124 lines
7.2 KiB
C
124 lines
7.2 KiB
C
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/**
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* This file is part of ORB-SLAM3
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*
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* Copyright (C) 2017-2020 Carlos Campos, Richard Elvira, Juan J. Gómez Rodríguez, José M.M. Montiel and Juan D. Tardós, University of Zaragoza.
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* Copyright (C) 2014-2016 Raúl Mur-Artal, José M.M. Montiel and Juan D. Tardós, University of Zaragoza.
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*
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* ORB-SLAM3 is free software: you can redistribute it and/or modify it under the terms of the GNU General Public
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* License as published by the Free Software Foundation, either version 3 of the License, or
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* (at your option) any later version.
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*
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* ORB-SLAM3 is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even
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* the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along with ORB-SLAM3.
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* If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef OPTIMIZER_H
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#define OPTIMIZER_H
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#include "Map.h"
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#include "MapPoint.h"
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#include "KeyFrame.h"
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#include "LoopClosing.h"
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#include "Frame.h"
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#include <math.h>
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#include "Thirdparty/g2o/g2o/types/types_seven_dof_expmap.h"
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#include "Thirdparty/g2o/g2o/core/sparse_block_matrix.h"
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#include "Thirdparty/g2o/g2o/core/block_solver.h"
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#include "Thirdparty/g2o/g2o/core/optimization_algorithm_levenberg.h"
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#include "Thirdparty/g2o/g2o/core/optimization_algorithm_gauss_newton.h"
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#include "Thirdparty/g2o/g2o/solvers/linear_solver_eigen.h"
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#include "Thirdparty/g2o/g2o/types/types_six_dof_expmap.h"
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#include "Thirdparty/g2o/g2o/core/robust_kernel_impl.h"
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#include "Thirdparty/g2o/g2o/solvers/linear_solver_dense.h"
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namespace ORB_SLAM3
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{
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class LoopClosing;
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class Optimizer
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{
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public:
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void static BundleAdjustment(const std::vector<KeyFrame*> &vpKF, const std::vector<MapPoint*> &vpMP,
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int nIterations = 5, bool *pbStopFlag=NULL, const unsigned long nLoopKF=0,
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const bool bRobust = true);
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void static GlobalBundleAdjustemnt(Map* pMap, int nIterations=5, bool *pbStopFlag=NULL,
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const unsigned long nLoopKF=0, const bool bRobust = true);
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void static FullInertialBA(Map *pMap, int its, const bool bFixLocal=false, const unsigned long nLoopKF=0, bool *pbStopFlag=NULL, bool bInit=false, float priorG = 1e2, float priorA=1e6, Eigen::VectorXd *vSingVal = NULL, bool *bHess=NULL);
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void static LocalBundleAdjustment(KeyFrame* pKF, bool *pbStopFlag, vector<KeyFrame*> &vpNonEnoughOptKFs);
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void static LocalBundleAdjustment(KeyFrame* pKF, bool *pbStopFlag, Map *pMap, int& num_fixedKF);
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void static MergeBundleAdjustmentVisual(KeyFrame* pCurrentKF, vector<KeyFrame*> vpWeldingKFs, vector<KeyFrame*> vpFixedKFs, bool *pbStopFlag);
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int static PoseOptimization(Frame* pFrame);
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int static PoseInertialOptimizationLastKeyFrame(Frame* pFrame, bool bRecInit = false);
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int static PoseInertialOptimizationLastFrame(Frame *pFrame, bool bRecInit = false);
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// if bFixScale is true, 6DoF optimization (stereo,rgbd), 7DoF otherwise (mono)
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void static OptimizeEssentialGraph(Map* pMap, KeyFrame* pLoopKF, KeyFrame* pCurKF,
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const LoopClosing::KeyFrameAndPose &NonCorrectedSim3,
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const LoopClosing::KeyFrameAndPose &CorrectedSim3,
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const map<KeyFrame *, set<KeyFrame *> > &LoopConnections,
