Proceedings of the International Conference on Spoken Language Processing. 2013
Reinforcement learning methods are increasingly used to optimise dialogue policies from experience. Most current techniques are model-free: they directly estimate the utility of various actions, without explicit model of the interaction dynamics. In this paper, we investigate an alternative strategy grounded in model-based Bayesian reinforcement learning. Bayesian inference is used to maintain a posterior distribution over the model parameters, reflecting the model uncertainty. This parameter distribution is gradually refined as more data is collected and simultaneously used to plan the agent's actions. Within this learning framework, we carried out experiments with two alternative formalisations of the transition model, one encoded with standard multinomial distributions, and one structured with probabilistic rules. We demonstrate the potential of our approach with empirical results on a user simulator constructed from Wizard-of-Oz data in a human-robot interaction scenario. The results illustrate in particular the benefits of capturing prior domain knowledge with high-level rules.
Lison, Pierre (2013): "Model-based Bayesian reinforcement learning for dialogue management", In INTERSPEECH-2013, 475-479, 14thAnnual Conference of the International Speech Communication Association, Lyon, France, August 25-29, 2013, ed. by F. Bimbot, C. Cerisara, C. Fougeron, G. Gravier, L. Lamel, F. Pellegrino, and P. Perrier, ISSN 2308-457X; ISCA Archive, http://www.isca-speech.org/archive/interspeech_2013