3dpcp/.svn/pristine/8e/8e107bd0249c090e14913d4bcb96f1baab19f991.svn-base

43 lines
1.5 KiB
Text
Raw Normal View History

2012-09-16 12:33:11 +00:00
/** @file
* @brief Definition of the ICP error function minimization
* @author Kai Lingemann. Institute of Computer Science, University of Osnabrueck, Germany.
* @author Andreas Nuechter. Jacobs University Bremen gGmbH, Germany.
*/
#ifndef __ICP6DQUAT_H__
#define __ICP6DQUAT_H__
#include "icp6Dminimizer.h"
/**
* @brief Implementation of the ICP error function minimization via quaternions
*/
class icp6D_QUAT : public icp6Dminimizer
{
public:
/** constructor */
icp6D_QUAT(bool quiet = false) : icp6Dminimizer(quiet) {};
/** destructor */
virtual ~icp6D_QUAT() {};
double Point_Point_Align(const vector<PtPair>& Pairs, double *alignxf,
const double centroid_m[3], const double centroid_d[3]);
double Point_Point_Align_Parallel(const int openmp_num_threads,
const unsigned int n[OPENMP_NUM_THREADS],
const double sum[OPENMP_NUM_THREADS],
const double centroid_m[OPENMP_NUM_THREADS][3],
const double centroid_d[OPENMP_NUM_THREADS][3],
const double Si[OPENMP_NUM_THREADS][9], double *alignxf);
inline int getAlgorithmID() { return 1; };
protected:
void quaternion2matrix(double *q, double m[3][3]);
int ferrari(double a, double b, double c, double d, double rts[4]);
int qudrtc(double b, double c, double rts[4]);
double cubic(double p, double q, double r);
void maxEigenVector(double Q[4][4], double ev[4]);
void characteristicPol(double Q[4][4], double c[4]);
};
#endif