伪相干雷达滤波反投影算法的应用

Mansour Aljohani, Nihad Alfaysale, Ethan Lin, L. Monte, H. Abdelbagi, Abdulmajid Mrebit, M. Wicks
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引用次数: 0

摘要

在过去的几十年里,非相干船用雷达技术已经日趋成熟。研究人员已经研究了通过对发射和接收的雷达信号进行采样来相干一个或多个基于磁控管振荡器的船用雷达[1]。我们利用这项研究为基于海洋雷达技术和这些采样技术的射频断层扫描科学和技术做出贡献。这需要许多步骤。首先,选择和适当修改一个负担得起但合适的船用雷达。在本例中,我们使用Furuno DRS25A。其次,通过嵌入射频采样电路,我们捕获了各种雷达波形的样本。第三,我们使用Signatec ADC模型PX1500对这些发送和接收信号进行数字化。接下来,我们设计了一个实验几何结构来支持通过射频断层成像形成图像。采用基于傅立叶切片定理(FST)的滤波反投影(FBP)来匹配滤波后的数据和图像目标。本文给出了仿真分析和实验结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Applying filtered back projection algorithm for pseudo-coherent radar
Non-coherent marine radar technology has matured over the past several decades. Researchers have investigated coherening one or more magnetron oscillator based marine radars by sampling the radar signals on transmit and receive [1]. We leverage this research to contribute to the science and technology of RF Tomography based upon exploitation of marine radar technology and these sampling techniques. This requires many steps. First, selecting and suitably modifying an affordable yet suitable marine radar. In this case, we employ a Furuno DRS25A. Second, by embedding an RF sampling circuit, we capture samples of the various radar waveforms. Third, we digitize these transmit and receive signals using a Signatec ADC model PX1500. Next, we design an experimental geometry to support image formation via RF Tomography. We apply Filtered Back projection (FBP) based upon the Fourier Slice Theorem (FST) in order to the match filtered the data and image targets. We provide both simulation analysis and experimental results in this paper.
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