Real-time sonar system using acoustic lens and numerical analysis based on 2D/3D parabolic equation method

Europe Oceans 2005 Pub Date : 2005-06-20 DOI:10.1109/OCEANSE.2005.1511678
Y. Takase, T. Anada, T. Tsuchiya, N. Endoh, N. Nakamura, T. Tukioka
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引用次数: 10

Abstract

The autonomous underwater vehicle mounted on the forward obstacle avoidance sonar is developed to investigate ocean environments. In order to obtain real time, high efficiency and clear acoustic images, the real-time sonar system using an acoustic lens has been studied. The propagation of sound through acoustic lenses can be modeled using either the ray-tracing, wave acoustics or a combination of both. In this paper, the sound pressure near the focal area of the acoustic lenses is studied by using the parabolic equation methods. In conclusions, the acoustic lens simulation based on wave acoustics offers a valid means for predictions in the performance of acoustic lenses before fabrication.
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基于二维/三维抛物方程法的声透镜实时声纳系统及数值分析
为了研究海洋环境,研制了安装在前向避障声纳上的自主水下航行器。为了获得实时、高效、清晰的声图像,对基于声透镜的实时声呐系统进行了研究。声音通过声学透镜的传播可以使用光线追踪、波动声学或两者的结合来建模。本文采用抛物方程方法研究了声透镜焦点区域附近的声压。综上所述,基于波动声学的声透镜模拟为声透镜制造前的性能预测提供了一种有效的手段。
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Europe Oceans 2005
Europe Oceans 2005
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