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Soil Quality Prediction in Context Learning Approaches Using Deep Learning and Blockchain for Smart Agriculture

Parvataneni Rajendra Kumar, S. Meenakshi, S. Shalini, S. Devi, Sampath Boopathi

2023Advances in computational intelligence and robotics book series90 citationsDOI

Abstract

The integration of deep learning and blockchain technologies has the potential to revolutionize soil quality prediction in smart agriculture. Deep learning models, like neural networks and convolutional neural networks, enable accurate predictions of soil properties by considering intricate relationships within data. Contextual learning approaches, including embeddings and data fusion, enrich the prediction process by incorporating external factors like weather conditions and land management practices. Blockchain technology ensures secure storage of predictions and data, while smart contracts facilitate automated model execution. This integrated system empowers farmers with accurate predictions for optimal resource allocation and fosters collaboration through decentralized data sharing. Future directions include advancements in deep learning algorithms, blockchain applications, and potential integration with IoT and remote sensing technologies.

Topics & Concepts

BlockchainComputer scienceContext (archaeology)Deep learningArtificial intelligenceConvolutional neural networkProcess (computing)Data sharingData integrationQuality (philosophy)Big dataData scienceArtificial neural networkDeep integrationMachine learningData miningComputer securityMedicineEpistemologyPhilosophyBiologyPathologyInternational economicsAlternative medicinePaleontologyOperating systemEconomicsSmart Agriculture and AIArtificial Intelligence and Decision Support SystemsCurrency Recognition and Detection
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