------------------------------------------------------------------
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// transform longitude, latitude and altitude to cartesian coordiantes (ECEF)
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// transform longitude, latitude and altitude to ECEF
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double targetE[3] = {0, 0, 0};
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MathOperations<double>::cartesianFromLatLongAlt(
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@ -30,7 +30,11 @@ void Guidance::targetQuatPtgSingleAxis(timeval now, double posSatE[3], double re
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acsParameters.targetModeControllerParameters.longitudeTgt,
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acsParameters.targetModeControllerParameters.altitudeTgt, targetE);
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// transformation between ECEF and ECI frame
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// target direction in the ECEF frame
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double targetDirE[3] = {0, 0, 0};
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VectorOperations<double>::subtract(targetE, posSatE, targetDirE, 3);
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// transformation between ECEF and ECI frame
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double dcmEI[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
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double dcmIE[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
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double dcmEIDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
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@ -40,36 +44,44 @@ void Guidance::targetQuatPtgSingleAxis(timeval now, double posSatE[3], double re
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double dcmIEDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
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MathOperations<double>::inverseMatrixDimThree(*dcmEIDot, *dcmIEDot);
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// target direction in the ECI frame
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double posSatI[3] = {0, 0, 0}, targetI[3] = {0, 0, 0}, targetDirI[3] = {0, 0, 0};
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MatrixOperations<double>::multiply(*dcmIE, posSatE, posSatI, 3, 3, 1);
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MatrixOperations<double>::multiply(*dcmIE, targetE, targetI, 3, 3, 1);
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VectorOperations<double>::subtract(targetI, posSatI, targetDirI, 3);
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// transformation between ECEF and Body frame
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double dcmBI[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
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double dcmBE[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
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// reference direction in ECI frame
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double refDirI[3] = {0, 0, 0};
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QuaternionOperations::multiplyVector(quatIB, refDirB, refDirI);
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QuaternionOperations::toDcm(quatBI, dcmBI);
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MatrixOperations<double>::multiply(*dcmBI, *dcmIE, *dcmBE, 3, 3, 3);
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// rotation quaternion from two vectors
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double crossDirI[3] = {0, 0, 0};
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double dotDirections = VectorOperations<double>::dot(targetDirI, refDirI);
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VectorOperations<double>::cross(targetDirI, refDirI, crossDirI);
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targetQuat[0] = crossDirI[0];
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targetQuat[1] = crossDirI[1];
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targetQuat[2] = crossDirI[2];
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targetQuat[3] = sqrt(pow(VectorOperations<double>::norm(targetDirI, 3), 2) *
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pow(VectorOperations<double>::norm(refDirI, 3), 2) +
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dotDirections);
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// target Direction in the body frame
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double targetDirB[3] = {0, 0, 0};
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MatrixOperations<double>::multiply(*dcmBE, targetDirE, targetDirB, 3, 3, 1);
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// rotation quaternion from two vectors
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double refDir[3] = {0, 0, 0};
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refDir[0] = acsParameters.targetModeControllerParameters.refDirection[0];
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refDir[1] = acsParameters.targetModeControllerParameters.refDirection[1];
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refDir[2] = acsParameters.targetModeControllerParameters.refDirection[2];
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double noramlizedTargetDirB[3] = {0, 0, 0};
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VectorOperations<double>::normalize(targetDirB, noramlizedTargetDirB, 3);
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VectorOperations<double>::normalize(refDir, refDir, 3);
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double normTargetDirB = VectorOperations<double>::norm(noramlizedTargetDirB, 3);
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double normRefDir = VectorOperations<double>::norm(refDir, 3);
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double crossDir[3] = {0, 0, 0};
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double dotDirections = VectorOperations<double>::dot(noramlizedTargetDirB, refDir);
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VectorOperations<double>::cross(noramlizedTargetDirB, refDir, crossDir);
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targetQuat[0] = crossDir[0];
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targetQuat[1] = crossDir[1];
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targetQuat[2] = crossDir[2];
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targetQuat[3] = sqrt(pow(normTargetDirB, 2) * pow(normRefDir, 2) + dotDirections);
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VectorOperations<double>::normalize(targetQuat, targetQuat, 4);
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//-------------------------------------------------------------------------------------
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// Calculation of reference rotation rate
