368 lines
11 KiB
Text
368 lines
11 KiB
Text
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/*
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* icp6D implementation
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*
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* Copyright (C) Andreas Nuechter, Kai Lingemann
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*
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* Released under the GPL version 3.
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*
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*/
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/**
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* @file
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* @brief Implementation of 3D scan matching with ICP
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* @author Kai Lingemann. Institute of Computer Science, University of Osnabrueck, Germany.
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* @author Andreas Nuechter. Institute of Computer Science, University of Osnabrueck, Germany.
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*/
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#include "slam6d/icp6D.h"
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#include "slam6d/metaScan.h"
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#include "slam6d/globals.icc"
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#include <iomanip>
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using std::cerr;
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#include <string.h>
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#ifdef _MSC_VER
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#if !defined _OPENMP && defined OPENMP
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#define _OPENMP
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#endif
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#endif
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#ifdef _OPENMP
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#include <omp.h>
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#endif
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/**
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* Constructor
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*
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* @param my_icp6Dminimizer Pointer to the ICP-minimizer
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* @param max_dist_match Maximum distance to which point pairs are collected
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* @param max_num_iterations Maximum number of iterations
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* @param quiet Whether to print to the standard output
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* @param meta Match against a meta scan?
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* @param rnd Randomized point selection
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* @param eP Extrapolate odometry?
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* @param anim Animate which frames?
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* @param epsilonICP Termination criterion
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* @param nns_method Selects NNS method to be used
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*/
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icp6D::icp6D(icp6Dminimizer *my_icp6Dminimizer, double max_dist_match,
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int max_num_iterations, bool quiet, bool meta, int rnd, bool eP,
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int anim, double epsilonICP, int nns_method, bool cuda_enabled,
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bool cad_matching)
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{
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this->my_icp6Dminimizer = my_icp6Dminimizer;
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this->anim = anim;
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this->cuda_enabled = cuda_enabled;
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this->nns_method = nns_method;
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if (!quiet) {
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cout << "Maximal distance match : " << max_dist_match << endl
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<< "Maximal number of iterations: " << max_num_iterations << endl << endl;
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}
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// checks
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if (max_dist_match < 0.0) {
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cerr << "ERROR [ICP6D]: first parameter (max_dist_match) has to be >= 0," << endl;
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exit(1);
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}
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if (max_num_iterations < 0) {
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cerr << "ERROR [ICP6D]: second parameter (max_num_iterations) has to be >= 0." << endl;
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exit(1);
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}
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this->max_dist_match2 = sqr(max_dist_match);
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this->max_num_iterations = max_num_iterations;
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this->quiet = quiet;
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this->meta = meta;
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this->rnd = rnd;
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this->eP = eP;
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this->epsilonICP = epsilonICP;
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// Set initial seed (for "real" random numbers)
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// srand( (unsigned)time( NULL ) );
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this->cad_matching = cad_matching;
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}
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/**
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* Matches a 3D Scan against a 3D Scan
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* @param PreviousScan The scan or metascan forming the model
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* @param CurrentScan The current scan thas is to be matched
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* @return The number of iterations done in this matching run
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*/
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int icp6D::match(Scan* PreviousScan, Scan* CurrentScan)
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{
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// If ICP shall not be applied, then just write
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// the identity matrix
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if (max_num_iterations == 0) {
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double id[16];
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M4identity(id);
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CurrentScan->transform(id, Scan::ICP, 0); // write end pose
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return 0;
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}
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// icp main loop
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double ret = 0.0, prev_ret = 0.0, prev_prev_ret = 0.0;
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int iter = 0;
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double alignxf[16];
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for (iter = 0; iter < max_num_iterations; iter++) {
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prev_prev_ret = prev_ret;
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prev_ret = ret;
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#ifdef _OPENMP
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// Implementation according to the paper
