用I-SIMPA保持声室理想条件对净度(C50)的全面分析

IF 0.9 Q4 ACOUSTICS

Sound and Vibration Pub Date : 2022-01-01 DOI:10.32604/sv.2022.012085

R. Adithya Pillai, S. Sakthivel Murugan, Guruprasad Gupta

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引用次数: 0

摘要

在考虑的任何封闭环境中，可以看到声学参数在考虑的整个区域内本质上不是恒定的。在封闭的环境中，理想情况下最好保持声学参数不变，这样就会有更好的声音质量，从而使听众有更好的听觉感知。在实际应用中，混响时间、清晰度等声学参数并不严格符合理论得到的模式。在本文中，使用I-SIMPA在不同的声音传输等级(STC)值、声源位置、分布和腔室尺寸下进行了模拟，并深入了解了这些声学参数的行为以及必须注入系统以构建腔室的适当值。在模拟声环境时，考虑到实际的封闭房间，并对不同的表面吸收系数值(实际使用声音传输等级表示)和尺寸进行测试，以确定理想条件。

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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A Complete Analysis of Clarity (C50) Using I-SIMPA to Maintain Ideal Conditions in an Acoustic Chamber

In any closed environment considered, it can be seen that the acoustic parameters are inherently not constant over the entire area considered. In a closed environment, it is ideally preferred to maintain the acoustic parameters as constant so that there exists better quality of sound leading to better auditory perception with respect to the audience. Practically, some of the acoustic parameters like reverberation time and clarity do not strictly pertain to the pattern obtained theoretically. In this paper, simulations are carried out using I-SIMPA under different values of Sound Transmission Class (STC), source position, distribution and the chamber dimensions and provides an insight into the behaviour of these acoustic parameters and the appropriate values that have to be infused into the system to build the chamber. The acoustic environment is modelled keeping an actual closed room in mind and testing is done with respect to different values of surface absorption coefficients (practically indicated using Sound Transmission Class) and dimensions to determine ideal conditions.

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来源期刊

Sound and Vibration 物理-工程：机械

CiteScore

1.50

自引率

33.30%

发文量

审稿时长

>12 weeks

期刊介绍： Sound & Vibration is a journal intended for individuals with broad-based interests in noise and vibration, dynamic measurements, structural analysis, computer-aided engineering, machinery reliability, and dynamic testing. The journal strives to publish referred papers reflecting the interests of research and practical engineering on any aspects of sound and vibration. Of particular interest are papers that report analytical, numerical and experimental methods of more relevance to practical applications. Papers are sought that contribute to the following general topics: -broad-based interests in noise and vibration- dynamic measurements- structural analysis- computer-aided engineering- machinery reliability- dynamic testing