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Unveiling temporal and spatial research trends in precision agriculture: A BERTopic text mining approach

Yang Liu, Fanghao Wan

2024Heliyon23 citationsDOIOpen Access PDF

Abstract

This study leverages the BERTopic algorithm to analyze the evolution of research within precision agriculture, identifying 37 distinct topics categorized into eight subfields: Data Analysis, IoT, UAVs, Soil and Water Management, Crop and Pest Management, Livestock, Sustainable Agriculture, and Technology Innovation. By employing BERTopic, based on a transformer architecture, this research enhances topic refinement and diversity, distinguishing it from traditional reviews. The findings highlight a significant shift towards IoT innovations, such as security and privacy, reflecting the integration of smart technologies with traditional agricultural practices. Notably, this study introduces a comprehensive popularity index that integrates trend intensity with topic proportion, providing nuanced insights into topic dynamics across countries and journals. The analysis shows that regions with robust research and development, such as the USA and Germany, are advancing in technologies like Machine Learning and IoT, while the diversity in research topics, assessed through information entropy, indicates a varied global research scope. These insights assist scholars and research institutions in selecting research directions and provide newcomers with an understanding of the field's dynamics.

Topics & Concepts

Precision agricultureData scienceAgricultureComputer sciencePopularityField (mathematics)Food securityScope (computer science)Diversity (politics)Knowledge managementBig dataGeographyData miningPolitical sciencePure mathematicsProgramming languageLawMathematicsArchaeologySpecies Distribution and Climate ChangeSmart Agriculture and AIInsect and Arachnid Ecology and Behavior
Unveiling temporal and spatial research trends in precision agriculture: A BERTopic text mining approach | Litcius