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00037 #include <robot_pose_ekf/odom_estimation.h>
00038
00039 using namespace MatrixWrapper;
00040 using namespace BFL;
00041 using namespace tf;
00042 using namespace std;
00043 using namespace ros;
00044
00045
00046 namespace estimation
00047 {
00048
00049 OdomEstimation::OdomEstimation():
00050 prior_(NULL),
00051 filter_(NULL),
00052 filter_initialized_(false),
00053 odom_initialized_(false),
00054 imu_initialized_(false),
00055 vo_initialized_(false),
00056 gps_initialized_(false),
00057 output_frame_(std::string("odom_combined")),
00058 base_footprint_frame_(std::string("base_footprint"))
00059 {
00060
00061 ColumnVector sysNoise_Mu(6); sysNoise_Mu = 0;
00062 SymmetricMatrix sysNoise_Cov(6); sysNoise_Cov = 0;
00063 for (unsigned int i=1; i<=6; i++) sysNoise_Cov(i,i) = pow(1000.0,2);
00064 Gaussian system_Uncertainty(sysNoise_Mu, sysNoise_Cov);
00065 sys_pdf_ = new NonLinearAnalyticConditionalGaussianOdo(system_Uncertainty);
00066 sys_model_ = new AnalyticSystemModelGaussianUncertainty(sys_pdf_);
00067
00068
00069 ColumnVector measNoiseOdom_Mu(6); measNoiseOdom_Mu = 0;
00070 SymmetricMatrix measNoiseOdom_Cov(6); measNoiseOdom_Cov = 0;
00071 for (unsigned int i=1; i<=6; i++) measNoiseOdom_Cov(i,i) = 1;
00072 Gaussian measurement_Uncertainty_Odom(measNoiseOdom_Mu, measNoiseOdom_Cov);
00073 Matrix Hodom(6,6); Hodom = 0;
00074 Hodom(1,1) = 1; Hodom(2,2) = 1; Hodom(6,6) = 1;
00075 odom_meas_pdf_ = new LinearAnalyticConditionalGaussian(Hodom, measurement_Uncertainty_Odom);
00076 odom_meas_model_ = new LinearAnalyticMeasurementModelGaussianUncertainty(odom_meas_pdf_);
00077
00078
00079 ColumnVector measNoiseImu_Mu(3); measNoiseImu_Mu = 0;
00080 SymmetricMatrix measNoiseImu_Cov(3); measNoiseImu_Cov = 0;
00081 for (unsigned int i=1; i<=3; i++) measNoiseImu_Cov(i,i) = 1;
00082 Gaussian measurement_Uncertainty_Imu(measNoiseImu_Mu, measNoiseImu_Cov);
00083 Matrix Himu(3,6); Himu = 0;
00084 Himu(1,4) = 1; Himu(2,5) = 1; Himu(3,6) = 1;
00085 imu_meas_pdf_ = new LinearAnalyticConditionalGaussian(Himu, measurement_Uncertainty_Imu);
00086 imu_meas_model_ = new LinearAnalyticMeasurementModelGaussianUncertainty(imu_meas_pdf_);
00087
00088
00089 ColumnVector measNoiseVo_Mu(6); measNoiseVo_Mu = 0;
00090 SymmetricMatrix measNoiseVo_Cov(6); measNoiseVo_Cov = 0;
00091 for (unsigned int i=1; i<=6; i++) measNoiseVo_Cov(i,i) = 1;
00092 Gaussian measurement_Uncertainty_Vo(measNoiseVo_Mu, measNoiseVo_Cov);
00093 Matrix Hvo(6,6); Hvo = 0;
00094 Hvo(1,1) = 1; Hvo(2,2) = 1; Hvo(3,3) = 1; Hvo(4,4) = 1; Hvo(5,5) = 1; Hvo(6,6) = 1;
00095 vo_meas_pdf_ = new LinearAnalyticConditionalGaussian(Hvo, measurement_Uncertainty_Vo);
00096 vo_meas_model_ = new LinearAnalyticMeasurementModelGaussianUncertainty(vo_meas_pdf_);
00097
00098
00099 ColumnVector measNoiseGps_Mu(3); measNoiseGps_Mu = 0;
00100 SymmetricMatrix measNoiseGps_Cov(3); measNoiseGps_Cov = 0;
00101 for (unsigned int i=1; i<=3; i++) measNoiseGps_Cov(i,i) = 1;
00102 Gaussian measurement_Uncertainty_GPS(measNoiseGps_Mu, measNoiseGps_Cov);
00103 Matrix Hgps(3,6); Hgps = 0;
00104 Hgps(1,1) = 1; Hgps(2,2) = 1; Hgps(3,3) = 1;
00105 gps_meas_pdf_ = new LinearAnalyticConditionalGaussian(Hgps, measurement_Uncertainty_GPS);
00106 gps_meas_model_ = new LinearAnalyticMeasurementModelGaussianUncertainty(gps_meas_pdf_);
00107 };
00108
00109
00110
00111
00112 OdomEstimation::~OdomEstimation(){
00113 if (filter_) delete filter_;
00114 if (prior_) delete prior_;
00115 delete odom_meas_model_;
00116 delete odom_meas_pdf_;
00117 delete imu_meas_model_;
