Title :
An Iterative Procedure for the Identification of Nonlinear Feedback of Noise-Driven Limit-Cycling Systems
Author_Institution :
United Technol. Res. Center, East Hartford
Abstract :
We present an iterative procedure, based on results originally established by Mehta and Banaszuk (CDC, 2001), for estimating nonlinear feedback in the context of a noise-driven limit-cycling system, where the pertinent signals contain both Gaussian and harmonic components. The iterative procedure is based on the analysis of random-input describing functions, treated as bounded linear operators on a certain function space. Iterative algorithms are derived for the case when the input signals have a constant variance with varying harmonic amplitudes. This case is relevant when control (or external damping) is applied to a noise-driven limit-cycling system in order to reduce the limit-cycle amplitude. An example is illustrated by numerical simulations.
Keywords :
Gaussian processes; control nonlinearities; feedback; iterative methods; limit cycles; Gaussian component; bounded linear operators; constant variance; external damping; harmonic amplitudes; harmonic component; iterative procedure; noise-driven limit-cycling systems; nonlinear feedback identification; Acoustic noise; Combustion; Control systems; Feedback; Gaussian noise; Iterative algorithms; Noise figure; Numerical simulation; Signal processing; Space technology;
Conference_Titel :
American Control Conference, 2007. ACC '07
Conference_Location :
New York, NY
Print_ISBN :
1-4244-0988-8
Electronic_ISBN :
0743-1619
DOI :
10.1109/ACC.2007.4282724
