Deep-water acoustic coherence at long ranges: theoretical prediction and effects on large-array signal processing

声学 连贯性(哲学赌博策略) 散射 信号处理 物理 信号(编程语言) 光学 相干时间 数组处理 计算机科学 电子工程 工程类 数字信号处理 量子力学 程序设计语言
作者
E. Yu. Gorodetskaya,А. И. Малеханов,A. G. Sazontov,N. K. Vdovicheva
出处
期刊:IEEE Journal of Oceanic Engineering [Institute of Electrical and Electronics Engineers]
卷期号:24 (2): 156-171 被引量:93
标识
DOI:10.1109/48.757268
摘要

This paper presents results of combined consideration of sound coherence and array signal processing in long-range deep-water environments. Theoretical evaluation of the acoustic signal mutual coherence function (MCF) of space for a given sound-speed profile and particular scattering mechanism is provided. The predictions of the MCF are employed as input data to investigate the coherence-induced effects on the horizontal and vertical array gains associated with linear and quadratic beamformers with emphasis on the optimal ones. A method of the radiation transport equation is developed to calculate the MCF of the multimode signal under the assumption that internal waves or surface wind waves are the main source of long-range acoustic fluctuations in a deep-water channel. Basic formulations of the array weight vectors and small signal deflection are then exploited to examine optimal linear and quadratic processors in comparison with plane-wave beamformers. For vertical arrays, particular attention is paid also to evaluation of the ambient modal noise factor. The numerical simulations are carried out for range-independent environments from the Northwest Pacific for a sound frequency of 250 Hz and distances up to 1000 km. It was shown distinctly that both signal coherence degradation and modal noise affect large-array gain, and these effects are substantially dependent on the processing technique used. Rough surface sound scattering was determined to cause the most significant effects.

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