people_tracking_filter: detector_particle.cpp Source File

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00034 
00035 /* Author: Wim Meeussen */
00036 
00037 #include "people_tracking_filter/detector_particle.h"
00038 #include "people_tracking_filter/uniform_vector.h"
00039 
00040 using namespace MatrixWrapper;
00041 using namespace BFL;
00042 using namespace tf;
00043 using namespace std;
00044 using namespace ros;
00045 using namespace geometry_msgs;
00046 
00047 
00048 
00049 
00050 namespace estimation
00051 {
00052 // constructor
00053 DetectorParticle::DetectorParticle(unsigned int num_particles):
00054   prior_(num_particles),
00055   filter_(NULL),
00056   sys_model_(tf::Vector3(0.1, 0.1, 0.1)),
00057   meas_model_(tf::Vector3(0.1, 0.1, 0.1)),
00058   detector_initialized_(false),
00059   num_particles_(num_particles)
00060 {}
00061 
00062 
00063 
00064 // destructor
00065 DetectorParticle::~DetectorParticle()
00066 {
00067   if (filter_) delete filter_;
00068 }
00069 
00070 
00071 // initialize prior density of filter
00072 void DetectorParticle::initialize(const tf::Vector3& mu, const tf::Vector3& size, const double time)
00073 {
00074   cout << "Initializing detector with " << num_particles_ << " particles, with uniform size "
00075        << size << " around " << mu << endl;
00076 
00077   UniformVector uniform_vector(mu, size);
00078   vector<Sample<tf::Vector3> > prior_samples(num_particles_);
00079   uniform_vector.SampleFrom(prior_samples, num_particles_, CHOLESKY, NULL);
00080   prior_.ListOfSamplesSet(prior_samples);
00081   filter_ = new BootstrapFilter<tf::Vector3, tf::Vector3>(&prior_, &prior_, 0, num_particles_ / 4.0);
00082 
00083   // detector initialized
00084   detector_initialized_ = true;
00085   quality_ = 1;
00086   filter_time_ = time;
00087 }
00088 
00089 
00090 
00091 
00092 // update filter prediction
00093 bool DetectorParticle::updatePrediction(const double dt)
00094 {
00095   // set de in sys model
00096   sys_model_.SetDt(dt);
00097 
00098   // update filter
00099   bool res = filter_->Update(&sys_model_);
00100   if (!res) quality_ = 0;
00101 
00102   return res;
00103 }
00104 
00105 
00106 
00107 // update filter correction
00108 bool DetectorParticle::updateCorrection(const tf::Vector3&  meas, const MatrixWrapper::SymmetricMatrix& cov, const double time)
00109 {
00110   assert(cov.columns() == 3);
00111 
00112   // set filter time
00113   filter_time_ = time;
00114 
00115   // set covariance
00116   ((MeasPdfVector*)(meas_model_.MeasurementPdfGet()))->CovarianceSet(cov);
00117 
00118   // update filter
00119   bool res = filter_->Update(&meas_model_, meas);
00120   if (!res) quality_ = 0;
00121 
00122   return res;
00123 }
00124 
00125 
00126 // get evenly spaced particle cloud
00127 void DetectorParticle::getParticleCloud(const tf::Vector3& step, double threshold, sensor_msgs::PointCloud& cloud) const
00128 {
00129   ((MCPdfVector*)(filter_->PostGet()))->getParticleCloud(step, threshold, cloud);
00130 }
00131 
00132 
00133 // get most recent filter posterior
00134 void DetectorParticle::getEstimate(tf::Vector3& est) const
00135 {
00136   est = ((MCPdfVector*)(filter_->PostGet()))->ExpectedValueGet();
00137 }
00138 
00139 
00140 void DetectorParticle::getEstimate(people_msgs::PositionMeasurement& est) const
00141 {
00142   tf::Vector3 tmp = filter_->PostGet()->ExpectedValueGet();
00143 
00144   est.pos.x = tmp[0];
00145   est.pos.y = tmp[1];
00146   est.pos.z = tmp[2];
00147 
00148   est.header.stamp.fromSec(filter_time_);
00149   est.header.frame_id = "base_link";
00150 }
00151 
00152 
00153 
00154 
00155 
00157 Matrix DetectorParticle::getHistogram(const tf::Vector3& min, const tf::Vector3& max, const tf::Vector3& step) const
00158 {
00159   return ((MCPdfVector*)(filter_->PostGet()))->getHistogram(min, max, step);
00160 }
00161 
00162 
00163 }; // namespace
00164 
00165 
00166