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Research Advances in Marine Aquaculture Net-Cleaning Robots

Heng Liu, Chuhua Jiang, Junhua Chen, Hao Li, Yongqi Chen

2024Sensors13 citationsDOIOpen Access PDF

Abstract

In the realm of marine aquaculture, the netting of cages frequently accumulates marine fouling, which impedes water circulation and poses safety hazards. Traditional manual cleaning methods are marked by inefficiency, high labor demands, substantial costs, and considerable environmental degradation. This paper initially presents the current utilization of net-cleaning robots in the cleaning, underwater inspection, and monitoring of aquaculture cages, highlighting their benefits in enhancing operational efficiency and minimizing costs. Subsequently, it reviews key technologies such as underwater image acquisition, visual recognition, adhesion-based movement, efficient fouling removal, motion control, and positioning navigation. Ultimately, it anticipates the future trajectory of net-cleaning robots, emphasizing their potential for intelligence and sustainability, which could drive the marine aquaculture industry towards a more efficient and eco-friendly era.

Topics & Concepts

NettingAquacultureSustainabilityInefficiencyEnvironmental scienceRobotFoulingMarine engineeringEngineeringComputer scienceBusinessArtificial intelligenceFish <Actinopterygii>FisheryEcologyEconomicsGeneticsBiologyMicroeconomicsMembraneFinanceUnderwater Vehicles and Communication SystemsWater Quality Monitoring TechnologiesRobotic Path Planning Algorithms
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