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|Title:||Synchronization of fractional-order chaotic systems using unidirectional adaptive full-state linear error feedback coupling||Author(s):||Leung, Andrew Yee Tak||Author(s):||Li, X.-F.
|Issue Date:||2015||Publisher:||Springer||Journal:||Nonlinear Dynamics||Volume:||82||Issue:||1-2||Start page:||185||End page:||199||Abstract:||
Based on the stability theory of fractional-order system, a novel unidirectional adaptive full-state linear error feedback coupling scheme is extended to control and synchronize all of fractional-order differential (FOD) chaotic systems with in-commensurate (and commensurate) orders. The feedback strength is adaptive to an updated law rather than prescribed as a constant. The convergence speed of feedback strength is regulated by a constant. With rigorous linear algebraic theorems and precisely numerical matrix computations, a reasonable interval in which the ultimate final control strength dwells is suggested, and the reliability of synchronization state is guaranteed. It demonstrates that the unidirectional full-state linear feedback coupling scheme can be adopted to control and synchronize FOD chaotic systems directly. Numerical simulations of three representative FOD chaotic systems illustrate the effectiveness of the proposed scheme.
|URI:||https://repository.cihe.edu.hk/jspui/handle/cihe/2194||DOI:||10.1007/s11071-015-2148-4||CIHE Affiliated Publication:||No|
|Appears in Collections:||CIS Publication|
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