Design and Implementation of an Outdoors Scattering Measurement Range for Full-Scale Targets

2018 IEEE Conference on Antenna Measurements & Applications (CAMA) Pub Date : 2018-09-01 DOI:10.1109/CAMA.2018.8530586

J. Alvarez

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引用次数: 1

Abstract

A novel RCS measurement system is presented in this work. The measurement technique is based on scanning the target along a 2D-plane. In order to maintain a reasonable size of the test range, the measurement is performed in the near-field region. Beside, the target is located on the floor, avoiding to place full-scale targets on a positioner or pylon. In this context, a com- plete post-processing method is developed to evaluate the far-field static radar cross-section from the near-field observations. Firstly, 3-D Inverse Synthetic Aperture Radar images are computed. Then, scattering centers are extracted which are used for the direct evaluation of the RCS. Due to the vertical scan capability of the system, the ground-plane effects can be identified and suppressed. Different techniques are also embedded in the post- processing methodology to compensate the distortion produced by: antenna radiation pattern, hardware gating and mechanical deviations of the system. Results obtained by simulation and by measured data obtained with a real implementation of the system are presented, illustrating the accuracy and potential of the approach.

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一种全尺寸目标室外散射测量范围的设计与实现

本文提出了一种新的RCS测量系统。测量技术是基于沿二维平面扫描目标。为了保持测试范围的合理大小，在近场区域进行测量。此外，目标位于地板上，避免将全尺寸目标放置在定位器或塔架上。在此背景下，提出了一种完整的基于近场观测的远场静态雷达截面的后处理方法。首先，对三维合成孔径雷达反演图像进行了计算。然后提取散射中心，用于直接评价RCS;由于系统具有垂直扫描能力，因此可以识别和抑制地平面效应。在后处理方法中还嵌入了不同的技术来补偿由天线辐射方向图、硬件门控和系统的机械偏差产生的畸变。给出了仿真结果和系统实际实现的实测数据，说明了该方法的准确性和潜力。

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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来源期刊

2018 IEEE Conference on Antenna Measurements & Applications (CAMA)

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