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Semi-Supervised Spoken Language Understanding via Self-Supervised Speech and Language Model Pretraining

Cheng-I Lai, Yung-Sung Chuang, Hung-yi Lee, Shang-Wen Li, James Glass

202151 citationsDOI

Abstract

Much recent work on Spoken Language Understanding (SLU) is limited in at least one of three ways: models were trained on oracle text input and neglected ASR errors, models were trained to predict only intents without the slot values, or models were trained on a large amount of in-house data. In this paper, we propose a clean and general framework to learn semantics directly from speech with semi-supervision from transcribed or untranscribed speech to address these issues. Our framework is built upon pretrained end-to-end (E2E) ASR and self-supervised language models, such as BERT, and fine-tuned on a limited amount of target SLU data. We study two semi-supervised settings for the ASR component: supervised pretraining on transcribed speech, and unsupervised pretraining by replacing the ASR encoder with self-supervised speech representations, such as wav2vec. In parallel, we identify two essential criteria for evaluating SLU models: environmental noise-robustness and E2E semantics evaluation. Experiments on ATIS show that our SLU framework with speech as input can perform on par with those using oracle text as input in semantics understanding, even though environmental noise is present and a limited amount of labeled semantics data is available for training.

Topics & Concepts

Computer scienceOracleRobustness (evolution)Artificial intelligenceSpoken languageNatural language processingEncoderLanguage modelSemantics (computer science)Speech recognitionComponent (thermodynamics)Software engineeringChemistryGeneThermodynamicsBiochemistryOperating systemPhysicsProgramming languageTopic ModelingSpeech Recognition and SynthesisNatural Language Processing Techniques
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