Journal ArticleDOI
Tuning algorithms for fractional order internal model controllers for time delay processes
Cristina I. Muresan,Abhishek Dutta,Eva-Henrietta Dulf,Zehra Pinar,Anca Maxim,Clara M. Ionescu +5 more
TLDR
Two tuning algorithms for fractional-order internal model control (IMC) controllers for time delay processes based on two specific closed-loop control configurations, based on the IMC control structure and the Smith predictor structure are presented.Abstract:
This paper presents two tuning algorithms for fractional-order internal model control (IMC) controllers for time delay processes. The two tuning algorithms are based on two specific closed-loop control configurations: the IMC control structure and the Smith predictor structure. In the latter, the equivalency between IMC and Smith predictor control structures is used to tune a fractional-order IMC controller as the primary controller of the Smith predictor structure. Fractional-order IMC controllers are designed in both cases in order to enhance the closed-loop performance and robustness of classical integer order IMC controllers. The tuning procedures are exemplified for both single-input-single-output as well as multivariable processes, described by first-order and second-order transfer functions with time delays. Different numerical examples are provided, including a general multivariable time delay process. Integer order IMC controllers are designed in each case, as well as fractional-order IMC...read more
Citations
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Journal ArticleDOI
Load frequency control strategy via fractional-order controller and reduced-order modeling
TL;DR: Simulation results show that the proposed scheme utilizes the concept of CRONE principle, model-order reduction and FO filter in IMC framework to derive a robust controller can bring improved disturbance rejection performance in nominal condition as well as in presence of uncertainties and constraints in plant parameters.
Journal ArticleDOI
A Survey of Recent Advances in Fractional Order Control for Time Delay Systems
TL;DR: The purpose of this paper is to provide a state of the art that can be easily used as a basis to familiarize oneself with fractional order tuning strategies targeted for time delayed processes.
Journal ArticleDOI
Real time implementation of fractional order PID controllers for a magnetic levitation plant
TL;DR: In this paper, a 2-DOF FOPID controller was proposed for a magnetic levitation (Maglev) plant and the performance has been compared with that of 1-DoF and 2-DDOF Integer Order PID (IOPID) controllers in both simulation and real time.
Journal ArticleDOI
Back to Basics: Meaning of the Parameters of Fractional Order PID Controllers
TL;DR: In this article, the authors explored the new meaning of integral and derivative actions, and gains, derived by the consideration of non-integer integration and differentiation orders, i.e., for fractional order PID controllers.
Journal ArticleDOI
IMC-PID Fractional Order Filter Multi-loop Controller Design for Multivariable Systems Based on Two Degrees of Freedom Control Scheme
TL;DR: An IMC-PID fractional order filter multi-loop controller design method based on two degrees of freedom paradigm is proposed for Multiple Input-Multiple Output systems with time delays to reduce the effect of the coupling among the control loops.
References
More filters
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Book
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TL;DR: Fractional-order control strategies for Power Electronic Buck Converters have been discussed in this paper, as well as some nonlinear Fractionalorder Control Strategies for nonlinear control strategies.