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LREC
2008
2008
Automatic Phoneme Segmentation with Relaxed Textual Constraints
Speech synthesis by unit selection requires the segmentation of a large single speaker high quality recording. Automatic speech recognition techniques, e.g. Hidden Markov Models (HMM), can be optimised for maximum segmentation accuracy. This paper presents the results of tuning such a phoneme segmentation system. Firstly, using no text transcription, the design of an HMM phoneme recogniser is optimised subject to a phoneme bigram language model. Optimal performance is obtained with triphone models, 7 states per phoneme and 5 Gaussians per state, reaching 94.4% phoneme recognition accuracy with 95.2% of phoneme boundaries within 70 ms of hand labelled boundaries. Secondly, using the textual information modeled by a multi-pronunciation phonetic graph built according to errors found in the first step, the reported phoneme recognition accuracy increases to 96.8% with 96.1% of phoneme boundaries within 70 ms of hand labelled boundaries. Finally, the results from these two segmentation meth...
Real-time TrafficEducation | LREC 2008 | Phoneme Boundaries | Phoneme Recognition Accuracy | Phoneme Segmentation System |
| Added | 29 Oct 2010 |
| Updated | 29 Oct 2010 |
| Type | Conference |
| Year | 2008 |
| Where | LREC |
| Authors | Pierre Lanchantin, Andrew C. Morris, Xavier Rodet, Christophe Veaux |
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