Title :
Continuous-time Wiener system identification
Author :
Greblicki, Wlodzimierz
Author_Institution :
Inst. of Eng. Cybern., Tech. Univ. Wroclaw, Poland
fDate :
10/1/1998 12:00:00 AM
Abstract :
A continuous-time Wiener system is identified. The system consists of a linear dynamic subsystem and a memoryless nonlinear one connected in a cascade. The input signal is a stationary white Gaussian random process. The system is disturbed by stationary white random Gaussian noise. Both subsystems are identified from input-output observations taken at the input and output of the whole system. The a priori information is very small and, therefore, resulting identification problems are nonparametric. The impulse impulse of the linear part is recovered by a correlation method, while the nonlinear characteristic is estimated with the help of the nonparametric kernel regression method. The authors prove convergence of the proposed identification algorithms and examine their convergence rates
Keywords :
Gaussian noise; continuous time systems; convergence; identification; nonparametric statistics; continuous-time Wiener system; input-output observations; linear dynamic subsystem; memoryless nonlinear subsystem; nonparametric kernel regression method; stationary white Gaussian random process; Automatic control; Delay effects; Delay systems; Design methodology; Linear systems; Riccati equations; Robust control; Robustness; System identification; Time varying systems;
Journal_Title :
Automatic Control, IEEE Transactions on
