Sound propagation throughout the orchestra. Measurement, simulation, and modelling

IF 3.4 2区物理与天体物理 Q1 ACOUSTICS

Applied Acoustics Pub Date : 2024-11-13 DOI:10.1016/j.apacoust.2024.110389

Emanuele Porcinai, Stefan Weinzierl

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Abstract

One of the main challenges in predicting the room acoustic conditions on a stage is taking into account the presence of the ensemble and its effect on sound propagation. In a scenario where diffraction effects are dominant and the shape and arrangement of obstacles are not only highly complex but also time-varying, geometric acoustic methods do not yet provide sufficient accuracy for calculating room acoustic parameters or for auralisation. To address this limitation, anechoic measurements from a group of seated subjects were combined with Boundary Element Method simulations at lower frequencies to obtain broadband insertion loss values for a total of 104 paths within a typical orchestra setup. These transfer functions have been converted into a Diffraction-Induced Attenuation by Seated Persons FIR Database, which includes linear phase approximations of the direct sound as well as floor reflections, and reproduces the attenuation that occurs between players in an orchestra. Based on these filters, a parametric model was developed to predict insertion loss within different groups of seated people. This can be used in geometric acoustic simulations and auralisations to account for insertion loss within different groups of seated people, as they occur in many acoustically relevant everyday situations.

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声音在管弦乐队中的传播。测量、模拟和建模

预测舞台房间声学条件的主要挑战之一是考虑到合奏的存在及其对声音传播的影响。在衍射效应占主导地位，障碍物的形状和排列不仅非常复杂，而且随时间变化的情况下，几何声学方法还不能提供足够准确的房间声学参数计算或听觉化。为了解决这一局限性，我们将一组坐着的受试者的消声测量结果与低频下的边界元法模拟相结合，获得了一个典型管弦乐队内总共 104 条路径的宽带插入损耗值。这些传递函数已被转换为坐姿人员衍射衰减 FIR 数据库，其中包括直达声和地板反射的线性相位近似值，并再现了管弦乐队中演奏者之间的衰减。在这些滤波器的基础上，开发了一个参数模型，用于预测不同坐位人群的插入损耗。该模型可用于几何声学模拟和听觉分析，以计算不同坐席人群内的插入损失，因为在许多与声学相关的日常情况中都会出现这种情况。

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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来源期刊

Applied Acoustics 物理-声学

CiteScore

7.40

自引率

11.80%

发文量

618

审稿时长

7.5 months

期刊介绍： Since its launch in 1968, Applied Acoustics has been publishing high quality research papers providing state-of-the-art coverage of research findings for engineers and scientists involved in applications of acoustics in the widest sense. Applied Acoustics looks not only at recent developments in the understanding of acoustics but also at ways of exploiting that understanding. The Journal aims to encourage the exchange of practical experience through publication and in so doing creates a fund of technological information that can be used for solving related problems. The presentation of information in graphical or tabular form is especially encouraged. If a report of a mathematical development is a necessary part of a paper it is important to ensure that it is there only as an integral part of a practical solution to a problem and is supported by data. Applied Acoustics encourages the exchange of practical experience in the following ways: • Complete Papers • Short Technical Notes • Review Articles; and thereby provides a wealth of technological information that can be used to solve related problems. Manuscripts that address all fields of applications of acoustics ranging from medicine and NDT to the environment and buildings are welcome.