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OV²SLAM is a Fully Online and Versatile Visual SLAM for Real-Time Applications

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OV²SLAM

A Fully Online and Versatile Visual SLAM for Real-Time Applications

Paper: [arXiv]

Videos: [video #1], [video #2], [video #3], [video #4], [video #5], [video #6]

Authors: Maxime Ferrera, Alexandre Eudes, Julien Moras, Martial Sanfourche, Guy Le Besnerais (maxime.ferrera@gmail.com / first.last@onera.fr).

OV²SLAM is a fully real-time Visual SLAM algorithm for Stereo and Monocular cameras. A complete SLAM pipeline is implemented with a carefully designed multi-threaded architecture allowing to perform Tracking, Mapping, Bundle Adjustment and Loop Closing in real-time. The Tracking is based on an undirect Lucas-Kanade optical-flow formulation and provides camera poses estimations at the camera's frame-rate. The Mapping works at the keyframes' rate and ensures continuous localization by populating the sparse 3D map and minimize drift through a local map tracking step. Bundle Adjustment is applied with an anchored inverse depth formulation, reducing the parametrization of 3D map points to 1 parameter instead of 3. Loop Closing is performed through an Online Bag of Words method thanks to iBoW-LCD. In opposition to classical offline BoW methods, no pre-trained vocabulary tree is required. Instead, the vocabulary tree is computed online from the descriptors extracted in the incoming video stream, making it always suited to the currently explored environment.

Related Paper:

If you use OV²SLAM in your work, please cite it as:

@article{fer2021ov2slam,
      title={{OV$^{2}$SLAM} : A Fully Online and Versatile Visual {SLAM} for Real-Time Applications},
      author={Ferrera, Maxime and Eudes, Alexandre and Moras, Julien and Sanfourche, Martial and {Le Besnerais}, Guy.},
      journal={IEEE Robotics and Automation Letters},
      year={2021}
     }

License

OV²SLAM is released under the GPLv3 license. For a closed-source version of OV²SLAM for commercial purposes, please contact ONERA (https://www.onera.fr/en/contact-us) or the authors.

Copyright (C) 2020 ONERA

1. Prerequisites

The library has been tested with Ubuntu 16.04 and 18.04, ROS Kinetic and Melodic and OpenCV 3. It should also work with ROS Noetic and OpenCV 4 but this configuration has not been fully tested.

1.0 C++11 or Higher

OV²SLAM makes use of C++11 features and should thus be compiled with a C++11 or higher flag.

1.1 ROS

ROS is used for reading the video images through bag files and for visualization purpose in Rviz.

ROS Installation

Make sure that the pcl_ros package is installed :

    sudo apt install ros-distro-pcl-ros

or even

    rosdep install ov2slam

1.2 Eigen3

Eigen3 is used throughout OV²SLAM. It should work with version >= 3.3.0, lower versions have not been tested.

1.3 OpenCV

OpenCV 3 has been used for the development of OV²SLAM, OpenCV 4 might be supported as well but it has not been tested. (Optional) The use of BRIEF descriptor requires that opencv_contrib was installed. If it is not the case, ORB will be used instead without scale and rotation invariance properties (which should be the exact equivalent of BRIEF).

WATCH OUT By default the CMakeLists.txt file assumes that opencv_contrib is installed, set the OPENCV_CONTRIB flag to OFF in CMakeLists.txt if it is not the case.

1.4 iBoW-LCD

A modified version of iBoW-LCD is included in the Thirdparty folder. It has been turned into a shared lib and is not a catkin package anymore. Same goes for OBIndex2, the required dependency for iBoW-LCD. Check the lcdetector.h and lcdetector.cc files to see the modifications w.r.t. to the original code.

1.5 Sophus

Sophus is used for SE(3), SO(3) elements representation. For convenience, a copy of Sophus has been included in the Thirdparty folder.

1.6 Ceres Solver

Ceres is used for optimization related operations such as PnP, Bundle Adjustment or PoseGraph Optimization. For convenience, a copy of Ceres has been included in the Thirdparty folder. Note that Ceres dependencies are still required.

