房间间声传输的光束跟踪预测及扩散场理论的准确性

Q4 Physics and Astronomy

Canadian Acoustics - Acoustique Canadienne Pub Date : 2017-08-20 DOI:10.14288/1.0362395

Amin Mahmud, M. Hasan, M. Hodgson

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引用次数: 0

摘要

本文使用基于能量和相位的波束跟踪模型验证了许多从业者使用的房间到房间声音传输的经典扩散场预测公式的适用性。现有的具有镜面反射表面的空平行六面体房间的波束跟踪模型已被用于预测由公共分区分隔的源和接收器房间之间的房间到房间的声音传输。为了简单起见，最初通过均匀公共壁的声音传输被建模为具有频率无关传输损耗的局部反应均匀分区。通过文献中ODEON的现有结果，并通过将预测结果与CATT声学房间到房间的声音传输模型进行比较，基于能量的波束跟踪模型已在源房间和接收器房间中得到验证。基于相位的光束跟踪模型已在源室内与COMSOL预测进行了比较验证。然后，使用新的模型来研究经典散射场公式在源和接收器房间中的精度。对于立方体房间形状和所有房间表面的均匀吸收（即对于扩散声场），在光束跟踪预测中，发现扩散场预测公式在两个房间中都非常准确；然而，随着房间形状和表面吸收分布（即更多的非扩散声场）的变化，它的精度显著降低。

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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BEAM-TRACING PREDICTION OF ROOM-TO-ROOM SOUND TRANSMISSION AND THE ACCURACY OF DIFFUSE-FIELD THEORY

This paper validates the applicability of the classical diffuse-field prediction formula of room-to-room sound transmission used by many practitioners using energy- and phase-based beam-tracing models. An existing beam-tracing model for empty, parallelepiped rooms with specularly-reflecting surfaces has been adapted to predict room-to-room sound transmission between the source and receiver rooms separated by a common partition. For simplicity, initially sound transmission through the homogeneous common wall is modelled as one locally-reacting homogenous partition with frequency-independent transmission loss. The energy-based beam-tracing model has been validated in both source and receiver rooms through existing results from ODEON in the literature and by comparing the prediction results with CATT-Acoustic room-to-room sound transmission model. The phase-based beam-tracing model has been validated in the source room in comparison with COMSOL predictions. The new models are then used to investigate the accuracy of the classical diffuse-field formula in both source and receiver rooms. The diffuse-field prediction formula is found quite accurate in both the rooms in the beam-tracing prediction for cubic room shape and uniform absorption of all the room surfaces (i.e. for diffuse sound fields); however, it’s accuracy decreases significantly with changes in the shape of the room and the distribution of its surface absorption (i.e. more non-diffuse sound fields).

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来源期刊

Canadian Acoustics - Acoustique Canadienne Physics and Astronomy-Acoustics and Ultrasonics

CiteScore

0.50

自引率

0.00%

发文量

期刊介绍： The CAA is the professional, interdisciplinary organization that : - fosters communication among people working in all areas of acoustics in Canada - promotes the growth and practical application of knowledge in acoustics - encourages education, research, protection of the environment, and employment in acoustics - is an umbrella organization through which general issues in education, employment and research can be addressed at a national and multidisciplinary level