A Novel Millimeter-Wave Radar Interference Suppression Method Based on VMD and VI-CFAR Algorithms

IF 0.9 4区工程技术 Q4 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

International Journal of RF and Microwave Computer-Aided Engineering Pub Date : 2024-08-30 DOI:10.1155/2024/2305711

Chao Lv, Xun Huang, Guozheng Li, Dongqi Liu

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引用次数: 0

Abstract

With the increasing use of millimeter-wave radar in automobiles, mutual interference between vehicle-mounted millimeter-wave radar systems is becoming increasingly serious. Mutual interference between vehicle-mounted millimeter-wave radars significantly reduces the accuracy of target parameter estimation and the reliability of target detection. In view of this, this study proposes an interference suppression method that combines the Variational Mode Decomposition (VMD) algorithm and Variation Index Constant False Alarm Rate (VI-CFAR). First, the method performs adaptive decomposition of the intermediate frequency (IF) signals of an interfered vehicle-mounted millimeter-wave radar by VMD in order to obtain several different intrinsic modal functions (IMFs). Then, the relevant IMFs containing target information are identified based on the spectrograms of each IMF, followed by signal reconstruction of the relevant IMFs using VI-CFAR. Finally, the relevant IMFs are superimposed to complete the signal reconstruction. In the case of simultaneous interference by several different interference radars, the results of simulation experiments show that the method can improve the Signal-to-Interference Ratio (SIR) of the target and increase the detection of the interfered target to a greater extent than the Adaptive Noise Cancellation (ANC), Empirical Modal Decomposition (EMD), and Iterative Zeroing methods. According to the SIR results of the simulation experiments, it can be seen that under the static interference of several slightly weak interference sources, the SIR of each target is improved by 8.1, 8.1, 5.8, and 7.9 dB, respectively, after suppressing the interference by the method, whereas in the dynamic cases of simultaneous interference of several strong interference sources and detection of several weak targets, the SIR of each target is improved by 4.6, 2.2, 7.9, and 6.8 dB, respectively. Therefore, the method has some performance advantages.

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基于 VMD 和 VI-CFAR 算法的新型毫米波雷达干扰抑制方法

随着毫米波雷达在汽车中的应用越来越广泛，车载毫米波雷达系统之间的相互干扰也越来越严重。车载毫米波雷达之间的相互干扰会大大降低目标参数估计的准确性和目标探测的可靠性。有鉴于此，本研究提出了一种结合变异模式分解（VMD）算法和变异指数恒误报率（VI-CFAR）的干扰抑制方法。首先，该方法通过 VMD 对受干扰的车载毫米波雷达的中频（IF）信号进行自适应分解，以获得多个不同的本征模态函数（IMF）。然后，根据每个 IMF 的频谱图确定包含目标信息的相关 IMF，接着使用 VI-CFAR 对相关 IMF 进行信号重建。最后，将相关 IMF 叠加，完成信号重建。在同时受到几种不同干扰雷达干扰的情况下，模拟实验结果表明，与自适应噪声消除法（ANC）、经验模态分解法（EMD）和迭代归零法相比，该方法能在更大程度上改善目标的信噪比（SIR），提高受干扰目标的探测率。根据仿真实验的 SIR 结果可以看出，在几个稍弱干扰源的静态干扰下，用该方法抑制干扰后，每个目标的 SIR 分别提高了 8.1、8.1、5.8 和 7.9 dB；而在几个强干扰源同时干扰和检测几个弱目标的动态情况下，每个目标的 SIR 分别提高了 4.6、2.2、7.9 和 6.8 dB。因此，该方法具有一定的性能优势。

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来源期刊

International Journal of RF and Microwave Computer-Aided Engineering 工程技术-工程：电子与电气

CiteScore

4.00

自引率

23.50%

发文量

489

审稿时长

3 months

期刊介绍： International Journal of RF and Microwave Computer-Aided Engineering provides a common forum for the dissemination of research and development results in the areas of computer-aided design and engineering of RF, microwave, and millimeter-wave components, circuits, subsystems, and antennas. The journal is intended to be a single source of valuable information for all engineers and technicians, RF/microwave/mm-wave CAD tool vendors, researchers in industry, government and academia, professors and students, and systems engineers involved in RF/microwave/mm-wave technology. Multidisciplinary in scope, the journal publishes peer-reviewed articles and short papers on topics that include, but are not limited to. . . -Computer-Aided Modeling -Computer-Aided Analysis -Computer-Aided Optimization -Software and Manufacturing Techniques -Computer-Aided Measurements -Measurements Interfaced with CAD Systems In addition, the scope of the journal includes features such as software reviews, RF/microwave/mm-wave CAD related news, including brief reviews of CAD papers published elsewhere and a "Letters to the Editor" section.