Bringing Underwater Networking to the 21st Century

IF 0.7 Q4 TELECOMMUNICATIONS

GetMobile-Mobile Computing & Communications Review Pub Date : 2023-02-01 DOI:10.1145/3583571.3583578

Justin Chan, Tuochao Chen, Shyamnath Gollakota

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Abstract

The state of underwater networking today is similar to ARPANET back in the 1970s, when only a select few people with expensive hardware resources had access to the technology. We present the first acoustic system that brings underwater networking capabilities to existing mobile devices like smartphones and smart watches. Our software-only solution leverages audio sensors, i.e., microphones and speakers, ubiquitous in today's devices, to enable acoustic underwater communication between mobile devices. To achieve this, we design a communication system that adapts in real-time to differences in frequency responses across mobile devices, changes in multipath and noise levels at different locations and dynamic channel changes due to mobility. We evaluate our system in six different real-world underwater environments in the presence of boats, ships and people fishing and kayaking. With the release of Apple Watch Ultra that is specifically designed for underwater settings, our software-based approach has the potential to democratize underwater networking capabilities by making them widely available to anyone with a mobile device.

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将水下网络带入21世纪

今天的水下网络状态类似于20世纪70年代的阿帕网，当时只有少数人拥有昂贵的硬件资源才能使用这项技术。我们展示了首个将水下网络功能引入智能手机和智能手表等现有移动设备的声学系统。我们的纯软件解决方案利用音频传感器，即麦克风和扬声器，在当今的设备中无处不在，以实现移动设备之间的声学水下通信。为了实现这一目标，我们设计了一种通信系统，该系统可以实时适应不同移动设备的频率响应差异、不同位置的多径和噪声水平变化以及由于移动性而导致的动态信道变化。我们在六种不同的真实水下环境中评估了我们的系统，这些环境中有船只、船只、钓鱼和划皮艇的人。随着专为水下环境设计的Apple Watch Ultra的发布，我们基于软件的方法有可能使水下网络功能大众化，让任何拥有移动设备的人都能广泛使用它们。

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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