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// calculation of reference rotation rate
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//-------------------------------------------------------------------------------------
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double velSatB[3] = {0, 0, 0}, velSatBPart1[3] = {0, 0, 0}, velSatBPart2[3] = {0, 0, 0};
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// Velocity: v_B = dcm_BI * dcmIE * v_E + dcm_BI * DotDcm_IE * v_E
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// velocity: v_B = dcm_BI * dcmIE * v_E + dcm_BI * DotDcm_IE * v_E
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MatrixOperations<double>::multiply(*dcmBE, velSatE, velSatBPart1, 3, 3, 1);
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double dcmBEDot[3][3] = {{0, 0, 0}, {0, 0, 0}, {0, 0, 0}};
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MatrixOperations<double>::multiply(*dcmBJ, *dcmJEDot, *dcmBEDot, 3, 3, 3);
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MatrixOperations<double>::multiply(*dcmBI, *dcmIEDot, *dcmBEDot, 3, 3, 3);
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MatrixOperations<double>::multiply(*dcmBEDot, posSatE, velSatBPart2, 3, 3, 1);
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VectorOperations<double>::add(velSatBPart1, velSatBPart2, velSatB, 3);
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@ -79,21 +91,14 @@ void Guidance::targetQuatPtgSingleAxis(timeval now, double posSatE[3], double re
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double satRateDir[3] = {0, 0, 0};
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VectorOperations<double>::cross(velSatB, targetDirB, satRateDir);
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VectorOperations<double>::normalize(satRateDir, satRateDir, 3);
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VectorOperations<double>::mulScalar(satRateDir, normRefSatRate, refSatRate, 3);
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VectorOperations<double>::mulScalar(satRateDir, normRefSatRate, targetSatRotRate, 3);
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//-------------------------------------------------------------------------------------
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// Calculation of reference rotation rate in case of star tracker blinding
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//-------------------------------------------------------------------------------------
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if (acsParameters.targetModeControllerParameters.avoidBlindStr) {
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double sunDirB[3] = {0, 0, 0};
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if (susDataProcessed->sunIjkModel.isValid()) {
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double sunDirJ[3] = {0, 0, 0};
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std::memcpy(sunDirJ, susDataProcessed->sunIjkModel.value, 3 * sizeof(double));
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MatrixOperations<double>::multiply(*dcmBJ, sunDirJ, sunDirB, 3, 3, 1);
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} else {
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std::memcpy(sunDirB, susDataProcessed->susVecTot.value, 3 * sizeof(double));
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}
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MatrixOperations<double>::multiply(*dcmBI, sunDirI, sunDirB, 3, 3, 1);
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double exclAngle = acsParameters.strParameters.exclusionAngle,
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blindStart = acsParameters.targetModeControllerParameters.blindAvoidStart,
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@ -103,18 +108,14 @@ void Guidance::targetQuatPtgSingleAxis(timeval now, double posSatE[3], double re
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if (!(strBlindAvoidFlag)) {
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double critSightAngle = blindStart * exclAngle;
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if (sightAngleSun < critSightAngle) {
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strBlindAvoidFlag = true;
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}
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}
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else {
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if (sightAngleSun < blindEnd * exclAngle) {
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double normBlindRefRate = acsParameters.targetModeControllerParameters.blindRotRate;
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double blindRefRate[3] = {0, 0, 0};
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if (sunDirB[1] < 0) {
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blindRefRate[0] = normBlindRefRate;
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blindRefRate[1] = 0;
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@ -124,9 +125,7 @@ void Guidance::targetQuatPtgSingleAxis(timeval now, double posSatE[3], double re
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blindRefRate[1] = 0;
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blindRefRate[2] = 0;
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}
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VectorOperations<double>::add(blindRefRate, refSatRate, refSatRate, 3);
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VectorOperations<double>::add(blindRefRate, targetSatRotRate, targetSatRotRate, 3);
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} else {
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strBlindAvoidFlag = false;
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}
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@ -16,7 +16,9 @@ class Guidance {
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// Function to get the target quaternion and refence rotation rate from gps position and
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// position of the ground station
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void targetQuatPtgSingleAxis(timeval now, double targetQuat[4], double targetSatRotRate[3]);
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void targetQuatPtgSingleAxis(timeval now, double posSatE[3], double velSatE[3], double sunDirI[3],
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double refDirB[3], double quatBI[4], double targetQuat[4],
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double targetSatRotRate[3]);
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void targetQuatPtgThreeAxes(timeval now, double posSatE[3], double velSatE[3], double quatIX[4],
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double targetSatRotRate[3]);
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void targetQuatPtgGs(timeval now, double posSatE[3], double sunDirI[3], double quatIX[4],
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