Modeling the reflectance of the lunar regolith by a new method combining Monte Carlo ray tracing and Hapke's model with application to chang'e-1 IIM data

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Abstract

In this paper, we model the reflectance of the lunar regolith by a new method combining Monte Carlo ray tracing and Hapke's model. The existing modeling methods exploit either a radiative transfer model or a geometric optical model. However, the measured data from an Interference Imaging spectrometer (IIM) on an orbiter were affected not only by the composition of minerals but also by the environmental factors. These factors cannot be well addressed by a single model alone. Our method implemented Monte Carlo ray tracing for simulating the large-scale effects such as the reflection of topography of the lunar soil and Hapke's model for calculating the reflection intensity of the internal scattering effects of particles of the lunar soil. Therefore, both the large-scale and microscale effects are considered in our method, providing a more accurate modeling of the reflectance of the lunar regolith. Simulation results using the Lunar Soil Characterization Consortium (LSCC) data and Chang'E-1 elevation map show that our method is effective and useful. We have also applied our method to Chang'E-1 IIM data for removing the influence of lunar topography to the reflectance of the lunar soil and to generate more realistic visualizations of the lunar surface. © 2014 Un-Hong Wong et al.

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Wong, U. H., Wu, Y., Wong, H. C., Liang, Y., & Tang, Z. (2014). Modeling the reflectance of the lunar regolith by a new method combining Monte Carlo ray tracing and Hapke’s model with application to chang’e-1 IIM data. The Scientific World Journal, 2014. https://doi.org/10.1155/2014/457138

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