Underwater Acoustic Communication Using Vector Sensor in KOREX-17

2018 Tenth International Conference on Ubiquitous and Future Networks (ICUFN) Pub Date : 2018-07-01 DOI:10.1109/ICUFN.2018.8436828

Sunhyo Kim, Hyeonsu Kim, Kang-Hoon Choi, J. Choi, S. Son

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Abstract

Sound propagating through shallow-water waveguide undergoes inter-symbol interference (ISI) by multiple interactions with sea surface and bottom interfaces. Time reversal techniques using an array of spatially separated receivers have been widely used to reduce the effect of ISI. However, the time reversal method requires a large-size receiver array to improve the communication performance, which results in the degradation of space efficiency. The vector sensor measures acoustic pressure signal as well as x, y, and z-components of the particle velocity at a single point, and these signals can be used as a single-input multiple-output system (SIMO) for underwater acoustic communication. An underwater communication experiment using a vector sensor was made as part of the Korea Reverberation Experiment (KOREX-17) on May 24–25, 2017 in shallow water at location 34°43’ N, 128°39’ E. The communication results show that proposed technique(the block-based time reversal technique using the vector sensor) is useful in the time varying shallow water.

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基于矢量传感器的KOREX-17水声通信

声音在浅水波导中传播时，由于与海面和海底界面的多重相互作用，会产生码间干扰。利用空间分离接收器阵列的时间反转技术已被广泛用于减少ISI的影响。然而，时间反转方法需要大尺寸的接收阵列来提高通信性能，从而导致空间效率的下降。矢量传感器在单点处测量声压信号以及粒子速度的x、y和z分量，这些信号可作为单输入多输出系统(SIMO)用于水声通信。作为韩国混响实验(KOREX-17)的一部分，于2017年5月24日至25日在34°43 ' N, 128°39 ' e的浅水区进行了使用矢量传感器的水下通信实验。通信结果表明，所提出的技术(使用矢量传感器的基于块的时间反演技术)在时变浅水中是有用的。

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2018 Tenth International Conference on Ubiquitous and Future Networks (ICUFN)

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