The integration of Internet of Things (IoT) technologies in aquaculture enhances sustainability, efficiency, and farmer livelihoods. This study presents an IoT-based fish monitoring system using turbidity, temperature, and depth sensors connected to a cloud platform, with data accessible via mobile application. A 10-day deployment showed reliable monitoring of water quality and depth. Beyond technical benefits, the system empowers farmers, improves decision-making, and promotes sustainable aquaculture practices through digitalization. The system integrates three key sensors-DS18B20 for temperature, turbidity sensor for water clarity, and ultrasonic sensor for water depth-connected to the ESP8266 Wi-Fi module, which acts as the central controller. Data from the sensors are processed and displayed on an LCD screen, transmitted to a mobile application for remote access, and used to control a relay module. The relay operates a 12V fan, supporting water quality management. This integration ensures real-time monitoring, efficient resource use, and improved aquaculture sustainability. IoT-enabled fish monitoring strengthens aquaculture by improving resource management, reducing manual oversight, and empowering farmers with timely data, ultimately enhancing sustainability, resilience, and rural livelihoods in food production.
Idris et al. (Wed,) studied this question.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: