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arxiv: 2409.02565 · v1 · pith:G5TAHVFR · submitted 2024-09-04 · eess.AS · cs.SD

Efficient Extraction of Noise-Robust Discrete Units from Self-Supervised Speech Models

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classification eess.AS cs.SD
keywords discretemodelsspeechunitsfeaturesmodelnoisydata
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Continuous speech can be converted into a discrete sequence by deriving discrete units from the hidden features of self-supervised learned (SSL) speech models. Although SSL models are becoming larger and trained on more data, they are often sensitive to real-life distortions like additive noise or reverberation, which translates to a shift in discrete units. We propose a parameter-efficient approach to generate noise-robust discrete units from pre-trained SSL models by training a small encoder-decoder model, with or without adapters, to simultaneously denoise and discretise the hidden features of the SSL model. The model learns to generate a clean discrete sequence for a noisy utterance, conditioned on the SSL features. The proposed denoiser outperforms several pre-training methods on the tasks of noisy discretisation and noisy speech recognition, and can be finetuned to the target environment with a few recordings of unlabeled target data.

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