Robots with projectors

Subscribe (Full Service)


	Search: The ACM Digital Library The Guide

	Feedback

Robots with projectors: an alternative to anthropomorphic HRI

Full text

Pdf (2.67 MB)

Source

ACM/IEEE International Conference on Human-Robot Interaction archive
Proceedings of the 4th ACM/IEEE international conference on Human robot interaction table of contents

La Jolla, California, USA

SESSION: HRI late-breaking abstracts table of contents

Pages 221-222

Year of Publication: 2009

ISBN:978-1-60558-404-1

Authors

Jongkyeong Park	Korea University, Seoul, South Korea
Gerard Jounghyun Kim	Korea University, Seoul, South Korea

Sponsors

SIGART: ACM Special Interest Group on Artificial Intelligence
SIGCHI: ACM Special Interest Group on Computer-Human Interaction
ACM: Association for Computing Machinery

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 20, Downloads (12 Months): 73, Citation Count: 0

Additional Information:

abstract references index terms collaborative colleagues

Tools and Actions:	Review this Article Save this Article to a Binder Display Formats: BibTeX EndNote ACM Ref

DOI Bookmark:	Use this link to bookmark this Article: http://doi.acm.org/10.1145/1514095.1514146 What is a DOI?

ABSTRACT

Current forms of Human Robot Interaction (HRI) pursue mostly anthropomorphism and direct interaction. That is, the interaction paradigm is based on imitating how "people" interact with one another (e.g. using spoken language, gestures, facial expression, etc.). However, "direct" interaction/contact with the "robot," often causes significant inconvenience and usability problems. In this paper, we present an alternative to the anthropomorphic interface using a projected display and indirect, yet already familiar GUI based interaction. That is, the projector (on the moving robot) projects information on the nearby surface and provides a relatively large area through which indirect GUI based interaction can occur. As an instance of such an HRI paradigm, we present a moving robot kiosk that projects displays around itself and serve and interact with multiple people at once. We report our on-going development efforts and a pilot experimental study that compares it to the typical touch screen based direct HRI.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	Eric Paulos , John Canny, Ubiquitous tele-embodiment: applications and implications, International Journal of Human-Computer Studies, v.46 n.6, p.861-877, June 1997 [doi>10.1006/ijhc.1996.0120]
	2	Schneiderman B. and Plaisant, C., Designing the User Interface, pp. 484--490, Addison Wesley, 2004.
	3	Eric Paulos , John Canny, Ubiquitous tele-embodiment: applications and implications, International Journal of Human-Computer Studies, v.46 n.6, p.861-877, June 1997 [doi>10.1006/ijhc.1996.0120]
	4	The Roboceptionist Project, http://www.andrew.cmu.edu/user/amundell/tank/project.htm
	5	The Kismet Project, http://www.ai.mit.edu/projects/humanoid-robotics-group/kismet/kismet.html
	6	Nourbakhsh, I., Course Notes for Principles of Human Robot Interaction, Unpublished Work, 2007.
	7	Jindai, M., Watanabe, T., Shibata, S., Yamamoto, T. , Development of a Handshake Robot System for Embodied Interaction with Humans, Proc. of the IEEE International Symposium on Robot and Human Interactive Communication, pp. 710--715, 2006.
	8	20th Century Fox, Star Wars (The Movie), http://en.wikipedia.org/wiki/Star_Wars, 1977.
	9	Machino, T., Iwaki, S., Kawata, H., Yanagihara, Y., Nanjo, Y. and Shimokura, K., Remote Collaboration System Using Mobile Robot with Camera and Projector, Proc. of IEEE Intl. Conf. on Robotics and Automation, pp. 4063--4068, 2006.