PATCorrect: Non-autoregressive Phoneme-augmented Transformer for ASR Error Correction

Speech-to-text errors made by automatic speech recognition (ASR) system negatively impact downstream models relying on ASR transcriptions. Language error correction models as a post-processing text editing approach have been recently developed for refining the source sentences. However, efficient models for correcting errors in ASR transcriptions that meet the low latency requirements of industrial grade production systems have not been well studied. In this work, we propose a novel non-autoregressive (NAR) error correction approach to improve the transcription quality by reducing word error rate (WER) and achieve robust performance across different upstream ASR systems. Our approach augments the text encoding of the Transformer model with a phoneme encoder that embeds pronunciation information. The representations from phoneme encoder and text encoder are combined via multi-modal fusion before feeding into the length tagging predictor for predicting target sequence lengths. The joint encoders also provide inputs to the attention mechanism in the NAR decoder. We experiment on 3 open-source ASR systems with varying speech-to-text transcription quality and their erroneous transcriptions on 2 public English corpus datasets. Results show that our PATCorrect (Phoneme Augmented Transformer for ASR error Correction) consistently outperforms state-of-the-art NAR error correction method on English corpus across different upstream ASR systems. For example, PATCorrect achieves 11.62% WER reduction (WERR) averaged on 3 ASR systems compared to 9.46% WERR achieved by other method using text only modality and also achieves an inference latency comparable to other NAR models at tens of millisecond scale, especially on GPU hardware, while still being 4.2 - 6.7x times faster than autoregressive models on Common Voice and LibriSpeech datasets.