Skip to content

chenxin-dlut/TransT

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

72 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

TransT - Transformer Tracking [CVPR2021]

Official implementation of the TransT (CVPR2021) , including training code and trained models.

News

  • 🏆 TransT-M wins VOT2021 Real-Time Challenge with EAOMultistart 0.550! The code will be released soon

Tracker

TransT

[Paper] [Models(google)] [Models(baidu:iiau)] [Raw Results]

This work presents a attention-based feature fusion network, which effectively combines the template and search region features using attention. Specifically, the proposed method includes an ego-context augment module based on self-attention and a cross-feature augment module based on cross-attention. We present a Transformer tracking (named TransT) method based on the Siamese-like feature extraction backbone, the designed attention-based fusion mechanism, and the classification and regression head.

TransT is a very simple and efficient tracker, without online update module, using the same model and hyparameter for all test sets. TransT overview figure ECA and CFA

Results

For VOT2020, we add a mask branch to generate mask, without any hyparameter-tuning. The code of the mask branch will be released soon.

Model LaSOT
AUC (%)
TrackingNet
AUC (%)
GOT-10k
AO (%)
VOT2020
EAO (%)
TNL2K
AUC (%)
OTB100
AUC (%)
NFS
AUC (%)
UAV123
AUC (%)
Speed
Params
TransT-N2 64.2 80.9 69.9 - - 68.1 65.7 67.0 70fps 16.7M
TransT-N4 64.9 81.4 72.3 49.5 51.0 69.4 65.7 69.1 50fps 23.0M

Installation

This document contains detailed instructions for installing the necessary dependencied for TransT. The instructions have been tested on Ubuntu 18.04 system.

Install dependencies

  • Create and activate a conda environment

    conda create -n transt python=3.7
    conda activate transt
  • Install PyTorch

    conda install -c pytorch pytorch=1.5 torchvision=0.6.1 cudatoolkit=10.2
  • Install other packages

    conda install matplotlib pandas tqdm
    pip install opencv-python tb-nightly visdom scikit-image tikzplotlib gdown
    conda install cython scipy
    sudo apt-get install libturbojpeg
    pip install pycocotools jpeg4py
    pip install wget yacs
    pip install shapely==1.6.4.post2
  • Setup the environment
    Create the default environment setting files.

    # Change directory to <PATH_of_TransT>
    cd TransT
    
    # Environment settings for pytracking. Saved at pytracking/evaluation/local.py
    python -c "from pytracking.evaluation.environment import create_default_local_file; create_default_local_file()"
    
    # Environment settings for ltr. Saved at ltr/admin/local.py
    python -c "from ltr.admin.environment import create_default_local_file; create_default_local_file()"

You can modify these files to set the paths to datasets, results paths etc.

  • Add the project path to environment variables
    Open ~/.bashrc, and add the following line to the end. Note to change <path_of_TransT> to your real path.
    export PYTHONPATH=<path_of_TransT>:$PYTHONPATH
    
  • Download the pre-trained networks
    Download the network for TransT and put it in the directory set by "network_path" in "pytracking/evaluation/local.py". By default, it is set to pytracking/networks.

Quick Start

Traning

  • Modify local.py to set the paths to datasets, results paths etc.
  • Runing the following commands to train the TransT. You can customize some parameters by modifying transt.py
    conda activate transt
    cd TransT/ltr
    python run_training.py transt transt

Evaluation

  • We integrated PySOT for evaluation. You can download json files in PySOT or here.

    You need to specify the path of the model and dataset in the test.py.

    net_path = '/path_to_model' #Absolute path of the model
    dataset_root= '/path_to_datasets' #Absolute path of the datasets

    Then run the following commands.

    conda activate TransT
    cd TransT
    python -u pysot_toolkit/test.py --dataset <name of dataset> --name 'transt' #test tracker #test tracker
    python pysot_toolkit/eval.py --tracker_path results/ --dataset <name of dataset> --num 1 --tracker_prefix 'transt' #eval tracker

    The testing results will in the current directory(results/dataset/transt/)

  • You can also use pytracking to test and evaluate tracker. The results might be slightly different with PySOT due to the slight difference in implementation (pytracking saves results as integers, pysot toolkit saves the results as decimals).

Getting Help

If you meet problem, please try searching our Github issues, if you can't find solutions, feel free to open a new issue.

  • ImportError: cannot import name region

Solution: You can just delete from pysot_toolkit.toolkit.utils.region import vot_overlap, vot_float2str in test.py if you don't test VOT2019/18/16. You can also build region by python setup.py build_ext --inplace in pysot_toolkit.

Citation

@inproceedings{TransT,
title={Transformer Tracking},
author={Chen, Xin and Yan, Bin and Zhu, Jiawen and Wang, Dong and Yang, Xiaoyun and Lu, Huchuan},
booktitle={CVPR},
year={2021}
}

Acknowledgement

This is a modified version of the python framework PyTracking based on Pytorch, also borrowing from PySOT and detr. We would like to thank their authors for providing great frameworks and toolkits.

Contact

About

Transformer Tracking (CVPR2021)

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages