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There are so many large files in .git folder and I hate them, so I move the code to https://github.com/qixuxiang/orb-slam2_with_semantic_labelling

orb-slam2_with_semantic_label

Authors: Xuxiang Qi([email protected]),Shaowu Yang([email protected]),Yuejin Yan([email protected])

Current version: 1.0.0

  • Note: This repository is mainly built upon ORB_SLAM2 and YOLO. Many thanks for their great work.

0.introduction

orb-slam2_with_semantic_label is a visual SLAM system based on ORB_SLAM2[1-2]. The ORB-SLAM2 is a great visual SLAM method that has been popularly applied in robot applications. However, this method cannot provide semantic information in environmental mapping.In this work,we present a method to build a 3D dense semantic map,which utilize both 2D image labels from YOLOv3[3] and 3D geometric information.

image

1. Related Publications

Deep Learning Based Semantic Labelling of 3D Point Cloud in Visual SLAM

2. Prerequisites

2.1 requirements

  • Ubuntu 14.04/Ubuntu 16.04/Ubuntu 18.04

  • ORB-SLAM2

  • CUDA

  • GCC >= 5.0

  • cmake

  • OpenCV

  • PCL1.7 or PCL1.8, may not work with PCL1.9

  • libTorch 1.4

    PS:(Ubuntu18.04 CUDA10.1 opencv3.4 Eigen3.2.10 PCL1.8 has tested successfully)

2.2 Installation

Refer to the corresponding original repositories (ORB_SLAM2 and YOLO for installation tutorial).

2.3 Build

git clone https://github.com/qixuxiang/orb-slam2_with_semantic_label.git

sh build.sh

3. Run the code

  1. Download yolov3.weights, yolov3.cfg and coco.names from darknet and put them in bin folder. Also, these files can be found in YOLO V3.Then, you should make a dir named img in bin folder, that is, you should execute command sudo mkdir img in bin folder. you can use libtorch-yolov3 replace libYOLOv3SE, see details https://blog.csdn.net/TM431700/article/details/105889614).

  2. Download a sequence from http://vision.in.tum.de/data/datasets/rgbd-dataset/download and uncompress it to data folder.

  3. Associate RGB images and depth images using the python script associate.py. We already provide associations for some of the sequences in Examples/RGB-D/associations/. You can generate your own associations file executing:

python associate.py PATH_TO_SEQUENCE/rgb.txt PATH_TO_SEQUENCE/depth.txt > associations.txt
  1. Change TUMX.yaml to TUM1.yaml,TUM2.yaml or TUM3.yaml for freiburg1, freiburg2 and freiburg3 sequences respectively. Change PATH_TO_SEQUENCE_FOLDERto the uncompressed sequence folder.You can run the project by:
cd bin
./rgbd_tum ../Vocabulary/ORBvoc.txt ../Examples/RGB-D/TUM2.yaml ../data/rgbd-data ../data/rgbd-data/associations.txt

image

update

  1. update 20200705: fix segment fault, make system run faster and use libtorch, thanks for vayneli!

Reference

[1] Mur-Artal R, Montiel J M M, Tardos J D. ORB-SLAM: a versatile and accurate monocular SLAM system[J]. IEEE Transactions on Robotics, 2015, 31(5): 1147-1163.

[2] Mur-Artal R, Tardos J D. ORB-SLAM2: an Open-Source SLAM System for Monocular, Stereo and RGB-D Cameras[J]. arXiv preprint arXiv:1610.06475, 2016.

[3] Redmon, Joseph, and A. Farhadi. "YOLOv3: An Incremental Improvement." (2018).

License

Our system is released under a GPLv3 license.

If you want to use code for commercial purposes, please contact the authors.

Other issue

  • We do not test the code there on ROS bridge/node.The system relies on an extremely fast and tight coupling between the mapping and tracking on the GPU, which I don't believe ROS supports natively in terms of message passing.

  • Welcome to submit any issue if you have problems, and add your software and computer system information details, such as Ubuntu 16/14,OpenCV 2/3, CUDA 9.0, GCC5.4,etc..

  • We provide a video here.