Design and evaluation of a low-cost acoustic chamber for underwater networking experiments

Proceedings of the 11th International Conference on Underwater Networks & Systems Pub Date : 2016-10-24 DOI:10.1145/2999504.3001086

F. Meneghello, Filippo Campagnaro, R. Diamant, P. Casari, M. Zorzi

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引用次数: 8

Abstract

Testing acoustic equipment before sea experiments is a necessary step, which usually requires large and expensive facilities. In this paper, we present the design guidelines, structure and details of a small-scale, low-cost acoustic chamber for in-lab testing of underwater acoustic networks. The chamber has been assembled with the objective to be of low cost and limited size: therefore, its installation fits small university laboratories that cannot afford large testing pools. The chamber was designed to mitigate the extreme multi-path which, in a small chamber, makes communications unreliable. Considering this challenge, our chamber includes a phono-absorbing coating on the walls and floor, to be optionally complemented by a panel of the same coating material, to be installed at the water surface level. After providing the details of several phono-absorbing materials to motivate our specific choice, we carry out a number of transmission experiment with EvoLogics modems, proving that our design substantially reduces the severe multi-path and thereby improves the communications quality.

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水下网络实验用低成本声室的设计与评价

在海上实验之前对声学设备进行测试是必要的一步，通常需要大型和昂贵的设备。本文介绍了一种用于水声网络室内测试的小型、低成本声室的设计原则、结构和细节。该腔室的组装目标是低成本和有限的尺寸:因此，它的安装适合无法负担大型测试池的小型大学实验室。该腔室的设计是为了减轻极端多路径，在一个小腔室中，这种多路径会使通信不可靠。考虑到这一挑战，我们的腔室在墙壁和地板上包括一个吸音涂层，可以选择由相同涂层材料的面板补充，安装在水面上。在提供了几种吸音材料的详细信息以激发我们的具体选择之后，我们用EvoLogics调制解调器进行了大量的传输实验，证明我们的设计大大减少了严重的多径，从而提高了通信质量。

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 11th International Conference on Underwater Networks & Systems

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