Improved Chaotic Dynamics of a Fractional-Order System, its Chaos-Suppressed Synchronisation and Circuit Implementation

This paper presents (1) a new and improved fractional-order chaotic system (FOCS); (2) design of controllers for suppression of chaos for commensurate and incommensurate orders in the regions: 0 < α ≤ 1 and 1 < α < 2 ; (3) synchronisation between the new FOCS (as master) and a non-identical...

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Veröffentlicht in:	Circuits, systems, and signal processing systems, and signal processing, 2016-06, Vol.35 (6), p.1871-1907
Hauptverfasser:	Borah, Manashita, Singh, Piyush P., Roy, Binoy K.
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Sprache:	eng
Schlagworte:	Chaos theory Circuits Circuits and Systems Computer simulation Dynamical systems Dynamics Electrical Engineering Electronics and Microelectronics Engineering Instrumentation Mathematical models Nonlinear dynamics Nonlinear systems Signal,Image and Speech Processing
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container_end_page	1907
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container_title	Circuits, systems, and signal processing
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creator	Borah, Manashita Singh, Piyush P. Roy, Binoy K.
description	This paper presents (1) a new and improved fractional-order chaotic system (FOCS); (2) design of controllers for suppression of chaos for commensurate and incommensurate orders in the regions: 0 < α ≤ 1 and 1 < α < 2 ; (3) synchronisation between the new FOCS (as master) and a non-identical FOCS (as slave) when the master is in either chaotic mode or chaos-suppressed mode and finally (4) analog circuit implementation to validate the numerical simulation results. The rich variety of complex nonlinear dynamical behaviour is explored by varying the parameters as well as the fractional orders. Effective control strategies are designed to suppress chaos in the new system. In addition to this, the paper contributes the idea of synchronisation of the FOCS when it switches between chaotic and chaos-suppressed mode. The control scheme put forward in the paper is able to synchronise the slave with the switching master effectively in spite of change in dynamics. The paper compares the improved features of the newly proposed FO model with a class of well-known FOCSs and elaborates its capability to enhance the performance of secure communication. Circuit implementation results for all the above are in perfect agreement with those obtained through theoretical analyses and numerical simulations and thus reveal that the objectives of the paper are successfully achieved.
doi_str_mv	10.1007/s00034-016-0276-9
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The rich variety of complex nonlinear dynamical behaviour is explored by varying the parameters as well as the fractional orders. Effective control strategies are designed to suppress chaos in the new system. In addition to this, the paper contributes the idea of synchronisation of the FOCS when it switches between chaotic and chaos-suppressed mode. The control scheme put forward in the paper is able to synchronise the slave with the switching master effectively in spite of change in dynamics. The paper compares the improved features of the newly proposed FO model with a class of well-known FOCSs and elaborates its capability to enhance the performance of secure communication. 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subjects	Chaos theory Circuits Circuits and Systems Computer simulation Dynamical systems Dynamics Electrical Engineering Electronics and Microelectronics Engineering Instrumentation Mathematical models Nonlinear dynamics Nonlinear systems Signal,Image and Speech Processing
title	Improved Chaotic Dynamics of a Fractional-Order System, its Chaos-Suppressed Synchronisation and Circuit Implementation
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