基于稀疏阵列加权 K 均值聚类的子阵列划分

IF 0.7 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Electronics Letters Pub Date : 2024-09-23 DOI:10.1049/ell2.70042
Jiayu Zhao, Jianming Huang, Yansong Cui, Naibo Zhang, Yuxuan Wang, Zilai Wang
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引用次数: 0

摘要

本文介绍了基于稀疏阵列加权 K-means 聚类方法的子阵列划分,该方法通过加入权重矩阵方法扩展了传统的 K-means 聚类方法。该矩阵通过记录每个元素在多个独立稀疏阵列中出现的频率,从而生成频率矩阵。通过模拟和与四种类似方法的比较,证明了 SWKCM 的性能。为了评估 SWKCM 的有效性和优越性,将其应用于 40×40 均匀平面相控阵的子阵列分区,并与其他四种方法进行比较。仿真结果表明,所提出的 SWKCM 方法与 KCM 保持了相当的边音抑制能力,实现了 -43.1076 dB 的归一化峰值边音电平。此外,与 K-means 聚类方法相比,稀疏阵列加权 K-means 聚类方法显著提高了子阵列分区结果的稳定性,具体表现为边音峰值标准偏差从 1.0991 降至 0.8104,使变异性降低了 26.3%。
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Subarray partition based on sparse array weighted K-means clustering

This paper introduces the subarray partition based on the sparse array weighted K-means clustering method, which extends the conventional K-means clustering method through the inclusion of a weight matrix approach. This matrix is derived by recording the frequency of each element's occurrence across multiple independent sparse arrays, thereby generating a frequency matrix. The performance of SWKCM is demonstrated through simulations and comparisons with four similar methods. To assess the effectiveness and superiority of the SWKCM, it is applied to the subarray partition of a 40×40 uniform planar phased array and compared with the other four methods. The simulation results show that the proposed SWKCM method maintains comparable sidelobe suppression capabilities to those of KCM, achieving a normalized peak sidelobe level of -43.1076 dB. Furthermore, compared to the K-means clustering method, the sparse array weighted K-means clustering method significantly enhances the stability of subarray partition outcomes, as evidenced by a reduction in the peak sidelobe level standard deviation from 1.0991 to 0.8104, resulting in a 26.3% decrease in variability.

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来源期刊
Electronics Letters
Electronics Letters 工程技术-工程:电子与电气
CiteScore
2.70
自引率
0.00%
发文量
268
审稿时长
3.6 months
期刊介绍: Electronics Letters is an internationally renowned peer-reviewed rapid-communication journal that publishes short original research papers every two weeks. Its broad and interdisciplinary scope covers the latest developments in all electronic engineering related fields including communication, biomedical, optical and device technologies. Electronics Letters also provides further insight into some of the latest developments through special features and interviews. Scope As a journal at the forefront of its field, Electronics Letters publishes papers covering all themes of electronic and electrical engineering. The major themes of the journal are listed below. Antennas and Propagation Biomedical and Bioinspired Technologies, Signal Processing and Applications Control Engineering Electromagnetism: Theory, Materials and Devices Electronic Circuits and Systems Image, Video and Vision Processing and Applications Information, Computing and Communications Instrumentation and Measurement Microwave Technology Optical Communications Photonics and Opto-Electronics Power Electronics, Energy and Sustainability Radar, Sonar and Navigation Semiconductor Technology Signal Processing MIMO
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