Active Control and Global Synchronization of the Complex Chen and Lü Systems

Abstract: Chaos synchronization is a very important nonlinear phenomenon, which has been studied to date extensively on dynamical systems described by real variables. There also exist, however, interesting cases of dynamical systems, where the main variables participating in the dynamics are complex, for example, when amplitudes of electromagnetic fields are involved. Another example is when chaos synchronization is used for communications, where doubling the number of variables may be used to increase the content and s… Show more

“…The system parameters are given as α = 8, β = 5, γ = 50 and σ = 15, so that the complex Lorenz system exhibits hyperchaotic behavior. We assume Figure 1 displays the time response of the combination synchronization errors, e 1 , e 2 , e 3 , e 4 , e 5 ande 6 . The errors converge to zero, which implies that systems (5), (6) and (7) (7) with controller (18) are displayed in Figure 3, which illustrates that system (7) is stabilized to the equilibrium, O(0, 0, 0, 0, 0, 0).…”

“…In [3], the authors studied the chaotic unstable limit cycles of complex Van der Pol oscillators. The rich dynamics behaviors of the complex Chen and complex Lü systems were investigated in [4]. By adding state feedback controllers to their complex chaotic systems, complex hyperchaotic Chen, Lorenz and Lü systems were introduced and studied in [5][6][7], respectively.…”

Combination Synchronization of Three Identical or Different Nonlinear Complex Hyperchaotic Systems

“…The system parameters are given as α = 8, β = 5, γ = 50 and σ = 15, so that the complex Lorenz system exhibits hyperchaotic behavior. We assume Figure 1 displays the time response of the combination synchronization errors, e 1 , e 2 , e 3 , e 4 , e 5 ande 6 . The errors converge to zero, which implies that systems (5), (6) and (7) (7) with controller (18) are displayed in Figure 3, which illustrates that system (7) is stabilized to the equilibrium, O(0, 0, 0, 0, 0, 0).…”

“…In [3], the authors studied the chaotic unstable limit cycles of complex Van der Pol oscillators. The rich dynamics behaviors of the complex Chen and complex Lü systems were investigated in [4]. By adding state feedback controllers to their complex chaotic systems, complex hyperchaotic Chen, Lorenz and Lü systems were introduced and studied in [5][6][7], respectively.…”

Combination Synchronization of Three Identical or Different Nonlinear Complex Hyperchaotic Systems

“…Up to now, many types of controling methods are revealed and investigated for control and synchronization of chaotic systems. Active method [2,3,4,5,6], adaptive method [7,8,9], linear feedback method [10,11], nonlinear feedback method [12,14,15], sliding mode method [16,17,18], impulsive method [19], phase method [20], generalized method [21], robust synchronization [13] and projective method [22,23,24] are some of the introduced methods by the researchers. Among these methods, synchronization with some types of projective methods are extensively investigated in the last decades, since the faster synchronization due to its synchronization scaling factors, which master and slave chaotic systems would be synchronized up to a proportional rate.…”

Modified Projective Synchronization of Chaotic Systems with Noise Disturbance, an Active Nonlinear Control Method

“…[18], the authors studied chaotic unstable limit cycles of complex Van der Pol oscillators. The rich dynamical behaviors of the complex Chen and complex Lü systems were investigated in [19]. By adding state feedback controllers to their complex chaotic systems, complex hyperchaotic Chen, Lorenz, Lü systems were introduced and studied in [20] - [22], respectively.…”

Switched modified function projective synchronization between two complex nonlinear hyperchaotic systems based on adaptive control and parameter identification