基于模型的短拖曳阵列处理

2006 IEEE Nonlinear Statistical Signal Processing Workshop Pub Date : 2006-09-01 DOI:10.1109/NSSPW.2006.4378816

E. Sullivan, J. D. Holmes, W. M. Carey

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引用次数: 2

摘要

基于模型的短拖曳阵列信号处理技术在宽频带和窄频带信号处理上进行了实验验证。结果表明，对于短至0.5波长的声孔径，可以在220 Hz至1228 Hz的频率范围内进行准确的方位和水平波数估计。这些数据是在楠塔基特湾进行的一项实验的结果，在那里，一个自主水下航行器拖着一个水听器阵列，目的是形成一个长长的合成孔径。水下航行器从一个固定的窄带源沿直线径向轨道向外拖拽阵列至4公里。在整个4公里合成孔径上处理信号，基于正模传播模式，允许表征通道。在实验期间，一艘渡船经过该地区。这一“机会目标”为基于模型的被动合成孔径方位估计程序的测试提供了依据。

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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Model-Based Processing for a Short Towed Array

Model-based signal processing techniques for a short towed array are experimentally demonstrated for both broad band and narrow-band signals. It is shown that accurate bearing and horizontal wavenumber estimations, for frequencies ranging from 220 Hz to 1228 Hz, can be made for acoustic apertures as short as 0.5 wavelength. The data were the result of an experiment carried out in Nantucket sound, where an autonomous underwater vehicle towed a hydrophone array for the purpose of forming a long synthetic aperture. The AUV towed the array outward from a fixed narrow-band source on a straight radial track out to 4 km. Processing of the signal over the entire 4 km synthetic aperture, based on a normal-mode propagation mode, allowed for characterization of the channel. During the experiment a ferry passed through the area. This "target of opportunity" provided a basis for testing model-based passive synthetic aperture bearing estimation routines.

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2006 IEEE Nonlinear Statistical Signal Processing Workshop

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