TYPE-2 FUZZY SLIDING MODE CONTROL OF A FOUR-BAR MECHANISM

Gonca O. Koca, Zuhtu H. Akpolat, and Mehmet Özdemir

References

1. [1] J. Tao & J.P. Sadler, Constant speed control of a motor drivenmechanism system, Mechanism and Machine Theory, 30 (5),1995, 737–748.
2. [2] L.C. Dulger & S. Uyan, Modeling, simulation and control of afourbar mechanism with brushless servomotor, Mechatronics,7 (4), 1997, 369–383.
3. [3] Q. Li, S.K. Tso, L.S. Guo, & W.J. Zhang, Improving motiontracking of servomotor-driven closed-loop mechanisms usingmass-redistribution, Mechanism and Machine Theory, 35, 20001033–1045.
4. [4] W.J. Zhang & X.B. Chen, Mechatronics design for a pro-grammable closed-loop mechanism, in Proc. Inst. Mech. Eng.,2001, 365–375.
5. [5] M. Sitti, Piezoelectrically actuated four-bar mechanism withtwo flexible links for micromechanical flying insect thorax,IEEE/ASME Transactions on Mechatronics, 8 (1), 2003,26–36.
6. [6] O. Gundogdu & K. Erenturk, Fuzzy Control of a dc motordriven fourbar mechanism, Mechatronics, 15, 2005, 423–438.
7. [7] R.F. Fung, F.J. Lin, R.J. Wai, & P.Y. Lu, Fuzzy neural networkcontrol of a motor-quick-return servomechanism, Mechatronics,10, 2000, 145–167.
8. [8] C.-L. Hwang & C.-Y. Kuo, A stable adaptive fuzzy sliding-mode control for affine nonlinear systems with application tofour-bar linkage systems, IEEE Transactions on Fuzzy Systems,9 (2), 2001, 238–252.
9. [9] A. Trevisani & M.E. Valcher, An energy-based adaptive controldesign technique for multibody-mechanisms with flexible links,IEEE/ASME Transactions on Mechatronics, 10 (5), 2005, 571–580.
10. [10] K. Erent¨urk, Hybrid control of a mechatronic system: Fuzzylogic and grey system modeling approach, IEEE/ASME Trans-actions on Mechatronics, 12 (6), 2007, 703–710.
11. [11] L.A. Zadeh, Fuzzy sets, Information and Control, 8, 1965,338–353.
12. [12] K.M. Passino, Fuzzy control (California: Addison-Wesley,Longman, 1998).
13. [13] J.M. Mendel, Uncertain rule-based fuzzy logic systems: intro-duction and new directions (Upper Saddle River, NJ: Prentice-Hall PTR, 2001).
14. [14] H. Hagras, Type-2 FLCs: A new generation of fuzzy controllers,IEEE Computational Intelligence Magazine, 2007, 30–43.
15. [15] F.-J. Lin, P.-H. Shieh, & Y.-C. Hung, An intelligent controlfor linear ultrasonic motor using interval type-2 fuzzy neuralnetwork, IET Electric Power Applications, 2 (1), 2008, 32–41.
16. [16] N.N. Karnik, J.M. Mendel, & Q. Liang, Type-2 fuzzy logicsystems, IEEE Transactions on Fuzzy Systems, 7 (6), 1999,643–658.
17. [17] Q. Liang & J.M. Mendel, Interval type-2 fuzzy logic systems:Theory and design, IEEE Transactions on Fuzzy Systems,8 (5), 2000, 535–550.
18. [18] J.M. Mendel, R.I. John, & F. Liu, Interval type-2 fuzzylogic systems made simple, fuzzy systems, IEEE Transactions,14 (6), 2006, 808–821.
19. [19] J.J.E. Slotine & W. Li, Applied nonlinear control (EnglewoodCliffs, NJ: Prentice-Hall, 1991).
20. [20] J.Y. Hung, W.B. Gao, & J.C. Hung, Variable structure control:A survey, IEEE Transactions on Industrial Electronics, 40 (1),1993, 2–22.
21. [21] W.B. Gao & J.C. Hung, Variable structure control of nonlinearsystems: A new approach, IEEE Transactions on IndustrialElectronics, 40 (1), 1993, 45–55.
22. [22] X. Yu, Z. Man, & B. Wu, Design of fuzzy sliding-mode controlsystems, Fuzzy Sets Systems, 95, 1998, 295–306.
23. [23] B.J. Choi, S.W. Kwak, & B.K. Kim, Design of a single-inputfuzzy logic controller and its properties, Fuzzy Sets Systems,106, 1999, 299–308.
24. [24] C.M. Lin & C.F. Hsu, Hybrid fuzzy sliding-mode control ofan aeroelastic system, Journal of Guidance Control Dynamics,25, 2002, 829–832.
25. [25] P.Z. Lin, C.M. Lin, C.F. Hsu, & T.T. Lee, Type-2 fuzzycontroller design using a sliding-mode approach for applicationto DC–DC converters, IEE Proceedings – Electric PowerApplications, 152 (6), 2005, 1482–1488.
26. [26] A. Altinors & Z.H. Akpolat, Robust speed control of electricaldrive systems using type-II fuzzy logic and sliding mode controlmethods, e-Journal of New World Sciences Academy, 3 (1),2008, 133–144.
27. [27] Z.H. Akpolat & A. Altinors, Type-2 fuzzy reaching law speedcontrol of an electric drive, International Journal of Modelingand Simulation, 27 (3), 2007, 273–279.
28. [28] P. Burton, Kinematics and dynamics of planar machinery(Englewood Cliffs, NJ: Prentice-Hall, 1979).
29. [29] L.A. Zadeh, The concept of a linguistic variable and itsapplication to approximate reasoning-1, Information Science,8, 1975, 199–249.
30. [30] J.M. Mendel & R.I.B. John, Type-2 fuzzy sets made simple,IEEE Transactions on Fuzzy Systems, 10 (2), 2002, 117–127.
31. [31] I.B. Turksen, Type I and type II fuzzy system modeling, FuzzySets and Systems, 106(1), 1999, 11–34.
32. [32] I.B. Turksen, Type 2 representation and reasoning for CWW,Fuzzy Sets and Systems 127 (1), 2002, 17–36.
33. [33] Z.H. Akpolat & G.M. Asher, A practical approach to thedesign of robust speed controllers for machine drives, IEEETransactions on Industrial Electronics, 47 (2), 2000, 315–324.67

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• Abstract
• DOI: 10.2316/Journal.205.2011.1.205-5335
• From Journal (205) International Journal of Modelling and Simulation - 2011

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