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Look Closer to Segment Better: Boundary Patch Refinement for Instance Segmentation (CVPR 2021)

This is the official repo for "Look Closer to Segment Better: Boundary Patch Refinement for Instance Segmentation".

Updates

  • [2022-12-25]: Added a demo for refining on a single image more conveniently.

Introduction

PBR is a conceptually simple yet effective post-processing refinement framework to improve the boundary quality of instance segmentation. Following the idea of looking closer to segment boundaries better, BPR extracts and refines a series of small boundary patches along the predicted instance boundaries. The proposed BPR framework (as shown below) yields significant improvements over the Mask R-CNN baseline on the Cityscapes benchmark, especially on the boundary-aware metrics.

framework

For more details, please refer to our paper.

Installation

Please refer to INSTALL.md for building mmsegmentation. Our code was tested with mmsegmentation==0.7.0 and mmcv==1.1.6.

Training

In this and the next section, we introduce how to train and inference BPR on the Cityscapes dataset. If you want to apply it to a COCO-like dataset, please refer to the section on-other-datasets.

We assume that the Cityscapes dataset is placed as follows:

BPR
├── data
│   ├── cityscapes
│   │   ├── annotations
│   │   ├── leftImg8bit
│   │   │   ├── train
│   │   │   ├── val
│   │   ├── gtFine
│   │   │   ├── train
│   │   │   ├── val

Prepare patches dataset [optional]

First, you need to generate the instance segmentation results on the Cityscapes training and validation set, as the following format:

maskrcnn_train
- aachen_000000_000019_leftImg8bit_pred.txt
- aachen_000001_000019_leftImg8bit_0_person.png
- aachen_000001_000019_leftImg8bit_10_car.png
- ...

maskrcnn_val
- frankfurt_000001_064130_leftImg8bit_pred.txt
- frankfurt_000001_064305_leftImg8bit_0_person.png
- frankfurt_000001_064305_leftImg8bit_10_motorcycle.png
- ...

The content of the txt file is the same as the standard format required by cityscape script, e.g.:

frankfurt_000000_000294_leftImg8bit_0_person.png 24 0.9990299940109253
frankfurt_000000_000294_leftImg8bit_1_person.png 24 0.9810258746147156
...

Then use the provided script to generate the training set:

sh tools/prepare_dataset.sh \
  maskrcnn_train \
  maskrcnn_val \
  maskrcnn_r50

Note that this step can take about 2 hours. Feel free to skip it by downloading the processed training set.

Train the network

Point DATA_ROOT to the patches dataset and run the training script

DATA_ROOT=maskrcnn_r50/patches \
bash tools/dist_train.sh \
  configs/bpr/hrnet18s_128.py \
  4

Inference

Suppose you have some instance segmentation results of Cityscapes dataset, as the following format:

maskrcnn_val
- frankfurt_000001_064130_leftImg8bit_pred.txt
- frankfurt_000001_064305_leftImg8bit_0_person.png
- frankfurt_000001_064305_leftImg8bit_10_motorcycle.png
- ...

We provide a script (tools/inference.sh) to perform refinement operation, usage:

IOU_THRESH=0.55 \
IMG_DIR=data/cityscapes/leftImg8bit/val \
GT_JSON=data/cityscapes/annotations/instancesonly_filtered_gtFine_val.json \
BPR_ROOT=. \
GPUS=4 \
sh tools/inference.sh configs/bpr/hrnet48_256.py ckpts/hrnet48_256.pth maskrcnn_val maskrcnn_val_refined

The refinement results will be saved in maskrcnn_val_refined/refined.

On other datasets

We also provide training and inference scripts suitable for the COCO dataset. For those who want to apply BPR to their own datasets, we recommend converting them to the COCO format first.

We assume that the folder structure of the COCO data set is as follows:

BPR
├── data
│   ├── coco
│   │   ├── annotations
│   │   ├── train2017
│   │   ├── val2017
│   │   ├── test2017

Training

First, a binary segmentation dataset needs to be constructed for training and validation of the Refinement Network.

This step requires coarse segmentation results (can come from any instance segmenter) on the training set and validation set of COCO. Assuming that these two files are mask_rcnn_r50.train.segm.json and mask_rcnn_r50.val.segm.json, you only need to execute the following commands:

IOU_THRESH=0.15 \
sh tools/prepare_dataset_coco.sh \
  mask_rcnn_r50.train.segm.json \
  mask_rcnn_r50.val.segm.json \
  maskrcnn_r50 \
  70000

The dataset will be saved in maskrcnn_r50/patches.

IOU_THRESH=0.15 is used to control the threshold of nms.

The last argument (70000) means that only 70000 instances are sampled as the training set, since there are too many instances in the COCO dataset. If you find that your computer cannot hold so many patches, you can try to reduce this value (may harm performance).

In our paper, we used these two values for COCO dataset.


After building the dataset, use the following commands to train the Refinement Network:

DATA_ROOT=maskrcnn_r50/patches \
bash tools/dist_train.sh \
  configs/bpr/hrnet18s_128.py \
  4

Inference

Use the following command to run inference:

IOU_THRESH=0.25 \
IMG_DIR=data/coco/val2017 \
GT_JSON=data/coco/annotations/instances_val2017.json \
GPUS=4 \
sh tools/inference_coco.sh \
  configs/bpr/hrnet18s_128.py \
  hrnet18s_coco-c172955f.pth \
  mask_rcnn_r50.val.segm.json \
  mask_rcnn_r50.val.refined.json

IOU_THRESH means the threshold of nms (see our paper for details).

IMG_DIR and GT_JSON indicate the image folder and ground truth json file of COCO dataset.

configs/bpr/hrnet18s_128.py and hrnet18s_coco-c172955f.pth indicate the config file and checkpoint of Refinement Network.

mask_rcnn_r50.val.segm.json is the coasre instance segmentation results to be refined.

mask_rcnn_r50.val.refined.json saved the refined results.

On single image

See demo/inference_img.ipynb and demo/inference_img.py for a demo usage.

Models

Backbone Dataset Config Checkpoint
HRNet-18s Cityscapes hrnet18s_128.py Tsinghua Cloud
HRNet-48 Cityscapes hrnet48_256.py Tsinghua Cloud
HRNet-18s COCO hrnet18s_128.py Tsinghua Cloud

Acknowledgement

This project is based on mmsegmentation code base.

Citation

If you find this project useful in your research, please consider citing:

@article{tang2021look,
  title={Look Closer to Segment Better: Boundary Patch Refinement for Instance Segmentation},
  author={Chufeng Tang and Hang Chen and Xiao Li and Jianmin Li and Zhaoxiang Zhang and Xiaolin Hu},
  journal={arXiv preprint arXiv:2104.05239},
  year={2021}
}

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