HYBRID NEURO-FUZZY MULTI-OBJECTIVE TRAJECTORY PLANNING OF REDUNDANT MANIPULATORS

A. Khoukhi,∗ ,∗∗ L. Baron,∗∗ M. Balazinski,∗∗ and K. Demirli∗∗∗

References

1. [1] M. Vukobratovic & D. Stokic, Is dynamic control needed inrobotics system? And if so to what extent?, InternationalJournal of Robotics Research, 2(2), 1983, 18–35.
2. [2] A. Khoukhi, An optimal time-energy control design for aprototype educational robot, Robotica, 20, 2002, 661–671.
3. [3] A. Khoukhi, L. Baron, & M. Balazinski, A decoupled approachto optimal time energy trajectory planning of parallel kinematicmachines, Romansy 2006, 16th CISM-IFFToMM Symp. onRobot Design, Dynamics and Control, Warsaw, Poland, June20–24, 2006.
4. [4] J.J. Craig, Introduction to robotics mechanics and control(Louisville, KY: Prentice Hall, 2005).
5. [5] Y. Nakamura, Advanced robotics: Redundancy and optimiza-tion (Redwood City, CA: Addison-Wesley, 1991).
6. [6] J. Kieffer, A.J. Cahill, & M.R. James, Robust and accuratetime-optimal path-tracking control for robot manipulators,IEEE Transations on Robotics & Automation, 13, 1997, 880–890.
7. [7] J.J.E. Slotine & W. Li, On the adaptive control of robotmanipulators, International Journal of Robotics Research, 6(3),1987.
8. [8] Z. Yu, H. Chen, & P.Y. Woo, Advanced gain scheduled Hinfinitycontroller for robotic manipulators, Robotica, 20(5), 2002,537–544.
9. [9] M.A.C. Gill & A.Y. Zomaya, Obstacle avoidance in multi-robotsystems: Experiments in parallel genetic algorithms, WorldScientific Series in Robotics and Intelligent Systems, 20, 1998.
10. [10] L. Baron, A genetic algorithm for computing the real solutionsof the inverse kinematics of serial manipulators, Tenth WorldCongress on the Theory of Machines and Mechanisms, 3, Oulu,Finland, June 20–24, 1999, 1134–1139.
11. [11] A. Khoukhi & A. Ghoul, On the maximum dynamic stresssearch problem for robot manipulators, Robotica, 22(5), 2004,513–522.
12. [12] Y.L. Sun & M.J. Er, Hybrid fuzzy control of robotics systems,IEEE Transactions on Fuzzy Systems, 12(6), 2004, 755–765.
13. [13] Z.R. Huang & M. Nasir Uddin, Development of an adaptiveneuro-fuzzy controller for an IM Drive, Control and IntelligentSystems, 36, 2008, 182–187.
14. [14] H.T. Mok, C.W. Chan, & W.K. Yeung, Neuro-fuzzy network-based adaptive nonlinear PI controllers, Control and IntelligentSystems, 34, 2006, 216–224.
15. [15] A. Khoukhi & K. Benfreha, Application of multi-layer neuro-fuzzy networks to collision detection in a simulated manufac-turing, Transactions of the Canadian Society of MechanicalEngineering, 29(3–4), 2004, 431–444.
16. [16] F.O. Karray & C. De Silva, Soft computing and intelligentsystems design: Theory, tools and applications (Hindenburg,England: Addison-Wesley, 2005).
17. [17] J.S.R. Jang, C.T. Sun, & E. Mizutani, Neuro-fuzzy and softcomputing: A computational approach to learning and machineintelligence (Upper Saddle River, NJ: Prentice-Hall Engineer-ing, 1996), 614 pp.
18. [18] J.B. Mbede, & E. Ondoua, Intelligent motion control usingfuzzy and recurrent neural networks for robot manipulators indynamic environments, Control and Intelligent Systems, 30(3),2002, 351–362.
19. [19] S. Achiche, L. Baron, & M. Balazinski, Real/Binary-like codedversus binary coded genetic algorithms to automatically gener-ate fuzzy knowledge bases: a comparative study, EngineeringApplications of Artificial Intelligence, 17 (4), 2004, 313–325.
20. [20] M. Al-Khatib & J.J. Saade, An efficient data-driven fuzzyapproach to the motion planning problem of a mobile robot,Fuzzy Sets and Systems, 134(1), 2003, 65–82.
21. [21] A. Khoukhi, L. Baron, M. Balazinski, & K. Demirli, Hier-archical neuro-fuzzy optimal time trajectory planning for re-dundant manipulators, Engineering Applications of ArtificialIntelligence, 21(7), 2008, 974–984.
22. [22] A. Khoukhi, L. Baron, & M. Balazinski, Multi-objective tra-jectory planning for redundant manipulators by augmentedLagarangian, CCToMM, Symp. on Mechanics, Machines andMechatronics, Canadian Space Agency, Montreal, Canada,May 31 to June 1, 2007.95
23. [23] C.R. Carignan, Trajectory optimization for kinematicallyredundant arms, Journal of Robotic Systems, 8(2), 1991,221–248.
24. [24] D.P. Bertsekas, Non linear programming (Redwood City, CA:Athena Scientific, 1995).
25. [25] J.B. Hiriart-Urruty & C. Lemar´echal, Convex analysis andminimization algorithms (Berlin, New York: Springer Verlag,1993).
26. [26] T. Rockafellar, Lagrange multipliers and optimality, SIAMReview, 35(2), 1993, 183–238.
27. [27] A. Isidori, Non linear control systems, Third Edition (London,UK: Springer, 1995).
28. [28] A. Khoukhi, L. Baron, & M. Balazinski, Constrained multi-objective trajectory planning of redundant robots by a pro-jected gradient augmented Lagrangian, Transactions of theCSME, 31(4), 2008, 391–405.
29. [29] K. Demirli, S.X. Cheng, & P. Muthukumaran, Subtractiveclustering based modeling of job sequencing with parametricsearch, Fuzzy Sets and Systems, 137, 2003, 235–270.
30. [30] S.L. Chiu, Fuzzy model identification based on cluster esti-mation, Journal of Intelligent and Fuzzy Systems, 2, 1994,267–278.

Important Links:

• Abstract
• DOI: 10.2316/Journal.201.2009.2.201-1982
• From Journal (201) Mechatronic Systems and Control (formerly Control and Intelligent Systems) - 2009

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