Synchronization of A Class of Uncertain Chaotic Systems with Lipschitz Nonlinearities Using State‐Feedback Control Design: A Matrix Inequality Approach

Abstract: This paper proposes a new state-feedback stabilization control technique for a class of uncertain chaotic systems with Lipschitz nonlinearity conditions. Based on Lyapunov stabilization theory and the linear matrix inequality (LMI) scheme, a new sufficient condition formulated in the form of LMIs is created for the chaos synchronization of chaotic systems with parametric uncertainties and external disturbances on the slave system. Using Barbalat's lemma, the suggested approach guarantees that the slave system … Show more

“…Each cascade is described with a set of equations: cascade connected nonlinear system (22), Fig. 10a, becomes stable focus, Fig.…”

“…10d. Figs 11a and 11b show the strange attractor and parametric curve of cascade system (22) for l 3 = 0.6, respectively. Fig.…”

“…These values are located in the interval [-1, 2.9035]. After applying the modified Pyragas method (17), for K = 0.5, spatial chaos of MIMO cascade connected nonlinear system (22), in Fig. 11a, becomes stable focus, Fig.…”

“…It can be noted for system (22) that the limit sets degenerate if the trajectory l intersects the peripheral part of region S 3 , which is expected. The more the trajectory l approaches the peripheral part of region S 3 , the more motion (22) for l 3 = 0.37 after applying the modified Pyragas method (17) for K = 0.5. becomes chaotic and limit sets get a fractal structure. Finally, if l would not intersect the region S 3 , there would be no limit sets at all.…”

Analysis and control of spatial limit sets and spatial chaos appearance in mimo cascade connected nonlinear systems

“…Each cascade is described with a set of equations: cascade connected nonlinear system (22), Fig. 10a, becomes stable focus, Fig.…”

“…10d. Figs 11a and 11b show the strange attractor and parametric curve of cascade system (22) for l 3 = 0.6, respectively. Fig.…”

“…These values are located in the interval [-1, 2.9035]. After applying the modified Pyragas method (17), for K = 0.5, spatial chaos of MIMO cascade connected nonlinear system (22), in Fig. 11a, becomes stable focus, Fig.…”

“…It can be noted for system (22) that the limit sets degenerate if the trajectory l intersects the peripheral part of region S 3 , which is expected. The more the trajectory l approaches the peripheral part of region S 3 , the more motion (22) for l 3 = 0.37 after applying the modified Pyragas method (17) for K = 0.5. becomes chaotic and limit sets get a fractal structure. Finally, if l would not intersect the region S 3 , there would be no limit sets at all.…”

Analysis and control of spatial limit sets and spatial chaos appearance in mimo cascade connected nonlinear systems

“…Recently, in [1,23,24,32,33,35], the parametric conditions for existence and direction of Neimark-Sacker bifurcation are investigated, and in [1,32,33,35] feedback chaos control strategies are implemented for controlling chaos and bifurcations in host-parasitoid models. Moreover, for state-feedback control design based on the matrix inequality approaches, we refer to [63][64][65][66].…”

Controlling Chaos and Neimark–Sacker Bifurcation in a Host–Parasitoid Model

Uniform Quantized Synchronization for Chaotic Neural Networks with Successive Packet Dropouts