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00035 #ifndef ADAPTIVE_OCT_TREE_HH
00036 #define ADAPTIVE_OCT_TREE_HH
00037
00038 #include <oc_tree.h>
00039 #include <vector>
00040 #include <ndt_cell.h>
00041
00042 namespace lslgeneric
00043 {
00044
00052 template<typename PointT>
00053 class AdaptiveOctTree : public OctTree<PointT>
00054 {
00055 protected:
00056 std::vector<OctTree<PointT>*> splitTree(OctTree<PointT> *leaf);
00057 std::vector<OctTree<PointT>*> myTreeLeafs;
00058 virtual void computeTreeLeafs();
00059
00060 double computeResidualSquare(NDTCell<PointT> *cell);
00061 double computeDornikHansen(NDTCell<PointT> *cell);
00062
00063 bool useDornikHansen;
00064 bool useFlatness;
00065 double RSS_THRESHOLD, DH_SIGNIFICANCE_LVL, FLAT_FACTOR;
00066 bool parametersSet;
00067
00068 public:
00069
00071 AdaptiveOctTree();
00073 AdaptiveOctTree(pcl::PointXYZ center, double xsize, double ysize,
00074 double zsize, NDTCell<PointT>* type, OctTree<PointT> *_parent=NULL, unsigned int _depth=0);
00075 virtual ~AdaptiveOctTree();
00076
00077 virtual void postProcessPoints();
00078 virtual SpatialIndex<PointT>* clone();
00079
00082 void setParameters(bool _useDornikHansen = false,
00083 bool _useFlatness = true,
00084 double _RSS_THRESHOLD = 1000,
00085 double _DH_SIGNIFICANCE_LVL = 0.5,
00086 double _MIN_CELL_SIZE = 1,
00087 double _FLAT_FACTOR = 10,
00088 double _BIG_CELL_SIZE = 5,
00089 double _SMALL_CELL_SIZE = 5
00090 );
00091 double MIN_CELL_SIZE;
00092
00093 };
00094
00095 }
00096
00097 #include<impl/adaptive_oc_tree.hpp>
00098 #endif