Transactions on Control, Automation and Systems Engineering
- Volume 2 Issue 1
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- Pages.24-30
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- 2000
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- 1229-5140(pISSN)
Noise and Fault Diagnosis Using Control Theory
- Park, Rai-Wung (Faculty of Mechatronics, Daebul University) ;
- Sul Cho (Faculty of Mechatronics, Daebul University)
- Published : 2000.03.01
Abstract
The aim of this paper is to describe an advanced method of the fault diagnosis using Control Theory with reference to a crack detection, a new way to localize the crack position under influence of the plant disturbance and white measurement noise on a rotating shaft. As the first step, the shaft is physically modelled with a finite element method as usual and the dynamic mathematical model is derived from it using the Hamilton-principle and in this way the system is modelled by various subsystems. The equations of motions with a crack are established by the adaption of the local stiffness change through breathing and gaping[1] from the crack to the equation of motion with an undamaged shaft. This is supposed to be regarded as a reference system for the given system. Based on the fictitious model of the time behaviour induced from vibration phenomena measured at the bearings, a nonlinear state observer is designed in order to detect the crack on the shaft. This is the elementary NL-observer(EOB). Using the elementary observer, an Estimator(Observer Bank) is established and arranged at the certain position on the shaft. In case, a crack is found and its position is known, the procedure, fro the estimation of the depth is going to begin.
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