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Anitha Karthikeyan
Researcher at Ton Duc Thang University
Publications - 110
Citations - 1760
Anitha Karthikeyan is an academic researcher from Ton Duc Thang University. The author has contributed to research in topics: Chaotic & Attractor. The author has an hindex of 19, co-authored 87 publications receiving 1146 citations. Previous affiliations of Anitha Karthikeyan include College of Information Technology & Mekelle University.
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FPGA implementation of novel fractional-order chaotic systems with two equilibriums and no equilibrium and its adaptive sliding mode synchronization
TL;DR: In this paper, the authors introduced two novel fractional-order chaotic systems with cubic nonlinear resistor and investigated its adaptive sliding mode synchronization, and the proposed systems, adaptive control laws, sliding surfaces and adaptive controllers are implemented in FPGA.
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Chaotic chameleon: Dynamic analyses, circuit implementation, FPGA design and fractional-order form with basic analyses
TL;DR: A chaotic system in which the attractor can change between hidden and self-excited attractor depending on the value of parameters is introduced, and Dynamical properties of the proposed attractor are investigated.
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Fractional Order Memristor No Equilibrium Chaotic System with Its Adaptive Sliding Mode Synchronization and Genetically Optimized Fractional Order PID Synchronization
TL;DR: This paper introduces a fractional order memristor no equilibrium (FOMNE) chaotic system and investigates its adaptive sliding mode synchronization.
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A hyperchaotic memristor oscillator with fuzzy based chaos control and LQR based chaos synchronization
Karthikeyan Rajagopal,Hadi Jahanshahi,Metin Varan,Ihsan Bayır,Viet-Thanh Pham,Sajad Jafari,Anitha Karthikeyan +6 more
TL;DR: This paper introduces a hyperchaotic memristor oscillator which shows both stable and unstable fixed points and designs a fuzzy based PID controller for chaos control in such a memristors oscillator.
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Hyperchaotic Chameleon: Fractional Order FPGA Implementation
TL;DR: A hyperchaotic system which can change between hidden attractor and self-excited attractor depending on the values of parameters is introduced and field programmable gate array (FPGA) implementations of the systems with their power and resource utilization are presented.