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Agentic AI for smart and sustainable precision agriculture

Parvathaneni Naga Srinivasu, Aruna Pavate, G. JayaLakshmi, Jana Shafi, J. Isabelle Choi, Muhammad Fazal Ijaz

2026Frontiers in Plant Science7 citationsDOIOpen Access PDF

Abstract

Introduction: Ensuring smarter and more sustainable farming practices is a critical challenge in modern agriculture. Agentic Artificial Intelligence (AAI), combined with Precision Agriculture (PA) and Federated Learning (FL), has the potential to enhance decision-making, optimize resource utilization, and reduce environmental impact. Methods: This study proposes an AAI based framework for precision agriculture that integrates distributed sensing devices, intelligent agents, and federated learning to enable real time monitoring and decision support at the farm level. A practical deployment architecture is outlined, detailing inter-device communication and localized intelligence. The proposed model is evaluated across two distinct datasets tomato disease classification and weed detection. The model is designed to have DenseNet121, MobileNetV2, EfficientDet-D0, and YOLOv8 as local models within a federated learning environment. Results: The federated global model achieved an accuracy of 96.4%, outperforming individual client models, with DenseNet121 and MobileNetV2 attaining accuracies of 95.0% and 93.9%, respectively. For weed species detection, EfficientDet-D0 demonstrated superior performance, achieving an [email protected] of 0.978, average precision of 0.865, and an F1-score of 0.961, compared to YOLOv8 with an [email protected] of 0.956 and an F1-score of 0.935. Discussion: The results confirm the feasibility and effectiveness of integrating AAI with federated learning for intelligent precision agriculture. A SWOT analysis highlights the strengths of the proposed approach, along with deployment challenges and constraints. Overall, this study establishes a roadmap for future research, emphasizing sustainable intelligent farming systems.

Topics & Concepts

Precision agricultureSWOT analysisSoftware deploymentAgricultureSustainable agricultureComputer scienceProcess managementSustainable developmentKnowledge managementInternet of ThingsBusinessEngineering managementWork (physics)Risk analysis (engineering)Key (lock)Environmental resource managementEngineeringStrengths and weaknessesSystems engineeringManagement scienceArtificial intelligenceSustainabilityBig dataSmart Agriculture and AIAdvanced Technologies in Various FieldsRemote Sensing in Agriculture