00118 delete imu_meas_pdf_;
00119 delete vo_meas_model_;
00120 delete vo_meas_pdf_;
00121 delete gps_meas_model_;
00122 delete gps_meas_pdf_;
00123 delete sys_pdf_;
00124 delete sys_model_;
00125 };
00126
00127
00128
00129 void OdomEstimation::initialize(const Transform& prior, const Time& time)
00130 {
00131
00132 ColumnVector prior_Mu(6);
00133 decomposeTransform(prior, prior_Mu(1), prior_Mu(2), prior_Mu(3), prior_Mu(4), prior_Mu(5), prior_Mu(6));
00134 SymmetricMatrix prior_Cov(6);
00135 for (unsigned int i=1; i<=6; i++) {
00136 for (unsigned int j=1; j<=6; j++){
00137 if (i==j) prior_Cov(i,j) = pow(0.001,2);
00138 else prior_Cov(i,j) = 0;
00139 }
00140 }
00141 prior_ = new Gaussian(prior_Mu,prior_Cov);
00142 filter_ = new ExtendedKalmanFilter(prior_);
00143
00144
00145 addMeasurement(StampedTransform(prior, time, output_frame_, base_footprint_frame_));
00146 filter_estimate_old_vec_ = prior_Mu;
00147 filter_estimate_old_ = prior;
00148 filter_time_old_ = time;
00149
00150
00151 filter_initialized_ = true;
00152 }
00153
00154
00155
00156
00157
00158
00159 bool OdomEstimation::update(bool odom_active, bool imu_active, bool gps_active, bool vo_active, const Time& filter_time, bool& diagnostics_res)
00160 {
00161
00162 if (!filter_initialized_){
00163 ROS_INFO("Cannot update filter when filter was not initialized first.");
00164 return false;
00165 }
00166
00167
00168 double dt = (filter_time - filter_time_old_).toSec();
00169 if (dt == 0) return false;
00170 if (dt < 0){
00171 ROS_INFO("Will not update robot pose with time %f sec in the past.", dt);
00172 return false;
00173 }
00174 ROS_DEBUG("Update filter at time %f with dt %f", filter_time.toSec(), dt);
00175
00176
00177
00178
00179
00180 ColumnVector vel_desi(2); vel_desi = 0;
00181 filter_->Update(sys_model_, vel_desi);
00182
00183
00184
00185
00186 ROS_DEBUG("Process odom meas");
00187 if (odom_active){
00188 if (!transformer_.canTransform(base_footprint_frame_,"wheelodom", filter_time)){
00189 ROS_ERROR("filter time older than odom message buffer");
00190 return false;
00191 }
00192 transformer_.lookupTransform("wheelodom", base_footprint_frame_, filter_time, odom_meas_);
00193 if (odom_initialized_){
00194
00195 Transform odom_rel_frame = Transform(tf::createQuaternionFromYaw(filter_estimate_old_vec_(6)),
00196 filter_estimate_old_.getOrigin()) * odom_meas_old_.inverse() * odom_meas_;
00197 ColumnVector odom_rel(6);
00198 decomposeTransform(odom_rel_frame, odom_rel(1), odom_rel(2), odom_rel(3), odom_rel(4), odom_rel(5), odom_rel(6));
00199 angleOverflowCorrect(odom_rel(6), filter_estimate_old_vec_(6));
00200
00201 odom_meas_pdf_->AdditiveNoiseSigmaSet(odom_covariance_ * pow(dt,2));
00202
00203 ROS_DEBUG("Update filter with odom measurement %f %f %f %f %f %f",
00204 odom_rel(1), odom_rel(2), odom_rel(3), odom_rel(4), odom_rel(5), odom_rel(6));
00205 filter_->Update(odom_meas_model_, odom_rel);
00206 diagnostics_odom_rot_rel_ = odom_rel(6);
00207 }
00208 else{
00209 odom_initialized_ = true;
00210 diagnostics_odom_rot_rel_ = 0;
00211 }
00212 odom_meas_old_ = odom_meas_;
00213 }
00214
00215 else odom_initialized_ = false;
00216
00217
00218
00219
00220 if (imu_active){
00221 if (!transformer_.canTransform(base_footprint_frame_,"imu", filter_time)){
00222 ROS_ERROR("filter time older than imu message buffer");
00223 return false;
00224 }
00225 transformer_.lookupTransform("imu", base_footprint_frame_, filter_time, imu_meas_);
00226 if (imu_initialized_){
00227
00228 Transform imu_rel_frame = filter_estimate_old_ * imu_meas_old_.inverse() * imu_meas_;
