Abstract

This paper defines a dual computational framework to nonverbal communication for human-robot interactions. We use a Bayesian Theory of Mind approach to model dyadic storytelling interactions where the storyteller and the listener have distinct roles. The role of storytellers is to influence and infer the attentive state of listeners using speaker cues, and we computationally model this as a POMDP planning problem. The role of listeners is to convey attentiveness by influencing perceptions through listener responses, which we computational model as a DBN with a myopic policy. Through a comparison of state estimators trained on human-human interaction data, we validate our storyteller model by demonstrating how it outperforms current approaches to attention recognition. Then through a human-subjects experiment where children told stories to robots, we demonstrate that a social robot using our listener model more effectively communicates attention compared to alternative approaches based on signaling.