Spatial Delay Line Canceler-Based Sidelobe Blanking for Low Radar-Cross-Section Target

IF 1.6 3区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Journal of electromagnetic engineering and science Pub Date : 2022-09-30 DOI:10.26866/jees.2022.5.r.126

Younhui Jang, Donghyeon Cho

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Abstract

This study proposes a sidelobe blanking (SLB) system with a spatial delay line canceler (DLC) and non-coherent integrator in a uniform linear array. After the equations for the target and noise power in the SLB system were established, SLB-ratio functions for the proposed and conventional SLB channels were developed. Using these ratio functions, the optimal SLB thresholds for the general detectable target and low radar-cross-section (RCS) target were estimated. The results of the SLB thresholds were confirmed by the Monte Carlo simulation, which indicated that the proposed SLB channel provides reliable performance without false SLB decisions in the sidelobe region. Using the estimated optimal threshold, the proposed SLB channel provides reliable performance, particularly for low-RCS targets. In contrast, the conventional SLB channel produces numerous false SLB decisions in the sidelobe region. The proposed synthesis is a simple but powerful method for obtaining the reliable SLB ratio. The SLB channel in various array antenna systems can be developed based on this method.

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基于空间延迟线对消器的低雷达截面目标旁瓣消隐

本文提出了一种在均匀线性阵列中具有空间延迟线消除器（DLC）和非相干积分器的旁瓣消隐（SLB）系统。在建立了SLB系统中目标功率和噪声功率的方程后，开发了所提出的和传统SLB信道的SLB比率函数。利用这些比值函数，估计了一般可探测目标和低雷达截面积目标的最优SLB阈值。蒙特卡洛仿真验证了SLB阈值的结果，表明所提出的SLB信道在旁瓣区域内提供了可靠的性能，没有错误的SLB判决。使用估计的最优阈值，所提出的SLB信道提供了可靠的性能，特别是对于低RCS目标。相反，传统的SLB信道在旁瓣区域中产生许多错误的SLB判决。所提出的合成是获得可靠SLB比率的一种简单但强大的方法。基于这种方法可以开发出各种阵列天线系统中的SLB信道。

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

Journal of electromagnetic engineering and science ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

2.90

自引率

17.40%

发文量

审稿时长

10 weeks

期刊介绍： The Journal of Electromagnetic Engineering and Science (JEES) is an official English-language journal of the Korean Institute of Electromagnetic and Science (KIEES). This journal was launched in 2001 and has been published quarterly since 2003. It is currently registered with the National Research Foundation of Korea and also indexed in Scopus, CrossRef and EBSCO, DOI/Crossref, Google Scholar and Web of Science Core Collection as Emerging Sources Citation Index(ESCI) Journal. The objective of JEES is to publish academic as well as industrial research results and discoveries in electromagnetic engineering and science. The particular scope of the journal includes electromagnetic field theory and its applications: High frequency components, circuits, and systems, Antennas, smart phones, and radars, Electromagnetic wave environments, Relevant industrial developments.