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Paper TuBT4.6

SINGH, JAY PRAKASH (NATIONAL INSTITUTE OF TECHNOLOGY SILCHAR), SINGH, PIYUSH PRATAP (NATIONAL INSTITUTE OF TECHNOLOGY SILCHAR), Roy, Binoy Krishna (National Institute of Technology Silchar)

PI Based Sliding Mode Control for Hybrid Synchronization of Chen and Liu-Yang Chaotic Systems with Circuit Design and Simulation

Scheduled for presentation during the Regular Session "PID Control" (TuBT4), Tuesday, January 6, 2015, 15:40−16:00, CCE Conference Hall

2015 Indian Control Conference, January 5-7, 2015, Indian Institute of Technology Madras, Chennai, India

This information is tentative and subject to change. Compiled on January 24, 2021

Keywords Chaotic systems, Stability of nonlinear systems, Simulation

Abstract

In this paper Proportional-Integral (PI) switching surface based sliding mode control (SMC) for hybrid synchronization of two different chaotic systems is proposed and their circuit simulations are also shown. The chaotic Chen system is used as master system and chaotic Liu-Yang system is used as slave system. Lyapunov stability theory is used to achieve the stability of hybrid synchronization scheme. Since SMC is insensitive to parameter uncertainties and disturbances, it helps in achieving the effective convergence of error dynamics. Finally, MATLAB simulation and circuit simulations are used to demonstrate the effectiveness of the proposed synchronization strategy. NI MULTISIM environment is used for circuit simulation.

 

 

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