Rhythm Modeling for Voice Conversion
This work addresses a specific gap in voice conversion systems for speech processing applications, offering incremental improvements in rhythm handling.
The paper tackles the problem of rhythm modeling in voice conversion, which is often overlooked but crucial for speaker identity perception, by introducing Urhythmic, an unsupervised method that improves quality and prosody over existing approaches.
Voice conversion aims to transform source speech into a different target voice. However, typical voice conversion systems do not account for rhythm, which is an important factor in the perception of speaker identity. To bridge this gap, we introduce Urhythmic-an unsupervised method for rhythm conversion that does not require parallel data or text transcriptions. Using self-supervised representations, we first divide source audio into segments approximating sonorants, obstruents, and silences. Then we model rhythm by estimating speaking rate or the duration distribution of each segment type. Finally, we match the target speaking rate or rhythm by time-stretching the speech segments. Experiments show that Urhythmic outperforms existing unsupervised methods in terms of quality and prosody. Code and checkpoints: https://github.com/bshall/urhythmic. Audio demo page: https://ubisoft-laforge.github.io/speech/urhythmic.