ROVs Utilized in Communication and Remote Control Integration Technologies for Smart Ocean Aquaculture Monitoring Systems

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Detalles Bibliográficos
Publicado en:	Journal of Marine Science and Engineering vol. 13, no. 7 (2025), p. 1225-1245
Autor principal:	Yen-Hsiang, Liao
Otros Autores:	Chao-Feng, Shih, Wu Jia-Jhen, Yu-Xiang, Wu, Chun-Hsiang, Yang, Chung-Cheng, Chang
Publicado:	MDPI AG
Materias:	Raspberry Pi Ltd Internet of Things Smartphones Control systems Operating costs Communication Edge computing Remote control Remotely operated vehicles Monitoring systems Technology Water quality Satellite communications Modular design Computers Aquaculture Real time Data transmission Cloud computing Integration Software Deep sea Deep water Web browsers Satellites Architecture Monitoring Satellite networks User interface Smartwatches Sustainable development Sensors Access control Wearable computers Relay stations Surveillance systems Unmanned vehicles Economic
Acceso en línea:	Citation/Abstract Full Text + Graphics Full Text - PDF
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Descripción
Resumen:	This study presents a new intelligent aquatic farming surveillance system that tackles real-time monitoring challenges in the industry. The main technical break-throughs of this system are evident in four key aspects: First, it achieves the smooth integration of remotely operated vehicles (ROVs), sensors, and real-time data transmission. Second, it uses a mobile communication architecture with buoy relay stations for distributed edge computing. This design supports future upgrades to Beyond 5G and satellite networks for deep-sea applications. Third, it features a multi-terminal control system that supports computers, smartphones, smartwatches, and centralized hubs, effectively enabling monitoring anytime, anywhere. Fourth, it incorporates a cost-effective modular design, utilizing commercial hardware and innovative system integration solutions, making it particularly suitable for farms with limited resources. The data indicates that the system’s 4G connection is both stable and reliable, demonstrating excellent performance in terms of data transmission success rates, control command response delays, and endurance. It has successfully processed 324,800 data transmission events, thoroughly validating its reliability in real-world production environments. This system integrates advanced technologies such as the Internet of Things, mobile communications, and multi-access control, which not only significantly enhance the precision oversight capabilities of marine farming but also feature a modular design that allows for future expansion into satellite communications. Notably, the system reduces operating costs while simultaneously improving aquaculture efficiency, offering a practical and intelligent solution for small farmers in resource-limited areas.
ISSN:	2077-1312
DOI:	10.3390/jmse13071225
Fuente:	Engineering Database