Affiliation:
1. National Polytechnic School of Constantine, El Khroub, Algeria
2. Laboratoire des sciences du numérique de Nantes (LS2N - ex IRCCyN et LINA), Nantes, France
Abstract
The control of cyber-physical systems (CPS) is a great challenge for researchers in control theory and engineering mainly because of delays induced by merging computation, communication, and control of physical processes. Consequently, control solutions for time-delay systems can be applied efficiently for many CPS system configurations. In this article, a fractional order PIλ and PIλDµ control design is investigated for a class of fractional order time-delay systems. The proposed control design approach is simple and efficient. The controller parameter's adjustment is achieved in two steps: first, the relay approach is used to compute satisfactory classical PID coefficients, namely kp, Ti and Td. Then, the fractional orders λ and µ are optimized using performance criteria. Simulation results show the efficiency of the proposed design technique and its ability to enhance the PID control performance.
Reference40 articles.
1. Methods for computing the time response of fractional-order systems.;D. P.Atherton;IET Control Theory & Applications,2014
2. Analysis of fractional delay systems of retarded and neutral type
3. Stability and stabilizability analysis of fractional-order time-varying delay systems via diffusive representation
4. Moth-flame optimisation algorithm-based fractional order PIλDμ controller with MRAC tuning configuration. International Journal of Systems;B.Bourouba;Control and Communications,2018
5. Stability of linear continuous-time fractional order systems with delays of the retarded type.;M.Busłowicz;Bulletin of the Polish Academy of Sciences. Technical Sciences,2008
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