The central subject of this book is Almost Periodic Oscillations, the most common oscillations in applications and the most intricate for mathematical analysis. Prof. Akhmet's lucid and rigorous examination proves these oscillations are a "regular" component of chaotic attractors. The book focuses on almost periodic functions, first of all, as Stable (asymptotically) solutions of differential equations of different types, presumably discontinuous; and, secondly, as non-isolated oscillations in chaotic sets. Finally, the author proves the existence of Almost Periodic Oscillations (asymptotic and bi-asymptotic) by asymptotic equivalence between systems. The book brings readers' attention to contemporary methods for considering oscillations as...
In this paper, we study almost periodic (a.p.) solutions of discrete dynamical systems. We first ada...
Abstract In this paper, we review indispensable properties and characterizations of almost periodic ...
AbstractThe existence of almost periodic, asymptotically almost periodic, and pseudo almost periodic...
Periodicity plays a significant role in the chaos theory from the beginning since the skeleton of ch...
The existence of almost periodic, asymptotically almost periodic, almost automorphic, asymptotically...
The book is concerned with the concepts of chaos and fractals, which are within the scopes of dynami...
We present a notion of almost periodicity wich can be applied to random dynamical systems as well as...
Regularity and Complexity in Dynamical Systems describes periodic and chaotic behaviors in dynamical...
This book presents detailed descriptions of chaos for continuous-time systems. It is the first-ever ...
This book lays the foundations for a theory on almost periodic stochastic processes and their applic...
In this paper we study the dynamical behavior of the differential equation x ''+ax(+) -b...
Abstract. Using ergodicity of functions, we prove the existence and uniqueness of (asymptotically) a...
summary:In this paper, we relate the notions of remote almost periodicity and quasi-asymptotical alm...
In this thesis, we will study almost periodic differential equations. The motivation to study such a...
This is the first book to introduce the irrational elliptic function series, providing a theoretical...
In this paper, we study almost periodic (a.p.) solutions of discrete dynamical systems. We first ada...
Abstract In this paper, we review indispensable properties and characterizations of almost periodic ...
AbstractThe existence of almost periodic, asymptotically almost periodic, and pseudo almost periodic...
Periodicity plays a significant role in the chaos theory from the beginning since the skeleton of ch...
The existence of almost periodic, asymptotically almost periodic, almost automorphic, asymptotically...
The book is concerned with the concepts of chaos and fractals, which are within the scopes of dynami...
We present a notion of almost periodicity wich can be applied to random dynamical systems as well as...
Regularity and Complexity in Dynamical Systems describes periodic and chaotic behaviors in dynamical...
This book presents detailed descriptions of chaos for continuous-time systems. It is the first-ever ...
This book lays the foundations for a theory on almost periodic stochastic processes and their applic...
In this paper we study the dynamical behavior of the differential equation x ''+ax(+) -b...
Abstract. Using ergodicity of functions, we prove the existence and uniqueness of (asymptotically) a...
summary:In this paper, we relate the notions of remote almost periodicity and quasi-asymptotical alm...
In this thesis, we will study almost periodic differential equations. The motivation to study such a...
This is the first book to introduce the irrational elliptic function series, providing a theoretical...
In this paper, we study almost periodic (a.p.) solutions of discrete dynamical systems. We first ada...
Abstract In this paper, we review indispensable properties and characterizations of almost periodic ...
AbstractThe existence of almost periodic, asymptotically almost periodic, and pseudo almost periodic...