Yung C. Shin scite author profile

This paper presents a means to approximate the dynamic and static equations of stochastic nonlinear systems and to estimate state variables based on radial basis function neural network (RBFNN). After a nonparametric approximate model of the system is constructed from a priori experiments or simulations, a suboptimal filter is designed based on the upper bound error in approximating the original unknown plant with nonlinear state and output equations. The procedures for both training and state estimation are described along with discussions on approximation error. Nonlinear systems with linear output equations are considered as a special case of the general formulation. Finally, applications of the proposed RBFNN to the state estimation of highly nonlinear systems are presented to demonstrate the performance and effectiveness of the method.

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Optimization of machining conditions with practical constraints

Shin

Joo

1992

International Journal of Production Research

175

100

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Laser-assisted machining of Inconel 718 with an economic analysis

Anderson

Patwa

Shin

2006

International Journal of Machine Tools and Manufacture

304

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Yung C. Shin

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Radial basis function neural network for approximation and estimation of nonlinear stochastic dynamic systems

Optimization of machining conditions with practical constraints

Laser-assisted machining of Inconel 718 with an economic analysis

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