Buradasınız

Anasayfa » Content

Linear Optimal Multi-periodic Repetitive Control —A Low Order Controller Scheme

Journal Name:

  • An International Journal of Optimization and Control: Theories & Applications

Publication Year:

  • 2012

Keywords (Original Language):

Author NameUniversity of Author

AMS Codes:

Bookmark/Search this post with
Abstract (Original Language): 
This article proposes a new method for treating the computational problem in discrete time linear multi-periodic repetitive control systems, where the reference signal includes several periodic components with already known periods. As periods get large, the computational problem becomes prominent. This work thus investigates the frequency contents of reference signals, where the order of original repetitive controller is lowered by considering only a reduced number of poles, namely, the most important contributors to the total energy of the multi-periodic reference signal. A lower order multi-periodic repetitive controller is designed which assures BIBO stability of the closed-loop system, and approximate tracking is achieved. Finally, experimental tests on a non-minimum phase spring mass damper system demonstrate the effectiveness of this new controller.
FULL TEXT (PDF): 
PDF icon arastirmax-linear-optimal-multi-periodic-repetitive-control-low-order-controller-scheme.pdf
  • 1
1
16
  • English

REFERENCES

References: 

[1] Francis, B.A. and Wonham, W.M., The internal
model principle for linear multivariable
regulators,Applied Mathematics and Optimization,
2(1), 170–194, (1975).
[2] Garimella, S.S. and Srinivasan, K., Application
of repetitive control to eccentricity compensation
in rolling, Journal of Dynamic Systems
Measurement and Control 118,(1996)
[3] Tomizuka, M., Tsao, T.C., and Chew,
K.K., Analysis and Synthesis of DiscreteTime
Repetitive Controllers, Journal of Dynamic
Systems, Measurement and Control.
(1989)
[4] Sadegh, N., and Guglielmo, K. (1995), “A new
repetitive controller for mechanical manipulators,”
Journal of Robotic Systems, Copyright

c 1991 Wiley Periodicals, Inc. A Wiley Company.
[5] Yamada, M., Riadh, Z., and Funahashi, Y.
(2000), “Discrete Time Repetitive Control
System with Multiple Periods,” IEEE.
[6] Manayathara, T.J., Tsao, T.C., Bentsman,
J., and Ross, D. (1996), “Rejection of Unknown
Periodic Load Disturbances in Continuous
Steel Casting Process Using Learning
Repetitive Control Approach,” IEEE Trans.
On Control Systems Technology, 4, 259–265.
[7] Yamada, M., Funahashi, Y., Ishihara, S., and
Matsushita, M. (1996), “Extended DiscreteTime
Prototype Repetitive Controllers and
Its Application,” Proceedings of the 35th
Conference on Decision and Control, Kobe,
Japan. IEEE.
[8] Sato, H., Sueno, T., Toyama, T., Mikawa, M.,
and Toda, T. (1991), “High accuracy Magnet
Power Supply for Proton Synchrotron By
Repetitive Control,” IEEE.
[9] Ghosh, J., and Paden, B. (2000), “Nonlinear
repetitive control,” IEEE Transactions, Automatic
Control.
[10] Horowitz, K.K. (1990), “Repetitive and
adaptive control of robot manipulators with
velocity estimation,” IEEE Trans on Robotics
and Automation, 13, 204–217.
[11] Ahn, H.S. (2003), Discrete Time Adaptive
Repetitive Control and Its Application to a
Linear BLDC Motor, The Fourth International
Conference on Control and Automation
(ICCA’03), Montreal, Canada.
[12] Chotai, A. and Owens D.H., Digital control
design using reduced order models, in Proceedings
of the IEE International Conference
Control85 (1985)
[13] Han, Y., Owens, D.H. and Chu, B, Discrete
Time Linear Optimal Repetitive Control -
A Low Order Controller Scheme, Proceedings
of the 2010 2nd International Conference on
Computational Intelligence, Communication
Systems and Networks, Livepool, UK, 238 -
243, (2010)
[14] Hillerstrom, G., and Sternby, J., “Repetitive
Control Using Low Order Models,” American
Control Conference, Volume: 2, On page(s):
1873– 1878. (1994)
[15] Wang, L., Chai, S., Freeman, C.T., and
Rogers E., On Structure Selection for Multivariable
Repetitive-predictive Controllers,
49th IEEE Conference on Decision and Control
December, Hilton Atlanta Hotel, Atlanta,
GA, USA, 15-17, (2010)
[16] Owens, D.H., Marian., T.R., Hatonen, J.J.
and Li, L.M., Discrete time linear optimal
multi-periodic repetitive control: a benchmark
tracking solution, International Journal
of Control, 79:9, 991–1001, (2006)
[17] Amann, N., Owens, D.H. and Rogers, E., Iterative
learning control using optimal feedback
and feedforward actions, International
Journal of Control, 65, 277–293, (1996)
[18] Astrom, K.J. and Wittenmark, B., Computer
Controlled Systems: Theory and Design,
2nd ed., Englewood Cliffs, NJ: Prentice
Hall (1990).
[19] Freeman, C.T., Lewin, P.L., H¨at¨onen, J.,
Owens, D.H., and Ylinen, R. , An optimality
based Repetitive Control algorithm for
discrete-time systems, IEEE, Transactions on
Circuits and Systems–I: Regular Papers, 55,
No.1. (2008)

Thank you for copying data from http://www.arastirmax.com