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Identification of block cascade models of nonlinear systems

Talaq, Jaleel Hasan (1994) Identification of block cascade models of nonlinear systems. Masters thesis, King Fahd University of Petroleum and Minerals.

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In this thesis, the structure identification problem of block cascade models composed of linear dynamic and static nonlinear blocks is addressed. Two main approaches are considered, the structure identification in the time domain and the structure identification in the frequency domain. In the time domain analysis, cross-correlation techniques are used for the structure identification of nonlinear systems when the input to these systems is a white Gaussian signal. The nonlinear systems considered in this part are those that can be described by a model consisting of a linear dynamic block in cascade with a static nonlinear element followed by another linear dynamic block. This model is referred to as a Wiener-Hammerstein model. Two cross-correlation functions, named as the linear and nonlinear cross-correlation functions, were used to identify the structure of this model. From these two functions, a structure identification criterion that covers all the subclasses of the Wiener-Hammerstein model is presented. In the frequency domain analysis, the structure identification of the Wiener-Hammerstein model is performed utilizing the bispectrum of the system output. Using a zero-mean stationary white Gaussian process as an input to this model, a structure identification criterion based on the bispectrum of the output sequence only is presented and applied to the above Wiener-Hammerstein model as well as to a more general class of nonlinear systems that can be represented by parallel branches of block cascades in parallel with a linear system. The case treated here is for branches of the same type. The mixed type branches case, however, needs further investigation. It is found from the simulation results that the structure identification criterion is still effective in characterizing the system structure in both situations.



Item Type:Thesis (Masters)
Date:June 1994
Date Type:Completion
Subjects:Mechanical
Divisions:College Of Engineering Sciences > Mechanical Engineering Dept
Creators:Talaq, Jaleel Hasan
Committee Advisor:Moustafa, Kamal A. F.
Committee Members:Khulief, Yehia A. and Ahmed, Munir and Emara-Shabaik, H.E.
ID Code:10411
Deposited By:KFUPM ePrints Admin
Deposited On:22 Jun 2008 17:04
Last Modified:30 Apr 2011 15:34

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