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// "The Parallel Iterative Closest Point Algorithm"
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// by Langis / Greenspan / Godin, IEEE 3DIM 2001
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//
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// The same information are given in (ecrm2007.pdf)
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// Andreas Nüchter. Parallelization of Scan Matching
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// for Robotic 3D Mapping. In Proceedings of the 3rd
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// European Conference on Mobile Robots (ECMR '07),
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// Freiburg, Germany, September 2007
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omp_set_num_threads(OPENMP_NUM_THREADS);
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int max = (int)CurrentScan->size<DataXYZ>("xyz reduced");
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int step = max / OPENMP_NUM_THREADS;
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vector<PtPair> pairs[OPENMP_NUM_THREADS];
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double sum[OPENMP_NUM_THREADS];
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double centroid_m[OPENMP_NUM_THREADS][3];
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double centroid_d[OPENMP_NUM_THREADS][3];
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double Si[OPENMP_NUM_THREADS][9];
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unsigned int n[OPENMP_NUM_THREADS];
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for (int i = 0; i < OPENMP_NUM_THREADS; i++) {
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sum[i] = centroid_m[i][0] = centroid_m[i][1] = centroid_m[i][2] = 0.0;
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centroid_d[i][0] = centroid_d[i][1] = centroid_d[i][2] = 0.0;
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Si[i][0] = Si[i][1] = Si[i][2] = Si[i][3] = Si[i][4] = Si[i][5] = Si[i][6] = Si[i][7] = Si[i][8] = 0.0;
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n[i] = 0;
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}
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#pragma omp parallel
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{
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int thread_num = omp_get_thread_num();
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Scan::getPtPairsParallel(pairs, PreviousScan, CurrentScan,
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thread_num, step,
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rnd, max_dist_match2,
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sum, centroid_m, centroid_d);
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n[thread_num] = (unsigned int)pairs[thread_num].size();
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if ((my_icp6Dminimizer->getAlgorithmID() == 1) ||
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(my_icp6Dminimizer->getAlgorithmID() == 2)) {
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for (unsigned int i = 0; i < n[thread_num]; i++) {
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double pp[3] = {pairs[thread_num][i].p1.x - centroid_m[thread_num][0],
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pairs[thread_num][i].p1.y - centroid_m[thread_num][1],
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pairs[thread_num][i].p1.z - centroid_m[thread_num][2]};
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double qq[3] = {pairs[thread_num][i].p2.x - centroid_d[thread_num][0],
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pairs[thread_num][i].p2.y - centroid_d[thread_num][1],
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pairs[thread_num][i].p2.z - centroid_d[thread_num][2]};
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/*
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double pp[3] = {pairs[thread_num][i].p1.x - centroid_d[thread_num][0],
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pairs[thread_num][i].p1.y - centroid_d[thread_num][1],
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pairs[thread_num][i].p1.z - centroid_d[thread_num][2]};
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double qq[3] = {pairs[thread_num][i].p2.x - centroid_m[thread_num][0],
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pairs[thread_num][i].p2.y - centroid_m[thread_num][1],
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pairs[thread_num][i].p2.z - centroid_m[thread_num][2]};
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*/
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// formula (6)
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Si[thread_num][0] += pp[0] * qq[0];
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Si[thread_num][1] += pp[0] * qq[1];
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Si[thread_num][2] += pp[0] * qq[2];
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Si[thread_num][3] += pp[1] * qq[0];
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Si[thread_num][4] += pp[1] * qq[1];
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Si[thread_num][5] += pp[1] * qq[2];
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Si[thread_num][6] += pp[2] * qq[0];
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Si[thread_num][7] += pp[2] * qq[1];
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Si[thread_num][8] += pp[2] * qq[2];
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}
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}
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} // end parallel
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// do we have enough point pairs?
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unsigned int pairssize = 0;
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for (int i = 0; i < OPENMP_NUM_THREADS; i++) {
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pairssize += n[i];
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}
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if (pairssize > 3) {
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if ((my_icp6Dminimizer->getAlgorithmID() == 1) ||
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(my_icp6Dminimizer->getAlgorithmID() == 2) ) {
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ret = my_icp6Dminimizer->Point_Point_Align_Parallel(OPENMP_NUM_THREADS,
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n, sum, centroid_m, centroid_d, Si,
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alignxf);
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} else if (my_icp6Dminimizer->getAlgorithmID() == 6) {
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ret = my_icp6Dminimizer->Point_Point_Align_Parallel(OPENMP_NUM_THREADS,
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n, sum, centroid_m, centroid_d,
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pairs,
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alignxf);
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} else {
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cout << "This parallel minimization algorithm is not implemented !!!" << endl;
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exit(-1);
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}
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} else {
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//break;
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}
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#else
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double centroid_m[3] = {0.0, 0.0, 0.0};
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double centroid_d[3] = {0.0, 0.0, 0.0};
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vector<PtPair> pairs;
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Scan::getPtPairs(&pairs, PreviousScan, CurrentScan, 0, rnd,
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max_dist_match2, ret, centroid_m, centroid_d);
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// do we have enough point pairs?
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if (pairs.size() > 3) {
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if (my_icp6Dminimizer->getAlgorithmID() == 3 || my_icp6Dminimizer->getAlgorithmID() == 8 ) {
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memcpy(alignxf, CurrentScan->get_transMat(), sizeof(alignxf));
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}
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ret = my_icp6Dminimizer->Point_Point_Align(pairs, alignxf, centroid_m, centroid_d);
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} else {
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break;
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}
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#endif
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if ((iter == 0 && anim != -2) || ((anim > 0) && (iter % anim == 0))) {
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CurrentScan->transform(alignxf, Scan::ICP, 0); // transform the current scan
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} else {
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CurrentScan->transform(alignxf, Scan::ICP, -1); // transform the current scan
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}
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if ((fabs(ret - prev_ret) < epsilonICP) && (fabs(ret - prev_prev_ret) < epsilonICP)) {
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double id[16];
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M4identity(id);
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if(anim == -2) {
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CurrentScan->transform(id, Scan::ICP, -1); // write end pose
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} else {
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CurrentScan->transform(id, Scan::ICP, 0); // write end pose
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}
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break;
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}
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}
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return iter;
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}
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/**
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* Computes the point to point error between two scans
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*
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*
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*/
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double icp6D::Point_Point_Error(Scan* PreviousScan, Scan* CurrentScan, double max_dist_match, unsigned int *np) {
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double error = 0;
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unsigned int nr_ppairs = 0;
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#ifdef _OPENMP
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omp_set_num_threads(OPENMP_NUM_THREADS);
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int max = (int)CurrentScan->size<DataXYZ>("xyz reduced");
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int step = max / OPENMP_NUM_THREADS;
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vector<PtPair> pairs[OPENMP_NUM_THREADS];
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double sum[OPENMP_NUM_THREADS];
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double centroid_m[OPENMP_NUM_THREADS][3];
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double centroid_d[OPENMP_NUM_THREADS][3];
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for (int i = 0; i < OPENMP_NUM_THREADS; i++) {
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sum[i] = centroid_m[i][0] = centroid_m[i][1] = centroid_m[i][2] = 0.0;
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centroid_d[i][0] = centroid_d[i][1] = centroid_d[i][2] = 0.0;
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}
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#pragma omp parallel
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{
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int thread_num = omp_get_thread_num();
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Scan::getPtPairsParallel(pairs, PreviousScan, CurrentScan,
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thread_num, step,
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rnd, sqr(max_dist_match),
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sum, centroid_m, centroid_d);
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}
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for (unsigned int thread_num = 0; thread_num < OPENMP_NUM_THREADS; thread_num++) {
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for (unsigned int i = 0; i < (unsigned int)pairs[thread_num].size(); i++) {
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error += sqr(pairs[thread_num][i].p1.x - pairs[thread_num][i].p2.x)
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+ sqr(pairs[thread_num][i].p1.y - pairs[thread_num][i].p2.y)
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+ sqr(pairs[thread_num][i].p1.z - pairs[thread_num][i].p2.z);
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}
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nr_ppairs += (unsigned int)pairs[thread_num].size();
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}
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#else
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double centroid_m[3] = {0.0, 0.0, 0.0};
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double centroid_d[3] = {0.0, 0.0, 0.0};
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vector<PtPair> pairs;
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Scan::getPtPairs(&pairs, PreviousScan, CurrentScan, 0, rnd, sqr(max_dist_match),error, centroid_m, centroid_d);
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// getPtPairs computes error as sum of squared distances
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error = 0;
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for (unsigned int i = 0; i < pairs.size(); i++) {
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error += sqrt(
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sqr(pairs[i].p1.x - pairs[i].p2.x)
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+ sqr(pairs[i].p1.y - pairs[i].p2.y)
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+ sqr(pairs[i].p1.z - pairs[i].p2.z) );
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}
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nr_ppairs = pairs.size();
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#endif
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if (np) *np = nr_ppairs;
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// return sqrt(error/nr_ppairs);
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return error/nr_ppairs;
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}
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/**
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* This function matches the scans only with ICP
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*
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* @param allScans Contains all necessary scans.
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*/
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void icp6D::doICP(vector <Scan *> allScans)
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{
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double id[16];
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M4identity(id);
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vector < Scan* > meta_scans;
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Scan* my_MetaScan = 0;
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for(unsigned int i = 0; i < allScans.size(); i++) {
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cout << i << "*" << endl;
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Scan *CurrentScan = allScans[i];
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Scan *PreviousScan = 0;
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if (i > 0) {
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PreviousScan = allScans[i-1];
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if (eP) { // extrapolate odometry
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CurrentScan->mergeCoordinatesWithRoboterPosition(PreviousScan);
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}
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}
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if (i > 0) {
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if (meta) {
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match(my_MetaScan, CurrentScan);
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} else
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if (cad_matching) {
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match(allScans[0], CurrentScan);
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} else {
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match(PreviousScan, CurrentScan);
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}
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}
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// push processed scan
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if ( meta && i != allScans.size()-1 ) {
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meta_scans.push_back(CurrentScan);
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if (my_MetaScan) {
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delete my_MetaScan;
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}
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my_MetaScan = new MetaScan(meta_scans, nns_method, cuda_enabled);
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}
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}
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}
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