Autonomous acoustic trigger for distributed underwater visual monitoring systems

Proceedings of the 11th International Conference on Underwater Networks & Systems Pub Date : 2016-10-24 DOI:10.1145/2999504.3001080

A. Wilby, E. Slattery, Andrew Hostler, R. Kastner

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引用次数: 2

Abstract

The ability to obtain reliable, long-term visual data in marine habitats has the potential to transform biological surveys of marine species. However, the underwater environment poses several challenges to visual monitoring: turbidity and light attenuation impede the range of optical sensors, biofouling clouds lenses and underwater housings, and marine species typically range over a large area, far outside of the range of a single camera sensor. Due to these factors, a continuously-recording or time-lapse visual sensor will not be gathering useful data the majority of the time, wasting battery life and filling limited onboard storage with useless images. These limitations make visual monitoring difficult in marine environments, but visual data is invaluable to biologists studying the behaviors and interactions of a species. This paper describes an acoustic-based, autonomous triggering approach to counter the current limitations of underwater visual sensing, and motivates the need for a distributed sensor network for underwater visual monitoring.

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分布式水下视觉监测系统的自主声触发

在海洋栖息地获得可靠的长期目视数据的能力有可能改变海洋物种的生物调查。然而，水下环境给视觉监测带来了一些挑战:浑浊和光衰减阻碍了光学传感器、生物污浊云透镜和水下外壳的范围，海洋物种的活动范围通常很大，远远超出了单个相机传感器的范围。由于这些因素，连续记录或延时视觉传感器将无法在大多数时间内收集有用的数据，浪费电池寿命，并将有限的机载存储空间填满无用的图像。这些限制使得在海洋环境中进行视觉监测变得困难，但视觉数据对于生物学家研究物种的行为和相互作用是无价的。本文描述了一种基于声学的自主触发方法，以克服当前水下视觉传感的局限性，并激发了对分布式水下视觉监测传感器网络的需求。

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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Proceedings of the 11th International Conference on Underwater Networks & Systems

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