Speech recognition in noisy environments remains an unsolved problem even in the case of isolated word recognition with small vocabularies. Recently, several techniques have been proposed to alleviate this problem. Concretely, two closely related parameterization techniques based on an AR modelling in the autocorrelation domain called SMC [1] and OSALPC [2] have shown good results using speech contaminated by additive white noise. The aim of this paper is twofold: to compare several techniques based on an AR modelling in the autocorrelation domain, including SMC and OSALPC, and to find the optimum model order and cepstral liftering for noisy conditions.Peer ReviewedPostprint (published version
Recently, a new parametrization technique based on the AR modelling of the one-sided autocorrelation...
The performance of the existing speech recognition systems degrades rapidly in the presence of backg...
It is well known that additive noise can cause a significant decrease in performance for an automati...
Speech recognition in noisy environments remains an unsolved problem even in the case of isolated wo...
Speech recognition in noisy environments remains an unsolved problem even in the case of isolated wo...
The performance of the existing speech recognition systems degrades rapidly in the presence of backg...
The article presents a robust representation of speech based on AR modeling of the causal part of th...
Speech recognition in noisy environments remains an unsolved problem, even in the case of isolated w...
This paper presents a new front-end for robust speech recognition. This new front-end scenario focus...
Previous research has found autocorrelation domain as an appropriate domain for signal and noise sep...
The OSALPC (One-Sided Autocorrelation Linear Predictive Coding) representation of the speech signal ...
Speech recognition in noisy environments remains an unsolved problem, even in the case of isolated w...
The performance of the existing speech recognition systems degrades rapidly in the presence of backg...
One major concern in the design of speech recognition systems is their performance in real environme...
This paper presents a new front-end for robust speech recognition. This new front-end scenario focus...
Recently, a new parametrization technique based on the AR modelling of the one-sided autocorrelation...
The performance of the existing speech recognition systems degrades rapidly in the presence of backg...
It is well known that additive noise can cause a significant decrease in performance for an automati...
Speech recognition in noisy environments remains an unsolved problem even in the case of isolated wo...
Speech recognition in noisy environments remains an unsolved problem even in the case of isolated wo...
The performance of the existing speech recognition systems degrades rapidly in the presence of backg...
The article presents a robust representation of speech based on AR modeling of the causal part of th...
Speech recognition in noisy environments remains an unsolved problem, even in the case of isolated w...
This paper presents a new front-end for robust speech recognition. This new front-end scenario focus...
Previous research has found autocorrelation domain as an appropriate domain for signal and noise sep...
The OSALPC (One-Sided Autocorrelation Linear Predictive Coding) representation of the speech signal ...
Speech recognition in noisy environments remains an unsolved problem, even in the case of isolated w...
The performance of the existing speech recognition systems degrades rapidly in the presence of backg...
One major concern in the design of speech recognition systems is their performance in real environme...
This paper presents a new front-end for robust speech recognition. This new front-end scenario focus...
Recently, a new parametrization technique based on the AR modelling of the one-sided autocorrelation...
The performance of the existing speech recognition systems degrades rapidly in the presence of backg...
It is well known that additive noise can cause a significant decrease in performance for an automati...