This repo is the official implementation for CVPR 2021 paper: Adaptive Class Suppression Loss for Long-Tail Object Detection. [Paper]
The requirements are exactly the same as BalancedGroupSoftmax. We tested on the following settings:
- python 3.7
- cuda 10.0
- pytorch 1.2.0
- torchvision 0.4.0
- mmcv 0.2.14
conda create -n mmdet python=3.7 -y
conda activate mmdet
pip install cython
pip install numpy
pip install torch
pip install torchvision
pip install pycocotools
pip install matplotlib
pip install terminaltables
# download the source code of mmcv 0.2.14 from https://github.com/open-mmlab/mmcv/tree/v0.2.14
cd mmcv-0.2.14
pip install -v -e .
cd ../
git clone https://github.com/CASIA-IVA-Lab/ACSL.git
cd ACSL/lvis-api/
python setup.py develop
cd ../
python setup.py develop
# Make sure you are in dir ACSL
mkdir data
cd data
mkdir lvis
mkdir pretrained_models
mkdir download_models
- If you already have COCO2017 dataset, it will be great. Link
train2017andval2017folders under folderlvis. - If you do not have COCO2017 dataset, please download:
COCO train set and
COCO val set
and unzip these files and mv them under folder
lvis.
- Download lvis annotations: lvis_train_ann and lvis_val_ann.
- Unzip all the files and put them under
lvis,
Download the corresponding pre-trained models below.
-
To train baseline models, we need models trained on COCO to initialize. Please download the corresponding COCO models at mmdetection model zoo.
-
Move these model files to
./data/pretrained_models/
Download the trained baseline models and ACSL models from BaiduYun, code is 2jp3
-
To train ACSL models, we need corresponding baseline models trained on LVIS to initialize and fix all parameters except for the last FC layer.
-
Move these model files to
./data/download_models/
After all these operations, the folder data should be like this:
data
├── lvis
│ ├── lvis_v0.5_train.json
│ ├── lvis_v0.5_val.json
│ ├── train2017
│ │ ├── 000000100582.jpg
│ │ ├── 000000102411.jpg
│ │ ├── ......
│ └── val2017
│ ├── 000000062808.jpg
│ ├── 000000119038.jpg
│ ├── ......
└── pretrained_models
│ ├── faster_rcnn_r50_fpn_2x_20181010-443129e1.pth
│ ├── ......
└── download_models
├── R50-baseline.pth
├── ......
Note: Please make sure that you have prepared the pretrained_models and the download_models and they have been put to the path specified in
${CONIFG_FILE}.
Use the following commands to train a model.
# Single GPU
python tools/train.py ${CONFIG_FILE}
# Multi GPU distributed training
./tools/dist_train.sh ${CONFIG_FILE} ${GPU_NUM} [optional arguments]
All config files are under ./configs/.
./configs/baselines: all baseline models../configs/acsl: models for ACSL models.
For example, to train a ACSL model with Faster R-CNN R50-FPN:
# Single GPU
python tools/train.py configs/acsl/faster_rcnn_r50_fpn_1x_lvis_tunefc_acsl.py
# Multi GPU distributed training (for 8 gpus)
./tools/dist_train.sh configs/acsl/faster_rcnn_r50_fpn_1x_lvis_tunefc_acsl.py 8
Important: The default learning rate in config files is for 8 GPUs and 2 img/gpu (batch size = 8*2 = 16). According to the Linear Scaling Rule, you need to set the learning rate proportional to the batch size if you use different GPUs or images per GPU, e.g., lr=0.01 for 4 GPUs * 2 img/gpu and lr=0.08 for 16 GPUs * 4 img/gpu. (Cited from mmdetection.)
Use the following commands to test a trained model.
# single gpu test
python tools/test_lvis.py \
${CONFIG_FILE} ${CHECKPOINT_FILE} [--out ${RESULT_FILE}] [--eval ${EVAL_METRICS}]
# multi-gpu testing
./tools/dist_test_lvis.sh \
${CONFIG_FILE} ${CHECKPOINT_FILE} ${GPU_NUM} [--out ${RESULT_FILE}] [--eval ${EVAL_METRICS}]
$RESULT_FILE: Filename of the output results in pickle format. If not specified, the results will not be saved to a file.$EVAL_METRICS: Items to be evaluated on the results.bboxfor bounding box evaluation only.bbox segmfor bounding box and mask evaluation.
For example (assume that you have finished the training of ACSL models.):
- To evaluate the trained ACSL model with Faster R-CNN R50-FPN for object detection:
# single-gpu testing
python tools/test_lvis.py configs/acsl/faster_rcnn_r50_fpn_1x_lvis_tunefc_acsl.py \
./work_dirs/acsl/faster_rcnn_r50_fpn_1x_lvis_tunefc_acsl/epoch_12.pth \
--out acsl_val_result.pkl --eval bbox
# multi-gpu testing (8 gpus)
./tools/dist_test_lvis.sh configs/acsl/faster_rcnn_r50_fpn_1x_lvis_tunefc_acsl.py \
./work_dirs/acsl/faster_rcnn_r50_fpn_1x_lvis_tunefc_acsl/epoch_12.pth 8 \
--out acsl_val_result.pkl --eval bbox
Please refer to our paper for more details.
| Method | Models | bbox mAP | Config file | Pretrained Model | Model |
|---|---|---|---|---|---|
| baseline | R50-FPN | 21.18 | file | COCO-R50 | R50-baseline |
| ACSL | R50-FPN | 26.36 | file | R50-baseline | R50-acsl |
| baseline | R101-FPN | 22.36 | file | COCO-R101 | R101-baseline |
| ACSL | R101-FPN | 27.49 | file | R101-baseline | R101-acsl |
| baseline | X101-FPN | 24.70 | file | COCO-X101 | X101-baseline |
| ACSL | X101-FPN | 28.93 | file | X101-baseline | X101-acsl |
| baseline | Cascade-R101 | 25.14 | file | COCO-Cas-R101 | Cas-R101-baseline |
| ACSL | Cascade-R101 | 29.71 | file | Cas-R101-baseline | Cas-R101-acsl |
| baseline | Cascade-X101 | 27.14 | file | COCO-Cas-X101 | Cas-X101-baseline |
| ACSL | Cascade-X101 | 31.47 | file | Cas-X101-baseline | Cas-X101-acsl |
Important: The code of BaiduYun is 2jp3
@inproceedings{wang2021adaptive,
title={Adaptive Class Suppression Loss for Long-Tail Object Detection},
author={Wang, Tong and Zhu, Yousong and Zhao, Chaoyang and Zeng, Wei and Wang, Jinqiao and Tang, Ming},
journal={CVPR},
year={2021}
}
This code is largely based on BalancedGroupSoftmax and mmdetection v1.0.rc0 and LVIS API.