改进的超低频广义旁瓣噪声抵消算法

doi:10.19665/j.issn1001-2400.2019.01.016

西安电子科技大学学报 ›› 2019, Vol. 46 ›› Issue (1): 98-105.doi: 10.19665/j.issn1001-2400.2019.01.016

改进的超低频广义旁瓣噪声抵消算法

李春腾¹,蒋宇中¹(),张宁¹,刘芳君²

^1. 海军工程大学电子工程学院,湖北武汉 430033
^2. 云南民族大学数学与计算机科学学院,云南昆明 650500

收稿日期:2018-04-28 出版日期:2019-02-20 发布日期:2019-03-05
通讯作者: 蒋宇中
作者简介:李春腾(1992-),男,海军工程大学博士研究生,E-mail: 249170952@qq.com。
基金资助:
国家自然科学基金(41631072)

Improved generalized sidelobe cancellation algorithm in ELF communication

LI Chunteng¹,JIANG Yuzhong¹(),ZHANG Ning¹,LIU Fangjun²

^1. College of Electronic Engineering, Naval University of Engineering, Wuhan 430033, China
^2. Academy of Mathematics and Computer Science, Yunnan Nationalities University, Kunming 650500, China

Received:2018-04-28 Online:2019-02-20 Published:2019-03-05
Contact: Yuzhong JIANG

摘要/Abstract

摘要：

为了有效地改善超低频频段的通信质量,在广义旁瓣抵消算法的基础上,提出了一种改进的广义旁瓣噪声抵消算法。首先,该算法将主通道中的延时求和用线性滤波算法代替,有利于进一步提高非相干噪声的抑制能力;其次,鉴于各通道信号强度存在差异,采用优化后的阻塞矩阵代替原来的简单相减阻塞矩阵,有利于减少期望信号的残留,从而提高算法的性能;最后,采用线性滤波代替原来的自适应算法,可以在实现噪声抵消的同时不降低主天线的灵敏度,且提高算法的运算速度。为了验证所提算法的有效性,在实验室环境下搭建了实验平台,设计了多组对照实验。实验结果表明,这种模拟电路可有效地抑制工频及其谐波干扰。改进后的广义旁瓣抵消算法相比于原算法,在信噪比和噪声底限的改善上有较大的成效。

关键词: 超低频通信, 噪声抵消, 模拟电路, 磁传感器, 广义旁瓣抵消, 线性滤波

Abstract:

In order to improve the communication quality in extremely-low-frequency(ELF) communication, based on the generalized sidelobe cancellation(GSC) method, an improved GSC method is proposed and constructed. First, the delay summation in the main channel is replaced by the linear filtering algorithm, which is beneficial to further improving the suppression ability of incoherent noise. Second, by considering the difference in signal energy among channels, using the optimized blocking matrix can reduce the amplitude of the desired signal and improve the performance, comparing to the original blocking matrix obtained by simple subtraction among the main channels. Finally, the method using linear filtering instead of the original adaptive algorithm can achieve noise cancellation without reducing the sensitivity of the main antenna and improve the algorithm’s operating speed. In order to verify the effectiveness of the proposed algorithm, an experimental platform is set up in laboratory environment and a series of control experiments are designed. Experimental results show that the designed analog circuits can suppress 50 Hz and its harmonic components and that the improved GSC algorithm is better than the original algorithm in terms of improvement of the signal-to-noise ratio(SNR) and the noise floor.

Key words: extremely-low-frequency communication, noise reduction, analog circuits, magnetic sensors, generalized sidelobe cancellation, linear filtering

中图分类号:

TN911.7

李春腾,蒋宇中,张宁,刘芳君. 改进的超低频广义旁瓣噪声抵消算法[J]. 西安电子科技大学学报, 2019, 46(1): 98-105.

LI Chunteng,JIANG Yuzhong,ZHANG Ning,LIU Fangjun. Improved generalized sidelobe cancellation algorithm in ELF communication[J]. Journal of Xidian University, 2019, 46(1): 98-105.

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方向/(°)	算法处理前/dB			GSC算法/dB			改进的GSC算法/dB
	信号峰值	信噪比	噪声底限	信号峰值	信噪比	噪声底限	信号峰值	信噪比	噪声底限
15	-41.86	-8.36	-33.50	-37.74	3.56	-41.30	-41.87	9.44	-47.07
30	-41.36	-8.61	-32.75	-43.36	4.47	-47.83	-41.52	15.29	-56.81
45	-39.98	-6.55	-33.41	-40.43	11.68	-52.11	-40.09	20.67	-60.76
60	-43.24	-7.47	-35.77	-44.77	9.96	-54.73	-43.65	20.17	-63.82
75	-41.08	-11.85	-29.23	-4.06	7.08	-47.68	-41.38	12.77	-54.99

改进的超低频广义旁瓣噪声抵消算法

Improved generalized sidelobe cancellation algorithm in ELF communication

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