Fuzzy iterative PID-type control of vortex induced vibration suppression
This paper presents the application of Fuzzy Iterative PID-Type controller in suppressing the vortex induced vibration of a flexibly mounted cylindrical pipe. A pair of input and output data, which are the water flow speed and vibration amplitude, respectively have been measured through experimental...
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Vibromechanika
2017
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my.utm.766672018-04-30T13:48:37Z http://eprints.utm.my/id/eprint/76667/ Fuzzy iterative PID-type control of vortex induced vibration suppression Shaharuddin, N. M. R. Darus, I. Z. M. Samin, P. M. Wahid, M. A. TJ Mechanical engineering and machinery This paper presents the application of Fuzzy Iterative PID-Type controller in suppressing the vortex induced vibration of a flexibly mounted cylindrical pipe. A pair of input and output data, which are the water flow speed and vibration amplitude, respectively have been measured through experimental work in generating a linear autoregressive with exogenous input, ARX model. Recursive least square was utilized in determining the appropriate parameters of stated model. It was found that the 2nd model order had fulfilled the selection requirements, which include lowest mean squared error, stable transfer function and biased correlation of error. Fuzzy Iterative PID and PD controllers have been developed and tested within MATLAB Simulink interface for the control purpose of the developed ARX model. It was found that the Fuzzy Iterative PD controller had remarkably attenuated the vibration up to 66.67 dB and tends to converge faster which gives good implication to the vibrating system. Vibromechanika 2017 Article PeerReviewed Shaharuddin, N. M. R. and Darus, I. Z. M. and Samin, P. M. and Wahid, M. A. (2017) Fuzzy iterative PID-type control of vortex induced vibration suppression. Journal of Vibroengineering, 19 (7). pp. 5137-5148. ISSN 1392-8716 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85034743302&doi=10.21595%2fjve.2017.18350&partnerID=40&md5=fde6e873509d92cb37969d4ada62f12e DOI:10.21595/jve.2017.18350 |
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TJ Mechanical engineering and machinery Shaharuddin, N. M. R. Darus, I. Z. M. Samin, P. M. Wahid, M. A. Fuzzy iterative PID-type control of vortex induced vibration suppression |
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This paper presents the application of Fuzzy Iterative PID-Type controller in suppressing the vortex induced vibration of a flexibly mounted cylindrical pipe. A pair of input and output data, which are the water flow speed and vibration amplitude, respectively have been measured through experimental work in generating a linear autoregressive with exogenous input, ARX model. Recursive least square was utilized in determining the appropriate parameters of stated model. It was found that the 2nd model order had fulfilled the selection requirements, which include lowest mean squared error, stable transfer function and biased correlation of error. Fuzzy Iterative PID and PD controllers have been developed and tested within MATLAB Simulink interface for the control purpose of the developed ARX model. It was found that the Fuzzy Iterative PD controller had remarkably attenuated the vibration up to 66.67 dB and tends to converge faster which gives good implication to the vibrating system. |
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Article |
author |
Shaharuddin, N. M. R. Darus, I. Z. M. Samin, P. M. Wahid, M. A. |
author_facet |
Shaharuddin, N. M. R. Darus, I. Z. M. Samin, P. M. Wahid, M. A. |
author_sort |
Shaharuddin, N. M. R. |
title |
Fuzzy iterative PID-type control of vortex induced vibration suppression |
title_short |
Fuzzy iterative PID-type control of vortex induced vibration suppression |
title_full |
Fuzzy iterative PID-type control of vortex induced vibration suppression |
title_fullStr |
Fuzzy iterative PID-type control of vortex induced vibration suppression |
title_full_unstemmed |
Fuzzy iterative PID-type control of vortex induced vibration suppression |
title_sort |
fuzzy iterative pid-type control of vortex induced vibration suppression |
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Vibromechanika |
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2017 |
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http://eprints.utm.my/id/eprint/76667/ https://www.scopus.com/inward/record.uri?eid=2-s2.0-85034743302&doi=10.21595%2fjve.2017.18350&partnerID=40&md5=fde6e873509d92cb37969d4ada62f12e |
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13.160551 |