Abstract
Many people in wheelchairs are unable to control a powered wheelchair with the standard joystick interface. A robotic wheelchair can provide users with driving assistance, taking over low-level navigation to allow its user to travel efficiently and with greater ease. Our robotic wheelchair system, Wheelesley, consists of a standard powered wheelchair with an on-board computer, sensors and a graphical user interface. This paper describes the indoor navigation system and the customizable user interface.
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References
J.D. Crisman and M.E. Cleary. Progress on the deictically controlled wheelchair. In Mittal et al. [7]. This volume.
J. Gips. On building intelligence into eagleeyes. In Mittal et al. [7]. This volume.
T. Gomi and A. Griffith. Developing intelligent wheelchairs for the handicapped. In Mittal et al. [7]. This volume.
D. Kortenkamp, R.P. Bonasso, and R. Murphy, eds. Artificial intelligence and mobile robots: case studies of successful robot systems. MIT/AAAI Press, 1998.
D.P. Miller. Assistive robotics: an overview. In Mittal et al. [7]. This volume.
D.P. Miller and M.G. Slack. Design and testing of a low-cost robotic wheelchair prototype. Autonomous Robots, 2:77–88, 1995.
V. Mittal, H.A. Yanco, J. Aronis and R. Simpson, eds. Lecture Notes in Artificial Intelligence: Assistive Technology and Artificial Intelligence. Springer-Verlag, 1998. This volume.
M.A. Perkowski and K. Stanton. Robotics for the handicapped. In Northcon Conference Record, pages 278–284, 1991.
R.C. Simpson, S.P. Levine, D.A. Bell, L.A. Jaros, Y. Koren and J. Borenstein. Navchair: an assistive wheelchair navigation system with automatic adaptation. In Mittal et al. [7]. This volume.
H. Wakaumi, K. Nakamura and T. Matsumura. Development of an automated wheelchair guided by a magnetic ferrite marker lane. Journal of Rehabilitation Research and Development, 29(1):27–34, Winter 1992.
H.A. Yanco and J. Gips. Preliminary investigation of a semi-autonomous robotic wheelchair directed through electrodes. In S. Sprigle, ed, Proceedings of the Rehabilitation Engineering Society of North America 1997 Annual Conference, pages 414–416. RESNA Press, 1997.
H.A. Yanco and J. Gips. Driver performance using single switch scanning with a powered wheelchair: robotic assisted control versus traditional control. In Proceedings of the Rehabilitation Engineering Society of North America 1998 Annual Conference. RESNA Press, 1998.
H.A. Yanco, A. Hazel, A. Peacock, S. Smith and H. Wintermute. Initial report on Wheelesley: a robotic wheelchair system. In Proceedings of the IJCAI-95 Workshop on Developing AI Applications for the Disabled, Montreal, Canada, August 1995.
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© 1998 Springer-Verlag Berlin Heidelberg
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Yanco, H.A. (1998). Wheelesley: A robotic wheelchair system: Indoor navigation and user interface. In: Mittal, V.O., Yanco, H.A., Aronis, J., Simpson, R. (eds) Assistive Technology and Artificial Intelligence. Lecture Notes in Computer Science, vol 1458. Springer, Berlin, Heidelberg. https://doi.org/10.1007/BFb0055983
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DOI: https://doi.org/10.1007/BFb0055983
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