Zhang et al. (2025) A Comprehensive Radiative Transfer Model for Vegetated Land Surfaces Incorporating Multiple Volume–Surface Scattering Coupling Effects

Identification

• Journal: IEEE Transactions on Geoscience and Remote Sensing
• Year: 2025
• Date: 2025-12-29
• Authors: Tengfeng Zhang, Kaiqi Chen, Shurun Tan
• DOI: 10.1109/tgrs.2025.3649085

Research Groups

Not available in the provided text.

Short Summary

This paper introduces a comprehensive radiative transfer model specifically designed for vegetated land surfaces, with a key focus on integrating multiple volume–surface scattering coupling effects.

Objective

• To develop a comprehensive radiative transfer model for vegetated land surfaces that effectively incorporates multiple volume–surface scattering coupling effects.

Study Configuration

• Spatial Scale: Not available in the provided text.
• Temporal Scale: Not available in the provided text.

Methodology and Data

• Models used: A Comprehensive Radiative Transfer Model (developed/presented in the paper).
• Data sources: Not available in the provided text.

Main Results

Not available in the provided text.

Contributions

The primary contribution lies in the development of a comprehensive radiative transfer model that uniquely and effectively incorporates multiple volume–surface scattering coupling effects, enhancing the accuracy of radiative transfer simulations over vegetated land surfaces.

Funding

Not available in the provided text.

Citation

@article{Zhang2025Comprehensive,
  author = {Zhang, Tengfeng and Chen, Kaiqi and Tan, Shurun},
  title = {A Comprehensive Radiative Transfer Model for Vegetated Land Surfaces Incorporating Multiple Volume–Surface Scattering Coupling Effects},
  journal = {IEEE Transactions on Geoscience and Remote Sensing},
  year = {2025},
  doi = {10.1109/tgrs.2025.3649085},
  url = {https://doi.org/10.1109/tgrs.2025.3649085}
}