A new perturbation procedure for limit cycle analysis in

We study the dynamics of a thermo-mechanical model for a forced disc shaped, micromechanical limit cycle oscillator. The forcing can be accomplished either parametrically, by modulating the laser beam incident on the oscillator, or nonparametrically, using inertial driving. The system exhibits both

We propose a method of perturbation analysis of nearly sinusoidal oscillators with shifting bias, obtained by generalizing a method recently discussed in the literature [1] (Buonomo A, Di Bello C. IEEE ¹ransactions on Circuits and Systems, 1996; CAS-43:953}963). The problem of periodic oscillations

In this paper, a systematic method that predicts limit cycle oscillations in a hydroelectric system with governor deadband on the parameter plane is presented. A new technique for constructing limit cycle loci on this plane is also proposed. This approach is based on the characteristic equation as w

This paper describes a new procedure for identification of plant parameters using limit cycles of specified period when output measurements are heavily corrupted by noise. A simple and elegant scheme is presented in which the plant output is not applied directly to the input of the relay to excite t