Advances in Precision Forestry: Integrating Remote Sensing, AI, and Mechanized Operations for Sustainable Forest Management
Keywords:
Precision forestry, Remote sensing, Artificial intelligence, Mechanized operations, Sustainable forest managementAbstract
Precision forestry represents a paradigm shift in forest management, aiming to enhance operational efficiency, ecological sustainability, and resource optimization through the integration of advanced technologies. This review explores the convergence of remote sensing, artificial intelligence (AI), and mechanized operations in driving sustainable forest management practices. Remote sensing tools—including satellite imagery, UAVs, and LiDAR—enable accurate, large-scale monitoring of forest cover, biomass estimation, and structural assessments. AI techniques such as machine learning and deep learning are increasingly used for forest inventory, disease and pest detection, growth modeling, and decision support. Mechanized forest operations, guided by GPS and variable rate applications, improve harvesting efficiency while reducing environmental impact. Case studies from Finland, Brazil, Canada, Sweden, Indonesia, and the United States demonstrate successful implementation and tangible benefits, including enhanced carbon monitoring, reduced illegal logging, and increased sustainability of logging operations. Despite significant advancements, challenges such as high initial investment, connectivity limitations in remote areas, and infrastructural constraints in developing regions persist. Future directions include integration with blockchain for traceability, development of affordable sensors, mobile AI applications, and autonomous forestry robotics. This review concludes that precision forestry holds great promise for transforming forest operations globally and recommends strategic investments and policy support to overcome current barriers and scale adoption.
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