Title :
Nonlinear circuit mode analysis
Author_Institution :
University of Sheffield, Department of Control Engineering, Sheffield, UK
fDate :
3/1/1983 12:00:00 AM
Abstract :
An exposition is given of recent advances in the theoretical analysis of circuits comprising sets of intercoupled nonlinear oscillators. Motivation for this work Motivation for this work has come from mathematical modelling of biomedical systems, particularly for the electrical activity of the gastrointestinal digestive tract. Over the past few years a matrix linearisation method has been developed and and applied to a wide range of structures comprising chains, arrays rings and tubes. Also, different coupling components including pure time delay and two types of van der Pol oscillator dynamics, have been investigated. Numerous mode patterns have been predicted and experimentally observed, and stability criteria established for a wide range of conditions. The multioscillator mode analysis entails a two-stage process comprising matrix mode decoupling followed by equivalent linearisation similar to the Krylov-Bogolioubov approach.
Keywords :
biomedical engineering; linearisation techniques; matrix algebra; nonlinear network analysis; oscillators; physiological models; stability; Krylov-Bogolioubov; biomedical systems; electrical activity; equivalent linearisation; gastrointestinal digestive tract; intercoupled nonlinear oscillators; mathematical modelling; matrix linearisation method; matrix mode decoupling; mode patterns; multioscillator mode analysis; nonlinear network analysis; physiological models; stability criteria; time delay; van der Pol oscillator dynamics;
Journal_Title :
Physical Science, Measurement and Instrumentation, Management and Education - Reviews, IEE Proceedings A
DOI :
10.1049/ip-a-1.1983.0013
