A novel barker code algorithm for resolving range ambiguity in high PRF radars

2015 European Radar Conference (EuRAD) Pub Date : 2015-12-07 DOI:10.1109/EURAD.2015.7346242

Samir-Mohamad Omar, F. Kassem, Rita Mitri, Hussein Hijazi, Moustafa Saleh

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引用次数: 14

Abstract

Several algorithms are currently provided to alleviate effects of range overlaid echoes and velocity aliasing in the radar. In this paper, a novel and simple, yet very effective method based on Barker code is presented to solve the range ambiguity problem in high PRF radars. The novelty of this algorithm is derived from the fact that each transmitted pulse is coded with a different circular shifted version of Barker code of length four. Encoding the transmitted pulses in such a way provides the receiver of the potential to resolve up to four overlaid pulses. The direct consequence of this capability is the augmentation of the unambiguous range up to four times. On the top of that, the traditional goal of using the Barker code namely, enhancing the range resolution of the radar is still maintained. To prove the superiority of our algorithm over the existing algorithms in the literature, we conduct some simulations in the context of weather radars. The results indicate obviously that our algorithm outperforms the SZ phase coding technique. The latter has been considered as the one that yields the best performance among its competitors within the family of phase coding techniques.

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一种解决高频率雷达距离模糊的巴克码算法

目前有几种算法可以缓解雷达中距离叠加回波和速度混叠的影响。本文提出了一种新颖、简单、有效的基于巴克码的高频率雷达距离模糊问题求解方法。该算法的新颖之处在于，每个传输的脉冲都用长度为4的巴克码的不同的圆移位版本进行编码。以这种方式对所发射的脉冲进行编码，使接收方能够解析至多四个叠加的脉冲。这种能力的直接后果是将明确的范围扩大到四倍。在此基础上，仍然保持了使用巴克码的传统目标，即提高雷达的距离分辨率。为了证明我们的算法比文献中现有算法的优越性，我们在天气雷达的背景下进行了一些模拟。结果表明，该算法明显优于SZ相位编码技术。后者被认为是在相位编码技术家族的竞争对手中产生最佳性能的一种。

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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2015 European Radar Conference (EuRAD)

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