论文信息 - Applications of mapping concepts to multi-robot collision avoidance and task plan execution

Applications of mapping concepts to multi-robot collision avoidance and task plan execution

The authors present techniques developed for real-time monitoring of assembly operations and detection of errors due to parts mishandling such as incorrect parts manipulation, insertion, and placement in the workspace or due to interference between robots sharing the workspace. Two-dimensional maps are created by adaptively projecting the typically three or more dimensional assembly problems to a simpler two-dimensional problem space which provides the flexible and efficient associative properties needed for effective real-time monitoring and diagnosis. A self-organizing neural network (Kohonen map) is used for organizing the various inputs regarding parts, tools, and sensors feedback during robotic assembly and diagnosing the sources of errors. Replanning of the assembly to recover from errors would then proceed based on this feedback.<<ETX>>

[1] Michael Palmer,et al. An evaluation of a real-time fault diagnosis expert system for aircraft applications , 1987, 26th IEEE Conference on Decision and Control.

[2] Elizabeth R. Stuck,et al. Specialized Strategies: An Altenative to First Principles in Diagnostic Problem Solving , 1988, AAAI.

[3] Bum Hee Lee,et al. Collision-Free Motion Planning of Two Robots , 1987, IEEE Transactions on Systems, Man, and Cybernetics.

[4] Tsunenori Honda,et al. A Flexible Robot Control System with Both Task-Level Language and Visual Monitoring , 1988 .

[5] Hoda A. ElMaraghy,et al. Real-time multi-robot path planner based on a heuristic approach , 1992, Proceedings 1992 IEEE International Conference on Robotics and Automation.

[6] S. M. Udupa,et al. Collision Detection and Avoidance in Computer Controlled Manipulators , 1977, IJCAI.

[7] Teuvo Kohonen,et al. Self-Organization and Associative Memory , 1988 .

[8] Tomás Lozano-Pérez,et al. Spatial Planning: A Configuration Space Approach , 1983, IEEE Transactions on Computers.

[9] Randall Davis,et al. Diagnostic Reasoning Based on Structure and Behavior , 1984, Artif. Intell..