Title :
Identification of nonlinear cascade systems using paired multisine signals
Author :
Weiss, Michael ; Evans, Ceris ; Rees, David
Author_Institution :
Dept. of Electron. & Inf. Technol., Univ. of Glamorgan, UK
fDate :
2/1/1998 12:00:00 AM
Abstract :
The identification of nonlinear cascade models has been widely studied, as they often reflect the physical structure of practical nonlinear systems. The problem when using such models is establishing their structure and then identifying their linear subsystems. Both can be obtained from measured Volterra kernels. By performing tests with a pair of input signals, specially designed in order to measure these kernels, enough information can be gathered to separate the linear systems. A brief introduction is given to the measurement of Volterra kernels using periodic multisine signals. A method using combined tests is then proposed to estimate the nonparametric and parametric models of the linear subsystems. An example is given for a simulated system with a second-order nonlinearity
Keywords :
Volterra series; cascade systems; frequency estimation; frequency response; frequency-domain analysis; least squares approximations; modelling; nonlinear systems; poles and zeros; transfer functions; Volterra kernels; amplitude estimation; combined tests; frequency response; frequency-domain kernels; identification; linear least squares; linear subsystems; nonlinear cascade models; nonlinear cascade systems; nonlinear least squares; nonparametric models; paired multisine signals; parametric models; phase estimation; poles and zeros; second-order nonlinearity; transfer functions; Frequency estimation; Frequency measurement; Kernel; Nonlinear equations; Nonlinear systems; Parametric statistics; Performance evaluation; Signal design; Signal processing; Testing;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
