Title :
A reorganized innovation approach to linear estimation
Author :
Huanshui Zhang ; Xie, Lihua ; Zhang, Huanshui ; Soh, Yeng Chai
Author_Institution :
Inf. & Control Res. Center, HIT Campus Shenzhen Univ. Town, China
Abstract :
This note will address a linear minimum variance estimation of discrete-time systems with instantaneous and delayed measurements. Although the problem may be approached via system augmentation and standard Kalman filtering, the computation of filter may be expensive when the dimension of the system is high and the measurement lag is significant. In this note, a new tool, termed as reorganized innovation sequence, is presented for deriving the optimal filter. The optimal filter is given by two Riccati difference equations (RDEs) with the same dimension as that of the original system. The approach is shown to induce saving of computational cost as compared to the system augmentation approach, especially when the delay is large. Further, it can be extended to solving the more complicated H∞ fixed-lag smoothing in Krein space.
Keywords :
Kalman filters; Riccati equations; delays; discrete time systems; optimal control; optimisation; time-varying systems; Kalman filtering; Riccati difference equations; discrete-time systems; linear minimum variance estimation; optimal filtering; reorganized innovation sequence; system augmentation; Delay estimation; Delay systems; Difference equations; Filtering; Kalman filters; Measurement standards; Noise measurement; Polynomials; Riccati equations; Technological innovation; Delayed measurement; Riccati equations; discrete-time systems; innovation analysis; optimal filtering;
Journal_Title :
Automatic Control, IEEE Transactions on
DOI :
10.1109/TAC.2004.835599
