Patch Proposal Network for Fast Semantic Segmentation of High-Resolution Images


  • Tong Wu Xiamen University
  • Zhenzhen Lei Xiamen University
  • Bingqian Lin Sun Yat-sen University
  • Cuihua Li Xiamen University
  • Yanyun Qu Xiamen University
  • Yuan Xie East China Normal University



Despite recent progress on the segmentation of high-resolution images, there exist an unsolved problem, i.e., the trade-off among the segmentation accuracy, memory resources and inference speed. So far, GLNet is introduced for high or ultra-resolution image segmentation, which has reduced the computational memory of the segmentation network. However, it ignores the importances of different cropped patches, and treats tiled patches equally for fusion with the whole image, resulting in high computational cost. To solve this problem, we introduce a patch proposal network (PPN) in this paper, which adaptively distinguishes the critical patches from the trivial ones to fuse with the whole image for refining segmentation. PPN is a classification network which alleviates network training burden and improves segmentation accuracy. We further embed PPN in a global-local segmentation network, instructing global branch and refinement branch to work collaboratively. We implement our method on four image datasets:DeepGlobe, ISIC, CRAG and Cityscapes, the first two are ultra-resolution image datasets and the last two are high-resolution image datasets. The experimental results show that our method achieves almost the best segmentation performance compared with the state-of-the-art segmentation methods and the inference speed is 12.9 fps on DeepGlobe and 10 fps on ISIC. Moreover, we embed PPN with the general semantic segmentation network and the experimental results on Cityscapes which contains more object classes demonstrate the generalization ability on general semantic segmentation.




How to Cite

Wu, T., Lei, Z., Lin, B., Li, C., Qu, Y., & Xie, Y. (2020). Patch Proposal Network for Fast Semantic Segmentation of High-Resolution Images. Proceedings of the AAAI Conference on Artificial Intelligence, 34(07), 12402-12409.



AAAI Technical Track: Vision