K-net: Towards unified image segmentation
Advances in Neural Information Processing Systems, 2021•proceedings.neurips.cc
Semantic, instance, and panoptic segmentations have been addressed using different and
specialized frameworks despite their underlying connections. This paper presents a unified,
simple, and effective framework for these essentially similar tasks. The framework, named K-
Net, segments both instances and semantic categories consistently by a group of learnable
kernels, where each kernel is responsible for generating a mask for either a potential
instance or a stuff class. To remedy the difficulties of distinguishing various instances, we …
specialized frameworks despite their underlying connections. This paper presents a unified,
simple, and effective framework for these essentially similar tasks. The framework, named K-
Net, segments both instances and semantic categories consistently by a group of learnable
kernels, where each kernel is responsible for generating a mask for either a potential
instance or a stuff class. To remedy the difficulties of distinguishing various instances, we …
Abstract
Semantic, instance, and panoptic segmentations have been addressed using different and specialized frameworks despite their underlying connections. This paper presents a unified, simple, and effective framework for these essentially similar tasks. The framework, named K-Net, segments both instances and semantic categories consistently by a group of learnable kernels, where each kernel is responsible for generating a mask for either a potential instance or a stuff class. To remedy the difficulties of distinguishing various instances, we propose a kernel update strategy that enables each kernel dynamic and conditional on its meaningful group in the input image. K-Net can be trained in an end-to-end manner with bipartite matching, and its training and inference are naturally NMS-free and box-free. Without bells and whistles, K-Net surpasses all previous published state-of-the-art single-model results of panoptic segmentation on MS COCO test-dev split and semantic segmentation on ADE20K val split with 55.2% PQ and 54.3% mIoU, respectively. Its instance segmentation performance is also on par with Cascade Mask R-CNN on MS COCO with 60%-90% faster inference speeds. Code and models will be released at https://github. com/ZwwWayne/K-Net/.
proceedings.neurips.cc