Pole-like Objects Mapping and Long-Term Robot Localization is an algorithm that makes robot or UAV locate itself in Dynamic Urban Scenarios robustly and accurately by correcting the real time Lidar odometry.
If you use Long Term Localization, please cite:
Z. Wang, S. Li, M. Cao, H. Chen and Y. Liu, "Pole-like Objects Mapping and Long-Term Robot Localization in Dynamic Urban Scenarios," 2021 IEEE International Conference on Robotics and Biomimetics (ROBIO), 2021, pp. 998-1003, doi: 10.1109/ROBIO54168.2021.9739599.
2020-10-12-demo.bag
https://drive.google.com/file/d/1cF6FoB6OEIBzl4U96_YxJtfJn8tEVwIr/view?usp=sharing
2020-11-05-demo.bag
https://drive.google.com/file/d/1GTiFdtKle1ydBWt5SqTHwGaCLaXfB3-3/view?usp=sharing
And a more complete dataset(19G) can be download in BaiduYun.
链接: https://pan.baidu.com/s/1zmOcu88bVXCtZdajv_IVEA?pwd=x8vx 提取码: x8vx
The dataset should be decompressed by using "rosbag decompress xxx".
- System: ubuntu 16.04
- C++ version: c++17
- g++/gcc >= 7.0
- cmake >= 3.10
Please take a look the README in long-term-localization/src/common folder.
And the size of the model file is too big, the training process can refer to the range-net++ in "long-term-localization/src/other_pkgs/lidar-bonnetal/" folder.
cd ~
mkdir -p lio_sam_ws/src
cd lio_sam_ws/src
git clone https://github.com/nixwang/lio_sam.git
cd ../
catkin_make
cd ~
git clone https://github.com/HITSZ-NRSL/long-term-localization.git
cd long-term-localization/src
git clone https://github.com/lisilin013/third_parities.git
cd ..
# When you build this ws for the first time, it may take a long time, be patient please.
catkin build
# terminal 1
cd ~/lio_sam_ws
roslaunch lio_sam run.launch
# terminal 2
cd long-term-localization
./sh/record.sh
# terminal 3
rosbag play 2020-10-12-demo.bag --clock When the bag run over, shut down the terminal 2 and 3;
Then run below code to extract the semantic.
pytorch version necessary:
pytorch==1.7.1 torchvision==0.8.2 torchaudio==0.7.2 cudatoolkit=10.1
The trained CNN model can be download here.
https://www.jianguoyun.com/p/DUoZpFUQ84SvCRjL2OsD (Access Password:nros2021)
or in google drive
https://drive.google.com/file/d/1d7nw5IuQdAzLGRM5W_cP4LZbxnh2_3lw/view?usp=sharing
and unzip the model file in "long-term-localization/src/other_pkgs/lidar-bonnetal", then run below sh file.
cd long-term-localization
./sh/offline_process.shModify the following code in config file src/long_term_relocalization/config/long_term_relocalization_params.yaml
change to localizaion mode.
relocalization:
mode: localization
# play bag
cd ~/offline_process/sequences/00
rosbag play semantic.bag --clock
# launch mapping nodes.
roslaunch long_term_relocalization mapping.launch
# when you want to save pole cluster map, open another terminal and run the following cmd.
rosrun long_term_relocalization save_cluster_map
The cluster_map will be saved in "\tmp\clusters_map.bin"
- Notes: The bag to be matched (2020-11-05-demo.bag) need to run the process in 3.1 Semantic Processing to extract the semantic cluster, and then used for matching and relocalization.
# terminal 1
roslaunch lio_sam run.launch
# terminal 2
./sh/record.sh
# terminal 3
rosbag play 2020-11-05-demo.bag --clock When the bag run over, shut down the terminal 2 and 3;
Then run below code to extract the semantic.
./sh/offline_process.shModify the following code in config file src/long_term_relocalization/config/long_term_relocalization_params.yaml
change to relocalization mode.
relocalization:
mode: relocalization
# launch relocalization nodes.
roslaunch long_term_relocalization relocalization.launch
Then play the processed bag (by 2020-11-05-demo.bag) to match with "clusters_map.bin".
cd ~/offline_process/sequences/00
rosbag play semantic.bag --clock