Improving the Intelligent Control of Magnetic Levitiation Ball Using Artificial Neural Network

Asogwa Tochukwu Chijindu; Ugwu Edith Angela

doi:10.18535/ijecs/v8i06.4328

Abstract

Forecasting the time series behavior of magnetic levitation system has been a major research objective for the last five decades. This is due to the challenges presented as a result of its dynamic nature in motion. Initially this problem was supposed to be solves by control engineering researchers using predictive control modeling. However, due to the robust nature of the technological application (high speed train, maglev ball, e.t.c), precision in the control system has been a major challenge according to Earnshaw’s theorem. This paper improves intelligent control of a magnetic levitation (ball) system using artificial neural network. First the maglev system plant is identified and then a Neuro controller is designed to predict the dynamic behavior of this system using feedback linearization process. The system will be design and simulated using neural network tool and Mathlab.

Keywords

Cyber Security
Cyber Threats
Domain
Framework.

References

Chaïban NASR; Neural Network Control of a magnetic levitation system; Lebanese University - Faculty of Engineering, Section IDept. of Electrical and Electronic Engineering. 2000.
Valer Dolga, Lia Dolga “Modeling and Simulation of a Magnetic Levitation System” Annals Of The Oradea University. Fascicle of Management and Technological Engineering, Volume VI (XVI), 2007.
Wong T. “Design of a magnetic levitation system an undergraduate project”, IEEE Transactions on Education, pp196-200; 2010
Kumar Rajesh, A.K.Ray. Artificial neural network modeling and control of Retention process in the wet end, International Journal of Information Technology and Knowledge Management July-December 2010, Volume 2, No. 2, pp. 259-264.
Ying-Shing Shiao, “Design and Implementation of a Controller for a Magnetic Levitation System” Proc. Natl. Sci. Counc. ROC(D) Vol. 11, No. 2, 2011. pp. 88-94
Ehsan Shameli, Mir Behrad Khamesee, Jan Paul Huissoon . “Nonlinear controller design for a magnetic levitation device”, Microsyst Technol 13:831–835, DOI 10.1007/s00542-006-0284-y, 2007.
Narendra, Kumpati S. and Kannan Parthasarathy, “Learning Automata Approach to Hierarchical Multiobjective Analysis,” IEEE Transactions on Systems, Man and Cybernetics, Vol. 20, No. 1, January/February 1991, pp. 263–272

[refR-1] Chaïban NASR; Neural Network Control of a magnetic levitation system; Lebanese University - Faculty of Engineering, Section IDept. of Electrical and Electronic Engineering. 2000.

[refR-2] Valer Dolga, Lia Dolga “Modeling and Simulation of a Magnetic Levitation System” Annals Of The Oradea University. Fascicle of Management and Technological Engineering, Volume VI (XVI), 2007.

[refR-3] Wong T. “Design of a magnetic levitation system an undergraduate project”, IEEE Transactions on Education, pp196-200; 2010

[refR-4] Kumar Rajesh, A.K.Ray. Artificial neural network modeling and control of Retention process in the wet end, International Journal of Information Technology and Knowledge Management July-December 2010, Volume 2, No. 2, pp. 259-264.

[refR-5] Ying-Shing Shiao, “Design and Implementation of a Controller for a Magnetic Levitation System” Proc. Natl. Sci. Counc. ROC(D) Vol. 11, No. 2, 2011. pp. 88-94

[refR-6] Ehsan Shameli, Mir Behrad Khamesee, Jan Paul Huissoon . “Nonlinear controller design for a magnetic levitation device”, Microsyst Technol 13:831–835, DOI 10.1007/s00542-006-0284-y, 2007.

[refR-7] Narendra, Kumpati S. and Kannan Parthasarathy, “Learning Automata Approach to Hierarchical Multiobjective Analysis,” IEEE Transactions on Systems, Man and Cybernetics, Vol. 20, No. 1, January/February 1991, pp. 263–272

Improving the Intelligent Control of Magnetic Levitiation Ball Using Artificial Neural Network

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