Open AccessPretraining the Noisy Channel Model for Task-Oriented Dialogue
Author(s) -
Qi Liu,
Lei Yu,
Laura Rimell,
Phil Blunsom
Publication year - 2021
Publication title -
transactions of the association for computational linguistics
Language(s) - English
Resource type - Journals
ISSN - 2307-387X
DOI - 10.1162/tacl_a_00390
Subject(s) - computer science , decoding methods , task (project management) , context (archaeology) , decodes , channel (broadcasting) , artificial intelligence , natural language processing , speech recognition , machine learning , algorithm , paleontology , computer network , management , economics , biology
Direct decoding for task-oriented dialogue is known to suffer from the explaining-away effect, manifested in models that prefer short and generic responses. Here we argue for the use of Bayes’ theorem to factorize the dialogue task into two models, the distribution of the context given the response, and the prior for the response itself. This approach, an instantiation of the noisy channel model, both mitigates the explaining-away effect and allows the principled incorporation of large pretrained models for the response prior. We present extensive experiments showing that a noisy channel model decodes better responses compared to direct decoding and that a two-stage pretraining strategy, employing both open-domain and task-oriented dialogue data, improves over randomly initialized models.
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