Design and experiment of frequency offset estimation and compensation in high-speed underwater acoustic communication

2015 International Conference on Wireless Communications & Signal Processing (WCSP) Pub Date : 2015-12-03 DOI:10.1109/WCSP.2015.7341189

Yunqiang Bi, Zhiqiang He, Weipeng Jiang, K. Niu, Y. Rong

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引用次数: 5

Abstract

In underwater acoustic (UWA) communication, Doppler effect is particularly severe due to the slow velocity of sound and the complex variant UWA channel environment. Carrier frequency offset (CFO) can result in extension and compression of the received signal in time domain and has a direct effect on the performance of decoding. In this paper, we propose a new scheme of CFO estimation and compensation for a high speed UWA communication system. There are three steps including coarse CFO estimation, fine CFO estimation and linear interpolation, which are taken to estimate and compensate the CFO. The scheme can eliminate the phenomenon of ambiguous phase and tolerate quick random variation of the CFO in UWA channel. A UWA communication experiment was carried out in December 2012 in the Indian Ocean, off Rottnest Island, Western Australia. With the proposed algorithm in this paper, the UWA system can achieve an average of 1.95% uncoded BER with QPSK modulation at the 1km range and 5.57% with BPSK at the 10km range.

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高速水声通信中频偏估计与补偿的设计与实验

在水声通信中，由于声速慢和水声信道环境复杂多变，多普勒效应尤为严重。载波频偏会导致接收信号在时域上的扩展和压缩，直接影响译码性能。针对高速UWA通信系统，提出了一种新的CFO估计与补偿方案。采用粗糙CFO估计、精细CFO估计和线性插值三个步骤对CFO进行估计和补偿。该方案能够消除UWA信道中相位模糊现象，并能容忍CFO的快速随机变化。2012年12月，西澳大学在西澳大利亚州罗特尼斯岛附近的印度洋进行了一项通信实验。采用本文提出的算法，UWA系统在1km范围内采用QPSK调制可实现1.95%的平均无编码误码率，在10km范围内采用BPSK调制可实现5.57%的平均无编码误码率。

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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2015 International Conference on Wireless Communications & Signal Processing (WCSP)

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