Informative Signal Analysis: Metrology of the Underwater Geomagnetic Singularities in Low-Density Ionic Solution (Sea Water)

Q3 Computer Science

Journal of Information Hiding and Multimedia Signal Processing Pub Date : 2018-01-01 DOI:10.4236/JSIP.2018.91001

O. Faggioni, M. Soldani, G. Cozzani, R. Zunino

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引用次数: 4

Abstract

The paper tackles the problem of reading singularities of the geomagnetic field in noisy underwater (UW) environments. In particular, we propose a novel metrological approach to measuring low-amplitude geomagnetic signals in hard noisy magnetic environments. This research action was launched to develop a detection system for enforcing the peripheral security of military bases (harbors/coasts and landbases) and for asymmetric warfare. The concept underlying this theory is the spatial stability in the temporal variations of the geomagnetic field in the observation area. The paper presents the development and deployment of a self-informed measurement system, in which the signal acquired from each sensor—observation node—is compared with the signal acquired by the adjacent ones. The effectiveness of this procedure relates to the inter-node (sensor-to-sensor) distance, L; this quantity should, on one hand, correlate the noise and, on the other hand, decorrelate the target signal. The paper presents the results obtained, that demonstrate the ability of self-informed systems to read weak magnetic signals even in the presence of very high noise in low-density ionic solutions (i.e. sea water).

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信息信号分析:低密度离子溶液(海水)水下地磁奇点的测量

本文研究了噪声水下环境下地磁场奇异点的读取问题。特别地，我们提出了一种在硬噪声磁环境中测量低振幅地磁信号的新的计量方法。开展这项研究行动是为了开发一种探测系统，以加强军事基地(港口/海岸和陆地基地)的外围安全，并用于不对称战争。这一理论的基本概念是观测区地磁场在时间变化中的空间稳定性。本文介绍了一种自知情测量系统的开发和部署，该系统将每个传感器(观测节点)采集的信号与相邻传感器采集的信号进行比较。该过程的有效性与节点间(传感器到传感器)距离L有关;这个量一方面要使噪声相关，另一方面要使目标信号去相关。本文介绍了所获得的结果，证明了自通知系统在低密度离子溶液(即海水)中即使存在非常高的噪声也能读取弱磁信号的能力。

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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来源期刊

Journal of Information Hiding and Multimedia Signal Processing Computer Science-Software

CiteScore

3.20

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0.00%

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