Explicating MiniSAR data to underline significant properties of lunar surface

2016 International Conference on Emerging Trends in Communication Technologies (ETCT) Pub Date : 2016-11-01 DOI:10.1109/ETCT.2016.7882967

Nidhi Verma, P. Mishra, N. Purohit, Dharmendra Singh

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引用次数: 1

Abstract

There have been many investigations regarding water-ice depositions on the lunar surface and it is always been challenging. The previous studies were based on the circular polarization ratio (CPR). However, the CPR has proved to be inefficient in making distinctive classification of smooth (water-ice) and rough surface. Therefore, instead of using single polarimetric parameter CPR, it is required to analyze the CPR>1, along with other significant physical and electrical properties for better textural classification. In this paper, we have established the relationship between icy region and rough region based on physical property that is surface roughness measured with the help of fractal dimension method (‘D’) and electrical properties like real part of dielectric constant (ε′), imaginary part of dielectric constant (ε″), real (n) and imaginary (k) part of refractive index, skin depth (d) and reflectivity (R). The whole investigation indicates that the textural classification of the lunar surface with the help of physical and electrical properties gives superior results as compared to the single polarimetric parameter CPR.

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解释卫星卫星数据以强调月球表面的重要特性

关于月球表面的水冰沉积已经进行了许多研究，并且一直具有挑战性。以往的研究都是基于圆极化比(CPR)。然而，在对光滑(水冰)表面和粗糙表面进行区分时，CPR被证明是低效的。因此，不需要使用单一的极化参数CPR，而是需要分析CPR>1，以及其他重要的物理和电气性能，以更好地进行纹理分类。本文基于分形维数法测量表面粗糙度的物理性质(D)和介电常数实部(ε′)、介电常数虚部(ε″)、折射率实部(n)和虚部(k)等电学性质，建立了冰区与粗糙区之间的关系。整个研究表明，与单一偏振参数CPR相比，借助物理和电学性质对月球表面进行纹理分类的结果更好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 International Conference on Emerging Trends in Communication Technologies (ETCT)

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