How to Walk a RobotA Dog-Leash Human-Robot InterfaceHuman-robot interaction (HRI) tasks in everyday environments will require people to direct or lead a robot as they walk in close proximity to it. Tasks that exemplify this interaction include a robotic porter, carrying heavy suitcases, or a robot carrying groceries. As many users may not be robotics experts, we argue that such interaction schemes must be accessible, easy to use and understand. In this paper, we present a dog-leash interface that enables a person to lead a robot simply by holding the leash, following a dog-leash interaction metaphor. We introduce variants on dog-leash robotic interaction, present our original interface implementation, and detail our formal qualitative evaluation, exploring how users perceive and accept the dog leash robotic interaction.VideoVideo File 1Project PublicationsAn Exploratory Study on Joystick-Based Directing Interfaces for a Collocated RobotSelf Published, University of Manitoba Technical report. Number forthcoming.How to Walk A Robot: A Dog-Leash Human-Robot InterfaceJames E. Young, Youichi Kamiyama, Juliane Reichenbach, Takeo Igarashi, and Ehud Sharlin. How to Walk A Robot: A Dog-Leash Human-Robot Interface.In proceedings of the IEEE International Workshop on Robot and Human Interactive Communication, 2011, RO-MAN 2011, Altanta, US, July 31-Aug 3, 2011. IEEECollaboratorsJames E.YoungProfessorAs well as: Takeo Igarashi, Ehud Sharlin, Youichi Kamiyama, and Juliane Reichenbach
How to Walk a RobotA Dog-Leash Human-Robot InterfaceHuman-robot interaction (HRI) tasks in everyday environments will require people to direct or lead a robot as they walk in close proximity to it. Tasks that exemplify this interaction include a robotic porter, carrying heavy suitcases, or a robot carrying groceries. As many users may not be robotics experts, we argue that such interaction schemes must be accessible, easy to use and understand. In this paper, we present a dog-leash interface that enables a person to lead a robot simply by holding the leash, following a dog-leash interaction metaphor. We introduce variants on dog-leash robotic interaction, present our original interface implementation, and detail our formal qualitative evaluation, exploring how users perceive and accept the dog leash robotic interaction.VideoVideo File 1Project PublicationsAn Exploratory Study on Joystick-Based Directing Interfaces for a Collocated RobotSelf Published, University of Manitoba Technical report. Number forthcoming.How to Walk A Robot: A Dog-Leash Human-Robot InterfaceJames E. Young, Youichi Kamiyama, Juliane Reichenbach, Takeo Igarashi, and Ehud Sharlin. How to Walk A Robot: A Dog-Leash Human-Robot Interface.In proceedings of the IEEE International Workshop on Robot and Human Interactive Communication, 2011, RO-MAN 2011, Altanta, US, July 31-Aug 3, 2011. IEEE
How to Walk a RobotA Dog-Leash Human-Robot InterfaceHuman-robot interaction (HRI) tasks in everyday environments will requir
James E. Young, Youichi Kamiyama, Juliane Reichenbach, Takeo Igarashi, and Ehud Sharlin. How to Walk A Robot: A Dog-Leash Human-Robot Interface. In proceedings of the IEEE International Workshop on Robot and Human Interactive Communication, 2011 , RO-MAN 2011, Altanta, US, July 31-Aug 3, 2011. IEEE
James E. Young, Gregor McEwan, Saul Greenberg and Ehud Sharlin. Moving a Media Space into the Real World through Group–Robot Interaction. In video session and in adjunct proceedings of the 5th International Conference on Pervasive Computing, 2007. Pervasive ’07, Toronto,
James E. Young, Gregor McEwan, Saul Greenberg and Ehud Sharlin. AIBO Surrogate – A Group-Robot Interface. Demonstration at ACM Computer Supported Cooperative Work, 2006. ACM CSCW ’06, Banff, Canada, November 4–8, 2006.
Tetsushi Ikeda, Yoshihiro Chigodo, Daniel Rea, Francesco Zanlungo, Masahiro Shiomi, and Takayuki Kanda. 2013. Modeling and Prediction of Pedestrian Behavior Based on the Sub-Goal Concept. (July 2013). https://doi.org/10.7551/mitpress/9816.003.0023