Jingwen Li scite author profile

The interaction of radar signals with a planetary surface is critical for the utility of radar data. Herein, a power-law roughness spectrum is used to model the roughness and an inhomogeneous vertical permittivity to describe the dielectrics from the surface of Mars. Numerical simulations of depolarised radar backscattering are then conducted. To gain a more complete picture of depolarised characteristics, a wide range of surface roughness is considered. Results reveal that the depolarised backscattering is sensitive to the dielectric profiles with-10 dB is observed. The polarization conversion ratio, the ratio of depolarisation to total polarization backscattering, is a sensitive indicator of dielectric profiles and roughness, and thus is useful in retrieving dielectric profile. This is an open access article under the terms of the Creative Commons Attribution-NonCommercial-NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non-commercial and no modifications or adaptations are made.

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月面巡视区域地形与巡视器通过性统计分析

2015

Sci. Sin.-Tech.

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A Heuristic Indoor Path Planning Method Based on Hierarchical Indoor Modelling

Zhang

Zhao

et al. 2018

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Jingwen Li

Spaceborne stripmap range sweep SAR: positive terrain tracking by continuous beam scanning in elevation

L‐band depolarised radar back scattering from Martian topographic surface: A numerical study

月面巡视区域地形与巡视器通过性统计分析

A Heuristic Indoor Path Planning Method Based on Hierarchical Indoor Modelling

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