zijundeng / semseg

Semantic Segmentation in Pytorch

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PyTorch Semantic Segmentation

Introduction

This repository is a PyTorch implementation for semantic segmentation / scene parsing. The code is easy to use for training and testing on various datasets. The codebase mainly uses ResNet50/101/152 as backbone and can be easily adapted to other basic classification structures. Implemented networks including PSPNet and PSANet, which ranked 1st places in ImageNet Scene Parsing Challenge 2016 @ECCV16, LSUN Semantic Segmentation Challenge 2017 @CVPR17 and WAD Drivable Area Segmentation Challenge 2018 @CVPR18. Sample experimented datasets are ADE20K, PASCAL VOC 2012 and Cityscapes.

Usage

  1. Highlight:

    • Both multithreading training (nn.DataParallel) and multiprocessing training (nn.parallel.DistributedDataParallel) (recommended) are supported. And the later one is much faster.
    • Better reimplementation results with well designed code structures.
    • All initialization models, trained models and predictions are available.
  2. Requirement:

    • Hardware: 4-8 GPUs (better with >=11G GPU memory)
    • Software: PyTorch>=1.0.0, Python3, tensorboardX, apex
  3. Clone the repository:

    git clone https://github.com/hszhao/semseg.git
  4. Train:

    • Download related datasets and modify the relevant paths specified in folder config, and download ImageNet pre-trained models and put them under folder initmodel for weight initialization. Remember to use the right dataset format detailed in FAQ.md.

    • Specify the gpu used in config then do training:

      sh tool/train.sh ade20k pspnet50
  5. Test:

    • Download trained segmentation models and put them under folder specified in config or modify the specified paths.

    • For full testing (get listed performance):

      sh tool/test.sh ade20k pspnet50
    • Quick demo on one image:

      PYTHONPATH=./ python tool/demo.py --config=config/ade20k/ade20k_pspnet50.yaml --image=figure/demo/ADE_val_00001515.jpg TEST.scales '[1.0]'
  6. Visualization: tensorboardX incorporated for better visualization.

    tensorboard --logdir=run1:$EXP1,run2:$EXP2 --port=6789
  7. Other:

    • Resources: GoogleDrive LINK contains shared models, visual predictions and data lists.
    • Models: ImageNet pre-trained models and trained segmentation models can be accessed. Note that our ImageNet pretrained models are slightly different from original ResNet implementation in the beginning part.
    • Predictions: Visual predictions of several models can be accessed.
    • Datasets: attributes (names and colors) are in folder dataset and some sample lists can be accessed.
    • Some FAQs: FAQ.md.
    • Former video predictions: high accuracy -- PSPNet, PSANet; high efficiency -- ICNet.

Performance

Description: mIoU/mAcc/aAcc stands for mean IoU, mean accuracy of each class and all pixel accuracy respectively. ss denotes single scale testing and ms indicates multi-scale testing. Training time is measured on a sever with 8 GeForce RTX 2080 Ti. General parameters cross different datasets are listed below:

  • Train Parameters: sync_bn(True), scale_min(0.5), scale_max(2.0), rotate_min(-10), rotate_max(10), zoom_factor(8), ignore_label(255), aux_weight(0.4), batch_size(16), base_lr(1e-2), power(0.9), momentum(0.9), weight_decay(1e-4).
  • Test Parameters: ignore_label(255), scales(single: [1.0], multiple: [0.5 0.75 1.0 1.25 1.5 1.75]).
  1. ADE20K: Train Parameters: classes(150), train_h(473/465-PSP/A), train_w(473/465-PSP/A), epochs(100). Test Parameters: classes(150), test_h(473/465-PSP/A), test_w(473/465-PSP/A), base_size(512).

    • Setting: train on train (20210 images) set and test on val (2000 images) set.
    Network mIoU/mAcc/aAcc(ss) mIoU/mAcc/pAcc(ms) Training Time
    PSPNet50 0.4189/0.5227/0.8039. 0.4284/0.5266/0.8106. 14h
    PSANet50 0.4229/0.5307/0.8032. 0.4305/0.5312/0.8101. 14h
    PSPNet101 0.4310/0.5375/0.8107. 0.4415/0.5426/0.8172. 20h
    PSANet101 0.4337/0.5385/0.8102. 0.4414/0.5392/0.8170. 20h
  2. PSACAL VOC 2012: Train Parameters: classes(21), train_h(473/465-PSP/A), train_w(473/465-PSP/A), epochs(50). Test Parameters: classes(21), test_h(473/465-PSP/A), test_w(473/465-PSP/A), base_size(512).

    • Setting: train on train_aug (10582 images) set and test on val (1449 images) set.
    Network mIoU/mAcc/aAcc(ss) mIoU/mAcc/pAcc(ms) Training Time
    PSPNet50 0.7705/0.8513/0.9489. 0.7802/0.8580/0.9513. 3.3h
    PSANet50 0.7725/0.8569/0.9491. 0.7787/0.8606/0.9508. 3.3h
    PSPNet101 0.7907/0.8636/0.9534. 0.7963/0.8677/0.9550. 5h
    PSANet101 0.7870/0.8642/0.9528. 0.7966/0.8696/0.9549. 5h
  3. Cityscapes: Train Parameters: classes(19), train_h(713/709-PSP/A), train_w(713/709-PSP/A), epochs(200). Test Parameters: classes(19), test_h(713/709-PSP/A), test_w(713/709-PSP/A), base_size(2048).

    • Setting: train on fine_train (2975 images) set and test on fine_val (500 images) set.
    Network mIoU/mAcc/aAcc(ss) mIoU/mAcc/pAcc(ms) Training Time
    PSPNet50 0.7730/0.8431/0.9597. 0.7838/0.8486/0.9617. 7h
    PSANet50 0.7745/0.8461/0.9600. 0.7818/0.8487/0.9622. 7.5h
    PSPNet101 0.7863/0.8577/0.9614. 0.7929/0.8591/0.9638. 10h
    PSANet101 0.7842/0.8599/0.9621. 0.7940/0.8631/0.9644. 10.5h

Citation

If you find the code or trained models useful, please consider citing:

@misc{semseg2019,
  author={Zhao, Hengshuang},
  title={semseg},
  howpublished={\url{https://github.com/hszhao/semseg}},
  year={2019}
}
@inproceedings{zhao2017pspnet,
  title={Pyramid Scene Parsing Network},
  author={Zhao, Hengshuang and Shi, Jianping and Qi, Xiaojuan and Wang, Xiaogang and Jia, Jiaya},
  booktitle={CVPR},
  year={2017}
}
@inproceedings{zhao2018psanet,
  title={{PSANet}: Point-wise Spatial Attention Network for Scene Parsing},
  author={Zhao, Hengshuang and Zhang, Yi and Liu, Shu and Shi, Jianping and Loy, Chen Change and Lin, Dahua and Jia, Jiaya},
  booktitle={ECCV},
  year={2018}
}

Question

Some FAQ.md collected. You are welcome to send pull requests or give some advices. Contact information: hengshuangzhao at gmail.com.

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Semantic Segmentation in Pytorch

License:MIT License


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