00229 ColumnVector imu_rel(3); double tmp;
00230 decomposeTransform(imu_rel_frame, tmp, tmp, tmp, tmp, tmp, imu_rel(3));
00231 decomposeTransform(imu_meas_, tmp, tmp, tmp, imu_rel(1), imu_rel(2), tmp);
00232 angleOverflowCorrect(imu_rel(3), filter_estimate_old_vec_(6));
00233 diagnostics_imu_rot_rel_ = imu_rel(3);
00234
00235 imu_meas_pdf_->AdditiveNoiseSigmaSet(imu_covariance_ * pow(dt,2));
00236 filter_->Update(imu_meas_model_, imu_rel);
00237 }
00238 else{
00239 imu_initialized_ = true;
00240 diagnostics_imu_rot_rel_ = 0;
00241 }
00242 imu_meas_old_ = imu_meas_;
00243 }
00244
00245 else imu_initialized_ = false;
00246
00247
00248
00249
00250
00251 if (vo_active){
00252 if (!transformer_.canTransform(base_footprint_frame_,"vo", filter_time)){
00253 ROS_ERROR("filter time older than vo message buffer");
00254 return false;
00255 }
00256 transformer_.lookupTransform("vo", base_footprint_frame_, filter_time, vo_meas_);
00257 if (vo_initialized_){
00258
00259 Transform vo_rel_frame = filter_estimate_old_ * vo_meas_old_.inverse() * vo_meas_;
00260 ColumnVector vo_rel(6);
00261 decomposeTransform(vo_rel_frame, vo_rel(1), vo_rel(2), vo_rel(3), vo_rel(4), vo_rel(5), vo_rel(6));
00262 angleOverflowCorrect(vo_rel(6), filter_estimate_old_vec_(6));
00263
00264 vo_meas_pdf_->AdditiveNoiseSigmaSet(vo_covariance_ * pow(dt,2));
00265 filter_->Update(vo_meas_model_, vo_rel);
00266 }
00267 else vo_initialized_ = true;
00268 vo_meas_old_ = vo_meas_;
00269 }
00270
00271 else vo_initialized_ = false;
00272
00273
00274
00275
00276
00277 if (gps_active){
00278 if (!transformer_.canTransform(base_footprint_frame_,"gps", filter_time)){
00279 ROS_ERROR("filter time older than gps message buffer");
00280 return false;
00281 }
00282 transformer_.lookupTransform("gps", base_footprint_frame_, filter_time, gps_meas_);
00283 if (gps_initialized_){
00284 gps_meas_pdf_->AdditiveNoiseSigmaSet(gps_covariance_ * pow(dt,2));
00285 ColumnVector gps_vec(3);
00286 double tmp;
00287
00288 decomposeTransform(gps_meas_, gps_vec(1), gps_vec(2), gps_vec(3), tmp, tmp, tmp);
00289 filter_->Update(gps_meas_model_, gps_vec);
00290 }
00291 else {
00292 gps_initialized_ = true;
00293 gps_meas_old_ = gps_meas_;
00294 }
00295 }
00296
00297 else gps_initialized_ = false;
00298
00299
00300
00301
00302 filter_estimate_old_vec_ = filter_->PostGet()->ExpectedValueGet();
00303 tf::Quaternion q;
00304 q.setRPY(filter_estimate_old_vec_(4), filter_estimate_old_vec_(5), filter_estimate_old_vec_(6));
00305 filter_estimate_old_ = Transform(q,
00306 Vector3(filter_estimate_old_vec_(1), filter_estimate_old_vec_(2), filter_estimate_old_vec_(3)));
00307 filter_time_old_ = filter_time;
00308 addMeasurement(StampedTransform(filter_estimate_old_, filter_time, output_frame_, base_footprint_frame_));
00309
00310
00311 diagnostics_res = true;
00312 if (odom_active && imu_active){
00313 double diagnostics = fabs(diagnostics_odom_rot_rel_ - diagnostics_imu_rot_rel_)/dt;
00314 if (diagnostics > 0.3 && dt > 0.01){
00315 diagnostics_res = false;
00316 }
00317 }
00318
00319 return true;
00320 };
00321
00322 void OdomEstimation::addMeasurement(const StampedTransform& meas)
00323 {
00324 ROS_DEBUG("AddMeasurement from %s to %s: (%f, %f, %f) (%f, %f, %f, %f)",
00325 meas.frame_id_.c_str(), meas.child_frame_id_.c_str(),
00326 meas.getOrigin().x(), meas.getOrigin().y(), meas.getOrigin().z(),
00327 meas.getRotation().x(), meas.getRotation().y(),
00328 meas.getRotation().z(), meas.getRotation().w());
00329 transformer_.setTransform( meas );
00330 }
00331
