使用超材料降低下肢假体的噪声发射:实验验证。

Marco Puliti, Josephus Driessen, Nicolo Vitale, Federico Tessari, Simone Traverso, Matteo Laffranchi, Lorenzo De Michieli, Louena Shtrepi
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引用次数: 0

摘要

最近以人为中心的设计研究表明,声学噪声可能会影响生物医学设备的物理使用和心理接受。这些方面在假体领域尤其相关,在假体领域,设备响度通常与排斥反应有关。本研究的目的是探讨通过改进假肢外壳来降低假肢发出的声学噪声的可能性。首先,使用消声室对整个假体及其致动器(即噪声源)的声学噪声发射进行实验表征。研究结果表明,整个假体及其外壳都会放大致动器的噪声,并且噪声发射集中在一定的频率范围内。基于这些发现,假体外壳经过重新设计,包括一块基于亥姆霍兹谐振器的声学超材料面板,作为概念验证,可以衰减各自的噪声发射。实验验证表明,在假体外壳中使用这种超材料可以显著减少噪音排放,而不会影响假体的尺寸和重量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Use of Metamaterials to Reduce Acoustic Noise Emissions from Lower Limb Prostheses: An Experimental Validation.

Recent human-centred design studies suggest that acoustic noise could affect the physical use and psychological acceptance of a biomedical device. These aspects are especially relevant in the prosthetic field, in which device loudness is often related to rejection. The aim of the study is to inquire on the possibility to reduce the acoustic noise emitted by a robotic leg prosthesis by improving its casing. First, acoustic noise emissions are characterized experimentally using an anechoic chamber, both for the whole prosthesis, and for its actuator (i.e., noise source) in isolation. The characterizations show that the whole prosthesis including its casing amplify the actuator noise, and that noise emissions are concentrated within a certain frequency range. Based on these findings, the prosthesis casing has been redesigned to include a panel of Helmholtz resonator-based acoustic metamaterials as proof of concept, which attenuate respective noise emissions. Experimental validations show that the use of such metamaterials in the prosthesis casing can significantly reduce noise emissions without compromising on prosthesis size and weight.

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