furniture_features: sgf9.h Source File

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00037 
00038 #ifndef PCL_FEATURES_SGF9_H_
00039 #define PCL_FEATURES_SGF9_H_
00040 
00041 #include <pcl17/features/feature.h>
00042 #include <pcl17/features/sgf3.h>
00043 
00044 namespace pcl17
00045 {
00046   const int SGF9_SIZE = 1;
00047 
00048   template <typename PointInT, typename PointOutT>
00049   class SGF9Estimation : public Feature<PointInT, PointOutT>
00050   {
00051 
00052     public:
00053 
00054       using Feature<PointInT, PointOutT>::feature_name_;
00055       using Feature<PointInT, PointOutT>::input_;
00056       using Feature<PointInT, PointOutT>::surface_;
00057       using Feature<PointInT, PointOutT>::indices_;
00058       using Feature<PointInT, PointOutT>::search_parameter_;
00059       using Feature<PointInT, PointOutT>::tree_;
00060       using Feature<PointInT, PointOutT>::k_;
00061 
00062       typedef typename Feature<PointInT, PointOutT>::PointCloudOut PointCloudOut;
00063       typedef typename Feature<PointInT, PointOutT>::PointCloudIn  PointCloudIn;
00064 
00066       SGF9Estimation ()
00067       {
00068         feature_name_ = "SGF9Estimation";
00069         k_ = 1;
00070       };
00071 
00072 
00074       void
00075       computeFeature (PointCloudOut &output)
00076       {
00077         // Copy the points specified by the index vector into a new cloud
00078         typename PointCloud<PointInT>::Ptr cloud (new PointCloud<PointInT> ());
00079         cloud->width = indices_->size ();
00080         cloud->height = 1;
00081         cloud->points.resize (cloud->width * cloud->height);
00082         for (size_t idx = 0; idx < indices_->size (); ++idx)
00083         {
00084           cloud->points[idx] = input_->points[(*indices_)[idx]];
00085         }
00086 
00087 
00088         // Compute feature 3
00089         const int sgf3_size = 1;
00090         pcl17::PointCloud<pcl17::Histogram<sgf3_size> >::Ptr sgf3s (new pcl17::PointCloud<pcl17::Histogram<sgf3_size> > ());
00091         pcl17::SGF3Estimation<PointInT, pcl17::Histogram<sgf3_size> > sgf3;
00092         sgf3.setInputCloud (cloud);
00093         sgf3.compute (*sgf3s);
00094 
00095 
00096         // Compute eigenvectors and eigenvalues
00097         EIGEN_ALIGN16 Eigen::Matrix3f covariance_matrix;
00098         Eigen::Vector4f centroid3;
00099         compute3DCentroid (*cloud, centroid3);
00100         computeCovarianceMatrix (*cloud, centroid3, covariance_matrix);
00101         EIGEN_ALIGN16 Eigen::Vector3f eigen_values;
00102         EIGEN_ALIGN16 Eigen::Matrix3f eigen_vectors;
00103         pcl17::eigen33 (covariance_matrix, eigen_vectors, eigen_values);
00104 
00105 
00106         // Compute the volume of the oriented bounding box
00107         float box_vol = 8 * eigen_values[0] * eigen_values[1] * eigen_values[2];
00108 
00109 
00110         // Compute the feature vector
00111         output.points[0].histogram[0] = box_vol != 0 ? sgf3s->points[0].histogram[0] / box_vol : 0;
00112       }
00114 
00115 
00116     private:
00117 
00121       void
00122       computeFeatureEigen (pcl17::PointCloud<Eigen::MatrixXf> &) {}
00123   };
00124 }
00125 
00126 #endif  //#ifndef PCL_FEATURES_SGF9_H_