Unwanted noise and vibration control using finite element analysis and artificial intelligence
A mechatronic approach integrating both passive and active controllers is presented in this study to deal with unwanted noise and vibration produced in an automobile wiper system operation. Wiper system is a flexible structure with high order, nonlinear model that is considered as a multi objective...
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my.utm.631702017-06-15T02:20:23Z http://eprints.utm.my/id/eprint/63170/ Unwanted noise and vibration control using finite element analysis and artificial intelligence Zolfagharian, Ali Noshadi, Amin Khosravani, Mohammad Reza Md. Zain, Mohd. Zarhamdy TJ Mechanical engineering and machinery A mechatronic approach integrating both passive and active controllers is presented in this study to deal with unwanted noise and vibration produced in an automobile wiper system operation. Wiper system is a flexible structure with high order, nonlinear model that is considered as a multi objective control problem since there is a conflict between its functionality quality in wiping and generated unwanted noise and vibration. A passive control technique using multi body system (MBS) model and finite element analysis (FEA) is introduced to identify the potential of the effectiveness of the physical parameters of wiper blade to give appropriate range to reduce the unwanted noise and vibration in the system. While, the significant contribution of active controller is to deal with uncertainties exerted to system within wiper operation. In passive control stage, natural frequencies of a uni-blade automobile wiper are determined using modal testing. Later, a 3-dimensional model of a wiper blade assembly is developed in multi body system design to investigate the good validation test and agreement of the physical behavior of the system in experiment with finite element analysis. Parametric modification via complex eigenvalue is adopted to predict instability of the wiper blade. In active control level, experimental data collected from the wiper system during its operation. A system identification model named nonlinear auto regressive exogenous Elman neural network (NARXENN) is developed for implying the active controller. A bi-level adaptive-fuzzy controller is brought in whose parameters are tuned simultaneously by a multi objective genetic algorithm (MOGA) to deal with the conflict interests in wiper control problem. Elsevier 2014 Article PeerReviewed Zolfagharian, Ali and Noshadi, Amin and Khosravani, Mohammad Reza and Md. Zain, Mohd. Zarhamdy (2014) Unwanted noise and vibration control using finite element analysis and artificial intelligence. Applied Mathematical Modelling, 38 (9-10). pp. 2435-2453. ISSN 0307-904X http://dx.doi.org/10.1016/j.apm.2013.10.039 DOI :10.1016/j.apm.2013.10.039 |
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TJ Mechanical engineering and machinery Zolfagharian, Ali Noshadi, Amin Khosravani, Mohammad Reza Md. Zain, Mohd. Zarhamdy Unwanted noise and vibration control using finite element analysis and artificial intelligence |
| description |
A mechatronic approach integrating both passive and active controllers is presented in this study to deal with unwanted noise and vibration produced in an automobile wiper system operation. Wiper system is a flexible structure with high order, nonlinear model that is considered as a multi objective control problem since there is a conflict between its functionality quality in wiping and generated unwanted noise and vibration. A passive control technique using multi body system (MBS) model and finite element analysis (FEA) is introduced to identify the potential of the effectiveness of the physical parameters of wiper blade to give appropriate range to reduce the unwanted noise and vibration in the system. While, the significant contribution of active controller is to deal with uncertainties exerted to system within wiper operation. In passive control stage, natural frequencies of a uni-blade automobile wiper are determined using modal testing. Later, a 3-dimensional model of a wiper blade assembly is developed in multi body system design to investigate the good validation test and agreement of the physical behavior of the system in experiment with finite element analysis. Parametric modification via complex eigenvalue is adopted to predict instability of the wiper blade. In active control level, experimental data collected from the wiper system during its operation. A system identification model named nonlinear auto regressive exogenous Elman neural network (NARXENN) is developed for implying the active controller. A bi-level adaptive-fuzzy controller is brought in whose parameters are tuned simultaneously by a multi objective genetic algorithm (MOGA) to deal with the conflict interests in wiper control problem. |
| format |
Article |
| author |
Zolfagharian, Ali Noshadi, Amin Khosravani, Mohammad Reza Md. Zain, Mohd. Zarhamdy |
| author_facet |
Zolfagharian, Ali Noshadi, Amin Khosravani, Mohammad Reza Md. Zain, Mohd. Zarhamdy |
| author_sort |
Zolfagharian, Ali |
| title |
Unwanted noise and vibration control using finite element analysis and artificial intelligence |
| title_short |
Unwanted noise and vibration control using finite element analysis and artificial intelligence |
| title_full |
Unwanted noise and vibration control using finite element analysis and artificial intelligence |
| title_fullStr |
Unwanted noise and vibration control using finite element analysis and artificial intelligence |
| title_full_unstemmed |
Unwanted noise and vibration control using finite element analysis and artificial intelligence |
| title_sort |
unwanted noise and vibration control using finite element analysis and artificial intelligence |
| publisher |
Elsevier |
| publishDate |
2014 |
| url |
http://eprints.utm.my/id/eprint/63170/ http://dx.doi.org/10.1016/j.apm.2013.10.039 |
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1643655639884365824 |
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13.160551 |