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Anomalous Behaviors Detection for Underwater Fish Using AI Techniques

Jung-Hua Wang, Shih-Kai Lee, Yi-Chung Lai, Cheng-Chun Lin, Ting-Yuan Wang, Ying-Ren Lin, Te‐Hua Hsu, Chang‐Wen Huang, Chun‐Pin Chiang

2020IEEE Access80 citationsDOIOpen Access PDF

Abstract

Anomalous events detection in real-world video scenes is a challenging problem owing to the complexity of anomaly and the untidy backgrounds and objects in the scenes. Although there are already many studies on dealing with this problem using deep neural networks, very little literature aims for real-time detection of the anomalous behavior of fish. This paper presents an underwater fish anomalous behavior detection method by combining deep learning object detection, DCG (Directed Cycle Graph), fish tracking, and DTW (Dynamic Time Warping). The method is useful for detecting the biological anomalous behavior of underwater fish in advance so that early countermeasures can be planned and executed. Also, through post-analysis it is possible to access the cause of diseases or death, so as to reduce unnecessary loss, facilitate precision breeding selection, and achieve ecological conservation education as well. A smart aquaculture system incorporating the proposed method and IoT sensors allows extensive data collection during the system operation in various farming fields, thus enabling to develop optimal culturing conditions, both are particularly useful for researchers and the aquaculture industry.

Topics & Concepts

Computer scienceUnderwaterArtificial intelligenceAnomaly detectionDynamic time warpingObject detectionFish <Actinopterygii>Real-time computingMachine learningComputer visionData miningPattern recognition (psychology)FisheryOceanographyBiologyGeologyWater Quality Monitoring Technologies
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