Time Domain Room Acoustic Solver with Fourth-Order Explicit FEM Using Modified Time Integration
This paper presents a proposal of a time domain room acoustic solver using novel fourth-order accurate explicit time domain finite element method (TD-FEM), with demonstration of its applicability for practical room acoustic problems. Although time domain wave acoustic methods have been extremely att...
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| Published in: | Applied sciences Vol. 10; no. 11; p. 3750 |
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01-06-2020
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| Abstract | This paper presents a proposal of a time domain room acoustic solver using novel fourth-order accurate explicit time domain finite element method (TD-FEM), with demonstration of its applicability for practical room acoustic problems. Although time domain wave acoustic methods have been extremely attractive in recent years as room acoustic design tools, a computationally efficient solver is demanded to reduce their overly large computational costs for practical applications. Earlier, the authors proposed an efficient room acoustic solver using explicit TD-FEM having fourth-order accuracy in both space and time using low-order discretization techniques. Nevertheless, this conventional method only achieves fourth-order accuracy in time when using only square or cubic elements. That achievement markedly impairs the benefits of FEM with geometrical flexibility. As described herein, that difficulty is solved by construction of a specially designed time-integration method for time discretization. The proposed method can use irregularly shaped elements while maintaining fourth-order accuracy in time without additional computational complexity compared to the conventional method. The dispersion and dissipation characteristics of the proposed method are examined respectively both theoretically and numerically. Moreover, the practicality of the method for solving room acoustic problems at kilohertz frequencies is presented via two numerical examples of acoustic simulations in a rectangular sound field including complex sound diffusers and in a complexly shaped concert hall. |
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| AbstractList | This paper presents a proposal of a time domain room acoustic solver using novel fourth-order accurate explicit time domain finite element method (TD-FEM), with demonstration of its applicability for practical room acoustic problems. Although time domain wave acoustic methods have been extremely attractive in recent years as room acoustic design tools, a computationally efficient solver is demanded to reduce their overly large computational costs for practical applications. Earlier, the authors proposed an efficient room acoustic solver using explicit TD-FEM having fourth-order accuracy in both space and time using low-order discretization techniques. Nevertheless, this conventional method only achieves fourth-order accuracy in time when using only square or cubic elements. That achievement markedly impairs the benefits of FEM with geometrical flexibility. As described herein, that difficulty is solved by construction of a specially designed time-integration method for time discretization. The proposed method can use irregularly shaped elements while maintaining fourth-order accuracy in time without additional computational complexity compared to the conventional method. The dispersion and dissipation characteristics of the proposed method are examined respectively both theoretically and numerically. Moreover, the practicality of the method for solving room acoustic problems at kilohertz frequencies is presented via two numerical examples of acoustic simulations in a rectangular sound field including complex sound diffusers and in a complexly shaped concert hall. Keywords: discretization error; explicit method; finite element method; high order scheme; room acoustic simulations; time domain This paper presents a proposal of a time domain room acoustic solver using novel fourth-order accurate explicit time domain finite element method (TD-FEM), with demonstration of its applicability for practical room acoustic problems. Although time domain wave acoustic methods have been extremely attractive in recent years as room acoustic design tools, a computationally efficient solver is demanded to reduce their overly large computational costs for practical applications. Earlier, the authors proposed an efficient room acoustic solver using explicit TD-FEM having fourth-order accuracy in both space and time using low-order discretization techniques. Nevertheless, this conventional method only achieves fourth-order accuracy in time when using only square or cubic elements. That achievement markedly impairs the benefits of FEM with geometrical flexibility. As described herein, that difficulty is solved by construction of a specially designed time-integration method for time discretization. The proposed method can use irregularly shaped elements while maintaining fourth-order accuracy in time without additional computational complexity compared to the conventional method. The dispersion and dissipation characteristics of the proposed method are examined respectively both theoretically and numerically. Moreover, the practicality of the method for solving room acoustic problems at kilohertz frequencies is presented via two numerical examples of acoustic simulations in a rectangular sound field including complex sound diffusers and in a complexly shaped concert hall. |
| Audience | Academic |
| Author | Sakagami, Kimihiro Yoshida, Takumi Okuzono, Takeshi |
| Author_xml | – sequence: 1 givenname: Takumi surname: Yoshida fullname: Yoshida, Takumi – sequence: 2 givenname: Takeshi orcidid: 0000-0003-4084-5115 surname: Okuzono fullname: Okuzono, Takeshi – sequence: 3 givenname: Kimihiro orcidid: 0000-0002-5322-7642 surname: Sakagami fullname: Sakagami, Kimihiro |
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| Cites_doi | 10.1121/1.5096154 10.1121/1.413817 10.1016/0022-460X(71)90408-1 10.1121/1.1909368 10.1061/JMCEA3.0000098 10.1016/j.apacoust.2015.10.027 10.1250/ast.28.295 10.1016/0022-460X(68)90198-3 10.1109/TASL.2013.2256897 10.1016/B978-1-85617-633-0.00012-5 10.1121/1.2164987 10.1109/TASL.2010.2045179 10.1007/978-4-431-54454-8 10.3397/1/376615 10.1016/j.apacoust.2010.06.004 10.1016/j.apacoust.2013.12.010 10.1063/1.1699639 10.1121/1.2011149 10.1121/1.4730920 10.1121/1.5109396 10.1121/1.417929 10.1109/TASLP.2017.2744799 10.1121/1.4926438 |
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| SubjectTerms | Acoustic properties Acoustical engineering Design and construction discretization error explicit method Finite element method high order scheme Methods room acoustic simulations Rooms time domain Time-domain analysis |
| Title | Time Domain Room Acoustic Solver with Fourth-Order Explicit FEM Using Modified Time Integration |
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