Abstract
The paper presents a systematic methodology for modeling multi-robot production tasks based on extended Petri nets. To overcome some difficulties in the modeling of complex discrete event systems with a large number of elements in basic Petri nets, extended high-level Petri nets are introduced based on condition-event Petri nets. The high-level net representation of the conceptual task flows and detailed control functions with a top-down refinement methodology can provide more synthetic specifications for consistent management and distributed coordination of multi-robot systems.
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References
Yasuda, G., Mori, M.: Application of Graph Theory to Self-Reproducing Processes. In: Proc. of the 10th SICE Annual Conference, pp. 271–272 (1971)
Yasuda, G., Mori, M.: Construction of an Artificial Multi-Molecular Self-Reproducing Mechanism. In: Proc. of the 14th Joint Automatic Control Conference of Japan, pp. 65–66 (1971)
Cao, T., Sanderson, A.C.: Task Decomposition and Analysis of Robotic Task Plans using Petri Nets. IEEE Trans. on Industrial Electronics 41(6), 620–630 (1994)
Ramaswamy, S., Valavanis, K.P.: Modeling, Analysis and Simulation of Failures in a Ma-terial Handling System with Extended Petri Nets. IEEE Trans. on Systems, Man, and Cybernetics 24(9), 1358–1373 (1994)
Lee, J.-S., Hsu, P.-L.: Implementation of a Remote Hierarchical Supervision System Using Petri Nets and Agent Technology. IEEE Trans. on Systems, Man, and Cybernetics 37(1), 77–85 (2007)
Duffee, N.A., Prabhu, V.V.: Heterarchical Control of Highly Distributed Manufacturing Systems. Int. Journal of Computer Integrated Manufacturing 9(4), 270–281 (1996)
Cho, K., Lim, J.: Mixed Centralized/Decentralized Supervisory Control of Discrete Events Dynamic Systems. Automatica 35, 121–128 (1999)
Peterson, J.: Petri Net Theory and the Modeling of Systems. Prentice-Hall International, Englewood Cliffs (1981)
Villani, E., Miyagi, P.E., Valette, R.: Modeling and Analysis of Hybrid Supervisory System: A Petri Net Approach. Springer, London (2006)
Villarroel, J.L., Martinez, J., Silva, M.: GRAMAN: A Graphic System for Manufacturing System Design. In: Proc. IMACS Int. Symposium on System Modeling & Simulation (SMS’SS), pp. 311–316 (1988)
Yasuda, G., Takai, H., Tachibana, K.: Performance Evaluation of a Multimicrocomputer Based Software Servo System for Real-Time Distributed Robot Control. In: Proc. of 12th Triennial World Congress of IFAC, Pergamon, Oxford, vol. 2, pp. 673–678 (1993)
Yasuda, G., Takai, H., Tachibana, K.: Implementation and Performance Evaluation of Parallel Processing Architectures for Distributed Autonomous Motion Control Systems. In: Proc. of the 2nd Asian Control Conference, vol. 2, pp. 823–826 (1997)
Yasuda, G.: Implementation of Hierarchical and Distributed Control for Discrete Event Robotic Manufacturing Systems. In: Proc. of the 38th International Conference on Computers and Industrial Engineering, pp. 2580–2589 (2008)
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Yasuda, G. (2013). Distributed Coordination of Multiple Robot Systems Based on Hierarchical Petri Net Models. In: Lee, J., Lee, M.C., Liu, H., Ryu, JH. (eds) Intelligent Robotics and Applications. ICIRA 2013. Lecture Notes in Computer Science(), vol 8103. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-40849-6_60
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DOI: https://doi.org/10.1007/978-3-642-40849-6_60
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-40848-9
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