This article describes how the performance of a Dutch continuous speech recognizer was improved by modeling pronunciation variation. We propose a general procedure for modeling pronunciation variation. In short, it consists of adding pronunciation variants to the lexicon, retraining phone models and using language models to which the pronunciation variants have been added. First, within-word pronunciation variants were generated by applying a set of five optional phonological rules to the words in the baseline lexicon. Next, a limited number of cross-word processes were modeled, using two different methods. In the first approach, cross-word processes were modeled by directly adding the cross-word variants to the lexicon, and in the second a...
In this paper, we propose two methods for automatically obtaining hypotheses about pronunciation var...
Contains fulltext : 44830.pdf (publisher's version ) (Open Access)Computer Assiste...
In this paper, we propose two methods for automatically obtaining hypotheses about pronunciation va...
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
In this paper, we describe how the performance of a continuous speech recognizer for Dutch has been ...
Contains fulltext : 76183.pdf (author's version ) (Open Access)4 p
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
Contains fulltext : 76181.pdf (author's version ) (Open Access
Contains fulltext : 76242.pdf (author's version ) (Open Access
In this paper we describe a method for improving the performance of a continuous speech recognizer b...
Contains fulltext : 19117.pdf (publisher's version ) (Open Access)VIII, 141 p
In this paper, we propose two methods for automatically obtaining hypotheses about pronunciation var...
Contains fulltext : 44830.pdf (publisher's version ) (Open Access)Computer Assiste...
In this paper, we propose two methods for automatically obtaining hypotheses about pronunciation va...
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
In this paper, we describe how the performance of a continuous speech recognizer for Dutch has been ...
Contains fulltext : 76183.pdf (author's version ) (Open Access)4 p
This paper describes how the performance of a continuous speech recognizer for Dutch has been improv...
Contains fulltext : 76181.pdf (author's version ) (Open Access
Contains fulltext : 76242.pdf (author's version ) (Open Access
In this paper we describe a method for improving the performance of a continuous speech recognizer b...
Contains fulltext : 19117.pdf (publisher's version ) (Open Access)VIII, 141 p
In this paper, we propose two methods for automatically obtaining hypotheses about pronunciation var...
Contains fulltext : 44830.pdf (publisher's version ) (Open Access)Computer Assiste...
In this paper, we propose two methods for automatically obtaining hypotheses about pronunciation va...