00332 void OdomEstimation::addMeasurement(const StampedTransform& meas, const MatrixWrapper::SymmetricMatrix& covar)
00333 {
00334
00335 for (unsigned int i=0; i<covar.rows(); i++){
00336 if (covar(i+1,i+1) == 0){
00337 ROS_ERROR("Covariance specified for measurement on topic %s is zero", meas.child_frame_id_.c_str());
00338 return;
00339 }
00340 }
00341
00342 addMeasurement(meas);
00343 if (meas.child_frame_id_ == "wheelodom") odom_covariance_ = covar;
00344 else if (meas.child_frame_id_ == "imu") imu_covariance_ = covar;
00345 else if (meas.child_frame_id_ == "vo") vo_covariance_ = covar;
00346 else if (meas.child_frame_id_ == "gps") gps_covariance_ = covar;
00347 else ROS_ERROR("Adding a measurement for an unknown sensor %s", meas.child_frame_id_.c_str());
00348 };
00349
00350
00351
00352 void OdomEstimation::getEstimate(MatrixWrapper::ColumnVector& estimate)
00353 {
00354 estimate = filter_estimate_old_vec_;
00355 };
00356
00357
00358 void OdomEstimation::getEstimate(Time time, Transform& estimate)
00359 {
00360 StampedTransform tmp;
00361 if (!transformer_.canTransform(base_footprint_frame_,output_frame_, time)){
00362 ROS_ERROR("Cannot get transform at time %f", time.toSec());
00363 return;
00364 }
00365 transformer_.lookupTransform(output_frame_, base_footprint_frame_, time, tmp);
00366 estimate = tmp;
00367 };
00368
00369
00370 void OdomEstimation::getEstimate(Time time, StampedTransform& estimate)
00371 {
00372 if (!transformer_.canTransform(output_frame_, base_footprint_frame_, time)){
00373 ROS_ERROR("Cannot get transform at time %f", time.toSec());
00374 return;
00375 }
00376 transformer_.lookupTransform(output_frame_, base_footprint_frame_, time, estimate);
00377 };
00378
00379
00380 void OdomEstimation::getEstimate(geometry_msgs::PoseWithCovarianceStamped& estimate)
00381 {
00382
00383 StampedTransform tmp;
00384 if (!transformer_.canTransform(output_frame_, base_footprint_frame_, ros::Time())){
00385 ROS_ERROR("Cannot get transform at time %f", 0.0);
00386 return;
00387 }
00388 transformer_.lookupTransform(output_frame_, base_footprint_frame_, ros::Time(), tmp);
00389 poseTFToMsg(tmp, estimate.pose.pose);
00390
00391
00392 estimate.header.stamp = tmp.stamp_;
00393 estimate.header.frame_id = output_frame_;
00394
00395
00396 SymmetricMatrix covar = filter_->PostGet()->CovarianceGet();
00397 for (unsigned int i=0; i<6; i++)
00398 for (unsigned int j=0; j<6; j++)
00399 estimate.pose.covariance[6*i+j] = covar(i+1,j+1);
00400 };
00401
00402
00403 void OdomEstimation::angleOverflowCorrect(double& a, double ref)
00404 {
00405 while ((a-ref) > M_PI) a -= 2*M_PI;
00406 while ((a-ref) < -M_PI) a += 2*M_PI;
00407 };
00408
00409
00410 void OdomEstimation::decomposeTransform(const StampedTransform& trans,
00411 double& x, double& y, double&z, double&Rx, double& Ry, double& Rz){
00412 x = trans.getOrigin().x();
00413 y = trans.getOrigin().y();
00414 z = trans.getOrigin().z();
00415 trans.getBasis().getEulerYPR(Rz, Ry, Rx);
00416 };
00417
00418
00419 void OdomEstimation::decomposeTransform(const Transform& trans,
00420 double& x, double& y, double&z, double&Rx, double& Ry, double& Rz){
00421 x = trans.getOrigin().x();
00422 y = trans.getOrigin().y();
00423 z = trans.getOrigin().z();
00424 trans.getBasis().getEulerYPR(Rz, Ry, Rx);
00425 };
00426
00427 void OdomEstimation::setOutputFrame(const std::string& output_frame){
00428 output_frame_ = output_frame;
00429 };
00430
00431 void OdomEstimation::setBaseFootprintFrame(const std::string& base_frame){
00432 base_footprint_frame_ = base_frame;
00433 };
00434
00435 };