A practical guide to chirp spread spectrum for acoustic underwater communication in shallow waters

Proceedings of the 13th International Conference on Underwater Networks & Systems Pub Date : 2018-12-03 DOI:10.1145/3291940.3291964

Fabian Steinmetz, J. Heitmann, C. Renner

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引用次数: 11

Abstract

Small and cheap micro AUVs enable diverse underwater monitoring applications in shallow inshore waters; e.g., inspection of underwater assets, observation of water quality, and identification of pollution sources. The formation and collaboration of swarm members yet requires communication and self-localization based on cheap, miniature acoustic devices. However, this is severely hampered by the effects of multi-path propagation and scattering in shallow waters. In general, we discovered improvements of chirp-based---i.e., frequency-sweep---synchronization in these scenarios. This paper presents strategies to find proper chirp parameters. First, we study the benefits and applicability of chirp-based modulation against FSK. Second, we discuss the impact of the chirp parameters in real-world scenarios and identify sweep spots w.r.t. bandwidth to improve the standard deviation of the position in the time domain up to 86 % above this point. Third, we present instructions to choose these parameters in an efficient and appropriate way for any shallow water scenario.

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浅水水声通信中的啁啾扩频实用指南

小型廉价的微型auv可以在浅海中实现各种水下监测应用;例如:水下资产检查、水质观测、污染源识别等。群体成员的形成和协作还需要基于廉价、微型声学设备的通信和自我定位。然而，这严重阻碍了浅水中多径传播和散射的影响。总的来说，我们发现了基于啁啾的改进-即。频率扫描——这些场景中的同步。本文提出了寻找合适啁啾参数的策略。首先，我们研究了基于啁啾调制对抗FSK的优点和适用性。其次，我们讨论了实际场景中啁啾参数的影响，并识别了扫描点w.r.t.带宽，以提高该位置在时域上的标准偏差，高于此点高达86%。第三，我们提出了在任何浅水场景中以有效和适当的方式选择这些参数的说明。

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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