Low-Frequency Wave Propagation in the Cave

2023 20th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON) Pub Date : 2023-05-09 DOI:10.1109/ECTI-CON58255.2023.10153170

Atawit Jantaupalee, P. Khamsalee, R. Wongsan

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Abstract

Wireless communication within caves or tunnels has been researched for a long time. The major problem in cave communication is the limitation of wave propagation within the conductive cave wall, which makes it like the waves traveling in the waveguide. In addition, cave environments with curved and non-uniform paths that cause high attenuation differ from propagation in free space. However, the nature of the low frequencies, with their diffraction abilities and skin effects, allows them to communicate within caves. Therefore, this paper presents a study of low-frequency wave propagation in the cave by investigating the mechanism of low-frequency propagation within the cave. The method used was an experimental study by transmitting low-frequency waves through the cave cavity, which revealed the attenuation that occurred as the wave propagated in the cave. In conclusion, the significant factor is the skin depth generated by the electrical conductivity of the cave wall, which made it possible to explain the low-frequency propagation behavior in the cave and will use to develop a low-frequency propagation model.

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洞穴中的低频波传播

洞穴或隧道内的无线通信已经研究了很长时间。洞穴通信的主要问题是波在导电洞穴壁内的传播受到限制，使其像在波导中传播的波一样。此外，具有弯曲和非均匀路径的洞穴环境会导致高衰减，这与自由空间中的传播不同。然而，低频的性质，加上它们的衍射能力和皮肤效应，使它们能够在洞穴内交流。因此，本文通过对洞内低频传播机理的研究，对洞内低频波传播进行研究。所采用的方法是通过实验研究低频波通过洞腔，揭示了衰减发生的波在洞中传播。综上所述，洞壁电导率产生的表皮深度是影响低频传播的重要因素，这使得解释洞内低频传播行为成为可能，并将用于建立低频传播模型。

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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来源期刊

2023 20th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON)

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