Range-Doppler Mapping of Space-Based Targets Using the JRO 50 MHz Radar

被引：0

作者：

S. Kesaraju

J. D. Mathews

M. Milla

J. Vierinen

机构：

[1] The Pennsylvania State University,Radar Space Sciences Lab, 323 Electrical Engineering East

[2] Jicamarca Radio Observatory,undefined

[3] University of Tromsø,undefined

来源：

Earth, Moon, and Planets | 2017年 / 120卷

关键词：

Jicamarca; Range-Doppler; Motion compensation; Moon;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

The Jicamarca Radio Observatory (JRO) two-dimensional square array radar system operating at ~ 6-m wavelength was used to study the Moon and low Earth orbit satellites using the Range-Doppler inverse synthetic aperture radar technique also known as Delay-Doppler imaging. The radar data was collected on Oct 21, 2015. A circularly polarized coded pulse was transmitted from a quarter-array antenna segment during lunar transit over JRO. Dual-linear polarization receive systems were employed on two quarter-array segments and on two 1/64th array modules giving the longest possible baselines across the transit path. A Range-Doppler mapping technique that uses the rotational motion of the targets and an autofocusing motion and ionospheric delay compensation technique has been implemented to generate the two-dimensional maps of the point-target (Satellite) and range-spread target (Moon). A review of our technique and the maps obtained from these observations is presented herein. Range-Doppler maps of the Moon and satellites are instructive with regards to possible further improvement of the technique, especially regarding ionospheric compensation.

引用

页码：169 / 188

页数：19

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