Advanced search
1 file | 1.39 MB Add to list
Author
Organization
Abstract
Smart beams are one of the most frequently used means of studying vibrations in airplane wings. Their mathematical models have been so far solely based on classical approaches that ultimately involve integer order transfer functions. In this paper, a different approach towards modeling such smart beams is considered, an approach that is based on fractional calculus. In this way, a fractional order model of the smart beam is obtained, which is able to better capture the dynamics of the system. Based on this novel fractional order model, a fractional order PD mu controller is then tuned according to a set of three design constraints. This design leads to a closed loop system that exhibits a much smaller resonant peak compared to the uncompensated smart beam system. Experimental results are provided, considering both passive and active control responses of the smart beam, showing that a significant improvement of the closed loop behavior is obtained using the designed controller.
Keywords
ACTIVE VIBRATION CONTROL, FEEDBACK

Downloads

  • (...).pdf
    • full text
    • |
    • UGent only
    • |
    • PDF
    • |
    • 1.39 MB

Citation

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

MLA
Muresan, Cristina I. et al. “Fractional Order Modeling and Control of a Smart Beam.” 2017 IEEE CONFERENCE ON CONTROL TECHNOLOGY AND APPLICATIONS (CCTA 2017). 2017. 1517–1523. Print.
APA
Muresan, C. I., Folea, S., Birs, I. R., & Ionescu, C.-M. (2017). Fractional order modeling and control of a smart beam. 2017 IEEE CONFERENCE ON CONTROL TECHNOLOGY AND APPLICATIONS (CCTA 2017) (pp. 1517–1523). Presented at the 1st Annual IEEE Conference on Control Technology and Applications.
Chicago author-date
Muresan, Cristina I., Silviu Folea, Isabela R. Birs, and Clara-Mihaela Ionescu. 2017. “Fractional Order Modeling and Control of a Smart Beam.” In 2017 IEEE CONFERENCE ON CONTROL TECHNOLOGY AND APPLICATIONS (CCTA 2017), 1517–1523.
Chicago author-date (all authors)
Muresan, Cristina I., Silviu Folea, Isabela R. Birs, and Clara-Mihaela Ionescu. 2017. “Fractional Order Modeling and Control of a Smart Beam.” In 2017 IEEE CONFERENCE ON CONTROL TECHNOLOGY AND APPLICATIONS (CCTA 2017), 1517–1523.
Vancouver
1.
Muresan CI, Folea S, Birs IR, Ionescu C-M. Fractional order modeling and control of a smart beam. 2017 IEEE CONFERENCE ON CONTROL TECHNOLOGY AND APPLICATIONS (CCTA 2017). 2017. p. 1517–23.
IEEE
[1]
C. I. Muresan, S. Folea, I. R. Birs, and C.-M. Ionescu, “Fractional order modeling and control of a smart beam,” in 2017 IEEE CONFERENCE ON CONTROL TECHNOLOGY AND APPLICATIONS (CCTA 2017), Kohala Coast, Hawai, USA, 2017, pp. 1517–1523.
@inproceedings{8565463,
  abstract     = {Smart beams are one of the most frequently used means of studying vibrations in airplane wings. Their mathematical models have been so far solely based on classical approaches that ultimately involve integer order transfer functions. In this paper, a different approach towards modeling such smart beams is considered, an approach that is based on fractional calculus. In this way, a fractional order model of the smart beam is obtained, which is able to better capture the dynamics of the system. Based on this novel fractional order model, a fractional order PD mu controller is then tuned according to a set of three design constraints. This design leads to a closed loop system that exhibits a much smaller resonant peak compared to the uncompensated smart beam system. Experimental results are provided, considering both passive and active control responses of the smart beam, showing that a significant improvement of the closed loop behavior is obtained using the designed controller.},
  author       = {Muresan, Cristina I. and Folea, Silviu and Birs, Isabela R. and Ionescu, Clara-Mihaela},
  booktitle    = {2017 IEEE CONFERENCE ON CONTROL TECHNOLOGY AND APPLICATIONS (CCTA 2017)},
  isbn         = {978-1-5090-2182-6},
  keywords     = {ACTIVE VIBRATION CONTROL,FEEDBACK},
  language     = {eng},
  location     = {Kohala Coast, Hawai, USA},
  pages        = {1517--1523},
  title        = {Fractional order modeling and control of a smart beam},
  year         = {2017},
}

Web of Science
Times cited: