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odometry_benchmark_small_gicp_omp.cpp
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odometry_benchmark_small_gicp_omp.cpp
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#include <small_gicp/benchmark/benchmark_odom.hpp>
#include <small_gicp/factors/gicp_factor.hpp>
#include <small_gicp/points/point_cloud.hpp>
#include <small_gicp/ann/kdtree_omp.hpp>
#include <small_gicp/util/normal_estimation_omp.hpp>
#include <small_gicp/registration/reduction_omp.hpp>
#include <small_gicp/registration/registration.hpp>
namespace small_gicp {
class SmallGICPOnlineOdometryEstimationOMP : public OnlineOdometryEstimation {
public:
explicit SmallGICPOnlineOdometryEstimationOMP(const OdometryEstimationParams& params) : OnlineOdometryEstimation(params), T_world_lidar(Eigen::Isometry3d::Identity()) {}
Eigen::Isometry3d estimate(const PointCloud::Ptr& points) override {
Stopwatch sw;
sw.start();
// Preprocess input points (kdtree construction & covariance estimation)
// Note that input points here is already downsampled
auto tree = std::make_shared<KdTree<PointCloud>>(points, KdTreeBuilderOMP(params.num_threads));
estimate_covariances_omp(*points, *tree, params.num_neighbors, params.num_threads);
if (target_points == nullptr) {
// This is the very first frame
target_points = points;
target_tree = tree;
return T_world_lidar;
}
// Registration using GICP + OMP-based parallel reduction
Registration<GICPFactor, ParallelReductionOMP> registration;
registration.rejector.max_dist_sq = params.max_correspondence_distance * params.max_correspondence_distance;
registration.reduction.num_threads = params.num_threads;
// Perform registration
auto result = registration.align(*target_points, *points, *target_tree, Eigen::Isometry3d::Identity());
// Update T_world_lidar and target points
T_world_lidar = T_world_lidar * result.T_target_source;
target_points = points;
target_tree = tree;
sw.stop();
reg_times.push(sw.msec());
return T_world_lidar;
}
void report() override { //
std::cout << "registration_time_stats=" << reg_times.str() << " [msec/scan] total_throughput=" << total_times.str() << " [msec/scan]" << std::endl;
}
private:
Summarizer reg_times;
PointCloud::Ptr target_points; // Last point cloud to be registration target
KdTree<PointCloud>::Ptr target_tree; // KdTree of the last point cloud
Eigen::Isometry3d T_world_lidar; // T_world_lidar
};
static auto small_gicp_omp_registry =
register_odometry("small_gicp_omp", [](const OdometryEstimationParams& params) { return std::make_shared<SmallGICPOnlineOdometryEstimationOMP>(params); });
} // namespace small_gicp