三维双周期多层结构的声学分析和形状优化框架

IF 3.8 2区物理与天体物理 Q2 COMPUTER SCIENCE, INTERDISCIPLINARY APPLICATIONS

Journal of Computational Physics Pub Date : 2024-10-09 DOI:10.1016/j.jcp.2024.113483

Fuhang Jiang , Toru Takahashi , Changjun Zheng , Toshiro Matsumoto , Haibo Chen

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引用次数: 0

摘要

本研究针对三维双周期多层结构提出了基于等几何边界元法（IGA-BEM）的声学分析和形状优化框架。该研究填补了文献空白，重点关注此类结构的形状优化，而这一问题此前尚未得到广泛探讨。不同声学介质之间的界面是一个无限的双周期表面，可由开放的非均匀有理 B 样条构造。针对双周期多层结构的声场分析开发了周期 IGA-BEM，其中使用了 Ewald 方法来加速周期格林函数的计算。此外，通过施加边界扰动和使用邻接变量法推导出了双周期多层边界的形状导数。NURBS 曲面的控制点被定义为形状设计变量，通过对形状导数公式进行离散化，可以快速计算所有形状敏感性。最后，根据形状敏感度，用移动渐近线法求解相应的形状优化问题，从而得到优化的形状设计。一系列数值实例验证了所提方法的准确性和适用性。

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Framework of acoustic analysis and shape optimization for three-dimensional doubly periodic multilayered structures

In this research, a framework of acoustic analysis and shape optimization, based on isogeometric boundary element method (IGA-BEM), is proposed for three-dimensional doubly periodic multilayered structures. The study addresses a gap in the literature by focusing on the shape optimization of such structures, which has not been extensively explored previously. The interface between different acoustic media is an infinite doubly periodic surface, which can be constructed by an open non-uniform rational B-splines. A periodic IGA-BEM is developed for the sound field analysis of the doubly periodic multilayered structure, in which the Ewald method is used to accelerate the calculation of periodic Green function. Furthermore, the shape derivative of the doubly periodic multiple boundaries is derived by imposing boundary perturbation and using the adjoint variable method. The control points of the NURBS surfaces are defined as the shape design variables, and all shape sensitivities can be quickly calculated by discretizing the shape derivative formula. Finally, in according with shape sensitivities, the corresponding shape optimization problem is solved by the method of moving asymptotes, so that the optimized shape design can be obtained. A series of numerical examples validates the accuracy and applicability of the proposed approaches.

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来源期刊

Journal of Computational Physics 物理-计算机：跨学科应用

CiteScore

7.60

自引率

14.60%

发文量

763

审稿时长

5.8 months

期刊介绍： Journal of Computational Physics thoroughly treats the computational aspects of physical problems, presenting techniques for the numerical solution of mathematical equations arising in all areas of physics. The journal seeks to emphasize methods that cross disciplinary boundaries. The Journal of Computational Physics also publishes short notes of 4 pages or less (including figures, tables, and references but excluding title pages). Letters to the Editor commenting on articles already published in this Journal will also be considered. Neither notes nor letters should have an abstract.