Changes
- fix bugs
- refactor code
- accerate detection by adding nms on gpu
Changes
- bug fix (Thanks @JieChen91 and @yingsen1 for bug reporting).
- using batch for feature extracting for each frame, which lead to a small speed up.
- code improvement.
Futher improvement direction
- Train detector on specific dataset rather than the official one.
- Retrain REID model on pedestrain dataset for better performance.
- Replace YOLOv3 detector with advanced ones.
Any contributions to this repository is welcome!
This is an implement of MOT tracking algorithm deep sort. Deep sort is basicly the same with sort but added a CNN model to extract features in image of human part bounded by a detector. This CNN model is indeed a RE-ID model and the detector used in PAPER is FasterRCNN , and the original source code is HERE.
However in original code, the CNN model is implemented with tensorflow, which I'm not familier with. SO I re-implemented the CNN feature extraction model with PyTorch, and changed the CNN model a little bit. Also, I use YOLOv3 to generate bboxes instead of FasterRCNN.
- python 3 (python2 not sure)
- numpy
- scipy
- opencv-python
- sklearn
- torch >= 0.4
- torchvision >= 0.1
- pillow
- vizer
- edict
- Check all dependencies installed
pip install -r requirements.txt
for user in china, you can specify pypi source to accelerate install like:
pip install -r requirements.txt -i https://pypi.tuna.tsinghua.edu.cn/simple
- Clone this repository
git clone [email protected]:ZQPei/deep_sort_pytorch.git
- Download YOLOv3 parameters
cd detector/YOLOv3/weight/
wget https://pjreddie.com/media/files/yolov3.weights
wget https://pjreddie.com/media/files/yolov3-tiny.weights
cd ../../../
- Download deepsort parameters ckpt.t7
cd deep_sort/deep/checkpoint
# download ckpt.t7 from
https://drive.google.com/drive/folders/1xhG0kRH1EX5B9_Iz8gQJb7UNnn_riXi6 to this folder
cd ../../../
- Compile nms module
cd detector/YOLOv3/nms
sh build.sh
cd ../../..
Notice:
If compiling failed, the simplist way is to **Upgrade your pytorch >= 1.1 and torchvision >= 0.3" and you can avoid the troublesome compiling problems which are most likely caused by either gcc version too low
or libraries missing
.
- (Optional) Prepare third party submodules
This library supports bagtricks, AGW and other mainstream ReID methods through providing an fast-reid adapter.
to prepare our bundled fast-reid, then follow instructions in its README to install it.
Please refer to configs/fastreid.yaml
for a sample of using fast-reid. See Model Zoo for available methods and trained models.
This library supports Faster R-CNN and other mainstream detection methods through providing an MMDetection adapter.
to prepare our bundled MMDetection, then follow instructions in its README to install it.
Please refer to configs/mmdet.yaml
for a sample of using MMDetection. See Model Zoo for available methods and trained models.
Run
git submodule update --init --recursive
- Run demo
usage: deepsort.py [-h]
[--fastreid]
[--config_fastreid CONFIG_FASTREID]
[--mmdet]
[--config_mmdetection CONFIG_MMDETECTION]
[--config_detection CONFIG_DETECTION]
[--config_deepsort CONFIG_DEEPSORT] [--display]
[--frame_interval FRAME_INTERVAL]
[--display_width DISPLAY_WIDTH]
[--display_height DISPLAY_HEIGHT] [--save_path SAVE_PATH]
[--cpu] [--camera CAM]
VIDEO_PATH
# yolov3 + deepsort
python deepsort.py [VIDEO_PATH]
# yolov3_tiny + deepsort
python deepsort.py [VIDEO_PATH] --config_detection ./configs/yolov3_tiny.yaml
# yolov3 + deepsort on webcam
python3 deepsort.py /dev/video0 --camera 0
# yolov3_tiny + deepsort on webcam
python3 deepsort.py /dev/video0 --config_detection ./configs/yolov3_tiny.yaml --camera 0
# fast-reid + deepsort
python deepsort.py [VIDEO_PATH] --fastreid [--config_fastreid ./configs/fastreid.yaml]
# MMDetection + deepsort
python deepsort.py [VIDEO_PATH] --mmdet [--config_mmdetection ./configs/mmdet.yaml]
Use --display
to enable display.
Results will be saved to ./output/results.avi
and ./output/results.txt
.
All files above can also be accessed from BaiduDisk!
linker:BaiduDisk
passwd:fbuw
The original model used in paper is in original_model.py, and its parameter here original_ckpt.t7.
To train the model, first you need download Market1501 dataset or Mars dataset.
Then you can try train.py to train your own parameter and evaluate it using test.py and evaluate.py.
-
paper: Simple Online and Realtime Tracking with a Deep Association Metric
-
code: nwojke/deep_sort
-
paper: YOLOv3
-
code: Joseph Redmon/yolov3