A Single-Channel Non-Intrusive C50 Estimator Correlated With Speech Recognition Performance

Parada, Pablo Peso; Sharma, Dushyant; Laínez, José Enrique García; Barreda, Daniel; Waterschoot, Toon van; Naylor, Patrick A.

doi:10.1109/taslp.2016.2521486

Cited by 25 publications

(20 citation statements)

References 35 publications

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“…In this paper we limit our discussion to the case of additive noise and the effects of speech codecs. Other degradations such as reverberation and effects of noise suppression are not considered here but the reader is referred to the appropriate literature elsewhere on nonintrusive reverberation estimation such as [43]. The remainder of this paper is organized as follows, in Section II we review the non-intrusive LCQA method [22] and describe LCIA, a development of LCQA for non-intrusive speech intelligiblity assessment.…”

Section: A Overviewmentioning

confidence: 99%

“…A non-intrusive method for speech quality and intelligibility estimation of reverberant and de-reverberated speech was presented in [41] and a method for predicting the intelligibility of reverberant speech for cochlear implant listeners was presented in [42]. A recent method for non-intrusive estimation of the C50 room acoustic parameter was presented in [43] and shown to correlate with speech quality and speech recognition performance. The low complexity speech intelligibility algorithm (LCIA) is a datadriven non-intrusive measure that has been shown to have a high per-condition correlation with subjective intelligibility scores of noisy and noise suppressed speech [44].…”

Section: Introductionmentioning

confidence: 99%

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A data-driven non-intrusive measure of speech quality and intelligibility

Sharma

Wang

Naylor

et al. 2016

Speech Communication

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Section: A Overviewmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

A data-driven non-intrusive measure of speech quality and intelligibility

Sharma

Wang

Naylor

et al. 2016

Speech Communication

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“…Tsilfidis et al showed that C50 and D50 can be used to predict phoneme recognition rate [15]. Parada et al proposed a blind C50 estimator that is correlated with phoneme recognition [16].…”

Section: Introductionmentioning

confidence: 99%

Predicting Word Error Rate for Reverberant Speech

Gamper

Emmanouilidou

Braun

et al. 2020

ICASSP 2020 - 2020 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)

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Reverberation negatively impacts the performance of automatic speech recognition (ASR). Prior work on quantifying the effect of reverberation has shown that clarity (C50), a parameter that can be estimated from the acoustic impulse response, is correlated with ASR performance. In this paper we propose predicting ASR performance in terms of the word error rate (WER) directly from acoustic parameters via a polynomial, sigmoidal, or neural network fit, as well as blindly from reverberant speech samples using a convolutional neural network (CNN). We carry out experiments on two state-ofthe-art ASR models and a large set of acoustic impulse responses (AIRs). The results confirm C50 and C80 to be highly correlated with WER, allowing WER to be predicted with the proposed fitting approaches. The proposed non-intrusive CNN model outperforms C50-based WER prediction, indicating that WER can be estimated blindly, i.e., directly from the reverberant speech samples without knowledge of the acoustic parameters.

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“…However, in many cases, the clean signal is not available (e.g., audio record or voice received in telephony), so that non-intrusive (or reference-free) measures are required. Most of them, like NIRA [6] or NISI [7], are based on machinelearning techniques and derive indicators from a large set of signal parameters by maximizing the correlation with reference indicators on a training corpus. The drawback of this approach is that the indicators depend on the training conditions and that they are blind to the physical grounds of intelligibility.…”

Section: Introductionmentioning

confidence: 99%

An image-inspired audio sharpness index

Mahé

Moisan

Mitrea

2017

2017 25th European Signal Processing Conference (EUSIPCO)

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Abstract-We propose a new non-intrusive (reference-free) objective measure of speech intelligibility that is inspired from previous works on image sharpness. We define the audio Sharpness Index (aSI) as the sensitivity of the spectrogram sparsity to the convolution of the signal with a white noise, and we calculate a closed-form formula of the aSI. Experiments with various speakers, noise and reverberation conditions show a high correlation between the aSI and the well-established Speech Transmission Index (STI), which is intrusive (full-reference). Additionally, the aSI can be used as an intelligibility or clarity criterion to drive sound enhancement algorithms. Experimental results on stereo mixtures of two sounds show that blind source separation based on aSI maximization performs well for speech and for music.

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A Single-Channel Non-Intrusive C50 Estimator Correlated With Speech Recognition Performance

Cited by 25 publications

References 35 publications

A data-driven non-intrusive measure of speech quality and intelligibility

A data-driven non-intrusive measure of speech quality and intelligibility

Predicting Word Error Rate for Reverberant Speech

An image-inspired audio sharpness index

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