一种利用Rudin-Shapiro和m-序列提高优点因子值的新方法

2015 13th International Conference on Electromagnetic Interference and Compatibility (INCEMIC) Pub Date : 2015-07-01 DOI:10.1109/INCEMIC.2015.8055878

B. S. Naick, P. R. Kumar

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引用次数: 0

摘要

LABS代表低自相关二值序列。实验室检测是文献中的一个经典问题。实验室用于雷达脉冲压缩技术，以提高目标的可见性。随着自相关值的减小，雷达探测多目标的能力增强。自20世纪50年代以来，开发了许多方法来解决实验室问题[13]。在本例中，使用Rudin Shapiro和m-序列来生成实验室。Jonathan Jedwab此前就这一主题进行了研究[1]。Jedwab考虑了峰值旁瓣电平(PSL)来衡量实验室的质量[2]。同时引入优点因子对序列进行分析。我们通过在不同序列长度(3m-1)的帮助下为这两个序列获得更好的优点因子，即兴完成了他的工作。

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A novel approach to improve merit factor values using Rudin-Shapiro and m-sequences

LABS stand for low autocorrelation binary sequence. LABS detection is a classic problem in the literature. LABS are used in Radar pulse compression techniques to improve the visibility of the targets. As the autocorrelation value decreases, the ability of the radar to detect multiple targets increases. Since 1950's numerous methods were developed to solve LABS problem[13]. In the present case Rudin Shapiro and m-sequences were used to generate LABS. Research has been done previously on this topic by Jonathan Jedwab [1]. Jedwab considered Peak side lobe levels (PSL) to measure the quality of LABS [2]. We simultaneously introduced Merit Factors to analyze the sequences. We improvised his work by obtaining better merit factors for both of the sequences with the help of diverse sequence lengths (3m-1).

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2015 13th International Conference on Electromagnetic Interference and Compatibility (INCEMIC)

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