Title :
Minimum variance deconvolution estimator for discrete systems with random observation delays
Author :
Han Chunyan ; Wang Wei
Author_Institution :
Sch. of Electr. Eng., Univ. of Jinan, Jinan, China
Abstract :
This paper is concerned with the optimal deconvolution problem for discrete-time systems with random delayed observations. When the random delay is known online, i.e., time stamped, the random delayed system is reconstructed as an equivalent delay-free one by using measurement reorganization technique, and then an optimal recursive white-noise estimator is presented based on the stochastic Kalman filtering theory. The obtained estimator is indeed a fixed-point white-noise smoother, which is with time-varying, stochastic gains, and is optimal for any packet delay generating process. Also, a fixed-lag white-noise smoother is developed according to the fixed-point one. Finally, the simulation results are given which support and illustrate the theoretical developments.
Keywords :
Kalman filters; deconvolution; delays; discrete time systems; recursive estimation; stochastic processes; white noise; discrete-time systems; equivalent delay-free system; fixed-lag white-noise smoother; fixed-point white-noise smoother; measurement reorganization technique; minimum variance deconvolution estimator; optimal deconvolution problem; optimal recursive white-noise estimator; packet delay generating process; random observation delays; stochastic Kalman filtering theory; stochastic gains; system reconstruction; time-varying smoother; Covariance matrices; Deconvolution; Delays; Educational institutions; Estimation; Kalman filters; White noise; Kalman filter; Networked systems; Optimal deconvolution smoother; Packet dropouts; Random delays;
Conference_Titel :
Control Conference (CCC), 2013 32nd Chinese
Conference_Location :
Xi´an
