An Efficient Pulse Position Modulation Scheme to Improve the Bit Rate of Photoacoustic Communication

2023 32nd Wireless and Optical Communications Conference (WOCC) Pub Date : 2023-05-05 DOI:10.1109/WOCC58016.2023.10139346

Md. Shafiqul Islam, M. Younis, M. Mahmud, F. Choa

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Abstract

Wireless communication from air-to-underwater is quite challenging because of the lack of proper physical signal that propagates well in both air and water medium. Photoacoustic energy transfer mechanism is the most promising method for such cross-medium communication, where a high energy pulsed light is focused on the water surface, causing the generation of an acoustic signal inside the water. Since acoustic signals can travel a long distance inside the water, this method enables an airborne unit to reach nodes at increased underwater depth. Yet the achievable bit rate for this process is very low. When a pulsed laser light with a higher repetition rate is focused inside the water, a vapor cloud is generated around the focus point, which blocks subsequent generation of acoustic signal and consequently limits the achievable bit rate. This paper opts to overcome such a limitation by proposing a novel pulse position modulation technique which can avoid such generation of vapor cloud and increases the bit rate significantly.

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一种提高光声通信比特率的有效脉冲位置调制方案

由于缺乏在空气和水介质中都能良好传播的物理信号，从空中到水下的无线通信非常具有挑战性。光声能量传递机制是这种跨介质通信最有前途的方法，它将高能脉冲光聚焦在水面上，在水中产生声信号。由于声信号可以在水中传播很长一段距离，这种方法使机载设备能够在水下深度增加的情况下到达节点。然而，该过程的可实现比特率非常低。当具有较高重复频率的脉冲激光聚焦在水中时，在焦点周围会产生一层蒸汽云，这会阻碍后续声信号的产生，从而限制可实现的比特率。为了克服这一限制，本文提出了一种新的脉冲位置调制技术，该技术可以避免蒸汽云的产生，并显着提高比特率。

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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2023 32nd Wireless and Optical Communications Conference (WOCC)

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