ABSTRACT. Three-dimensional (3-D) Monte Carlo-based radiative transfer (MCRT) models are usually used for benchmarking in intercomparisons of the canopy ...

The proposed approach was evaluated using field measurements of two boreal forest stands at Estonia and USA, respectively. ... Comparison of the computed BRF with ...

The proposed approach was evaluated using field measurements of two boreal forest stands at Estonia and USA, respectively. ... Comparison of the computed BRF with ...

The bidirectional reflectance factor (BRF) for the two study sites was simulated by an MC-based RT model, based on the measured forest stands and modeled stands ...

Modeling three-dimensional forest structures to drive canopy radiative transfer simulations of bidirectional reflectance factor. INTERNATIONAL JOURNAL OF ...

In this study, a ray-tracing based 3D radiative transfer model. LESS was applied to create a single tree model to simulate canopy reflectance based on the ...

LESS, a ray-tracing-based three-dimensional (3D) radiative transfer model can effectively simulate bidirectional reflectance factor while fully considering ...

LESS, a ray-tracing-based three-dimensional (3D) radiative transfer model can effectively simulate bidirectional reflectance factor while fully considering ...

Detecting structural and growth changes in woodlands and forests: The challenge for remote sensing and the role of geometric optical modelling. — In: Gholz, ...

A 3-D vector model ... Modeling three-dimensional forest structures to drive canopy radiative transfer simulations of bidirectional reflectance factor.