Analysis of a class of non-linear systems

The stability of the solutions of a certain class of non-linear systems is considered in the first approximation. The method of Lyapunov functions is used to obtain the sufficient conditions for stability with respect to all the variables and asymptotic stability with respect to part of lhe variable

The use of autoregressive moving average (ARMA) models to assess the control loop performance for processes that are adequately described by the superposition of a linear dynamic model and linear stochastic or deterministic disturbance model is well known. In this paper, classes of non-linear dynami

In this paper, the perturbation analysis is presented for a class of fuzzy linear systems which can be solved by an embedding method. We deduce the nonlinear upper perturbation bounds for the solutions, and discuss the normwise, mixed and componentwise condition numbers. The results show how the per

## Sufficient conditions are obtained lo guarantee the asymptotic stability of a class of non-linear singularly perturbed systems. A procedure for consrructing a Lyapunov function for such a class of systems is given, and a clearly defined domain of attraction of the equilibrium is obtained. A sta

Perhaps all natural and physical systems are governed by non-linear laws of nature. The dynamics of most of such systems can be mathematically represented by non-linear di!erential or integral equations, which can be studied by analytical or numerical techniques. These techniques, in many instances,