1.6 (Optional) OpenGV

OpenGV can be used for Multi-View-Geometry (MVG) operations. The results reported in the paper were obtained using OpenGV. For convenience, if OpenGV is not installed, MVG operations' alternatives are proposed with OpenCV functions.
Note that the performances might be lower without OpenGV.

2. Installation

2.0 Clone

Clone the git repository in your catkin workspace:

    cd ~/catkin_ws/src/
    git clone https://github.com/ov2slam/ov2slam.git

2.1 Build Thirdparty libs

For convenience we provide a script to build the Thirdparty libs:

    cd ~/catkin_ws/src/ov2slam
    chmod +x build_thirdparty.sh
    ./build_thirdparty.sh

WATCH OUT By default, the script builds obindex2, ibow-lcd, sophus and ceres. If you want to use your own version of Sophus or Ceres you can comment the related lines in the script. Yet, about Ceres, as OV²SLAM is by default compiled with the "-march=native" flag, the Ceres lib linked to OV²SLAM must be compiled with this flag as well, which is not the default case (at least since Ceres 2.0). The build_thirdparty.sh script ensures that Ceres builds with the "-march=native" flag.

If you are not interested in the Loop Closing feature of OV²SLAM, you can also comment the lines related to obindex2 and ibow-lcd.

(Optional) Install OpenGV:

    cd your_path/
    git clone https://github.com/laurentkneip/opengv
    cd opengv
    mkdir build
    cd build/
    cmake ..
    sudo make -j4 install

2.2 Build OV²SLAM

Build OV²SLAM package with your favorite catkin tool:

    cd ~/catkin_ws/src/ov2slam
    catkin build --this
    source ~/catkin_ws/devel/setup.bash

OR

    cd ~/catkin_ws/
    catkin_make --pkg ov2slam
    source ~/catkin_ws/devel/setup.bash

3. Usage

Run OV²SLAM using:

    rosrun ov2slam ov2slam_node parameter_file.yaml

Visualize OV²SLAM outputs in Rviz by loading the provided configuration file: ov2slam_visualization.rviz.

4. Miscellaneous

Supported Cameras Model

Both the Pinhole Rad-tan and Fisheye camera's models are supported. The models are OpenCV-based. If you use Kalibr for camera calibration, the equivalencies are:

  • OpenCV "Pinhole" -> Kalibr "Pinhole Radtan"
  • OpenCV "Fisheye" -> Kalibr "Pinhole Equidistant"

Extrinsic Calibration

The stereo extrinsic parameters in the parameter files are expected to represent the transformation from the camera frame to the body frame (T_body_cam \ X_body = T_body_cam * X_cam). Therefore, if T_body_camleft is set as the Identity transformation, for the right camera we have: T_body_camright = T_camleft_camright. In Kalibr, the inverse transformation is provided (i.e. T_cam_body). Yet, Kalibr also provide the extrinsic transformation of each camera w.r.t. to the previous one with the field T_cn_cnm1. This transformation can be directly used in OV²SLAM by setting T_body_camleft = T_cn_cnm1 and T_body_camright = I_4x4.

Parameters File Description

Three directories are proposed within the parameter_files folder: accurate, average and fast. They all store the parameter files to be used with KITTI, EuRoC and TartanAir.

  • The accurate folder provides the parameters as used in the paper for the full method (i.e. OV²SLAM w. LC).

  • The fast folder provides the parameters as used in the paper for the Fast version of OV²SLAM.

  • The average folder is provided for convenience as an in-between mode.

Parameters details:
* debug: display debugging information or not
* log_timings: log and display main functions timings or not

* mono: set to 1 if you are in mono config
* stereo: set to 1 if you are in stereo config

* force_realtime: set to 1 if you want to enforce real-time processing (i.e. only process last received image, even if it leads to dropping not yet processed images)

* slam_mode: must be set to 1

* buse_loop_closer: set to 1 if you want to use LC

* bdo_stereo_rect: set to 1 if you want to apply stereo rectification (and use epipolar lines for stereo matching)
* alpha: to be set between 0 and 1, 0: rectified images contain only valid pixel / 1: rectified images contain all original pixels (see OpenCV doc for more details)

* bdo_undist: set to 1 if you want to process undistorted images (the alpha parameter will be used in this case too)

* finit_parallax: amount of parallax expected for creating new keyframes (should be set between 15. and 40.)

