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access icon free Robust higher-order ILC for non-linear discrete-time systems with varying trail lengths and random initial state shifts

© The Institution of Engineering and Technology
Received 03/01/2017, Accepted 07/06/2017, Revised 25/04/2017, Published 15/06/2017

This study addresses a robust iterative learning control (ILC) scheme for non-linear discrete-time systems in which both the trail lengths and the initial state shifts could be randomly variant in iteration domain. The proposed higher-order ILC law guarantees that as the iteration number goes to infinity, the ILC tracking errors at the desired output trail period are bounded in mathematical expectation, and the bound of tracking errors is proportional to the random initial state shifts. Specifically, the ILC tracking errors in mathematical expectation can be driven to zero as the expectation of initial state shifts is zero. Two numerical examples are carried out to demonstrate the effectiveness of the proposed higher-order ILC law.

Inspec keywords: nonlinear control systems; robust control; iterative learning control; discrete time systems

Other keywords: random initial state shifts; nonlinear discrete-time systems; iterative learning control; higher-order ILC law; ILC tracking errors; varying trail lengths; robust higher-order ILC

Subjects: Discrete control systems; Self-adjusting control systems; Nonlinear control systems; Interpolation and function approximation (numerical analysis)

References

    1. 1)
      • 16. Li, X., Xu, J.X., Huang, D.: ‘An iterative learning control approach for linear systems with randomly varying trial lengths’, IEEE Trans. Autom. Control, 2014, 59, (7), pp. 19541960.
    2. 2)
      • 8. Khong, S.Z., Nešić, D., Krstić, M.: ‘Iterative learning control based on extremum seeking’, Automatica, 2016, 66, pp. 238245.
    3. 3)
      • 10. Zhu, Q., Xu, J.X., Huang, D., et al: ‘Iterative learning control design for linear discrete-time systems with multiple high-order internal models’, Automatica, 2015, 62, (11), pp. 6576.
    4. 4)
      • 6. Sampson, P., Freeman, C., Coote, S., et al: ‘Using functional electrical stimulation mediated by iterative learning control and robotics to improve arm movement for people with multiple sclerosis’, IEEE Trans. Neural Syst. Rehabil. Eng., 2016, 24, (2), pp. 235248.
    5. 5)
      • 11. Li, X.D., Lv, M.M., Ho, J.K.L.: ‘Adaptive ILC algorithms of nonlinear continuous systems with non-parametric uncertainties for non-repetitive trajectory tracking’, Int. J. Syst. Sci., 2016, 47, (10), pp. 22792289.
    6. 6)
      • 25. Li, Y., Tong, S., Li, T.: ‘Observer-based adaptive fuzzy tracking control of MIMO stochastic nonlinear systems with unknown control direction and unknown dead-zones’, IEEE Trans. Fuzzy Syst., 2015, 23, (4), pp. 12281241.
    7. 7)
      • 3. Shen, D., Wang, Y.: ‘Survey on stochastic iterative learning control’, J. Process Control, 2014, 24, (12), pp. 6477.
    8. 8)
      • 24. Imani, M., Braga-Neto, U.M.: ‘Maximum-likelihood adaptive filtering for partially-observed Boolean dynamical systems’, IEEE Trans. Signal Process., 2017, 65, (2), pp. 359371.
    9. 9)
      • 19. Shen, D., Zhang, W., Xu, J.X.: ‘Iterative learning control for discrete nonlinear systems with randomly iteration varying lengths’, Syst. Control Lett., 2016, 96, pp. 8187.
    10. 10)
      • 7. Guth, M., Seel, T., Raisch, J.: ‘Iterative learning control with variable pass length applied to trajectory tracking on a crane with output constraints’. Proc. of 52nd IEEE Conf. on Decision and Control, 2013, pp. 66766681.
    11. 11)
      • 15. Seel, T., Schauer, T., Raisch, J.: ‘Monotonic convergence of iterative learning control systems with variable pass length’, Int. J. Control, 2017, 90, (3), pp. 393406.
    12. 12)
      • 17. Shen, D., Zhang, W., Wang, Y., et al: ‘On almost sure and mean square convergence of P-type ILC under randomly varying iteration lengths’, Automatica, 2016, 63, pp. 359365.
    13. 13)
      • 9. Freeman, C.T., Rogers, E., Hughes, A.-M., et al: ‘Iterative learning control in health care: electrical stimulation and robotic-assisted upper-limb stroke rehabilitation’, IEEE Control Syst. Mag., 2012, 32, (1), pp. 1843.
    14. 14)
      • 13. Park, K.H.: ‘An average operator-based PD-type iterative learning control for variable initial state error’, IEEE Trans. Autom. Control, 2005, 50, (6), pp. 865869.
    15. 15)
      • 18. Li, X., Xu, J.X., Huang, D.: ‘Iterative learning control for nonlinear dynamic systems with randomly varying trial lengths’, Int. J. Adapt. Control Signal Process., 2015, 29, (11), pp. 13411353.
    16. 16)
      • 1. Bristow, D.A., Tharayil, M., Alleyne, A.G.: ‘A survey of iterative learning control: a learning based method for high-performance tracking control’, IEEE Control Syst. Mag., 2006, 26, (3), pp. 96114.
    17. 17)
      • 2. Xu, J.X.: ‘A survey on iterative learning control for nonlinear systems’, Int. J. Control, 2011, 84, (7), pp. 12751294.
    18. 18)
      • 22. Sun, M., Wang, D.: ‘Analysis of nonlinear discrete-time systems with higher-order iterative learning control’, Dyn. Control, 2001, 11, pp. 8196.
    19. 19)
      • 26. Zouari, F., Boulkroune, A., Ibeas, A., et al: ‘Observer-based adaptive neural network control for a class of MIMO uncertain nonlinear time-delay non-integer-order systems with asymmetric actuator saturation’, Neural Comput. Appl., 2016, doi: 10.1007/s00521-016-2369-6.
    20. 20)
      • 23. Wang, D.: ‘Convergence and robustness of discrete time nonlinear systems with iterative learning control’, Automatica, 1998, 34, (11), pp. 14451448.
    21. 21)
      • 21. Hatonen, J., Owens, D., Feng, K.: ‘Basis functions and parameter optimisation in high-order iterative learning control’, Automatica, 2006, 42, (2), pp. 287294.
    22. 22)
      • 20. Gunnarsson, S., Norrlof, M.: ‘On the disturbance properties of high order iterative learning control algorithms’, Automatica, 2006, 42, (11), pp. 20312034.
    23. 23)
      • 14. Xu, J.X., Yan, R.: ‘On initial conditions in iterative learning control’, IEEE Trans. Autom. Control, 2005, 50, (9), pp. 13491354.
    24. 24)
      • 12. Wei, Y.S., Li, X.D.: ‘Iterative learning control for linear discrete-time systems with high relative degree under initial state vibration’, IET Control Theory Appl.., 2016, 10, (10), pp. 11151126.
    25. 25)
      • 4. Meng, D., Moore, K.L.: ‘Robust iterative learning control for nonrepetitive uncertain systems’, IEEE Trans. Automat. Control, 2017, 62, (2), pp. 907913.
    26. 26)
      • 5. Li, X., Ren, Q., Xu, J.X.: ‘Precise speed tracking control of a robotic fish via iterative learning control’, IEEE Trans. Ind. Electron., 2016, 63, (4), pp. 22212228.
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