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Semantic Segmentation

Easy to use and customizable SOTA Semantic Segmentation models with abundant datasets in PyTorch

Open In Colab

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Features

  • Applicable to following tasks:
    • Scene Parsing
    • Human Parsing
    • Face Parsing
    • Medical Image Segmentation (Coming Soon)
  • 20+ Datasets
  • 10+ SOTA Backbones
  • 10+ SOTA Semantic Segmentation Models
  • PyTorch, ONNX, TFLite, OpenVINO Export & Inference

Model Zoo

Supported Backbones:

Supported Heads/Methods:

Supported Standalone Models:

Supported Modules:

  • PPM (CVPR 2017)
  • PSA (ArXiv 2021)

Refer to MODELS for benchmarks and available pre-trained models.

And check BACKBONES for supported backbones.

Notes: Most of the methods do not have pre-trained models. It's very difficult to combine different models with pre-trained weights in one repository and limited resource to re-train myself.

Supported Datasets

Scene Parsing:

Human Parsing:

Face Parsing:

Others:

Refer to DATASETS for more details and dataset preparation.

Available Augmentations (click to expand)

Check the notebook here to test the augmentation effects.

Pixel-level Transforms:

  • ColorJitter (Brightness, Contrast, Saturation, Hue)
  • Gamma, Sharpness, AutoContrast, Equalize, Posterize
  • GaussianBlur, Grayscale

Spatial-level Transforms:

  • Affine, RandomRotation
  • HorizontalFlip, VerticalFlip
  • CenterCrop, RandomCrop
  • Pad, ResizePad, Resize
  • RandomResizedCrop

Usage

Installation
  • python >= 3.6
  • torch >= 1.8.1
  • torchvision >= 0.9.1

Then, clone the repo and install the project with:

$ git clone https://github.com/sithu31296/semantic-segmentation
$ cd semantic-segmentation
$ pip install -e .

Configuration (click to expand)

Create a configuration file in configs. Sample configuration for ADE20K dataset can be found here. Then edit the fields you think if it is needed. This configuration file is needed for all of training, evaluation and prediction scripts.


Training (click to expand)

To train with a single GPU:

$ python tools/train.py --cfg configs/CONFIG_FILE.yaml

To train with multiple gpus, set DDP field in config file to true and run as follows:

$ python -m torch.distributed.launch --nproc_per_node=2 --use_env tools/train.py --cfg configs/<CONFIG_FILE_NAME>.yaml

Evaluation (click to expand)

Make sure to set MODEL_PATH of the configuration file to your trained model directory.

$ python tools/val.py --cfg configs/<CONFIG_FILE_NAME>.yaml

To evaluate with multi-scale and flip, change ENABLE field in MSF to true and run the same command as above.


Inference

To make an inference, edit the parameters of the config file from below.

  • Change MODEL >> NAME and BACKBONE to your desired pretrained model.
  • Change DATASET >> NAME to the dataset name depending on the pretrained model.
  • Set TEST >> MODEL_PATH to pretrained weights of the testing model.
  • Change TEST >> FILE to the file or image folder path you want to test.
  • Testing results will be saved in SAVE_DIR.
## example using ade20k pretrained models
$ python tools/infer.py --cfg configs/ade20k.yaml

Example test results:

test_result


Convert to other Frameworks (ONNX, CoreML, OpenVINO, TFLite)

To convert to ONNX and CoreML, run:

$ python tools/export.py --cfg configs/<CONFIG_FILE_NAME>.yaml

To convert to OpenVINO and TFLite, see torch_optimize.


Inference (ONNX, OpenVINO, TFLite)
## ONNX Inference
$ python scripts/onnx_infer.py --model <ONNX_MODEL_PATH> --img-path <TEST_IMAGE_PATH>

## OpenVINO Inference
$ python scripts/openvino_infer.py --model <OpenVINO_MODEL_PATH> --img-path <TEST_IMAGE_PATH>

## TFLite Inference
$ python scripts/tflite_infer.py --model <TFLite_MODEL_PATH> --img-path <TEST_IMAGE_PATH>

References (click to expand)

Citations (click to expand)
@article{xie2021segformer,
  title={SegFormer: Simple and Efficient Design for Semantic Segmentation with Transformers},
  author={Xie, Enze and Wang, Wenhai and Yu, Zhiding and Anandkumar, Anima and Alvarez, Jose M and Luo, Ping},
  journal={arXiv preprint arXiv:2105.15203},
  year={2021}
}

@misc{xiao2018unified,
  title={Unified Perceptual Parsing for Scene Understanding}, 
  author={Tete Xiao and Yingcheng Liu and Bolei Zhou and Yuning Jiang and Jian Sun},
  year={2018},
  eprint={1807.10221},
  archivePrefix={arXiv},
  primaryClass={cs.CV}
}

