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3D Navigational Path Planning

Published online by Cambridge University Press:  09 March 2009

T.M. Rao  and
Ronald C. Arkin
T.M. Rao
Affiliation:
Department of Computer Science, SUNY Brockport, N.Y. 14420 (USA)
Ronald C. Arkin
Affiliation:
School of Information and Computer Science, Georgia Institute of Technology, Atlanta, GA 30332 (USA)
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Summary

The problem of path planning for a mobile robot has been studied extensively in recent literature. Much of the work in this area is devoted to the study of path planning for an earth-bound robot in two dimensions. In this paper, we explore the problem for a robot that can fly in three dimensional space or crawl on 3D surfaces or use a combination of both. We assume that the obstacles can be modeled as polyhedral objects.

Keywords

Path Planning3D NavigationMeadow MapsCrystal MapsA* Search Algorithm.
Type
Article
Information
Robotica , Volume 8 , Issue 3 , July 1990 , pp. 195 - 205
Copyright
Copyright © Cambridge University Press 1990

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References

REFERENCES

[1]Lozano-Perez, T., “Automatic Planning of Manipulator Transfer Movements” Robot Motion: Planning and Control (eds. Brady, , Hollerbach, , Johnson, , Lozano-Perez, and Mason, ) (MIT Press, Cambridge MA, 1982) pp. 499535.Google Scholar
[2]Mitchell, J. and Keirsey, D., “Planning Strategic Paths Through Variable Terrain Data”, Proc. Applications of Artificial Intelligence SPIE S&J 172179 (1984).Google Scholar
[3]Parodi, A.M., “Multi-Goal, Real-Time Global Path Planning for an Autonomous Land Vehicle using a High-Speed Graph Search ProcessorProc. IEEE Int. Conf. on Robotics and Automation,St. Louis, Mo. 161167 (1985).Google Scholar
[4]Thorpe, C., “Path Relaxation: Path Planning for a Mobile Robot” CMU Robotics Institute Technical Report CMU-RI-TR-84-5, Pittsburg, PA (04, 1984).CrossRefGoogle Scholar
[5]Andressen, F.P., Davis, L.S., Eastman, R. and Kambhampati, S., “Visual Autonomous NavigationProc. IEEE International Conference on Robotics and Automation,St. louis, Mo. 856861 (1985).Google Scholar
[6]lyengar, S., Jorgensen, C., Rao, S. and Weisbin, C., “Learned Navigation Paths for a Robot in Unexplored TerrainProc. IEEE Second Conf. on Artificial Intelligence Applications148155 (12, 1985).Google Scholar
[7]Kuan, D.T., Zamiska, J. and Brooks, R., “Natural Decomposition of Free Space for Path PlanningProc. IEEE International Conference on Robotics and Automation,St. Louis, Mo.168173 (1985).Google Scholar
[8]Arkin, R.C., “Navigational Path Planning for a Vision Based Mobile RobotRobotica 7, 149–63 (1989).CrossRefGoogle Scholar
[9]Chatila, R. and Laumond, J.P., “Position Referencing and Consistent World Modeling for Mobile RobotsProc. IEEE International Conference on Robotics and Automation,St. Louis, Mo.138145 (1985).Google Scholar
[10]Arkin, R.C., “Path Planning and Execution for a Mobile Robot: A Review of Representation and Control Strategies” COINS Technical Report 86–47 (Computer and Information Science Department, University of Massachusetts, 10 1986).Google Scholar
[11]Arkin, R. C., “Three-dimensional Motor Schema Based NavigationProc. NASA Conference on Space Telerobotics,Pasadena, CA (02, 1989).Google Scholar