Design of a system to detect diseased spots on fishes

Abstract

Implementing a monitoring framework to specifically target and track diseased spots within the context of indoor fish farming or biofloc systems presents a highly valuable strategy. This specialised system, finely tuned for disease detection, holds the capability to swiftly and accurately pinpoint affected areas. Such precision facilitates the timely implementation of isolation protocols or treatment measures, thereby significantly mitigating the risk of disease propagation. The literature aims to discuss the design methodologies, the usage of engineering tools, cost benefit analysis and sustainability concerns while implementing the monitoring framework. Furthermore, the integration of stakeholders into this intricately designed monitoring process serves to amplify collaborative efforts. By actively involving farmers, researchers, and health authorities, a synergistic approach emerges, fostering not only heightened awareness but also expediting response mechanisms. This inclusive engagement not only bolsters the overall resilience of the facility but also serves as a proactive measure in curbing the potential dissemination of diseases, thereby upholding the integrity and sustainability of indoor fish farming or biofloc systems.