通过声学响应编码潜空间变异自动编码器反向设计非参数化通风声学谐振器

Min Woo Cho, Seok Hyeon Hwang, Jun-Young Jang, Jin Yeong Song, Sun-kwang Hwang, Kyoung Je Cha, Dong Yong Park, Kyungjun Song, Sang Min Park
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引用次数: 0

摘要

通风声共振(VAR)是一种声学超材料,由于其出色的低频衰减性能和灵活的形状适应性,在需要通风的环境中成为一种声音衰减的替代方法。然而,由于 VAR 的非线性声学响应,VAR 的设计通常只能在有限的参数化设计空间内获得,而且设计依赖于数值模拟的迭代,这将消耗大量的计算时间和资源。本文提出了一种声学响应编码变异自动编码器(AR-VAE),这是一种基于变异自动编码器的新型生成式设计模型,即使在非参数化设计的情况下也能高效、准确地进行 VAR 反设计。AR-VAE 将高维声学响应与降维潜在空间中的 VAR 横截面图像相匹配,从而使 AR-VAE 能够生成具有目标声学响应的各种非参数化 VAR 横截面图像。与基于深度学习的传统参数搜索方法相比,AR-VAE 从目标声学响应生成的非参数化 VAR 的均方误差降低了 25 倍,同时平均均方误差和峰值频率方差也更低。通过 AR-VAE 将逆向设计的 VAR 组合在一起,设计出了多腔 VAR,用于宽带和多目标峰值频率衰减。所提出的设计方法为具有高维非线性物理响应的结构逆设计提供了一种新方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Inverse design of Non-parameterized Ventilated Acoustic Resonator via Variational Autoencoder with Acoustic Response-encoded Latent Space
Ventilated acoustic resonator(VAR), a type of acoustic metamaterial, emerge as an alternative for sound attenuation in environments that require ventilation, owing to its excellent low-frequency attenuation performance and flexible shape adaptability. However, due to the non-linear acoustic responses of VARs, the VAR designs are generally obtained within a limited parametrized design space, and the design relies on the iteration of the numerical simulation which consumes a considerable amount of computational time and resources. This paper proposes an acoustic response-encoded variational autoencoder (AR-VAE), a novel variational autoencoder-based generative design model for the efficient and accurate inverse design of VAR even with non-parametrized designs. The AR-VAE matches the high-dimensional acoustic response with the VAR cross-section image in the dimension-reduced latent space, which enables the AR-VAE to generate various non-parametrized VAR cross-section images with the target acoustic response. AR-VAE generates non-parameterized VARs from target acoustic responses, which show a 25-fold reduction in mean squared error compared to conventional deep learning-based parameter searching methods while exhibiting lower average mean squared error and peak frequency variance. By combining the inverse-designed VARs by AR-VAE, multi-cavity VAR was devised for broadband and multitarget peak frequency attenuation. The proposed design method presents a new approach for structural inverse-design with a high-dimensional non-linear physical response.
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