M.C. BELHOUR

Work place: Faculty of Sciences and Technology, Department of Electronics, Jijel University, P.O. Box 98, Ouled Aissa, Jijel 18000, Algeria

E-mail: belhour.mohammed.cherif@gmail.com

Website:

Research Interests: Artificial Intelligence, Computer Architecture and Organization, Process Control System, Data Structures and Algorithms, Control Theory

Biography

M.C. Belhour was born in Jijel - ALGERIA at the 7th June, 1989. received his Diploma of License in electronics from the department of electronics, Jijel University, Algeria, 2010 and Master degree in Electronics and System Analysis from the Department of Electronics, Jijel University, Algeria, 2012. He is currently working on a Ph.D at the Electronics department, University of Jijel, Algeria. His current research interests include the fractional-order systems applied on the photovoltaic control systems, Artificial Intelligence and advanced approaches in control engineering.

Author Articles
Review, Design, Optimization and Stability Analysis of Fractional-Order PID Controller

By Ammar Soukkou M.C. BELHOUR Salah LEULMI

DOI: https://doi.org/10.5815/ijisa.2016.07.08, Pub. Date: 8 Jul. 2016

This paper will establish the importance and significance of studying the fractional-order control of nonlinear dynamical systems. The foundation and the sources related to this research scope is going to be set. Then, the paper incorporates a brief overview on how this study is performed and present the organization of this study. The present work investigates the effectiveness of the physical-fractional and biological-genetic operators to develop an Optimal Form of Fractional-order PID Controller (O2Fo-PIDC). The newly developed Fo-PIDC with optimal structure and parameters can, also, improve the performances required in the modeling and control of modern manufacturing-industrial process (MIP). The synthesis methodology of the proposed O2Fo-PIDC can be viewed as a multi-level design approach. The hierarchical Multiobjective genetic algorithm (MGA), adopted in this work, can be visualized as a combination of structural and parametric genes of a controller orchestrated in a hierarchical fashion. Then, it is applied to select an optimal structure and knowledge base of the developed fractional controller to satisfy the various design specification contradictories (simplicity, accuracy, stability and robustness).

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