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This is the open-source version of ICRA 2019 submission "Real-time Scalable Dense Surfel Mapping"

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DenseSurfelMapping

News: You can find the paper here. If the project helps you in your paper, PLEASE cite it.

News: we have updated VINS-Supported branch. The code is not fully checked after refactoring. If you encounted any problems, please let us know.

A depth map fusion method

This is a depth map fusion method following the ICRA 2019 submission Real-time Scalable Dense Surfel Mapping, Kaixuan Wang, Fei Gao, and Shaojie Shen.

Given a sequence of depth images, intensity images, and camera poses, the proposed methods can fuse them into a globally consistent model using surfel representation. The fusion method supports both ORB-SLAM2 and VINS-Mono (a little modification is required) so that you can use it in RGB-D, stereo, or visual-inertial cases according to your setups. We develop the method based on the motivation that the fusion method: (1) can support loop closure (so that it can be consistent with other state-of-the-art SLAM methods), (2) do not require much CPU/memory resources to reconstruct a fine model in real-time, (3) can be scaled to large environments. These requirements are of vital importance in robot navigation tasks that the robot can safly navigate in the environment with odometry-consistent dense maps.

An example to show the usage of the surfel mapping is shown below.

mapping example

Left is the overview of the environment, the middle is the reconstructed results (visualized as point clouds in rviz of ROS) of our method, and right is the result using OpenChisel. We use VINS-Mono to track the camera motion with loop closure, and MVDepthNet to estimate the depth maps. The black line is the path of the camera. In the reconstruction, loop closure is enabled to correct the detected drift. OpenChisel is a great project to reconstruct the environment using the truncated signed distance function (TSDF). However, as shown in the example, it is not suitable to be used with SLAM systems that have loop closure abilities.

The system can also be applied to the KITTI datasets in real-time with only CPU computation.

mapping example

The top row is the reconstruction using stereo cameras and the bottom row is the reconstruction using only the left camera. Details can be found in the paper.

A video can be used to illustrate the performance of the system and how we apply it into an autonomous navigation:

video

Software

The open-sourced surfel fusion system is used for reconstructing the KITTI dataset using ORB_SLAM2. For VINS-MONO, we are using it in a teach-and-repeat project and will opensource lately. This project consists of three parts: the surfel_fusion, a modified ORB_SLAM2, and a kitti publisher.

ORB_SLAM2

The ORB_SLAM2 is from the original one and is modified to publish necessary information. You may install the ORB_SLAM2 following the original instructions.

Surfel_fusion

Surfel_fusion can be installed in ros catkin workspace by

catkin_make

Kitti publisher

kitti publisher is a simple python warper to publish the Kitti dataset along with the pre-calculated depth maps (using PSMNet).

Data

Here, we provide sequence 00 from the kitti dataset so that you can easily run the code. You can download the dataset from this_link.

Run the code

If you have installed all three components from the software

  1. change line 23 in ./kitti_publisher/scripts/publisher.py according to your downloaded dataset path.

  2. change the path /home/wang/software/ORB_SLAM2/Vocabulary/ORBvoc.txt and /home/wang/software/ORB_SLAM2/Examples/Stereo/KITTI00-02.yaml in /ORB_SLAM2/orb_kitti_launch.sh according to your environment.

  3. open four terminal windows: run the ORB_SLAM2 by

./orb_kitti_launch.sh 

, run the surfel fusion by

roslaunch surfel_fusion kitti_orb.launch

, and run the kitti publisher by

rosrun kitti_publisher publisher.py

, and run the rviz by

rviz

(you can load the rviz_config.rviz in the project to load published messages).

  1. the kitti publisher will initialize a window and you can start the publisher by press any key on that window. Press Esc will quit the publisher.

Save the result

The code also supports saving the reconstructed model by changing line 22 in /surfel_fusion/launch/kitti_orb.launch. Just press crtl+c on surfel fusion will cause the software to save meshes into the defined the path and quit the process. You can view the saved mash using CloudCompare or other softwares.

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This is the open-source version of ICRA 2019 submission "Real-time Scalable Dense Surfel Mapping"

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