A Suboptimal Estimator Design for Discrete Nonlinear Systems

이산 비선형시스템에서의 준최적추정자

  • 이연석 (서울대 대학원 제어계측공학과) ;
  • 이장규 (서울대 공대 제어계측공학과)
  • Published : 1991.09.01

Abstract

An estimator for a discrete nonlinear system is derived in the sense of minimum mean square error. An optimal estimator for nonlinear system is very difficult to find and it will be infinite dimensional even if it is found. It has been known that the statistical linearization technique makes it possible to obtain a finite dimensional estimator. In this paper, the procedure of its derivation using the statistical linearization technique that gives an exact mean and variance information is introduced in the sense of minimum mean square error. The derived estimator cannot be clainmed to be globally optimal estimator because it uses the Gaussian assumption to the non-Gaussian distributed nonlinear output. However, the proposed filter exhibits a better performance compared to extended Kalman filter. Simulation results of a simple example present the improvement of the proposed filter in convergent property over the extended Kalman filter.

Keywords