Variability of observed reverberation and estimated sea-floor scattering strength

OCEANS 2008 Pub Date : 2008-12-01 DOI:10.1109/OCEANS.2008.5151871

M. Barlett, W. Brown, A. Porter

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Abstract

Sea-floor acoustic scattering strength measurements are useful for understanding the observed reverberation in active sonar systems and for estimating sea-floor bottom properties. Observed reverberation and resulting measured scattering strength frequently show a high degree of spatial and temporal variability. This variability may be observed on short, sample-to-sample, times scales from a single time series, or it may manifest itself as longer term variability of measurements made at a single location or over a survey area. Causal mechanisms for this variability include a dynamic fluctuating ocean media, multipath, complex bathymetry and the use of non-stationary sensors for making these measurements. The results presented in this paper leverage previous work by the Sonar Acoustic Boundary Loss Estimation (SABLE) project. Several examples of how this approach can be used to investigate variability in derived Lambert coefficients and scatter strengths are presented for a dataset constructed from sonar beam data obtained over a limited geographic area. These examples are illustrative of approaches that can potentially be developed as a means of quality control in processing of large datasets from non-research sonar systems.

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观测混响和估计海底散射强度的变异性

海底声散射强度测量对于理解主动声呐系统中观测到的混响和估计海底特性是有用的。观测到的混响和由此测量到的散射强度经常显示出高度的时空变异性。这种变异性可以在单个时间序列的短时间、样本到样本的时间尺度上观察到，也可以表现为在单个地点或在一个调查区域进行的测量的长期变异性。这种变化的因果机制包括动态波动的海洋介质、多路径、复杂的水深测量以及使用非固定传感器进行这些测量。本文提出的结果利用了声纳声学边界损失估计(SABLE)项目以前的工作。本文给出了几个例子，说明如何使用这种方法来研究在有限地理区域内获得的声纳波束数据构建的数据集的派生兰伯特系数和散射强度的可变性。这些例子说明了在处理来自非研究声纳系统的大型数据集时，可以潜在地开发作为质量控制手段的方法。

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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OCEANS 2008

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