Andreas Schwarz scite author profile

The estimation of the time- and frequency-dependent coherent-to-diffuse power ratio (CDR) from the measured spatial coherence between two omnidirectional microphones is investigated. Known CDR estimators are formulated in a common framework, illustrated using a geometric interpretation in the complex plane, and investigated with respect to bias and robustness towards model errors. Several novel unbiased CDR estimators are proposed, and it is shown that knowledge of either the direction of arrival (DOA) of the target source or the coherence of the noise field is sufficient for unbiased CDR estimation. The validity of the model for the application of CDR estimates to dereverberation is investigated using measured and simulated impulse responses. A CDR-based dereverberation system is presented and evaluated using signal-based quality measures as well as automatic speech recognition accuracy. The results show that the proposed unbiased estimators have a practical advantage over existing estimators, and that the proposed DOA-independent estimator can be used for effective blind dereverberation.Comment: submitted to IEEE/ACM Transactions on Audio, Speech, and Language Processing, 201

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Unbiased coherent-to-diffuse ratio estimation for dereverberation

Schwarz

Kellermann

2014

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We investigate the estimation of the time-and frequencydependent coherent-to-diffuse ratio (CDR) from the measured spatial coherence between two omnidirectional microphones. We illustrate the relationship between several known CDR estimators using a geometric interpretation in the complex plane, discuss the problem of estimator bias, and propose unbiased versions of the estimators. Furthermore, we show that knowledge of either the direction of arrival (DOA) of the target source or the coherence of the noise field is sufficient for an unbiased CDR estimation. Finally, we apply the CDR estimators to the problem of dereverberation, using automatic speech recognition word error rate as objective performance measure.

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The elitist particle filter based on evolutionary strategies as novel approach for nonlinear acoustic echo cancellation

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Hofmann

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HRTF-based robust least-squares frequency-invariant beamforming

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Huemmer

Lamani

et al. 2015

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A stereophonic acoustic signal extraction scheme for noisy and reverberant environments

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et al. 2013

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Andreas Schwarz

Coherent-to-Diffuse Power Ratio Estimation for Dereverberation

Unbiased coherent-to-diffuse ratio estimation for dereverberation

The elitist particle filter based on evolutionary strategies as novel approach for nonlinear acoustic echo cancellation

HRTF-based robust least-squares frequency-invariant beamforming

A stereophonic acoustic signal extraction scheme for noisy and reverberant environments

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