English

Enhanced Hybrid Transducer and Attention Encoder Decoder with Text Data

Computation and Language 2025-06-25 v1 Sound Audio and Speech Processing

Abstract

A joint speech and text optimization method is proposed for hybrid transducer and attention-based encoder decoder (TAED) modeling to leverage large amounts of text corpus and enhance ASR accuracy. The joint TAED (J-TAED) is trained with both speech and text input modalities together, while it only takes speech data as input during inference. The trained model can unify the internal representations from different modalities, and be further extended to text-based domain adaptation. It can effectively alleviate data scarcity for mismatch domain tasks since no speech data is required. Our experiments show J-TAED successfully integrates speech and linguistic information into one model, and reduce the WER by 5.8 ~12.8% on the Librispeech dataset. The model is also evaluated on two out-of-domain datasets: one is finance and another is named entity focused. The text-based domain adaptation brings 15.3% and 17.8% WER reduction on those two datasets respectively.

Keywords

Cite

@article{arxiv.2506.19159,
  title  = {Enhanced Hybrid Transducer and Attention Encoder Decoder with Text Data},
  author = {Yun Tang and Eesung Kim and Vijendra Raj Apsingekar},
  journal= {arXiv preprint arXiv:2506.19159},
  year   = {2025}
}

Comments

Accepted by Interspeech2025

R2 v1 2026-07-01T03:30:27.466Z