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MOTR: End-to-End Multiple-Object Tracking with TRansformer

PWC PWC

This repository is an official implementation of the paper MOTR: End-to-End Multiple-Object Tracking with TRansformer.

Introduction

TL; DR. MOTR is a fully end-to-end multiple-object tracking framework based on Transformer. It directly outputs the tracks within the video sequences without any association procedures.

Abstract. The key challenge in multiple-object tracking task is temporal modeling of the object under track. Existing tracking-by-detection methods adopt simple heuristics, such as spatial or appearance similarity. Such methods, in spite of their commonality, are overly simple and lack the ability to learn temporal variations from data in an end-to-end manner.In this paper, we present MOTR, a fully end-to-end multiple-object tracking framework. It learns to model the long-range temporal variation of the objects. It performs temporal association implicitly and avoids previous explicit heuristics. Built upon DETR, MOTR introduces the concept of "track query". Each track query models the entire track of an object. It is transferred and updated frame-by-frame to perform iterative predictions in a seamless manner. Tracklet-aware label assignment is proposed for one-to-one assignment between track queries and object tracks. Temporal aggregation network together with collective average loss is further proposed to enhance the long-range temporal relation. Experimental results show that MOTR achieves competitive performance and can serve as a strong Transformer-based baseline for future research.

Updates

  • (2021/09/23) Report BDD100K results and release corresponding codes motr_bdd100k.
  • (2022/02/09) Higher performance achieved by not clipping the bounding boxes inside the image.
  • (2022/02/11) Add checkpoint support for training on RTX 2080ti.
  • (2022/02/11) Report DanceTrack results and scripts.
  • (2022/05/12) Higher performance achieved by removing the public detection filtering (filter_pub_det) trick.
  • (2022/07/04) MOTR is accepted by ECCV 2022.

Main Results

MOT17

Method Dataset Train Data HOTA DetA AssA MOTA IDF1 IDS URL
MOTR MOT17 MOT17+CrowdHuman Val 57.8 60.3 55.7 73.4 68.6 2439 model

DanceTrack

Method Dataset Train Data HOTA DetA AssA MOTA IDF1 URL
MOTR DanceTrack DanceTrack 54.2 73.5 40.2 79.7 51.5 model

BDD100K

Method Dataset Train Data MOTA IDF1 IDS URL
MOTR BDD100K BDD100K 32.0 43.5 3493 model

Note:

  1. MOTR on MOT17 and DanceTrack is trained on 8 NVIDIA RTX 2080ti GPUs.
  2. The training time for MOT17 is about 2.5 days on V100 or 4 days on RTX 2080ti;
  3. The inference speed is about 7.5 FPS for resolution 1536x800;
  4. All models of MOTR are trained with ResNet50 with pre-trained weights on COCO dataset.

Installation

The codebase is built on top of Deformable DETR.

Requirements

  • Linux, CUDA>=9.2, GCC>=5.4

  • Python>=3.7

    We recommend you to use Anaconda to create a conda environment:

    conda create -n deformable_detr python=3.7 pip

    Then, activate the environment:

    conda activate deformable_detr
  • PyTorch>=1.5.1, torchvision>=0.6.1 (following instructions here)

    For example, if your CUDA version is 9.2, you could install pytorch and torchvision as following:

    conda install pytorch=1.5.1 torchvision=0.6.1 cudatoolkit=9.2 -c pytorch
  • Other requirements

    pip install -r requirements.txt
  • Build MultiScaleDeformableAttention

    cd ./models/ops
    sh ./make.sh

Usage

Dataset preparation

  1. Please download MOT17 dataset and CrowdHuman dataset and organize them like FairMOT as following:
.
├── crowdhuman
│   ├── images
│   └── labels_with_ids
├── MOT15
│   ├── images
│   ├── labels_with_ids
│   ├── test
│   └── train
├── MOT17
│   ├── images
│   ├── labels_with_ids
├── DanceTrack
│   ├── train
│   ├── test
├── bdd100k
│   ├── images
│       ├── track
│           ├── train
│           ├── val
│   ├── labels
│       ├── track
│           ├── train
│           ├── val

  1. For BDD100K dataset, you can use the following script to generate txt file:
cd datasets/data_path
python3 generate_bdd100k_mot.py
cd ../../

Training and Evaluation

Training on single node

You can download COCO pretrained weights from Deformable DETR. Then training MOTR on 8 GPUs as following:

sh configs/r50_motr_train.sh

Evaluation on MOT15

You can download the pretrained model of MOTR (the link is in "Main Results" session), then run following command to evaluate it on MOT15 train dataset:

sh configs/r50_motr_eval.sh

For visual in demo video, you can enable 'vis=True' in eval.py like:

det.detect(vis=True)

Evaluation on MOT17

You can download the pretrained model of MOTR (the link is in "Main Results" session), then run following command to evaluate it on MOT17 test dataset (submit to server):

sh configs/r50_motr_submit.sh

Evaluation on BDD100K

For BDD100K dataset, please refer motr_bdd100k.

Test on Video Demo

We also provide a demo interface which allows for a quick processing of a given video.

EXP_DIR=exps/e2e_motr_r50_joint
python3 demo.py \
    --meta_arch motr \
    --dataset_file e2e_joint \
    --epoch 200 \
    --with_box_refine \
    --lr_drop 100 \
    --lr 2e-4 \
    --lr_backbone 2e-5 \
    --pretrained ${EXP_DIR}/motr_final.pth \
    --output_dir ${EXP_DIR} \
    --batch_size 1 \
    --sample_mode 'random_interval' \
    --sample_interval 10 \
    --sampler_steps 50 90 120 \
    --sampler_lengths 2 3 4 5 \
    --update_query_pos \
    --merger_dropout 0 \
    --dropout 0 \
    --random_drop 0.1 \
    --fp_ratio 0.3 \
    --query_interaction_layer 'QIM' \
    --extra_track_attn \
    --resume ${EXP_DIR}/motr_final.pth \
    --input_video figs/demo.avi

Citing MOTR

If you find MOTR useful in your research, please consider citing:

@inproceedings{zeng2021motr,
  title={MOTR: End-to-End Multiple-Object Tracking with TRansformer},
  author={Zeng, Fangao and Dong, Bin and Zhang, Yuang and Wang, Tiancai and Zhang, Xiangyu and Wei, Yichen},
  booktitle={European Conference on Computer Vision (ECCV)},
  year={2022}
}