基于声衍射的自主水下航行器三维底部跟踪

ICAR '05. Proceedings., 12th International Conference on Advanced Robotics, 2005. Pub Date : 2005-07-18 DOI:10.1109/ICAR.2005.1507389

V. Creuze, B. Jouvencel, P. Baccou

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引用次数: 2

摘要

自主水下航行器(auuv)在浅水中导航需要声学探测。在单波束声呐系统中，超声换能器发出的声音被衍射并出现二次叶。考虑到海底的后向散射特性，二次波瓣可以计算出代表海底的平面的三维方程。本文首先考虑了矩形孔径电声换能器的特性，并研究了由此产生的声衍射。然后，我们解释了如何选择换能器的最佳尺寸和相关的最佳方向。此外，我们还介绍了一种从接收到的声学回波中提取海底三维方程的方法。因此单波束声纳系统可以用于海底跟踪目的。我们给出了我们的模拟结果和我们的实验装置

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3D-bottom tracking based on acoustic diffraction for autonomous underwater vehicles

Navigation of autonomous underwater vehicles (A.U.V.) in very shallow waters implies acoustic detection. In single beam sonar systems, sound emitted by ultrasonic transducers is diffracted and secondary lobes appear. Considering the sea bottom's backscattering properties, secondary lobes can be used to work out the three-dimensional equation of the plane that represents the seabed. In this paper, we first consider characteristics of electro-acoustic transducers with rectangular aperture and study the resulting acoustic diffraction. Then, we explain how to choose the best dimensions of the transducer and the related best orientation. Moreover, we introduce a method aiming to extract the seabed 3D equation from the received acoustic echo. Thus single beam sonar systems can be used for bottom tracking purposes. We present the results of our simulations and our experimental device

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ICAR '05. Proceedings., 12th International Conference on Advanced Robotics, 2005.

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