Yield prediction, pest and disease diagnosis, soil fertility mapping, precision irrigation scheduling, and food quality assessment using machine learning and deep learning algorithms

Ajith, S.; Vijayakumar, S.; Elakkiya, N.

doi:https://doi.org/10.1007/s44187-025-00338-1

Yield prediction, pest and disease diagnosis, soil fertility mapping, precision irrigation scheduling, and food quality assessment using machine learning and deep learning algorithms

cg.authorship.types	CGIAR and developing country institute	en
cg.contributor.affiliation	International Rice Research Institute	en
cg.contributor.affiliation	ICAR-Indian Institute of Rice Research	en
cg.contributor.affiliation	ICAR-Central Institute of Brackishwater Aquaculture	en
cg.contributor.donor	Indian Council of Agricultural Research	en
cg.contributor.donor	International Rice Research Institute	en
cg.creator.identifier	S AJITH: 0000-0002-7951-1975	en
cg.creator.identifier	S VIJAYAKUMAR: 0000-0001-9257-9766	en
cg.howPublished	Formally Published	en
cg.identifier.doi	https://doi.org/10.1007/s44187-025-00338-1	en
cg.identifier.url	https://link.springer.com/article/10.1007/s44187-025-00338-1#author-information	en
cg.isijournal	ISI Journal	en
cg.issn	2731-4286	en
cg.issue	67	en
cg.journal	Discover Food	en
cg.reviewStatus	Peer Review	en
cg.volume	5	en
dc.contributor.author	Ajith, S.	en
dc.contributor.author	Vijayakumar, S.	en
dc.contributor.author	Elakkiya, N.	en
dc.date.accessioned	2025-05-07T08:48:36Z	en
dc.date.available	2025-05-07T08:48:36Z	en
dc.identifier.uri	https://hdl.handle.net/10568/174453
dc.title	Yield prediction, pest and disease diagnosis, soil fertility mapping, precision irrigation scheduling, and food quality assessment using machine learning and deep learning algorithms	en
dcterms.abstract	The growing demand for food grains amidst resource constraints necessitates advancements in crop management. Artificial intelligence, particularly machine learning and deep learning, is revolutionizing agricultural practices by enabling data-driven, precise, and sustainable solutions. This review synthesizes advancements in artificial intelligence applications across key domains, including crop yield prediction, precision irrigation, soil fertility mapping, insect pest and disease forecasting, and foodgrain quality assessment. Artificial intelligence algorithms efficiently process vast datasets from unmanned aerial vehicles, ground vehicles, and satellites, enabling precise and timely interventions. Artificial intelligence-driven tools automate pest detection and classification, optimize irrigation with minimal human input, generate high-resolution soil fertility maps, and enhance foodgrain quality assessment through rapid defect and contaminant detection. Artificial intelligence-powered precision irrigation integrates real-time soil moisture data and weather predictions for optimized water usage. Similarly, artificial intelligence-driven soil fertility mapping not only enables high-resolution assessments but also facilitates real-time monitoring of nutrient dynamics, supporting sustainable land management. In pest and disease detection, artificial intelligence systems combining image processing and real-time analytics demonstrate promise for early intervention. Artificial intelligence integration into foodgrain quality assessment leverages hyperspectral imaging and predictive models to enhance grading, adulteration detection, and contaminant screening, contributing to food safety and market competitiveness. Furthermore, advancements in transfer learning and data augmentation have improved artificial intelligence adoption in regions with limited datasets. While artificial intelligence technologies promise to boost agricultural productivity and sustainability, their efficacy and scalability hinges on data quality, diversity, and availability.	en
dcterms.accessRights	Open Access
dcterms.audience	CGIAR	en
dcterms.audience	Development Practitioners	en
dcterms.audience	Donors	en
dcterms.audience	Farmers	en
dcterms.audience	Policy Makers	en
dcterms.audience	Scientists	en
dcterms.bibliographicCitation	Ajith, S., S. Vijayakumar, and N. Elakkiya. "Yield prediction, pest and disease diagnosis, soil fertility mapping, precision irrigation scheduling, and food quality assessment using machine learning and deep learning algorithms." Discover Food 5, no. 67 (2025): 1-23.	en
dcterms.extent	23 p.	en
dcterms.issued	2025-03-20	en
dcterms.language	en
dcterms.license	CC-BY-NC-ND-4.0
dcterms.publisher	Springer Science and Business Media LLC	en
dcterms.subject	artificial intelligence	en
dcterms.subject	machine learning	en
dcterms.subject	crop yield	en
dcterms.subject	precision agriculture	en
dcterms.subject	soil fertility	en
dcterms.subject	pests	en
dcterms.subject	pest control	en
dcterms.subject	plant diseases	en
dcterms.subject	disease control	en
dcterms.subject	food quality	en
dcterms.subject	remote sensing	en
dcterms.subject	data analysis	en
dcterms.subject	nutrient management	en
dcterms.subject	sustainable agriculture	en
dcterms.type	Journal Article

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