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RCIL

[CVPR2022] Representation Compensation Networks for Continual Semantic Segmentation
Chang-Bin Zhang1, Jia-Wen Xiao1, Xialei Liu1, Ying-Cong Chen2, Ming-Ming Cheng1
1 College of Computer Science, Nankai University
2 The Hong Kong University of Science and Technology

Conference Paper

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News

  • Our work can be reproduced with high version pytorch after fixing the issue caused by InplaceABNSync. Please refer to our modification. ๐Ÿ˜ƒ๐Ÿ˜ƒ๐Ÿ˜ƒThanks to Zhengyuan and Jiawen.
  • Our another work [EWF] has been accepted to CVPR 2023.
  • Our method RCIL has been re-implemented in the framework ๐Ÿ”ฅ๐Ÿ”ฅ๐Ÿ”ฅ [CSSegmentation].

Method

ๆˆชๅฑ2022-04-09 ไธŠๅˆ1 02 44

Update

  • Support CIL on cityscapes dataset
  • init code for Classification
  • We have fixed bugs in the repository
  • Add training scripts for ADE20K
  • 09/04/2022 init code for segmentation
  • 09/04/2022 init readme

Benchmark and Setting

There are two commonly used settings, disjoint and overlapped. In the disjoint setting, assuming we know all classes in the future, the images in the current training step do not contain any classes in the future. The overlapped setting allows potential classes in the future to appear in the current training images. We call each training on the newly added dataset as a step. Formally, X-Y denotes the continual setting in our experiments, where X denotes the number of classes that we need to train in the first step. In each subsequent learning step, the newly added dataset contains Y classes.

There are some settings reported in our paper. You can also try it on other any custom settings.

  • Continual Class Segmentation:

    1. PASCAL VOC 2012 dataset:
      • 15-5 overlapped
      • 15-5 disjoint
      • 15-1 overlapped
      • 15-1 disjoint
      • 10-1 overlapped
      • 10-1 disjoint
    2. ADE20K dataset:
      • 100-50 overlapped
      • 100-10 overlapped
      • 50-50 overlapped
      • 100-5 overlapped
  • Continual Domain Segmentation:

    1. Cityscapes:
      • 11-5
      • 11-1
      • 1-1
  • Extension Experiments on Continual Classification

    1. ImageNet-100
      • 50-10

Performance

  • Continual Class Segmentation on PASCAL VOC 2012
Method Pub. 15-5 disjoint 15-5 overlapped 15-1 disjoint 15-1 overlapped 10-1 disjoint 10-1 overlapped 5-3 overlapped 5-3 disjoint
LWF TPAMI 2017 54.9 55.0 5.3 5.5 4.3 4.8
ILT ICCVW 2019 58.9 61.3 7.9 9.2 5.4 5.5
MiB CVPR 2020 65.9 70.0 39.9 32.2 6.9 20.1
SDR CVPR 2021 67.3 70.1 48.7 39.5 14.3 25.1
PLOP CVPR 2021 64.3 70.1 46.5 54.6 8.4 30.5
Ours CVPR 2022 67.3 72.4 54.7 59.4 18.2 34.3 42.88
  • Continual Class Segmentation on ADE20K
Method Pub. 100-50 overlapped 100-10 overlapped 50-50 overlapped 100-5 overlapped
ILT ICCVW 2019 17.0 1.1 9.7 0.5
MiB CVPR 2020 32.8 29.2 29.3 25.9
PLOP CVPR 2021 32.9 31.6 30.4 28.7
Ours CVPR 2022 34.5 32.1 32.5 29.6
  • Continual Domain Segmentation on Cityscapes
Method Pub. 11-5 11-1 1-1
LWF TPAMI 2017 59.7 57.3 33.0
LWF-MC CVPR 2017 58.7 57.0 31.4
ILT ICCVW 2019 59.1 57.8 30.1
MiB CVPR 2020 61.5 60.0 42.2
PLOP CVPR 2021 63.5 62.1 45.2
Ours CVPR 2022 64.3 63.0 48.9

Dataset Prepare

  • PASCVAL VOC 2012
    sh data/download_voc.sh
  • ADE20K
    sh data/download_ade.sh
  • Cityscapes
    sh data/download_cityscapes.sh

Environment

  1. conda install --yes --file requirements.txt (Higher version pytorch should be suitable.)
  2. Install inplace-abn

Training

  1. Dowload pretrained model from ResNet-101_iabn to pretrained/
  2. We have prepared some training scripts in scripts/. You can train the model by
sh scripts/voc/rcil_10-1-overlap.sh

Inference

You can simply modify the bash file by adding --test, like

CUDA_VISIBLE_DEVICES=${GPU} python3 -m torch.distributed.launch --master_port ${PORT} --nproc_per_node=${NB_GPU} run.py --data xxx ... --test

Reference

If this work is useful for you, please cite us by:

@inproceedings{zhang2022representation,
  title={Representation Compensation Networks for Continual Semantic Segmentation},
  author={Zhang, Chang-Bin and Xiao, Jia-Wen and Liu, Xialei and Chen, Ying-Cong and Cheng, Ming-Ming},
  booktitle={Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition},
  pages={7053--7064},
  year={2022}
}

Contact

If you have any questions about this work, please feel easy to contact us (zhangchbin ^ mail.nankai.edu.cn or zhangchbin ^ gmail.com).

Thanks

This code is heavily borrowed from [MiB] and [PLOP].

Awesome Continual Segmentation

There is a collection of AWESOME things about continual semantic segmentation, including papers, code, demos, etc. Feel free to pull request and star.

2022

  • Representation Compensation Networks for Continual Semantic Segmentation [CVPR 2022] [PyTorch]
  • Self-training for Class-incremental Semantic Segmentation [TNNLS 2022] [PyTorch]
  • Uncertainty-aware Contrastive Distillation for Incremental Semantic Segmentation [TPAMI 2022] [[PyTorch]]

2021

  • PLOP: Learning without Forgetting for Continual Semantic Segmentation [CVPR 2021] [PyTorch]
  • Continual Semantic Segmentation via Repulsion-Attraction of Sparse and Disentangled Latent Representations [CVPR2021] [PyTorch]
  • An EM Framework for Online Incremental Learning of Semantic Segmentation [ACM MM 2021] [PyTorch]
  • SSUL: Semantic Segmentation with Unknown Label for Exemplar-based Class-Incremental Learning [NeurIPS 2021] [PyTorch]

2020

2019