Frequency-domain sound field from the perspective of band-limited functions.

IF 2.1 2区 物理与天体物理 Q2 ACOUSTICS
Takahiro Iwami, Akira Omoto
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引用次数: 0

Abstract

A model that approximates the sound field well is useful in various fields, such as acoustic signal processing and numerical simulation. We have proposed an effective model in which the wideband instantaneous sound field is regarded as an element of a spherically band-limited function space, using the reproducing kernel of that space. In this paper, the frequency-domain sound field is regarded as an element of some band-limited function space, and a representation of the field as a linear combination of the reproducing kernel in that space is proposed. This model has the strongest representational capacity of all function systems when we know only the sound pressure information at arbitrary positions. The proposed model can be considered a generalization of the existing three-dimensional sound field model using the reproducing kernel of the solution space of the Helmholtz equation to the spatial dimension. One of the advantages of capturing the frequency-domain sound field in this way is the simplicity achieved for the estimation formula of the wavenumber spectrum. Two numerical simulations were conducted to validate the proposed methods.

从频带限制函数的角度看频域声场。
一个能很好逼近声场的模型在声学信号处理和数值模拟等多个领域都很有用。我们提出了一种有效的模型,将宽带瞬时声场视为球形带限函数空间的一个元素,并使用该空间的重现核。在本文中,频域声场被视为某个带限函数空间的一个元素,并提出了一种将频域声场表示为该空间中再现核的线性组合的方法。当我们只知道任意位置的声压信息时,该模型在所有函数系统中具有最强的表示能力。所提出的模型可被视为现有三维声场模型在空间维度上使用亥姆霍兹方程解空间的重现核的一般化。以这种方式捕捉频域声场的优点之一是简化了波谱的估算公式。为了验证所提出的方法,我们进行了两次数值模拟。
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
CiteScore
4.60
自引率
16.70%
发文量
1433
审稿时长
4.7 months
期刊介绍: Since 1929 The Journal of the Acoustical Society of America has been the leading source of theoretical and experimental research results in the broad interdisciplinary study of sound. Subject coverage includes: linear and nonlinear acoustics; aeroacoustics, underwater sound and acoustical oceanography; ultrasonics and quantum acoustics; architectural and structural acoustics and vibration; speech, music and noise; psychology and physiology of hearing; engineering acoustics, transduction; bioacoustics, animal bioacoustics.
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