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PLC based fractional-order PID temperature control in pipeline: design procedure and experimental evaluation

Jakub Możaryn, Jakub Petryszyn, Štěpán Ožana

2020Meccanica29 citationsDOIOpen Access PDF

Abstract

Abstract Fractional-order control system design can be used for systems with non-local dynamics involving long-term memory effects. However, implementation of a fractional-order controller in industrial systems is complicated, because of the excessive demand for computational power. The following paper presents the step-by-step design procedure, parameter tuning, and experimental evaluation of the fractional order proportional-integral-derivative (FOPID) controller. The control algorithm is based on the Continued Fraction Expansion approximation of the fractional-order operators. It is implemented on a standard industrial Programmable Logic Controller. The FOPID control system is verified and evaluated in terms of efficiency and robustness using a new laboratory benchmark of a temperature control in the pipeline. The proposed solution shows increased efficiency in terms of robustness compared to the standard PID closed-loop control.

Topics & Concepts

PID controllerRobustness (evolution)Control theory (sociology)Benchmark (surveying)Computer scienceFractional calculusPipeline (software)Programmable logic controllerControl systemTemperature controlMathematical optimizationControl engineeringMathematicsApplied mathematicsControl (management)EngineeringChemistryGeneOperating systemBiochemistryGeographyElectrical engineeringProgramming languageGeodesyArtificial intelligenceAdvanced Control Systems DesignExtremum Seeking Control SystemsFractional Differential Equations Solutions
PLC based fractional-order PID temperature control in pipeline: design procedure and experimental evaluation | Litcius