This is the official code of High-Resolution Representations for Object Detection. We extend the high-resolution representation (HRNet) [1] by augmenting the high-resolution representation by aggregating the (upsampled) representations from all the parallel convolutions, leading to stronger representations. We build a multi-level representation from the high resolution and apply it to the Faster R-CNN, Mask R-CNN and Cascade R-CNN framework. This proposed approach achieves superior results to existing single-model networks on COCO object detection. The code is based on mmdetection
HRNetV2 ImageNet pretrained models are now available! Codes and pretrained models are in HRNets for Image Classification
All models are trained on COCO train2017 set and evaluated on COCO val2017 set. Detailed settings or configurations are in configs/hrnet.
Note: Models are trained with the newly released code and the results have minor differences with that in the paper. Current results will be updated soon and more models and results are comming.
| Backbone | #Params | GFLOPs | lr sched | mAP | pretrained model | detection model |
|---|---|---|---|---|---|---|
| HRNetV2-W18 | 26.2M | 159.1 | 1x | 36.1 | HRNetV2-W18 | FasterR-CNN-HR18-1x.pth |
| HRNetV2-W18 | 26.2M | 159.1 | 2x | 38.1 | HRNetV2-W18 | FasterR-CNN-HR18-2x.pth |
| HRNetV2-W32 | 45.0M | 245.3 | 1x | 39.5 | HRNetV2-W32 | FasterR-CNN-HR32-1x.pth |
| HRNetV2-W32 | 45.0M | 245.3 | 2x | 40.8 | HRNetV2-W32 | FasterR-CNN-HR32-2x.pth |
| HRNetV2-W40 | 60.5M | 314.9 | 1x | 40.4 | HRNetV2-W40 | FasterR-CNN-HR40-1x.pth |
| HRNetV2-W40 | 60.5M | 314.9 | 2x | 41.4 | HRNetV2-W40 | FasterR-CNN-HR40-2x.pth |
Note: we follow the original paper[2] and adopt 280k training iterations which is equal to 20 epochs in mmdetection.
| Backbone | lr sched | mAP | pretrained model | detection model |
|---|---|---|---|---|
| ResNet-101 | 20e | 42.8 | ResNet-101 | CascadeR-CNN-R101-20e.pth |
| HRNetV2-W32 | 20e | 43.7 | HRNetV2-W32 | CascadeR-CNN-HR32-20e.pth |
This code is developed using on Python 3.6 and PyTorch 1.0.0 on Ubuntu 16.04 with NVIDIA GPUs. Training and testing are performed using 4 NVIDIA P100 GPUs with CUDA 9.0 and cuDNN 7.0. Other platforms or GPUs are not fully tested.
- Install PyTorch 1.0 following the official instructions
- Install
mmcv
pip install mmcv- Install
pycocotools
git clone https://github.com/cocodataset/cocoapi.git \
&& cd cocoapi/PythonAPI \
&& python setup.py build_ext install \
&& cd ../../- Install
mmdetection-hrnet
git clone https://github.com/HRNet/HRNet-Object-Detection.git
cd mmdetection-hrnet
# compile CUDA extensions.
chmod +x compile.sh
./compile.sh
# run setup
python setup.py install
# or install locally
python setup.py install --userFor more details, see INSTALL.md
cd mmdetection-hrnet
# Download pretrained models into this folder
mkdir hrnetv2_pretrainedPlease download the COCO dataset from cocodataset. If you use zip format, please specify CocoZipDataset in config files or CocoDataset if you unzip the downloaded dataset.
Please specify the configuration file in configs (learning rate should be adjusted when the number of GPUs is changed).
python -m torch.distributed.launch --nproc_per_node <GPUS NUM> tools/train.py <CONFIG-FILE> --launcher pytorch
# example:
python -m torch.distributed.launch --nproc_per_node 4 tools/train.py configs/hrnet/faster_rcnn_hrnetv2p_w18_1x.py --launcher pytorchpython tools/test.py <CONFIG-FILE> <MODEL WEIGHT> --gpus <GPUS NUM> --eval bbox --out result.pkl
# example:
python tools/test.py configs/hrnet/faster_rcnn_hrnetv2p_w18_1x.py work_dirs/faster_rcnn_hrnetv2p_w18_1x/model_final.pth --gpus 4 --eval bbox --out result.pklNOTE: If you meet some problems, you may find a solution in issues of official mmdetection repo or submit a new issue in our repo.
- Human pose estimation
- Semantic segmentation (coming soon)
- Facial landmark detection (coming soon)
- Image classification
If you find this work or code is helpful in your research, please cite:
@inproceedings{SunXLW19,
title={Deep High-Resolution Representation Learning for Human Pose Estimation},
author={Ke Sun and Bin Xiao and Dong Liu and Jingdong Wang},
booktitle={CVPR},
year={2019}
}
@article{SunZJCXLMWLW19,
title={High-Resolution Representations for Labeling Pixels and Regions},
author={Ke Sun and Yang Zhao and Borui Jiang and Tianheng Cheng and Bin Xiao
and Dong Liu and Yadong Mu and Xinggang Wang and Wenyu Liu and Jingdong Wang},
journal = {CoRR},
volume = {abs/1904.04514},
year={2019}
}
[1] Deep High-Resolution Representation Learning for Human Pose Estimation. Ke Sun, Bin Xiao, Dong Liu, and Jingdong Wang. CVPR 2019. download
[2] Cascade R-CNN: Delving into High Quality Object Detection. Zhaowei Cai, and Nuno Vasconcetos. CVPR 2018.
Thanks @open-mmlab for providing the easily-used code and kind help!