Abstract
Many people who are mobility impaired are, for a variety of reasons, incapable of using an ordinary wheelchair. In some instances, a power wheelchair also cannot be used, usually because of the difficulty the person has in controlling it (often due to additional disabilities). This paper describes two low-cost robotic wheelchair prototypes that assist the operator of the chair in avoiding obstacles, going to pre-designated places, and maneuvering through doorways and other narrow or crowded areas. These systems can be interfaced to a variety of input devices, and can give the operator as much or as little moment by moment control of the chair as they wish. This paper describes both systems, the evolution from one system to another, and the lessons learned.
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References
Bell, D.A., Levine, S.P., Koren, Y., Jaros, L.A., and Borenstein, J. 1993. Shared Control of the NavChair Obstacle Avoiding Wheelchair. InProceedings of RESNA'93.
Connell, J. and Viola, P. 1990. Cooperative Control of a Semi-Autonomous Mobile Robot. InProceedings of the 1990 IEEE Conference on Automation and Robotics, pp. 118–1121.
Elsaesser, C. and Slack, M.G. 1994. Planning with Sequences of Situated Skills. InProceedings of the AAIA/NASA Conference on Intelligent Robots in Field, Factory, Service and Space.
Firby, R.J. 1989. Adaptive Execution in Complex Dynamic Worlds.Ph.D. thesis, Yale University Department of Computer Science.
Gat, E. 1991. Reliable Goal-Directed Reactive Control of Autonomous Mobile Robots. Ph.D. thesis, Virginia Polytechnic Institute Department of Computer Science.
Gelin, R., Detriche, J.M., Lambert, J.P., and Malblanc, P. 1993. The Sprint of Coach. InProceedings of the '93 International Conference on Advanced Robotics.
Miller, D.P. 1990. Rover navigation through behavior modification. InProceedings of the NASA Conference on Spacecraft Operations Automation and Robotics.
Miller, D.P., Desai, R.S., Gat, E., Ivlev, R., and Loch, J. 1992. Reactive Navigation Through Rough Terrain: Experimental Results. InProceedings of the 1992 National Conference on Artificial Intelligence, SanJose, CA, pp. 823–828.
Miller, D.P. and Grant, E. 1994. A Robot Wheelchair. InProceedings of the AAIA/NASA Conference on Intelligent Robots in Field, Factory, Service and Space.
Miller, D.P. and Slack, M.G. 1994. Increasing Access With a Low-Cost Robotic Wheelchair. InProceedings of the Intelligent Robots and Systems Conference, IROS'94, Munich, Germany, pp. 1663–1667.
Mori, H., Kotani, S., and Kiyohiro, N. 1994. A Robotic Travel Aid HITOMI. InProceedings of the Intelligent Robots and Systems Conference, IROS 94, Munich, Germany, pp. 1716–1723.
Nisbet, P.D., Odor, J.P., and Loudon, I.R. 1988. The CALL Centre Smart Wheelchair. InProceedings of the First International Workshop on Advanced Robotics for Medical Health Care, Ottawa, Canada.
Slack, M.G. 1992. Sequencing formally defined reactions for robotic activity: Integrating RAPS and GAPPS. InProceedings of the SPIE Conference on Sensor Fusion.
Yu, S., Slack, M.G., and Miller, D.P. 1994. A streamlined software environment for situated skills. InProceedings of the AAIA/NASA Conference on Intelligent Robots in Field, Factory, Service and Space.
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Miller, D.P., Slack, M.G. Design and testing of a low-cost robotic wheelchair prototype. Auton Robot 2, 77–88 (1995). https://doi.org/10.1007/BF00735440
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DOI: https://doi.org/10.1007/BF00735440