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A Mask Attention Interaction and Scale Enhancement Network for SAR Ship Instance Segmentation

Tianwen Zhang, Xiaoling Zhang

2022IEEE Geoscience and Remote Sensing Letters73 citationsDOIOpen Access PDF

Abstract

Most of existing synthetic aperture radar (SAR) ship instance segmentation models do not achieve mask interaction or offer limited interaction performance. Besides, their multi-scale ship instance segmentation performance is moderate especially for small ships. To solve these problems, we propose a mask attention interaction and scale enhancement network (MAI-SE-Net) for SAR ship instance segmentation. MAI uses an atrous spatial pyramid pooling (ASPP) to gain multi-resolution feature responses, a non-local block (NLB) to model long-range spatial dependencies, and a concatenation shuffle attention block (CSAB) to improve interaction benefits. SE uses a content-aware reassembly of features block (CARAFEB) to generate an extra pyramid bottom-level to boost small ship performance, a feature balance operation (FBO) to improve scale feature description, and a global context block (GCB) to refine features. Experimental results on two public SSDD and HRSID datasets reveal that MAI-SE-Net outperforms the other nine competitive models, better than the suboptimal model by 4.7% detection AP and 3.4% segmentation AP on SSDD and by 3.0% detection AP and 2.4% segmentation AP on HRSID.

Topics & Concepts

Computer scienceSegmentationPoolingPyramid (geometry)Block (permutation group theory)Synthetic aperture radarFeature (linguistics)Context (archaeology)Artificial intelligenceConcatenation (mathematics)Pattern recognition (psychology)Image segmentationMathematicsGeographyArchaeologyLinguisticsGeometryCombinatoricsPhilosophyAdvanced Neural Network ApplicationsUnderwater Acoustics ResearchAdvanced SAR Imaging Techniques