Code for our CVPR 2020 paper "PPDM: Parallel Point Detection and Matching for Real-time Human-Object Interaction Detection".
Contributed by Yue Liao, Si Liu, Fei Wang, Yanjie Chen, Chen Qian, Jiashi Feng.
- Pytorch>1.0 version with DDP and apex has benn released on pt1 branch. (2021-02-12)
- Training code and test code on HICO-Det dataset. (2020-03-11)
- Training code and test code on HOI-A dataset. (2020-03-11)
- HOI-A-2019 dataset.
- Image demo.
- Video demo.
- PPDM for video HOI detection.
- PPDM for human-centric relationship segmentation.
The code was tested on Ubuntu 16.04, with Python 3.6 and PyTorch v0.4.1.
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Clone this repository.
git clone https://github.com/YueLiao/PPDM.git $PPDM_ROOT -
Install pytorch0.4.1.
conda install pytorch=0.4.1 cudatoolkit=9.0 torchvision -c pytorch -
Install the requirements.
pip install -r requirements.txt -
Compile deformable convolutional (from DCNv2).
cd $PPDM_ROOT/src/lib/models/networks/DCNv2 ./make.sh
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Image Demo
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Video Demo
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Download HICO-Det datasets. Organize them in
Datasetfolder as follows:|-- Dataset/ | |-- <dataset name>/ | |-- images | |-- annotations -
Download the pre-processed annotations for HICO-Det from the [websit] and replace the original annotations in
Datasetfolder. The pre-processed annotations including|-- anotations/ | |-- trainval_hico.json | |-- test_hico.json | |-- corre_hico.npyThe
trainval_hico.jsonandtest_hico.jsonare the "HOI-A format" annotations generated from iCAN annotation.corre_hico.npyis a binary mask, if theith category of objectand thejth category of verbcan form an HOI label, the value at location (i, j) ofcorre_hico.npyis set to 1, else 0.
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Download the corresponding pre-trained models trained on COCO object detection dataset provided by CenterNet. (Res18, DLA34, Hourglass104). Put them into the
modelsfolder. -
The scripts for training in
experimentsfolder. An example traning on HICO-DET dataset as follow:cd src python main.py Hoidet --batch_size 112 --master_batch 7 --lr 4.5e-4 --gpus 0,1,2,3,4,5,6,7 --num_workers 16 --load_model ../models/ctdet_coco_dla_2x.pth --image_dir images/train2015 --dataset hico --exp_id hoidet_hico_dla
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Evalution by our rewritten script and select the best checkpoint. The scripts for evalution are put into
experimentsfolder. An example evalution on HICO-DET dataset as follow:cd src python test_hoi.py Hoidet --exp_id hoidet_hico_dla --gpus 0 --dataset hico --image_dir images/test2015 --test_with_evalor directly generating the predictions and evalutating for a certern checkpoint:
cd src python test_hoi.py Hoidet --exp_id hoidet_hico_dla --load_model ../exp/Hoidet/hoidet_hico_dla/model_140.pth --gpus 0 --dataset hico --image_dir images/test2015 --test_with_eval -
For HICO-DET official evalution.
The mAPs evaluated by our provided scripts are a bit lower (about 0.5% mAP) than the official evaluation script.
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Setup HICO-DET evaluation code:
cd src/lib/eval sh set_hico_evalution.sh -
Evaluate your prediction:
cd src/lib/eval python trans_for_eval_hico.py best_predictions.json cd ho-rcnn matlab -r "Generate_detection.m; quite"
We donot carefully tune the training hyper-parameters just following the setting in Centernet, e.g., lr, loss_weight, max_epoch, which may not be the best choice for our PPDM. It causes that the last checkpoint may not be the best one. We report two results and provide the corresponding two models for each setting, i.e. last checkpoint (the former, reported in paper) and best checkpoint.
Our Results on HICO-DET dataset
| Model | Full (def) | Rare (def) | None-Rare (def) | Full (ko) | Rare (ko) | None-Rare (ko) | FPS | Download |
|---|---|---|---|---|---|---|---|---|
| res18 | 14.90 | 7.61 | 17.08 | 17.31 | 9.79 | 19.55 | 89 | model |
| dla34 | 19.94/20.06 | 13.01/13.32 | 22.01/22.08 | 22.63/22.73 | 15.93/16.29 | 24.63/24.65 | 38 | model |
| dla34_3level | 20.00/20.15 | 12.56/13.48 | 22.22/22.15 | 22.65/22.91 | 15.02/16.18 | 24.93/24.91 | 37 | model |
| dla34_glob | 19.85/19.85 | 12.99/12.99 | 21.90/21.90 | 22.49/22.49 | 15.86/15.86 | 24.47/24.47 | 38 | model |
| dla34_glob_3level | 20.29/20.41 | 13.06/13.34 | 22.45/22.52 | 23.09/23.16 | 16.14/16.24 | 25.17/25.23 | 37 | model |
| hourglass104 | 21.73/21.94 | 13.78/13.97 | 24.10/24.32 | 24.58/24.81 | 16.65/17.09 | 26.84/27.12 | 14 | model |
Our Results on HOI-A dataset
Coming soon.
Please consider citing this project in your publications if it helps your research. The following is a BibTeX reference. The BibTeX entry requires the url LaTeX package.
@inproceedings{liao2020ppdm,
title={Ppdm: Parallel point detection and matching for real-time human-object interaction detection},
author={Liao, Yue and Liu, Si and Wang, Fei and Chen, Yanjie and Qian, Chen and Feng, Jiashi},
booktitle={Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition},
pages={482--490},
year={2020}
}
PPDM is released under the MIT license. See LICENSE for additional details.
Some of the codes are built upon Objects as Points and iCAN. Thanks them for their great works!