A New Adaptive Fuzzy PID Control Method and Its Applicance in FCBTM
Keywords:
Flexible Circuit Board testing machine (FCBTM), tension control, adaptive self-tubing, fuzzy PID controlAbstract
The process of tension control for material testing using the Flexible ircuit Board testing machine (FCBTM) is featured with multi-variable, nonlinearity, ime delays and time variation. In order to ensure the tension precision, the stability of ervo motor’ speed and the reliability of test results, this paper establishes an accurate ystem model for the FCBTM, in which a novel three-dimensional adaptive fuzzy ID controller is designed. Specially, the simulation results show that the proposed daptive fuzzy control method is not only robust to the external disturbance but also ith more excellent dynamic and steady-state characteristics than traditional ones.
References
Duan X.G., Deng H., and Li H.X.(2013);
A Saturation-Based Tuning Method for Fuzzy PID ontroller, IEEE Trans on Industrial Informatics, 11: 5177-5185.
Chalui H. and Sicard P. (2012);
Adaptive fuzzy logic control of permanent magnet ynchronous machines with nonlinear friction, IEEE Trans on Industrial Informatics, 9(2):1123-113.
Benitez-Perez, H., Ortega-Arjona, J., Rojas-Vargas, J. A., and Duran-Chavesti, A. (2016); esign of a Fuzzy Networked Control Systems. Priority Exchange Scheduling Algorithm. nternational Journal of Computers Communications & Control, 11(2): 179-193.
Du, Z., Lin, T. C., and Zhao, T. (2015);
Fuzzy Robust Tracking Control for Uncertain Nonlinear ime-Delay System, International Journal of Computers Communications & Control, 0(6): 52-64.
Hu B., Mann G., and Raymond Gosine G, (2001);
A Systematic Study of Fuzzy PID Controllers unction Based Evaluation Approach, IEEE Trans on Fuzzy Systems, 9: 699-711. http://dx.doi.org/10.1109/91.963756
Hu B., Mann G., and Raymond Gosine G(1996);
Theoretic and Gentic Designs of A Threerules uzzy PI Controller, IEEE Trans on Fuzzy Systems, 16:489-496.
Clarke D.W.(1996); Adaptive Control of a Materials-testing Maechine, IEEE Trans on Fuzzy ystems, 13:1-4.
Han Z.G., Shen Y. (2010), An Improved Design Method of Three-dimensional Fuzzy Control, ontrol Engineering of China, 13(1):1-4.
Liu X. J., Cai T.Y., etal.(1998); Structure analysis of three-dimensional fuzzy controller, ontrol Engineering of China, 24(2):230-235.
Chen B., etal.(2006); Electric drive control system, Machinery Industry Press, Beijing, 2006.
Lai, J.G., Zhou, H., Lu, X.Q., and Liu, Z.W (2016);
Distributed power control for ERs based on networked multiagent systems with communication delays, Neurocomputing, 79:135-143.
Lai J.G., Lu X.Q.(2012); The Application of Embedded System and LabVIEW in Flexible opper Clad Laminates Detecting System, International Journal of Information and omputer Science, 1: 4-10.
Published
Issue
Section
License
ONLINE OPEN ACCES: Acces to full text of each article and each issue are allowed for free in respect of Attribution-NonCommercial 4.0 International (CC BY-NC 4.0.
You are free to:
-Share: copy and redistribute the material in any medium or format;
-Adapt: remix, transform, and build upon the material.
The licensor cannot revoke these freedoms as long as you follow the license terms.
DISCLAIMER: The author(s) of each article appearing in International Journal of Computers Communications & Control is/are solely responsible for the content thereof; the publication of an article shall not constitute or be deemed to constitute any representation by the Editors or Agora University Press that the data presented therein are original, correct or sufficient to support the conclusions reached or that the experiment design or methodology is adequate.
