Abdullah Fahim scite author profile

In this paper, we propose an efficient technique for estimating individual power spectral density (PSD) components, i.e., PSD of each desired sound source as well as of noise and reverberation, in a multi-source reverberant sound scene with coherent background noise. We formulate the problem in the spherical harmonics domain to take the advantage of the inherent orthogonality of the spherical harmonics basis functions and extract the PSD components from the crosscorrelation between the different sound field modes. We also investigate an implementation issue that occurs at the nulls of the Bessel functions and offer an engineering solution. The performance evaluation takes place in a practical environment with a commercial microphone array in order to measure the robustness of the proposed algorithm against all the deviations incurred in practice. We also exhibit an application of the proposed PSD estimator through a source septation algorithm and compare the performance with a contemporary method in terms of different objective measures.

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PSD estimation of multiple sound sources in a reverberant room using a spherical microphone array

Fahim

Samarasinghe

Abhayapala

2017

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We propose an efficient method to estimate source power spectral densities (PSDs) in a multi-source reverberant environment using a spherical microphone array. The proposed method utilizes the spatial correlation between the spherical harmonics (SH) coefficients of a sound field to estimate source PSDs. The use of the spatial crosscorrelation of the SH coefficients allows us to employ the method in an environment with a higher number of sources compared to conventional methods. Furthermore, the orthogonality property of the SH basis functions saves the effort of designing specific beam patterns of a conventional beamformer-based method. We evaluate the performance of the algorithm with different number of sources in practical reverberant and non-reverberant rooms. We also demonstrate an application of the method by separating source signals using a conventional beamformer and a Wiener post-filter designed from the estimated PSDs.

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Investigating the Effects of (Empty) Promises on Human-Automation Interaction and Trust Repair

Albayram

Jensen

Khan

et al. 2020

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Abdullah Fahim

Malaria control in Afghanistan: progress and challenges

Sound field separation in a mixed acoustic environment using a sparse array of higher order spherical microphones

PSD Estimation and Source Separation in a Noisy Reverberant Environment Using a Spherical Microphone Array

PSD estimation of multiple sound sources in a reverberant room using a spherical microphone array

Investigating the Effects of (Empty) Promises on Human-Automation Interaction and Trust Repair

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