This paper examines the revolutionary impact of integrating artificial intelligence (AI) into agriculture, focusing on a comprehensive AI integration framework. The framework, leveraging data analytics, machine learning, and the Internet of Things, facilitates precision farming, resource optimization, and sustainable practices. Notable achievements include the AI-driven Decision Support System's accuracy in crop management, enabling informed decision-making for farmers. Resource optimization through the Precision Agriculture Module demonstrates economic and environmental benefits, applicable to both large-scale enterprises and smallholder farmers. Beyond immediate productivity gains, the framework contributes to increased market competitiveness, cost savings, and rural development. Environmental implications encompass biodiversity conservation and climate change resilience, while societal impacts involve democratizing access to advanced agricultural technologies. Addressing challenges in data quality, technology infrastructure, and human-AI collaboration is essential for sustained success. The future work agenda outlines initiatives for rural technology infrastructure, ethical considerations, and long-term socio-economic impact. Envisioning a future where AI is integral to global agriculture, the paper promotes inclusivity, sustainability, and responsible innovation, with AI technologies coexisting harmoniously with traditional knowledge for a resilient agricultural landscape.
Harvesting innovation: a comprehensive exploration of ai integration in agriculture for sustainable and inclusive farming futures
Research Article
DOI:
http://dx.doi.org/10.24327/ijrsr.20241502.0859
Subject:
Engineering
KeyWords:
Precision Agriculture, Machine Learning, Decision Support System, Sustainable Farming, Rural Development, Resource Optimization, Agricultural Innovation, Data Analytics, Climate Resilience, Socio-Economic Impact, Artificial Intelligence,
Abstract: