机构地区:[1]School of Science,Lanzhou University of Technology
出 处:《Chinese Physics B》2009年第9期3766-3771,共6页中国物理B(英文版)
基 金:supported by the National Nature Science Foundation of China (Grant No 10747005);the Natural science foundation of Lanzhou University of Technology,China (Grant No Q200706)
摘 要:In this paper, the synchronization and the parameter identification of the chaotic Pikovsky-Rabinovich (PR) circuits are investigated. The linear error of the second corresponding variables is used to change the driven chaotic PR circuit, and the complete synchronization of the two identical chaotic PR circuits is realized with feedback intensity k increasing to a certain threshold. The Lyapunov exponents of the chaotic PR circuits are calculated by using different feedback intensities and our results are confirmed. The case where the two chaotic PR circuits are not identical is also investigated. A general positive Lyapunov function V, which consists of all the errors of the corresponding variables and parameters and changeable gain coefficient, is constructed by using the Lyapunov stability theory to study the parameter identification and complete synchronization of two nomidentical chaotic circuits. The controllers and the parameter observers could be obtained analytically only by simplifying the criterion dV/dt 〈 0 (differential coefficient of Lyapunov function V with respect to time is negative). It is confirmed that the two non-identical chaotic PR circuits could still reach complete synchronization and all the unknown parameters in the drive system are estimated exactly within a short transient period.In this paper, the synchronization and the parameter identification of the chaotic Pikovsky-Rabinovich (PR) circuits are investigated. The linear error of the second corresponding variables is used to change the driven chaotic PR circuit, and the complete synchronization of the two identical chaotic PR circuits is realized with feedback intensity k increasing to a certain threshold. The Lyapunov exponents of the chaotic PR circuits are calculated by using different feedback intensities and our results are confirmed. The case where the two chaotic PR circuits are not identical is also investigated. A general positive Lyapunov function V, which consists of all the errors of the corresponding variables and parameters and changeable gain coefficient, is constructed by using the Lyapunov stability theory to study the parameter identification and complete synchronization of two nomidentical chaotic circuits. The controllers and the parameter observers could be obtained analytically only by simplifying the criterion dV/dt 〈 0 (differential coefficient of Lyapunov function V with respect to time is negative). It is confirmed that the two non-identical chaotic PR circuits could still reach complete synchronization and all the unknown parameters in the drive system are estimated exactly within a short transient period.
关 键 词:Pikovsky Rabinovich parameter identification CHAOS adaptive synchronization
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