An improved infrared polarization model considering the volume scattering effect for coating materials

•The new infrared polarization model is more consistent with the infrared polarization characteristics within the actual coating.•The DoLP values simulated by the improved infrared pBRDF model are found in a good agreement with the measured results.•The DoLP derived from the proposed model can signi...

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Bibliographic Details
Published in:Infrared physics & technology 2024-12, Vol.143, p.105613, Article 105613
Main Authors: Yang, Min, Sun, Xianzhong, Chen, Dapeng, Xiu, Peng, Yang, Jie, Mao, Hongxia
Format: Article
Language:English
Subjects:
DoLP
Infrared polarization
PBRDF
Polarization modeling
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Summary:•The new infrared polarization model is more consistent with the infrared polarization characteristics within the actual coating.•The DoLP values simulated by the improved infrared pBRDF model are found in a good agreement with the measured results.•The DoLP derived from the proposed model can significantly improve the simulating accuracy.•The DoLP does not change with the azimuth angle, and mainly influenced by the detection zenith angle in infrared band. The conventional infrared polarization models ignore the absorption and scattering of infrared light within the coating materials, as well as directional diffuse reflection effect of infrared radiation on the coating surface, which have the limitation for the description of infrared polarization characteristic of coating materials. An improved infrared polarized bidirectional reflectance distribution function (pBRDF) model is proposed based on the microfacet theory, which integrates a volume scattering component developed from the Kubelka-Munk theory, a multiple reflection component and a specular reflection component. This model is more consistent with the infrared polarization characteristics within the actual coating materials. The expression of degree of linear polarization (DoLP) of the infrared radiation is derived. The infrared polarization data of the silver and brown coatings at different measuring angles are acquired by the infrared polarization imaging system, and the model parameters are inverted using the least squares inverse performance method. The simulated and measured results for our coating samples show that the DoLP values simulated by the improved infrared pBRDF model are found in a good agreement with the measurements. The infrared DoLP does not change with the azimuth angle, and mainly influenced by the detection zenith angle, which has a great potential for material classification, polarization remote sensing and infrared scene modeling.
ISSN:1350-4495
DOI:10.1016/j.infrared.2024.105613