Martin Pollow scite author profile

The radiation patterns of acoustic sources have great significance in a wide range of applications, such as measuring the directivity of loudspeakers and investigating the radiation of musical instruments for auralization. Recently, surrounding spherical microphone arrays have been studied for sound field analysis, facilitating measurement of the pressure around a sphere and the computation of the spherical harmonics spectrum of the sound source. However, the sound radiation pattern may be affected by the location of the source inside the microphone array, which is an undesirable property when aiming to characterize source radiation in a unique manner. This paper presents a theoretical analysis of the spherical harmonics spectrum of spatially translated sources and defines four measures for the misalignment of the acoustic center of a radiating source. Optimization is used to promote optimal alignment based on the proposed measures and the errors caused by numerical and array-order limitations are investigated. This methodology is examined using both simulated and experimental data in order to investigate the performance and limitations of the different alignment methods.

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Variable Directivity for Platonic Sound Sources Based on Spherical Harmonics Optimization

Pollow¹,

Behler²

2009

Acta Acustica united with Acustica

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Including directivity patterns in room acoustical measurements

Pollow¹,

Klein²,

Dietrich³

et al. 2013

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Spherical Harmonics Based HRTF Datasets: Implementation and Evaluation for Real-Time Auralization

Richter¹,

Pollow²,

Wefers³

et al. 2014

Acta Acustica united with Acustica

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Martin Pollow

Calculation of Head-Related Transfer Functions for Arbitrary Field Points Using Spherical Harmonics Decomposition

Acoustic centering of sources measured by surrounding spherical microphone arrays

Variable Directivity for Platonic Sound Sources Based on Spherical Harmonics Optimization

Including directivity patterns in room acoustical measurements

Spherical Harmonics Based HRTF Datasets: Implementation and Evaluation for Real-Time Auralization

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