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An examination of complex fractional order physical phenomena in IOPD controller design

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dc.title An examination of complex fractional order physical phenomena in IOPD controller design en
dc.contributor.author Demiroğlu, Uğur
dc.contributor.author Şenol, Bilal
dc.contributor.author Matušů, Radek
dc.relation.ispartof Mathematical Methods in the Applied Sciences
dc.identifier.issn 0170-4214 Scopus Sources, Sherpa/RoMEO, JCR
dc.identifier.issn 1099-1476 Scopus Sources, Sherpa/RoMEO, JCR
dc.date.issued 2023
dc.type article
dc.language.iso en
dc.publisher John Wiley and Sons Ltd
dc.identifier.doi 10.1002/mma.9362
dc.relation.uri https://onlinelibrary.wiley.com/doi/10.1002/mma.9362
dc.relation.uri https://onlinelibrary.wiley.com/doi/epdf/10.1002/mma.9362
dc.subject analytical method en
dc.subject controller design en
dc.subject fractional complex order en
dc.subject fractional order en
dc.subject integer order en
dc.subject proportional derivative en
dc.description.abstract This research focuses on the fractional complex order plant (FCOP). The significant contribution is the role of complex plant models in system stability and robustness and associated physical phenomena. A general transfer function is studied in the paper. Other plant models may be built with this structure since the FCOP is a general mathematical form covering integer order plant (IOP) and fractional order plant (FOP). Using the equations produced with the proposed technique and the recommended integer order proportional derivative (IOPD controller, physical changes in integer, fractional and complex coefficients, and orders are observed within this paper. Analysis of the plant controlled with an IOPD controller is done by applying an integrator to reveal the differences. The effects of the parameters are discussed together with the visuals, supported by simulations. The aim is to tune the controller parameters to achieve the phase and specifications as the researcher desired. It is observed that the integrator greatly takes part in reducing the steady-state error. The IOP with the integrator showed the lowest steady-state error, and also, the settling and overshoot time were enhanced. Increase in the phase margin also caused an increase in the phase crossover frequency. It is also observed that the fractional order affected the phase crossover frequency comparing with the IOP, and the complex order modification also had an effect comparing to the fractional order version. The complex order of the system is considered with its conjugate components in the imaginary part thus, the results are found separately for each case. en
utb.faculty Faculty of Applied Informatics
dc.identifier.uri http://hdl.handle.net/10563/1011549
utb.identifier.obdid 43885015
utb.identifier.scopus 2-s2.0-85159392595
utb.identifier.wok 000988390600001
utb.identifier.coden MMSCD
utb.source j-scopus
dc.date.accessioned 2023-06-12T08:13:24Z
dc.date.available 2023-06-12T08:13:24Z
utb.ou CEBIA-Tech
utb.contributor.internalauthor Matušů, Radek
utb.fulltext.sponsorship -
utb.wos.affiliation [Demiroglu, Ugur] Firat Univ, Tech Vocat Sch, Comp Sci Dept, Elazig, Turkiye; [Senol, Bilal] Aksaray Univ, Fac Engn, Software Engn Dept, Aksaray, Turkiye; [Matusu, Radek] Tomas Bata Univ Zlin, Fac Appl Informat, Ctr Secur Informat & Adv Technol CEBIA Tech, Zlin, Czech Republic
utb.scopus.affiliation Computer Sciences Department, Technical Vocational School, Fırat University, Elazığ, Turkey; Software Engineering Department, Faculty of Engineering, Aksaray University, Aksaray, Turkey; Centre for Security, Information and Advanced Technologies (CEBIA–Tech), Faculty of Applied Informatics, Tomas Bata University in Zlín, Zlin, Czech Republic
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