Learning navigation situations using roadmaps

The roadmap approach to robot path planning is one of the earliest methods. Since then, many different algorithms for building roadmaps have been proposed and widely implemented in mobile robots but their use has always been limited to planning in static, totally known environments. In this paper we combine the use of dynamic analogical representations of the environment with an efficient roadmap extraction method, to guide the robot navigation and to classify and learn the different navigation situation it encounters. The paper presents the general reference architecture for the robotic system and then focuses on the algorithms for the construction of the roadmap, the classification of the regions of space and their use in robot navigation. Experimental results are also discussed.

[1]  Chee-Keng Yap,et al.  A "Retraction" Method for Planning the Motion of a Disc , 1985, J. Algorithms.

[2]  Gianni Vercelli,et al.  A Cognitive Hybrid Model for Autonomous Navigation , 1995, AI*IA.

[3]  Maurizio Piaggio,et al.  An information exchange protocol in a multi-layer distributed architecture , 1997, Proceedings of the Thirtieth Hawaii International Conference on System Sciences.

[4]  Marc G. Slack Navigation templates: mediating qualitative guidance and quantitative control in mobile robots , 1993, IEEE Trans. Syst. Man Cybern..

[5]  Edsger W. Dijkstra,et al.  A note on two problems in connexion with graphs , 1959, Numerische Mathematik.

[6]  Jean-Claude Latombe,et al.  Robot motion planning , 1970, The Kluwer international series in engineering and computer science.

[7]  Gianni Vercelli,et al.  Fusion of sensor data in a dynamic representation , 1996, Proceedings of the First Euromicro Workshop on Advanced Mobile Robots (EUROBOT '96).

[8]  Ronald C. Arkin,et al.  Cooperation without communication: Multiagent schema-based robot navigation , 1992, J. Field Robotics.

[9]  Nils J. Nilsson,et al.  A mobius automation: an application of artificial intelligence techniques , 1969, IJCAI 1969.

[10]  Oussama Khatib,et al.  Real-Time Obstacle Avoidance for Manipulators and Mobile Robots , 1986 .

[11]  Oussama Khatib,et al.  Real-Time Obstacle Avoidance for Manipulators and Mobile Robots , 1985, Autonomous Robot Vehicles.