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const bool &bFixScale);
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void static OptimizeEssentialGraph6DoF(KeyFrame* pCurKF, vector<KeyFrame*> &vpFixedKFs, vector<KeyFrame*> &vpFixedCorrectedKFs,
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vector<KeyFrame*> &vpNonFixedKFs, vector<MapPoint*> &vpNonCorrectedMPs, double scale);
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void static OptimizeEssentialGraph(KeyFrame* pCurKF, vector<KeyFrame*> &vpFixedKFs, vector<KeyFrame*> &vpFixedCorrectedKFs,
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vector<KeyFrame*> &vpNonFixedKFs, vector<MapPoint*> &vpNonCorrectedMPs);
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void static OptimizeEssentialGraph(KeyFrame* pCurKF,
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const LoopClosing::KeyFrameAndPose &NonCorrectedSim3,
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const LoopClosing::KeyFrameAndPose &CorrectedSim3);
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// For inetial loopclosing
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void static OptimizeEssentialGraph4DoF(Map* pMap, KeyFrame* pLoopKF, KeyFrame* pCurKF,
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const LoopClosing::KeyFrameAndPose &NonCorrectedSim3,
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const LoopClosing::KeyFrameAndPose &CorrectedSim3,
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const map<KeyFrame *, set<KeyFrame *> > &LoopConnections);
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// if bFixScale is true, optimize SE3 (stereo,rgbd), Sim3 otherwise (mono) (OLD)
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static int OptimizeSim3(KeyFrame* pKF1, KeyFrame* pKF2, std::vector<MapPoint *> &vpMatches1,
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g2o::Sim3 &g2oS12, const float th2, const bool bFixScale);
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// if bFixScale is true, optimize SE3 (stereo,rgbd), Sim3 otherwise (mono) (NEW)
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static int OptimizeSim3(KeyFrame* pKF1, KeyFrame* pKF2, std::vector<MapPoint *> &vpMatches1,
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g2o::Sim3 &g2oS12, const float th2, const bool bFixScale,
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Eigen::Matrix<double,7,7> &mAcumHessian, const bool bAllPoints=false);
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static int OptimizeSim3(KeyFrame *pKF1, KeyFrame *pKF2, vector<MapPoint *> &vpMatches1, vector<KeyFrame*> &vpMatches1KF,
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g2o::Sim3 &g2oS12, const float th2, const bool bFixScale, Eigen::Matrix<double,7,7> &mAcumHessian,
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const bool bAllPoints = false);
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// For inertial systems
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void static LocalInertialBA(KeyFrame* pKF, bool *pbStopFlag, Map *pMap, bool bLarge = false, bool bRecInit = false);
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void static MergeInertialBA(KeyFrame* pCurrKF, KeyFrame* pMergeKF, bool *pbStopFlag, Map *pMap, LoopClosing::KeyFrameAndPose &corrPoses);
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// Local BA in welding area when two maps are merged
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void static LocalBundleAdjustment(KeyFrame* pMainKF,vector<KeyFrame*> vpAdjustKF, vector<KeyFrame*> vpFixedKF, bool *pbStopFlag);
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// Marginalize block element (start:end,start:end). Perform Schur complement.
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// Marginalized elements are filled with zeros.
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static Eigen::MatrixXd Marginalize(const Eigen::MatrixXd &H, const int &start, const int &end);
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// Condition block element (start:end,start:end). Fill with zeros.
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static Eigen::MatrixXd Condition(const Eigen::MatrixXd &H, const int &start, const int &end);
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// Remove link between element 1 and 2. Given elements 1,2 and 3 must define the whole matrix.
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static Eigen::MatrixXd Sparsify(const Eigen::MatrixXd &H, const int &start1, const int &end1, const int &start2, const int &end2);
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// Inertial pose-graph
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void static InertialOptimization(Map *pMap, Eigen::Matrix3d &Rwg, double &scale, Eigen::Vector3d &bg, Eigen::Vector3d &ba, bool bMono, Eigen::MatrixXd &covInertial, bool bFixedVel=false, bool bGauss=false, float priorG = 1e2, float priorA = 1e6);
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void static InertialOptimization(Map *pMap, Eigen::Vector3d &bg, Eigen::Vector3d &ba, float priorG = 1e2, float priorA = 1e6);
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void static InertialOptimization(vector<KeyFrame*> vpKFs, Eigen::Vector3d &bg, Eigen::Vector3d &ba, float priorG = 1e2, float priorA = 1e6);
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void static InertialOptimization(Map *pMap, Eigen::Matrix3d &Rwg, double &scale);
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};
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} //namespace ORB_SLAM3
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#endif // OPTIMIZER_H
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