R
R. Gladwin Pradeep
Researcher at KCG College of Technology
Publications - 24
Citations - 201
R. Gladwin Pradeep is an academic researcher from KCG College of Technology. The author has contributed to research in topics: Nonlinear system & Ordinary differential equation. The author has an hindex of 9, co-authored 21 publications receiving 190 citations. Previous affiliations of R. Gladwin Pradeep include Bharathidasan University.
Papers
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Nonstandard conserved Hamiltonian structures in dissipative/damped systems: Nonlinear generalizations of damped harmonic oscillator
TL;DR: In this article, a remarkable nonlocal transformation between the damped harmonic oscillator and a modified Emden-type nonlinear oscillator equation with linear forcing, x+αxx+βx3+γx=0, which preserves the form of the time independent integral, conservative Hamiltonian, and the equation of motion was shown.
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A class of solvable coupled nonlinear oscillators with amplitude independent frequencies
V. K. Chandrasekar,Jane H. Sheeba,R. Gladwin Pradeep,R.S.a b Divyasree,R.S.a b Divyasree,M. Lakshmanan +5 more
TL;DR: In this paper, the amplitude independent frequencies of nonlinear oscillators are investigated and a class of N coupled nonlinear Lienard type oscillators is shown to be integrable in the sense that the system can be reduced to a single nonautonomous first order scalar differential equation which can be easily integrated numerically.
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On certain new integrable second order nonlinear differential equations and their connection with two dimensional Lotka-Volterra system
TL;DR: In this article, a second order nonlinear ordinary differential equation of the form x+k 1(x 2/x)+(k 2+k3x)x+k 4x3+k5x2+k6x=0, where ki's, i=1,2,…,6, are arbitrary parameters.
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Dynamics of a Completely Integrable N-Coupled Lienard Type Nonlinear Oscillator
TL;DR: In this paper, a system of N-coupled Lienard-type nonlinear oscillators which is completely integrable and possesses N time independent and N time dependent explicit integrals is presented.
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Different types of synchronization in coupled network based chaotic circuits
Kannupal Srinivasan,V. K. Chandrasekar,R. Gladwin Pradeep,Krishnamurthy Murali,M. Lakshmanan +4 more
TL;DR: A simple and new unified method to achieve lag, complete and anticipatory synchronizations in coupled nonlinear systems and can be considered as an alternative to the subsystem and intentional parameter mismatch methods is proposed.