50 research outputs found
Symbolic dynamics for a kinds of piecewise smooth maps
Acknowledgments We sincerely thank the people who give valuable comments. The paper is supported by the National Natural Science Foundation of China (NNSFC) (Nos. 12362002 and 12172340), the Fundamental Research Funds for the Central Universities, China University of Geosciences (Wuhan) (Nos. G1323523061 and G1323523041), and the Young Top-notch Talent Cultivation Program of Hubei Province.Peer reviewe
Hidden chaotic attractors in a class of two-dimensional maps.
This paper studies the hidden dynamics of a class of two-dimensional maps inspired by the HĂ©non map. A special consideration is made to the existence of fixed points and their stabilities in these maps. Our concern focuses on three typical scenarios which may generate hidden dynamics, i.e., no fixed point, single fixed point, and two fixed points. A computer search program is employed to explore the strange hidden attractors in the map. Our findings show that the basins of some hidden attractors are tiny, so the standard computational procedure for localization is unavailable. The schematic exploring method proposed in this paper could be generalized for investigating hidden dynamics of high-dimensional maps
Hidden attractors in fundamental problems and engineering models
Recently a concept of self-excited and hidden attractors was suggested: an
attractor is called a self-excited attractor if its basin of attraction
overlaps with neighborhood of an equilibrium, otherwise it is called a hidden
attractor. For example, hidden attractors are attractors in systems with no
equilibria or with only one stable equilibrium (a special case of
multistability and coexistence of attractors). While coexisting self-excited
attractors can be found using the standard computational procedure, there is no
standard way of predicting the existence or coexistence of hidden attractors in
a system. In this plenary survey lecture the concept of self-excited and hidden
attractors is discussed, and various corresponding examples of self-excited and
hidden attractors are considered
Chaotic behavior and modified function projective synchronization of a simple system with one stable equilibrium
summary:By introducing a feedback control to a proposed Sprott E system, an extremely complex chaotic attractor with only one stable equilibrium is derived. The system evolves into periodic and chaotic behaviors by detailed numerical as well as theoretical analysis. Analysis results show that chaos also can be generated via a period-doubling bifurcation when the system has one and only one stable equilibrium. Based on Lyapunov stability theory, the adaptive control law and the parameter update law are derived to achieve modified function projective synchronized between the extended Sprott E system and original Sprott E system. Numerical simulations are presented to demonstrate the effectiveness of the proposed adaptive controllers
Synchronization of Coupled Nonidentical Fractional-Order Hyperchaotic Systems
Synchronization of coupled nonidentical fractional-order hyperchaotic systems is addressed by the active sliding mode method. By designing an active sliding mode controller and choosing proper control parameters, the master and slave systems are synchronized. Furthermore, synchronizing fractional-order hyperchaotic Lorenz system and fractional-order hyperchaotic Chen system is performed to show the effectiveness of the proposed controller
Comparison theorems of tempered fractional differential equations
In this paper, we study the first comparison theorem and the second comparison theorem of Caputo (and RiemannâLiouville) tempered fractional differential equations with order . The detailed proof process is given. At the same time, continuous dependence of the solutions of the equation on the parameter is analyzed, which is used in the previous process of proof. In addition, we give two examples to support the theoretical analysis
Zero-Hopf bifurcation and Hopf bifurcation for smooth Chuaâs system
Abstract Based on the fact that Chuaâs system is a classic model system of electronic circuits, we first present modified Chuaâs system with a smooth nonlinearity, described by a cubic polynomial in this paper. Then, we explore the distribution of the equilibrium points of the modified Chua circuit system. By using the averaging theory, we consider zero-Hopf bifurcation of the modified Chua system. Moreover, the existence of periodic solutions in the modified Chua system is derived from the classical Hopf bifurcation theorem
Infinity dynamics and DDF control for a chaotic system with one stable equilibrium
Hidden attractors in chaotic dynamical systems can be found by exploring the basin of attraction which has no intersect with any equilibria. Controlling chaos in these systems are complicated, which needs developed methods. In this paper, a 3D jerk system with only one stable equilibrium and hidden attractor is analyzed in infinity by the help of the Poincare compactification in R3. Meanwhile, a distributed delayed feedback (DDF) control scheme for this system is proposed. By using the center manifold theory of functional differential equation (FDE), Hopf bifurcation for the DDF control system is analyzed and obtained. Results confirm the accuracy of the bifurcation analysis and the effectiveness of the proposed DDF control strategy