English

Human-Robot Dialogue Annotation for Multi-Modal Common Ground

Human-Computer Interaction 2024-11-21 v1 Computation and Language Robotics

Abstract

In this paper, we describe the development of symbolic representations annotated on human-robot dialogue data to make dimensions of meaning accessible to autonomous systems participating in collaborative, natural language dialogue, and to enable common ground with human partners. A particular challenge for establishing common ground arises in remote dialogue (occurring in disaster relief or search-and-rescue tasks), where a human and robot are engaged in a joint navigation and exploration task of an unfamiliar environment, but where the robot cannot immediately share high quality visual information due to limited communication constraints. Engaging in a dialogue provides an effective way to communicate, while on-demand or lower-quality visual information can be supplemented for establishing common ground. Within this paradigm, we capture propositional semantics and the illocutionary force of a single utterance within the dialogue through our Dialogue-AMR annotation, an augmentation of Abstract Meaning Representation. We then capture patterns in how different utterances within and across speaker floors relate to one another in our development of a multi-floor Dialogue Structure annotation schema. Finally, we begin to annotate and analyze the ways in which the visual modalities provide contextual information to the dialogue for overcoming disparities in the collaborators' understanding of the environment. We conclude by discussing the use-cases, architectures, and systems we have implemented from our annotations that enable physical robots to autonomously engage with humans in bi-directional dialogue and navigation.

Keywords

Cite

@article{arxiv.2411.12829,
  title  = {Human-Robot Dialogue Annotation for Multi-Modal Common Ground},
  author = {Claire Bonial and Stephanie M. Lukin and Mitchell Abrams and Anthony Baker and Lucia Donatelli and Ashley Foots and Cory J. Hayes and Cassidy Henry and Taylor Hudson and Matthew Marge and Kimberly A. Pollard and Ron Artstein and David Traum and Clare R. Voss},
  journal= {arXiv preprint arXiv:2411.12829},
  year   = {2024}
}

Comments

52 pages, 14 figures

R2 v1 2026-06-28T20:05:32.466Z