Paper
21 May 2015 Influence of density on hyperspectral BRDF signatures of granular materials
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Abstract
Recent hyperspectral measurements of composite granular sediments of varying densities have revealed phenomena that contradict what radiative transfer theory would suggest.5 In high-density sands where dominant constituents are translucent and supplementary, darker grains are present, bidirectional reflectance distribution function (BRDF) measurements of high density sediments showed reduced intensity when compared to lower density counterparts. It is conjectured that this is due to diminished multiple scattering from the darker particles which more optimally fill pore space as density increases. The goal of these experiments is to further expand upon these earlier results that were conducted primarily in the principal scattering plane and only at minimum and maximum densities. In the present study, the BRDF of granular composites is compared along a gradient of densities for optically contrasting materials. Systematic analysis of angular and material dependence will be used to develop better models for multiple scattering effects of the granular materials. The measurements in this experiment used the recently constructed, laboratory and field-deployable Goniometer of the Rochester Institute of Technology (GRIT), which measures BRDF for geometries covering 360 degrees in azimuth and 65 degrees in zenith. In contrast to the previous studies limited to the principal scattering plane, GRIT provides a full hemispherical BRDF measurement.
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Douglas Scott Peck, Malachi Schultz, Charles M. Bachmann, Brittany Ambeau, and Justin Harms "Influence of density on hyperspectral BRDF signatures of granular materials", Proc. SPIE 9472, Algorithms and Technologies for Multispectral, Hyperspectral, and Ultraspectral Imagery XXI, 94720F (21 May 2015); https://doi.org/10.1117/12.2177455
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KEYWORDS
Reflectivity

Bidirectional reflectance transmission function

Scattering

Multiple scattering

Backscatter

Light sources

Minerals

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