Power Response and Modal Decay Estimation of Room Reflections from Spherical Microphone Array Measurements Using Eigenbeam Spatial Correlation Model

Bastine, Amy; Abhayapala, Thushara D.; Zhang, Jihui

doi:10.3390/app11167688

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2022

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“…The application of the eigenbeam spatial correlation method in estimating the time frequency-dependent directional reflection powers and model decay times was presented by Bastine et al [10]. The experimental results evaluated the application of the proposed technique for two rooms with distinct environments using their room impulse response measurements recorded by a spherical microphone array.…”

Section: Power Response and Modal Decay Estimation Of The Room Reflec...mentioning

confidence: 99%

Special Issue: Advances in Architectural Acoustics

2022

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Section: Power Response and Modal Decay Estimation Of The Room Reflec...mentioning

confidence: 99%

Special Issue: Advances in Architectural Acoustics

2022

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Time-frequency-dependent directional analysis of room reflections using eigenbeam processing and von Mises–Fisher clustering

Bastine

Abhayapala

Zhang

2022

The Journal of the Acoustical Society of America

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The knowledge of frequency-dependent spatiotemporal features of the reflected soundfield is essential in optimizing the perception quality of spatial audio applications. For this purpose, we need a reliable room acoustic analyzer that can conceive the spatial variations in a decaying reflected soundfield according to the frequency-dependent surface properties and source directivity. This paper introduces a time-frequency-dependent angular reflection power distribution model represented by a von Mises–Fisher (vMF) mixture function to facilitate manifold analysis of a reverberant soundfield. The proposed approach utilizes the spatial correlation of higher-order eigenbeams to deduce the directional reflection power vectors, which are then synthesized into a vMF mixture model. The experimental study demonstrates the directional power variations of early reflections and late reverberations across different frequencies. This work also introduces a measure called the directivity time-span to quantify the duration of anisotropic reflections before it decays into a totally diffused field. We validate the subband performance by comparing it with the eigenbeam multiple signal classification method. The results prove the influence of source position, source directivity, and room environment in the distribution of reflection power, whereas the directivity time-span behaves independent of the source positions.

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Power Response and Modal Decay Estimation of Room Reflections from Spherical Microphone Array Measurements Using Eigenbeam Spatial Correlation Model

Cited by 2 publications

References 38 publications

Special Issue: Advances in Architectural Acoustics

Special Issue: Advances in Architectural Acoustics

Time-frequency-dependent directional analysis of room reflections using eigenbeam processing and von Mises–Fisher clustering

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