TY - JOUR T1 - Towards Long-Term Social Child-Robot Interaction: Using Multi-Activity Switching to Engage Young Users JF - Journal of Human-Robot Interaction Y1 - 2016 A1 - Coninx, Alexandre A1 - Paul E. Baxter A1 - Oleari, Elettra A1 - Bellini, Sara A1 - Bierman, Bert A1 - Henkemans, Olivier Blanson A1 - Lola Cañamero A1 - Cosi, Piero A1 - Valentin Enescu A1 - Espinoza, Raquel Ros A1 - Antoine Hiolle A1 - Remi Humbert A1 - Kiefer, Bernd A1 - Kruijff-Korbayová, Ivana A1 - Looije, Rosmarijn A1 - Mosconi, Marco A1 - Mark A. Neerincx A1 - Giulio Paci A1 - Patsis, Georgios A1 - Pozzi, Clara A1 - Sacchitelli, Francesca A1 - Hichem Sahli A1 - Alberto Sanna A1 - Sommavilla, Giacomo A1 - Tesser, Fabio A1 - Yiannis Demiris A1 - Tony Belpaeme AB - Social robots have the potential to provide support in a number of practical domains, such as learning and behaviour change. This potential is particularly relevant for children, who have proven receptive to interactions with social robots. To reach learning and therapeutic goals, a number of issues need to be investigated, notably the design of an effective child-robot interaction (cHRI) to ensure the child remains engaged in the relationship and that educational goals are met. Typically, current cHRI research experiments focus on a single type of interaction activity (e.g. a game). However, these can suffer from a lack of adaptation to the child, or from an increasingly repetitive nature of the activity and interaction. In this paper, we motivate and propose a practicable solution to this issue: an adaptive robot able to switch between multiple activities within single interactions. We describe a system that embodies this idea, and present a case study in which diabetic children collaboratively learn with the robot about various aspects of managing their condition. We demonstrate the ability of our system to induce a varied interaction and show the potential of this approach both as an educational tool and as a research method for long-term cHRI. VL - 5 UR - https://dl.acm.org/doi/abs/10.5898/JHRI.5.1.Coninx IS - 1 N1 - Download (Open Access) ER - TY - CONF T1 - Natural Emotion Elicitation for Emotion Modeling in Child-Robot Interactions T2 - Proc. 4th Workshop on Child Computer Interaction (WOCCI 2014) Y1 - 2014 A1 - Wang, Weiyi A1 - Athanasopoulos, Georgios A1 - Yilmazyildiz, Selma A1 - Patsis, Georgios A1 - Valentin Enescu A1 - Hichem Sahli A1 - Verhelst, Werner A1 - Antoine Hiolle A1 - Lewis, Matthew A1 - Lola Cañamero AB - Obtaining spontaneous emotional expressions is the very first and vital step in affective computing studies, for both psychologists and computer scientists. However, it is quite challenging to record them in real life, especially when certain modalities are required (e.g. 3D representation of the body). Traditional elicitation and capturing protocols either introduce the awareness of the recording, which may impair the naturalness of the behaviors, or cause too much information loss. In this paper, we present natural emotion elicitation and recording experiments, which were set in child-robot interaction scenarios. Several state-of-the-art technologies were employed to acquire the multi-modal expressive data that will be further used for emotion modeling and recognition studies. The obtained recordings exhibit the expected emotional expressions. JF - Proc. 4th Workshop on Child Computer Interaction (WOCCI 2014) PB - ICSA CY - Singapore UR - https://www.isca-speech.org/archive/wocci_2014/wc14_051.html N1 - Download (Open Access) ER - TY - JOUR T1 - Multimodal Child-Robot Interaction: Building Social Bonds JF - Journal of Human-Robot Interaction Y1 - 2012 A1 - Tony Belpaeme A1 - Paul E. Baxter A1 - Robin Read A1 - Rachel Wood A1 - Cuayáhuitl, Heriberto A1 - Kiefer, Bernd A1 - Racioppa, Stefania A1 - Kruijff-Korbayová, Ivana A1 - Athanasopoulos, Georgios A1 - Valentin Enescu A1 - Rosemarijn Looije A1 - Mark A. Neerincx A1 - Yiannis Demiris A1 - Raquel Ros-Espinoza A1 - Aryel Beck A1 - Lola Cañamero A1 - Lewis, Matthew A1 - Baroni, Ilaria A1 - Nalin, Marco A1 - Cosi, Piero A1 - Giulio Paci A1 - Tesser, Fabio A1 - Sommavilla, Giacomo A1 - Remi Humbert AB - For robots to interact effectively with human users they must be capable of coordinated, timely behavior in response to social context. The Adaptive Strategies for Sustainable Long-Term Social Interaction (ALIZ-E) project focuses on the design of long-term, adaptive social interaction between robots and child users in real-world settings. In this paper, we report on the iterative approach taken to scientific and technical developments toward this goal: advancing individual technical competencies and integrating them to form an autonomous robotic system for evaluation “in the wild.” The first evaluation iterations have shown the potential of this methodology in terms of adaptation of the robot to the interactant and the resulting influences on engagement. This sets the foundation for an ongoing research program that seeks to develop technologies for social robot companions. VL - 1 UR - https://dl.acm.org/doi/10.5555/3109688.3109691 IS - 2 N1 - Download (Open Access) ER - TY - CONF T1 - Long-Term Human-Robot Interaction with Young Users T2 - Proc. ACM/IEEE Human-Robot Interaction conference (HRI-2011) (Robots with Children Workshop) Y1 - 2011 A1 - Paul E. Baxter A1 - Tony Belpaeme A1 - Lola Cañamero A1 - Cosi, Piero A1 - Yiannis Demiris A1 - Valentin Enescu A1 - Antoine Hiolle A1 - Kruijff-Korbayová, Ivana A1 - Rosemarijn Looije A1 - Nalin, Marco A1 - Mark A. Neerincx A1 - Hichem Sahli A1 - Giocomo Sommavilla A1 - Tesser, Fabio A1 - Rachel Wood AB - Artificial companion agents have the potential to combine novel means for effective health communication with young patients support and entertainment. However, the theory and practice of long-term child-robot interaction is currently an underdeveloped area of research. This paper introduces an approach that integrates multiple functional aspects necessary to implement temporally extended human-robot interaction in the setting of a paediatric ward. We present our methodology for the implementation of a companion robot which will be used to support young patients in hospital as they learn to manage a lifelong metabolic disorder (diabetes). The robot will interact with patients over an extended period of time. The necessary functional aspects are identified and introduced, and a review of the technical challenges involved is presented. JF - Proc. ACM/IEEE Human-Robot Interaction conference (HRI-2011) (Robots with Children Workshop) CY - Lausanne, Switzerland UR - https://www.researchgate.net/publication/228470784_Long-term_human-robot_interaction_with_young_users N1 - Downlaod ER -