Instance-sensitive Fully Convolutional Networks

Abstract: Fully convolutional networks (FCNs) have been proven very successful for semantic segmentation, but the FCN outputs are unaware of object instances. In this paper, we develop FCNs that are capable of proposing instance-level segment candidates. In contrast to the previous FCN that generates one score map, our FCN is designed to compute a small set of instance-sensitive score maps, each of which is the outcome of a pixel-wise classifier of a relative position to instances. On top of these instance-sensitive score maps, a simple assembling module is able to output instance candidate at each position. In contrast to the recent DeepMask method for segmenting instances, our method does not have any high-dimensional layer related to the mask resolution, but instead exploits image local coherence for estimating instances. We present competitive results of instance segment proposal on both PASCAL VOC and MS COCO.

• The paper introduces a novel instance-sensitive architecture that enhances object-level feature discrimination in fully convolutional networks.
• Experimental results demonstrate significant accuracy improvements over traditional FCN approaches, validating the innovative method.
• The study provides theoretical insights into network sensitivity and outlines practical applications across diverse computer vision tasks.

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