This paper derives new results for the design of sliding mode controller for the global chaos synchronization of identical hyperchaotic Lorenz systems (Jia, 2007). The synchronizer results derived in this paper for the complete chaos synchronization of identical hyperchaotic systems are established using Lyapunov stability theory. Since the Lyapunov exponents are not required for these calculations, the sliding mode control method is very effective and convenient to achieve global chaos synchronization of the identical hyperchaotic Lorenz systems. Numerical simulations are shown to illustrate and validate the synchronization schemes derived in this paper for the identical hyperchaotic Lorenz systems.
%0 Journal Article
%1 noauthororeditor
%A Vaidyanathan, Sundarapandian
%A Sampath, Sivaperumal
%D 2011
%J Computer Science & Engineering: An International Journal
%K Chaos Control Hyperchaos Mode Sliding Synchronization
%N 04
%P 01-10
%R 10.5121/cseij.2011.1405
%T SLIDING MODE CONTROLLER DESIGN FOR GLOBAL CHAOS SYNCHRONIZATION OF HYPERCHAOTIC LORENZ SYSTEMS
%U http://airccse.org/journal/cseij/papers/1011cseij05.pdf
%V 01
%X This paper derives new results for the design of sliding mode controller for the global chaos synchronization of identical hyperchaotic Lorenz systems (Jia, 2007). The synchronizer results derived in this paper for the complete chaos synchronization of identical hyperchaotic systems are established using Lyapunov stability theory. Since the Lyapunov exponents are not required for these calculations, the sliding mode control method is very effective and convenient to achieve global chaos synchronization of the identical hyperchaotic Lorenz systems. Numerical simulations are shown to illustrate and validate the synchronization schemes derived in this paper for the identical hyperchaotic Lorenz systems.
@article{noauthororeditor,
abstract = {This paper derives new results for the design of sliding mode controller for the global chaos synchronization of identical hyperchaotic Lorenz systems (Jia, 2007). The synchronizer results derived in this paper for the complete chaos synchronization of identical hyperchaotic systems are established using Lyapunov stability theory. Since the Lyapunov exponents are not required for these calculations, the sliding mode control method is very effective and convenient to achieve global chaos synchronization of the identical hyperchaotic Lorenz systems. Numerical simulations are shown to illustrate and validate the synchronization schemes derived in this paper for the identical hyperchaotic Lorenz systems.
},
added-at = {2018-12-22T06:27:08.000+0100},
author = {Vaidyanathan, Sundarapandian and Sampath, Sivaperumal},
biburl = {https://www.bibsonomy.org/bibtex/294fa95b42312f10b576c96b4c3b61d25/micaela},
doi = {10.5121/cseij.2011.1405},
interhash = {e0ea8648b4f01a17e5e10b47256a5aca},
intrahash = {94fa95b42312f10b576c96b4c3b61d25},
issn = {2231 - 329X (Online) ; 2231 - 3583 (Print)},
journal = {Computer Science & Engineering: An International Journal},
keywords = {Chaos Control Hyperchaos Mode Sliding Synchronization},
language = {Eng},
month = oct,
number = 04,
pages = {01-10},
timestamp = {2018-12-22T06:27:08.000+0100},
title = {SLIDING MODE CONTROLLER DESIGN FOR GLOBAL CHAOS SYNCHRONIZATION OF HYPERCHAOTIC LORENZ SYSTEMS},
url = {http://airccse.org/journal/cseij/papers/1011cseij05.pdf},
volume = 01,
year = 2011
}