This paper is concerned with stability properties of a Lur'e system obtained by interconnection of a general linear time-invariant block (possibly, infinite-dimensional) and a periodic nonlinearity. Such systems usually have multiple equilibria. In the paper, two new frequency-algebraic stability criteria are established by using. Popov's method of "a priori integral indices", Leonov's method of nonlocal reduction and the Bakaev-Guzh technique
This paper concerns the global synchronization problem of a class of complex dynamical networks with...
Many systems, arising in electrical and electronic engineering are based on controlled phase synchro...
The article considers the problem of stability of interval-defined linear systems based on the Hurwi...
The paper is devoted to asymptotic behavior of synchronization systems, i.e. Lur'e–type systems with...
Starting from pioneering works by Lur’e, Popov and Zames, global stability theory for nonlinear cont...
Systems that can be decomposed as feedback interconnections of stable linear blocks and periodic non...
In this paper we go on with the analysis of the asymptotic behavior of Lur'e-type systems with perio...
Global asymptotic behavior of control systems with periodic vector nonlinearities and denumerable se...
Singularly perturbed integro-differential Volterra equations with MIMO periodic nonlinearities are c...
In this paper, systems of nonlinear integro-differential Volterra equations are examined that can be...
summary:Systems with time-varying non-linearity confined to a given sector (Luré type) and a linear ...
The Popov criterion for absolute stability of nonlinear feedback systems is applied to several examp...
Many engineering applications employ nonlinear systems, representable as a feedback interconnection ...
summary:Finding sufficient criteria for synchronization of master-slave chaotic systems by replacing...
This article presents some new criteria for the partial exponential stability of a slow–fast nonline...
This paper concerns the global synchronization problem of a class of complex dynamical networks with...
Many systems, arising in electrical and electronic engineering are based on controlled phase synchro...
The article considers the problem of stability of interval-defined linear systems based on the Hurwi...
The paper is devoted to asymptotic behavior of synchronization systems, i.e. Lur'e–type systems with...
Starting from pioneering works by Lur’e, Popov and Zames, global stability theory for nonlinear cont...
Systems that can be decomposed as feedback interconnections of stable linear blocks and periodic non...
In this paper we go on with the analysis of the asymptotic behavior of Lur'e-type systems with perio...
Global asymptotic behavior of control systems with periodic vector nonlinearities and denumerable se...
Singularly perturbed integro-differential Volterra equations with MIMO periodic nonlinearities are c...
In this paper, systems of nonlinear integro-differential Volterra equations are examined that can be...
summary:Systems with time-varying non-linearity confined to a given sector (Luré type) and a linear ...
The Popov criterion for absolute stability of nonlinear feedback systems is applied to several examp...
Many engineering applications employ nonlinear systems, representable as a feedback interconnection ...
summary:Finding sufficient criteria for synchronization of master-slave chaotic systems by replacing...
This article presents some new criteria for the partial exponential stability of a slow–fast nonline...
This paper concerns the global synchronization problem of a class of complex dynamical networks with...
Many systems, arising in electrical and electronic engineering are based on controlled phase synchro...
The article considers the problem of stability of interval-defined linear systems based on the Hurwi...