深水矢量相干频域批量自适应线增强应用研究

IF 1.4 4区 管理学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Iet Radar Sonar and Navigation Pub Date : 2024-07-29 DOI:10.1049/rsn2.12621
He Li, Tong Wang, Xinyi Guo, Lin Su, Yaxiao Mo
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引用次数: 0

摘要

船舶辐射的低频线谱噪声稳定性强,难以消除,是被动信号探测所需的关键信息。针对传统标量自适应线增强(ALE)算法对复杂深海环境中船舶特征线频谱探测能力不足的问题,提出了一种矢量相干频域批量自适应线增强方法。该方法不仅引入了频域批处理的思想,而且采用同步采集的声压和质点速度作为双输入,充分利用矢量通道间的相干特性输出高增益线谱信号,提高了计算效率。在仿真和海试数据验证中,与时域矢量相干自适应线增强算法相比,该方法耗时更短、效率更高,可提高低信噪比条件下线谱信号的检测能力。该算法输出的方位估计结果也更加准确。
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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Application research on vector coherent frequency-domain batch adaptive line enhancement in deep water

The low frequency line spectrum noise radiated by ships has strong stability and is difficult to eliminate, which is the key information required for passive signal detection. A vector coherent frequency-domain batch adaptive line enhancement method is proposed to address the issue of insufficient detection capability of traditional scalar adaptive line enhancement (ALE) algorithms for ship characteristic line spectra in complex deep-sea environments. This method not only introduces the idea of frequency-domain batch processing, but also uses synchronously collected sound pressure and particle velocity as dual input, fully utilising the coherence characteristics between vector channels to output high gain line spectrum signals and improve computational efficiency. In simulation and sea trial data validation, compared with the time-domain vector coherent adaptive line enhancement algorithm, this method has shorter time consumption, higher efficiency, and can improve the detection ability of line spectrum signals under low signal-to-noise ratio conditions. The bearing estimation results output by this algorithm is also more accurate.

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来源期刊
Iet Radar Sonar and Navigation
Iet Radar Sonar and Navigation 工程技术-电信学
CiteScore
4.10
自引率
11.80%
发文量
137
审稿时长
3.4 months
期刊介绍: IET Radar, Sonar & Navigation covers the theory and practice of systems and signals for radar, sonar, radiolocation, navigation, and surveillance purposes, in aerospace and terrestrial applications. Examples include advances in waveform design, clutter and detection, electronic warfare, adaptive array and superresolution methods, tracking algorithms, synthetic aperture, and target recognition techniques.
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