@article{hong2021deep,
  title={Deep Dual-resolution Networks for Real-time and Accurate Semantic Segmentation of Road Scenes},
  author={Hong, Yuanduo and Pan, Huihui and Sun, Weichao and Jia, Yisong},
  journal={arXiv preprint arXiv:2101.06085},
  year={2021}
}

@misc{zhang2021rest,
  title={ResT: An Efficient Transformer for Visual Recognition}, 
  author={Qinglong Zhang and Yubin Yang},
  year={2021},
  eprint={2105.13677},
  archivePrefix={arXiv},
  primaryClass={cs.CV}
}

@misc{huang2021fapn,
  title={FaPN: Feature-aligned Pyramid Network for Dense Image Prediction}, 
  author={Shihua Huang and Zhichao Lu and Ran Cheng and Cheng He},
  year={2021},
  eprint={2108.07058},
  archivePrefix={arXiv},
  primaryClass={cs.CV}
}

@misc{wang2021pvtv2,
  title={PVTv2: Improved Baselines with Pyramid Vision Transformer}, 
  author={Wenhai Wang and Enze Xie and Xiang Li and Deng-Ping Fan and Kaitao Song and Ding Liang and Tong Lu and Ping Luo and Ling Shao},
  year={2021},
  eprint={2106.13797},
  archivePrefix={arXiv},
  primaryClass={cs.CV}
}

@article{Liu2021PSA,
  title={Polarized Self-Attention: Towards High-quality Pixel-wise Regression},
  author={Huajun Liu and Fuqiang Liu and Xinyi Fan and Dong Huang},
  journal={Arxiv Pre-Print arXiv:2107.00782 },
  year={2021}
}

@misc{chao2019hardnet,
  title={HarDNet: A Low Memory Traffic Network}, 
  author={Ping Chao and Chao-Yang Kao and Yu-Shan Ruan and Chien-Hsiang Huang and Youn-Long Lin},
  year={2019},
  eprint={1909.00948},
  archivePrefix={arXiv},
  primaryClass={cs.CV}
}

@inproceedings{sfnet,
  title={Semantic Flow for Fast and Accurate Scene Parsing},
  author={Li, Xiangtai and You, Ansheng and Zhu, Zhen and Zhao, Houlong and Yang, Maoke and Yang, Kuiyuan and Tong, Yunhai},
  booktitle={ECCV},
  year={2020}
}

@article{Li2020SRNet,
  title={Towards Efficient Scene Understanding via Squeeze Reasoning},
  author={Xiangtai Li and Xia Li and Ansheng You and Li Zhang and Guang-Liang Cheng and Kuiyuan Yang and Y. Tong and Zhouchen Lin},
  journal={ArXiv},
  year={2020},
  volume={abs/2011.03308}
}

@ARTICLE{Yucondnet21,
  author={Yu, Changqian and Shao, Yuanjie and Gao, Changxin and Sang, Nong},
  journal={IEEE Signal Processing Letters}, 
  title={CondNet: Conditional Classifier for Scene Segmentation}, 
  year={2021},
  volume={28},
  number={},
  pages={758-762},
  doi={10.1109/LSP.2021.3070472}
}

@misc{yan2022lawin,
  title={Lawin Transformer: Improving Semantic Segmentation Transformer with Multi-Scale Representations via Large Window Attention}, 
  author={Haotian Yan and Chuang Zhang and Ming Wu},
  year={2022},
  eprint={2201.01615},
  archivePrefix={arXiv},
  primaryClass={cs.CV}
}

@misc{yu2021metaformer,
  title={MetaFormer is Actually What You Need for Vision}, 
  author={Weihao Yu and Mi Luo and Pan Zhou and Chenyang Si and Yichen Zhou and Xinchao Wang and Jiashi Feng and Shuicheng Yan},
  year={2021},
  eprint={2111.11418},
  archivePrefix={arXiv},
  primaryClass={cs.CV}
}

@misc{wightman2021resnet,
  title={ResNet strikes back: An improved training procedure in timm}, 
  author={Ross Wightman and Hugo Touvron and Hervé Jégou},
  year={2021},
  eprint={2110.00476},
  archivePrefix={arXiv},
  primaryClass={cs.CV}
}

@misc{liu2022convnet,
  title={A ConvNet for the 2020s}, 
  author={Zhuang Liu and Hanzi Mao and Chao-Yuan Wu and Christoph Feichtenhofer and Trevor Darrell and Saining Xie},
  year={2022},
  eprint={2201.03545},
  archivePrefix={arXiv},
  primaryClass={cs.CV}
}

@misc{li2022uniformer,
  title={UniFormer: Unifying Convolution and Self-attention for Visual Recognition}, 
  author={Kunchang Li and Yali Wang and Junhao Zhang and Peng Gao and Guanglu Song and Yu Liu and Hongsheng Li and Yu Qiao},
  year={2022},
  eprint={2201.09450},
  archivePrefix={arXiv},
  primaryClass={cs.CV}
}

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SOTA Semantic Segmentation Models in PyTorch

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