1. Accessible Human-Robot Interaction for Telepresence Robots: A Case Study
- Author
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Mikhail S. Medvedev, Katherine M. Tsui, David Kontak, Eric McCann, Holly A. Yanco, Daniel J. Brooks, Jordan Allspaw, and James M. Dalphond
- Subjects
Technology ,Cognitive Neuroscience ,accessible user interface ,computer.software_genre ,Human–robot interaction ,Behavioral Neuroscience ,Developmental Neuroscience ,embodied video conferencing ,Artificial Intelligence ,Human–computer interaction ,teleoperation ,Assistive robotics ,computer-mediated communication ,Mathematics ,assistive robotics ,Multimedia ,social telepresence robot ,remote presence ,augmented reality ,Human-Computer Interaction ,Teleoperation ,Robot ,Augmented reality ,Computer-mediated communication ,computer - Abstract
The quality of life of people with special needs, such as residents of healthcare facilities, may be improved through operating social telepresence robots that provide the ability to participate in remote activities with friends or family. However, to date, such platforms do not exist for this population.Methodology: Our research utilized an iterative, bottomup, user-centered approach, drawing upon our assistive robotics experiences. Based on the findings of our formative user studies, we developed an augmented reality user interface for our social telepresence robot. Our user interface focuses primarily on the human-human interaction and communication through video, providing support for semi-autonomous navigation. We conducted a case study (n=4) with our target population in which the robot was used to visit a remote art gallery.Results: All of the participants were able to operate the robot to explore the gallery, form opinions about the exhibits, and engage in conversation.Significance: This case study demonstrates that people from our target population can successfully engage in the active role of operating a telepresence robot.
- Published
- 2015