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Fractional-order PID design : towards transition from state-of-art to state-of-use

(2019) ISA TRANSACTIONS. 84. p.178-186
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Abstract
This paper presents a new tuning method for fractional-order (FO)PID controllers to simplify current tuning and make FOPID controllers more convenient for industry, i.e. facilitate transition from stateof-art to state-of-use. The number of tuning parameters is reduced from five to three based on popular specification settings for PID controllers without the need for reduced process models which introduce modeling errors. A test batch of 133 simulated processes and two real-life processes are used to test the presented method. A comparative study between the new method and the established CRONE controller, quantifies the performance. The conclusion states that the new method gives fractional controllers with similar performances as the current methods but with a significantly decreased tuning complexity making FOPID controllers more acceptable to industry. (C) 2018 ISA. Published by Elsevier Ltd. All rights reserved.

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Please use this url to cite or link to this publication:

MLA
Chevalier, Amélie et al. “Fractional-order PID Design : Towards Transition from State-of-art to State-of-use.” ISA TRANSACTIONS 84 (2019): 178–186. Print.
APA
Chevalier, A., Francis, C., Copot, C., Ionescu, C.-M., & De Keyser, R. (2019). Fractional-order PID design : towards transition from state-of-art to state-of-use. ISA TRANSACTIONS, 84, 178–186.
Chicago author-date
Chevalier, Amélie, Clovis Francis, Cosmin Copot, Clara-Mihaela Ionescu, and Robain De Keyser. 2019. “Fractional-order PID Design : Towards Transition from State-of-art to State-of-use.” Isa Transactions 84: 178–186.
Chicago author-date (all authors)
Chevalier, Amélie, Clovis Francis, Cosmin Copot, Clara-Mihaela Ionescu, and Robain De Keyser. 2019. “Fractional-order PID Design : Towards Transition from State-of-art to State-of-use.” Isa Transactions 84: 178–186.
Vancouver
1.
Chevalier A, Francis C, Copot C, Ionescu C-M, De Keyser R. Fractional-order PID design : towards transition from state-of-art to state-of-use. ISA TRANSACTIONS. 2019;84:178–86.
IEEE
[1]
A. Chevalier, C. Francis, C. Copot, C.-M. Ionescu, and R. De Keyser, “Fractional-order PID design : towards transition from state-of-art to state-of-use,” ISA TRANSACTIONS, vol. 84, pp. 178–186, 2019.
@article{8605781,
  abstract     = {This paper presents a new tuning method for fractional-order (FO)PID controllers to simplify current tuning and make FOPID controllers more convenient for industry, i.e. facilitate transition from stateof-art to state-of-use. The number of tuning parameters is reduced from five to three based on popular specification settings for PID controllers without the need for reduced process models which introduce modeling errors. A test batch of 133 simulated processes and two real-life processes are used to test the presented method. A comparative study between the new method and the established CRONE controller, quantifies the performance. The conclusion states that the new method gives fractional controllers with similar performances as the current methods but with a significantly decreased tuning complexity making FOPID controllers more acceptable to industry. (C) 2018 ISA. Published by Elsevier Ltd. All rights reserved.},
  author       = {Chevalier, Amélie and Francis, Clovis and Copot, Cosmin and Ionescu, Clara-Mihaela and De Keyser, Robain},
  issn         = {0019-0578},
  journal      = {ISA TRANSACTIONS},
  language     = {eng},
  pages        = {178--186},
  title        = {Fractional-order PID design : towards transition from state-of-art to state-of-use},
  url          = {http://dx.doi.org/10.1016/j.isatra.2018.09.017},
  volume       = {84},
  year         = {2019},
}

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