English

Differentiable Allophone Graphs for Language-Universal Speech Recognition

Computation and Language 2021-07-27 v1 Sound Audio and Speech Processing

Abstract

Building language-universal speech recognition systems entails producing phonological units of spoken sound that can be shared across languages. While speech annotations at the language-specific phoneme or surface levels are readily available, annotations at a universal phone level are relatively rare and difficult to produce. In this work, we present a general framework to derive phone-level supervision from only phonemic transcriptions and phone-to-phoneme mappings with learnable weights represented using weighted finite-state transducers, which we call differentiable allophone graphs. By training multilingually, we build a universal phone-based speech recognition model with interpretable probabilistic phone-to-phoneme mappings for each language. These phone-based systems with learned allophone graphs can be used by linguists to document new languages, build phone-based lexicons that capture rich pronunciation variations, and re-evaluate the allophone mappings of seen language. We demonstrate the aforementioned benefits of our proposed framework with a system trained on 7 diverse languages.

Keywords

Cite

@article{arxiv.2107.11628,
  title  = {Differentiable Allophone Graphs for Language-Universal Speech Recognition},
  author = {Brian Yan and Siddharth Dalmia and David R. Mortensen and Florian Metze and Shinji Watanabe},
  journal= {arXiv preprint arXiv:2107.11628},
  year   = {2021}
}

Comments

INTERSPEECH 2021. Contains additional studies on phone recognition for unseen languages

R2 v1 2026-06-24T04:29:19.309Z