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[CVPR 2022] Official Pytorch code for OW-DETR: Open-world Detection Transformer

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OW-DETR: Open-world Detection Transformer (CVPR 2022)

Paper Video slides summary slide

(:star2: denotes equal contribution)

Introduction

Open-world object detection (OWOD) is a challenging computer vision problem, where the task is to detect a known set of object categories while simultaneously identifying unknown objects. Additionally, the model must incrementally learn new classes that become known in the next training episodes. Distinct from standard object detection, the OWOD setting poses significant challenges for generating quality candidate proposals on potentially unknown objects, separating the unknown objects from the background and detecting diverse unknown objects. Here, we introduce a novel end-to-end transformer-based framework, OW-DETR, for open-world object detection. The proposed OW-DETR comprises three dedicated components namely, attention-driven pseudo-labeling, novelty classification and objectness scoring to explicitly address the aforementioned OWOD challenges. Our OW-DETR explicitly encodes multi-scale contextual information, possesses less inductive bias, enables knowledge transfer from known classes to the unknown class and can better discriminate between unknown objects and background. Comprehensive experiments are performed on two benchmarks: MS-COCO and PASCAL VOC. The extensive ablations reveal the merits of our proposed contributions. Further, our model outperforms the recently introduced OWOD approach, ORE, with absolute gains ranging from $1.8%$ to $3.3%$ in terms of unknown recall on MS-COCO. In the case of incremental object detection, OW-DETR outperforms the state-of-the-art for all settings on PASCAL VOC.


Installation

Requirements

We have trained and tested our models on Ubuntu 16.0, CUDA 10.2, GCC 5.4, Python 3.7

conda create -n owdetr python=3.7 pip
conda activate owdetr
conda install pytorch==1.8.0 torchvision==0.9.0 torchaudio==0.8.0 cudatoolkit=10.2 -c pytorch
pip install -r requirements.txt

Backbone features

Download the self-supervised backbone from here and add in models folder.

Compiling CUDA operators

cd ./models/ops
sh ./make.sh
# unit test (should see all checking is True)
python test.py

Dataset & Results

OWOD proposed splits



The splits are present inside data/VOC2007/OWOD/ImageSets/ folder. The remaining dataset can be downloaded using this link

The files should be organized in the following structure:

OW-DETR/
└── data/
    └── VOC2007/
        └── OWOD/
        	├── JPEGImages
        	├── ImageSets
        	└── Annotations

Results

Task1 Task2 Task3 Task4
Method U-Recall mAP U-Recall mAP U-Recall mAP mAP
ORE-EBUI 4.9 56.0 2.9 39.4 3.9 29.7 25.3
OW-DETR 7.5 59.2 6.2 42.9 5.7 30.8 27.8

Our proposed splits



Dataset Preparation

The splits are present inside data/VOC2007/OWDETR/ImageSets/ folder.

  1. Make empty JPEGImages and Annotations directory.
mkdir data/VOC2007/OWDETR/JPEGImages/
mkdir data/VOC2007/OWDETR/Annotations/
  1. Download the COCO Images and Annotations from coco dataset.
  2. Unzip train2017 and val2017 folder. The current directory structure should look like:
OW-DETR/
└── data/
    └── coco/
        ├── annotations/
        ├── train2017/
        └── val2017/
  1. Move all images from train2017/ and val2017/ to JPEGImages folder.
cd OW-DETR/data
mv data/coco/train2017/*.jpg data/VOC2007/OWDETR/JPEGImages/.
mv data/coco/val2017/*.jpg data/VOC2007/OWDETR/JPEGImages/.
  1. Use the code coco2voc.py for converting json annotations to xml files.

The files should be organized in the following structure:

OW-DETR/
└── data/
    └── VOC2007/
        └── OWDETR/
        	├── JPEGImages
        	├── ImageSets
        	└── Annotations

Currently, Dataloader and Evaluator followed for OW-DETR is in VOC format.

Results

Task1 Task2 Task3 Task4
Method U-Recall mAP U-Recall mAP U-Recall mAP mAP
ORE-EBUI 1.5 61.4 3.9 40.6 3.6 33.7 31.8
OW-DETR 5.7 71.5 6.2 43.8 6.9 38.5 33.1

Training

Training on single node

To train OW-DETR on a single node with 8 GPUS, run

./run.sh

Training on slurm cluster

To train OW-DETR on a slurm cluster having 2 nodes with 8 GPUS each, run

sbatch run_slurm.sh

Evaluation

For reproducing any of the above mentioned results please run the run_eval.sh file and add pretrained weights accordingly.

Note: For more training and evaluation details please check the Deformable DETR reposistory.

License

This repository is released under the Apache 2.0 license as found in the LICENSE file.

Citation

If you use OW-DETR, please consider citing:

@inproceedings{gupta2021ow,
    title={OW-DETR: Open-world Detection Transformer}, 
    author={Gupta, Akshita and Narayan, Sanath and Joseph, KJ and 
    Khan, Salman and Khan, Fahad Shahbaz and Shah, Mubarak},
    booktitle={CVPR},
    year={2022}
}

Contact

Should you have any question, please contact 📧 akshita.sem.iitr@gmail.com

Acknowledgments:

OW-DETR builds on previous works code base such as Deformable DETR, Detreg, and OWOD. If you found OW-DETR useful please consider citing these works as well.

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[CVPR 2022] Official Pytorch code for OW-DETR: Open-world Detection Transformer

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