A LFM-based adaptive wake-up signal detection approach for underwater acoustic communication system

Proceedings of the 13th International Conference on Underwater Networks & Systems Pub Date : 2018-12-03 DOI:10.1145/3291940.3291962

Haiyu Li, Deqing Wang, Yongjun Xie, Xiaoyi Hu

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Abstract

The paper focuses on wake-up mechanism for underwater acoustic communication (UAC) system. Wake-up mechanisms for UAC terminals play an important role in reducing the power consumption and extending the battery life. Compared with terrestrial wireless counterparts, the wake-up receivers for UAC terminals are challenged by the severe underwater acoustic channels, which are characterized by doubly-selective fading and low signal-to-noise ratio (SNR). Furthermore, the wake-up receiver is with weak processing ability. The paper proposes a wake-up mechanism named as channel-adaptive detection and joint decision (ChAD-JD). ChAD-JD uses linear frequency modulation (LFM) as wake-up signals. In order to increase the detection probability and reduce the probability of false alarm, the novel approach applies channel-adaptive detection and joint decision methods, respectively. Simulation and experimental results show that ChAD-JD is more reliable and effective compared with traditional LFM-based detection methods with a fixed threshold.

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基于lfm的水声通信系统自适应唤醒信号检测方法

研究了水声通信系统的唤醒机制。UAC终端的唤醒机制在降低功耗和延长电池寿命方面发挥着重要作用。与地面无线接收机相比，UAC终端唤醒接收机面临着严峻的水声信道挑战，该信道具有双选择性衰落和低信噪比的特点。此外，唤醒接收器的处理能力较弱。提出了一种信道自适应检测与联合决策(ChAD-JD)唤醒机制。ChAD-JD使用线性调频(LFM)作为唤醒信号。为了提高检测概率和降低虚警概率，该方法分别采用通道自适应检测和联合决策方法。仿真和实验结果表明，与传统的基于lfm的固定阈值检测方法相比，ChAD-JD更加可靠和有效。

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 13th International Conference on Underwater Networks & Systems

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