Abstract

Water-borne diseases pose a global public health challenge, often involving complex transmission dynamics and multiple interacting pathogens. Conventional approaches to disease control often focus on individual interventions, potentially overlooking the synergistic benefits of coordinated strategies. This paper explores the concept of optimizing multi-agent strategies for water-borne disease control, emphasizing the integration of diverse interventions to achieve more effective and holistic outcomes. The paper discusses the challenges of water-borne disease transmission, the advantages of multi-agent strategies, optimization techniques, case studies, data integration, and ethical considerations. By leveraging mathematical modeling, computational simulations, and real-time data, optimizing multi-agent strategies holds promise in improving disease control efforts and minimizing the burden of water-borne diseases on public health systems.