The concept of generalised frequency response functions (GFRFs), which were developed for nonlinear system identification and analysis, is extended to continuous spatio-temporal dynamical systems normally described by partial differential equations (PDEs). The paper provides the definitions and interpretation of spatio-temporal generalised frequency response functions for linear and nonlinear spatio-temporal systems, defined over unbounded spatial domains, based on an impulse response procedure. A new probing method is also developed to calculate the GFRFs. Both the Diffusion equation and Fisher’s equation are analysed to illustrate the new frequency domain methods

Billings, S.A.

Coca, D.

Guo, L.Z.

Guo, Y.Z.

Lang, Z.Q.

English

White Rose Research Online

Spatio-temporal generalised frequency response functions over unbounded spatial domains

In a companion paper (Guo, Guo, Billings, Coca, and Lang 2010), the concept of frequency response functions (GFRFs) has been extended to describe the characteristics of spatio-temporal dynamical systems over an unbounded spatial domain from a frequency domain point of view. In this paper, a similar point of view will be taken to investigate spatial-temporal dynamical systems over a bounded spatial domain in the frequency domain. The main difference is that due to the bounded spatial domain, the property of translation invariance with respect to the spatial domain is not valid any more. In order to overcome this, the paper provides a new definition of impulse response functions, which is different from the standard impulse definitions. The definitions and interpretation of spatio-temporal generalised frequency response functions are given for linear and nonlinear spatio-temporal systems based on this newly defined impulse response function. Examples are provided to illustrate the new frequency domain methods

Spatio-temporal generalised frequency response functions over bounded spatial domains

https://eprints.whiterose.ac.uk/74669/1/1018.pdf

Spatio-temporal generalised frequency response functions over unbounded spatial domains

Abstract

Similar works

Full text

Available Versions

White Rose Research Online

White Rose Research Online