* use_shi_tomasi: set to 1 to use OpenCV GFTT keypoints detector 
* use_fast: set to 1 to use OpenCV FAST keypoints detector
* use_brief: set to 1 to extract BRIEF descriptors from detected keypoints (must be set to 1 for apply local map matching, see below)
* use_singlescale_detector: set to 1 to use our keypoints detector based on OpenCV cornerMinEigenVal function

* nmaxdist: size of image cells for extracting keypoints (the bigger the less keypoints you will have)

* nfast_th: FAST detector threshold (the lower the more sensitive the detector is)
* dmaxquality: GFTT and cornerMinEigenVal detector threshold (the lower the more sensitive the detector is)

* use_clahe: set to 1 to apply CLAHE on processed images
* fclahe_val: strength of the CLAHE effect

* do_klt: must be set to 1
* klt_use_prior: if set to 1, keypoints which are observation of 3D Map Points will be initialized with a constant velocity motion model to get a prior before applying KLT tracking
* btrack_keyframetoframe: if set to 1, KLT will be applied between previous keyframe and current frame instead of previous frame and current frame (setting it to 0 usually leads to better accuracy)
* nklt_win_size: size of the pixels patch to be used in the KLT tracking
* nklt_pyr_lvl: number of pyramid levels to be used with KLT in addition the full resolution image (i.e. if set to 1, two levels will be used: half-resolution, full-resolution)

* nmax_iter: max number of iterations for KLT optimization
* fmax_px_precision: maximum precision seeked with KLT (i.e. solution is not varying more than this parameter)

* fmax_fbklt_dist: maximum allowed error in the backward KLT tracking
* nklt_err: maximum allowed error between KLT tracks

* bdo_track_localmap: set to 1 to use local map tracking using computed descriptors at each keyframe

* fmax_desc_dist: distance ratio w.r.t. descriptor size for considering a good match (to be set between 0 and 1)
* fmax_proj_pxdist: maximum distance in pixels between a map point projection and a keypoint to consider it as a matching candidate

* doepipolar: set to 1 to apply 2D-2D epipolar based filtering
* dop3p : set to 1 to use a P3P-RANSAC pose estimation
* bdo_random: set to 1 to randomize RANSAC
* nransac_iter: maximum number of RANSAC iterations allowed
* fransac_err: maximum error in pixels for RANSAC

* fmax_reproj_err: maximum reprojection error in pixels when triangulating new map points
* buse_inv_depth: set to 1 to use an anchored inverse depth parametrization in BundleAdjustment, set to 0 to use XYZ parametrization

* robust_mono_th: threshold to be used for the robust Huber cost function in BundleAdjustment

* use_sparse_schur: set to 1 to use sparse schur (recommanded) (see Ceres doc)
* use_dogleg: set to 1 to apply Dogleg optimization (see Ceres doc)
* use_subspace_dogleg: set to 1 to apply subspace Dogleg optimization (see Ceres doc)
* use_nonmonotic_step: set to 1 to allow nonmonotic steps in optimization (see Ceres doc)

* apply_l2_after_robust: set to 1 to re-optimize without the Huber function after removal of detected outliers in BundleAdjustment

* nmin_covscore: minimum covisibility score w.r.t. to current keyframe for adding a keyframe as a state to optimize in BundleAdjustment

* fkf_filtering_ratio: ratio of co-observed 3D map points by 4 other keyframes to consider a keyframe as redundant and remove it from the map

* do_full_ba: if set to 1, a final full BundleAdjustment will be applied once the sequence has been entirely processed

Note on "-march=native"

If you experience issues when running OV²SLAM (segfault exceptions, ...), it might be related to the "-march=native" flag. By default, OpenGV and OV²SLAM come with this flag enabled but Ceres does not. Making sure that all of them are built with or without this flag might solve your problem.

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