基于双曲调频信号的移动水声通信

Proceedings of the 11th International Conference on Underwater Networks & Systems Pub Date : 2016-10-24 DOI:10.1145/2999504.3001098

Juntao Yu, Yuan-xin Xu, Yifan Gu, Rui Yu, Tongchen Wang

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引用次数: 0

摘要

随着自主水下航行器(autonomous underwater vehicle, AUV)等移动平台在海洋信息采集、海底网络等各个领域的快速发展，迫切需要对AUV状态监测、AUV实时控制等领域进行鲁棒通信。我们期望建立一个强大的移动水声通信系统，并特别关注严重的多普勒效应和多径传播。利用双曲调频信号估计多普勒尺度，实现定时同步。在多径传播效应方面，HFM扩频调制(HFM- ss)提高了通信性能。在湖泊中进行了移动通信实验，湖面实验验证了水下机器人作为移动节点的HFM策略的有效性。

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Mobile underwater acoustic communication based on hyperbolic frequency modulation signal

With the rapid development of mobile platforms such as that of the autonomous underwater vehicle (AUV) applied in various areas such as marine information acquisition, and subsea networking, an urgent need exists for robust communication for AUV-state-monitoring, AUV real-time control, and other areas of development. We expect to establish a robust mobile underwater acoustic communication system and are particularly concerned with severe Doppler effect and multipath propagation. The hyperbolic frequency modulated (HFM) signal is used to estimate Doppler scale and achieve timing synchronization. As for the multipath propagation effect, HFM spread-spectrum modulation (HFM-SS) improves communication performance. An experiment of mobile communication was conducted in a lake, and the lake experiment has demonstrated the effectiveness of the HFM strategy, in which AUV played a role as a mobile node.

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

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