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Stability analysis for a class of nonlinear nonstationary systems via averaging. (English) Zbl 1298.34098

Summary: A class of nonlinear nonstationary systems of Persidskii type is studied. The right-hand sides of the systems are represented in the form of linear combinations of sector nonlinearities with time-varying coefficients. It is assumed that the coefficients possess mean values. By means of the Lyapunov direct method, it is proved that if the investigated systems are essentially nonlinear, i.e. the right-hand sides of the systems do not contain linear terms with respect to phase variables, then the asymptotic stability of the zero solutions of the corresponding averaged systems implies the local uniform asymptotic stability of the zero solutions for original nonstationary systems. We treat both cases of delay free and time delay systems. Furthermore, it is shown that the proposed approaches can be used as well for the stability analysis of some classes of nonlinear systems with nontrivial linear approximation.

MSC:

34D20 Stability of solutions to ordinary differential equations
34K33 Averaging for functional-differential equations
34C29 Averaging method for ordinary differential equations
34K20 Stability theory of functional-differential equations
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