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ShorelineNet: An Efficient Deep Learning Approach for Shoreline Semantic Segmentation for Unmanned Surface Vehicles

Linghong Yao, Dimitrios Kanoulas, Ze Ji, Yuanchang Liu

20212021 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS)49 citationsDOI

Abstract

This paper introduces a novel deep learning approach to semantic segmentation of the shoreline environments with a high frames-per-second (fps) performance, making the approach readily applicable to autonomous navigation for Unmanned Surface Vehicles (USV). The proposed ShorelineNet is an efficient deep neural network of high performance relying only on visual input. ShorelineNet uses monocular visual input to produce accurate shoreline separation and obstacle detection compared to the state-of-the-art, and achieves this with real-time performance. Experimental validation on a challenging multi-modal maritime obstacle detection dataset, the MODD2 dataset, achieves a much faster inference (25fps on an NVIDIA Tesla K80 and 6fps on a CPU) with respect to the recent state-of-the-art methods, while keeping the performance equally high (73.1% F-score). This makes ShorelineNet a robust and effective model to be used for reliable USV navigation that require real-time and high-performance semantic segmentation of maritime environments.

Topics & Concepts

Computer scienceDeep learningArtificial intelligenceSegmentationObstacleInferenceObject detectionDeep neural networksComputer visionMonocularArtificial neural networkLawPolitical scienceMaritime Navigation and SafetyUnderwater Vehicles and Communication SystemsMarine animal studies overview
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