Scalable deep fusion of spaceborne lidar and synthetic aperture radar for global forest structural complexity mapping

• URL: http://arxiv.org/abs/2510.06299v1
• Date: Tue, 07 Oct 2025 14:29:37 GMT
• Title: Scalable deep fusion of spaceborne lidar and synthetic aperture radar for global forest structural complexity mapping
• Authors: Tiago de Conto, John Armston, Ralph Dubayah,
• Abstract summary: Forest structural complexity metrics integrate multiple canopy attributes into a single value that reflects habitat quality and ecosystem function.<n>We present a scalable, deep learning framework fusing GEDI observations with multimodal Synthetic Aperture Radar (SAR) datasets to produce high-resolution wall-to-wall maps of forest structural complexity.
• Score: 0.6372261626436676
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Forest structural complexity metrics integrate multiple canopy attributes into a single value that reflects habitat quality and ecosystem function. Spaceborne lidar from the Global Ecosystem Dynamics Investigation (GEDI) has enabled mapping of structural complexity in temperate and tropical forests, but its sparse sampling limits continuous high-resolution mapping. We present a scalable, deep learning framework fusing GEDI observations with multimodal Synthetic Aperture Radar (SAR) datasets to produce global, high-resolution (25 m) wall-to-wall maps of forest structural complexity. Our adapted EfficientNetV2 architecture, trained on over 130 million GEDI footprints, achieves high performance (global R2 = 0.82) with fewer than 400,000 parameters, making it an accessible tool that enables researchers to process datasets at any scale without requiring specialized computing infrastructure. The model produces accurate predictions with calibrated uncertainty estimates across biomes and time periods, preserving fine-scale spatial patterns. It has been used to generate a global, multi-temporal dataset of forest structural complexity from 2015 to 2022. Through transfer learning, this framework can be extended to predict additional forest structural variables with minimal computational cost. This approach supports continuous, multi-temporal monitoring of global forest structural dynamics and provides tools for biodiversity conservation and ecosystem management efforts in a changing climate.

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