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Mutual Understanding in Situated Interactions with Conversational User Interfaces

Theory, Studies, and Computation

Time: Fri 2022-03-11 14.00

Location: Kollegiesalen, Brinellvägen 8, Stockholm

Video link:

Language: English

Subject area: Computer Science

Doctoral student: Dimosthenis Kontogiorgos , Tal-kommunikation, Speech, Music, and Hearing

Opponent: Professor Catherine Pelachaud, CNRS-ISIR, Sorbonne University, Paris, France

Supervisor: Professor Joakim Gustafsson, Tal, musik och hörsel, TMH; Professor Gabriel Skantze, Tal, musik och hörsel, TMH

QC 20220216


This dissertation presents advances in HCI through a series of studies focusing on task-oriented interactions between humans and between humans and machines. The notion of mutual understanding is central, also known as grounding in psycholinguistics, in particular how people establish understanding in conversations and what interactional phenomena are present in that process. Addressing the gap in computational models of understanding, interactions in this dissertation are observed through multisensory input and evaluated with statistical and machine-learning models. As it becomes apparent, miscommunication is ordinary in human conversations and therefore embodied computer interfaces interacting with humans are subject to a large number of conversational failures. Investigating how these inter- faces can evaluate human responses to distinguish whether spoken utterances are understood is one of the central contributions of this thesis.

The first papers (Papers A and B) included in this dissertation describe studies on how humans establish understanding incrementally and how they co-produce utterances to resolve misunderstandings in joint-construction tasks. Utilising the same interaction paradigm from such human-human settings, the remaining papers describe collaborative interactions between humans and machines with two central manipulations: embodiment (Papers C, D, E, and F) and conversational failures (Papers D, E, F, and G). The methods used investigate whether embodiment affects grounding behaviours among speakers and what verbal and non-verbal channels are utilised in response and recovery to miscommunication. For application to robotics and conversational user interfaces, failure detection systems are developed predicting in real-time user uncertainty, paving the way for new multimodal computer interfaces that are aware of dialogue breakdown and system failures.

Through the lens of Theory, Studies, and Computation, a comprehensive overview is presented on how mutual understanding has been observed in interactions with humans and between humans and machines. A summary of literature in mutual understanding from psycholinguistics and human-computer interaction perspectives is reported. An overview is also presented on how prior knowledge in mutual understanding has and can be observed through experimentation and empirical studies, along with perspectives of how knowledge acquired through observation is put into practice through the analysis and development of computational models. Derived from literature and empirical observations, the central thesis of this dissertation is that embodiment and mutual understanding are intertwined in task-oriented interactions, both in successful communication but also in situations of miscommunication.