傅里叶变换
电阻抗
声学
离散傅里叶变换(通用)
声阻抗
物理
傅里叶分析
数学分析
计算机科学
数学
短时傅里叶变换
量子力学
出处
期刊:Journal of Vibration and Acoustics
日期:2025-09-19
卷期号:: 1-13
摘要
Abstract This paper presents a new approach to numerical acoustics. By discretizing a spatial continuum within a square grid of points, the surface acoustic impedance of a radiator is computed directly using plane waves as basis functions in a Discrete Fourier Transform (DFT) formulation. The novelty of this study is rewriting the expression for plane wave propagation in this format. This is possible since the both the plane wave pressure and its derivative (velocity) contain the same cosine and sine terms, i.e., orthogonal functions identical to the those of the DFT. A distinct advantage of the resulting orthogonal matrix is that use of its Hermitian (conjugate transpose) avoids matrix division. This relationship avoids the usual problems with singularities often encountered when inverting matrices. The inherent simplicity of this numerical method is the essence of the paper. This feature will facilitate easy dissemination and use among students, engineers and scientists in relevant disciplines.
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