Paul Woafo mainly focuses on Control theory, Chaotic, Synchronization of chaos, Van der Pol oscillator and Duffing equation. His studies deal with areas such as Amplitude and Mathematical analysis as well as Control theory. His research in Chaotic intersects with topics in Phase portrait, Chaotic synchronization, Attractor, Masking and Real-time computing.
His Synchronization of chaos research incorporates elements of Topology and Stability conditions. His Van der Pol oscillator research includes themes of Computer simulation, Classical mechanics and Coupling. Paul Woafo interconnects Control theory and Adaptive control in the investigation of issues within Duffing equation.
His scientific interests lie mostly in Control theory, Nonlinear system, Chaotic, Amplitude and Classical mechanics. The concepts of his Control theory study are interwoven with issues in Dynamics, Vibration, Synchronization of chaos, Synchronization and Computer simulation. His Nonlinear system course of study focuses on Mathematical analysis and Lyapunov exponent.
His Chaotic study deals with Attractor intersecting with Statistical physics. In his study, Rigidity is strongly linked to Mechanics, which falls under the umbrella field of Amplitude. His Classical mechanics study frequently links to other fields, such as Van der Pol oscillator.
His primary areas of study are Control theory, Nonlinear system, Chaotic, Amplitude and Dynamics. His Control theory study integrates concerns from other disciplines, such as Signal and Boundary. His study in the fields of Bifurcation under the domain of Nonlinear system overlaps with other disciplines such as Bursting.
Paul Woafo has included themes like Excited state, Attractor and Capacitor in his Chaotic study. Paul Woafo combines subjects such as Equilibrium point and Chaotic hysteresis, Synchronization of chaos with his study of Attractor. His Amplitude research includes elements of Beam, Band-pass filter, Mathematical analysis and Jump.
Control theory, Nonlinear system, Chaotic, Mechanics and Bursting are his primary areas of study. His Control theory study combines topics from a wide range of disciplines, such as Signal and Ideal. His primary area of study in Nonlinear system is in the field of Bifurcation.
His work deals with themes such as Negative resistance, Equivalent circuit and Backstepping, which intersect with Chaotic. His work in Beam covers topics such as Fourier transform which are related to areas like Amplitude and Rayleigh scattering. As a part of the same scientific family, he mostly works in the field of Fractional calculus, focusing on Dissipative system and, on occasion, Lyapunov exponent and Mathematical analysis.
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Three-dimensional chaotic autonomous system with only one stable equilibrium: Analysis, circuit design, parameter estimation, control, synchronization and its fractional-order form
S. T. Kingni;S. Jafari;H. Simo;P. Woafo.
European Physical Journal Plus (2014)
Metallic Iron Filters for Universal Access to Safe Drinking Water
Chicgoua Noubactep;Angelika Schöner;Paul Woafo.
Clean-soil Air Water (2009)
Dynamics and synchronization of coupled self-sustained electromechanical devices
R. Yamapi;P. Woafo.
Journal of Sound and Vibration (2005)
Chaotic synchronization with experimental application to secure communications
B. Nana;P. Woafo;S. Domngang.
Communications in Nonlinear Science and Numerical Simulation (2009)
Analysis of tristable energy harvesting system having fractional order viscoelastic material
G. T. Oumbé Tékam;C. A. Kitio Kwuimy;P. Woafo.
Adaptive synchronization of a modified and uncertain chaotic Van der Pol-Duffing oscillator based on parameter identification
H.B. Fotsin;P. Woafo.
Chaos Solitons & Fractals (2005)
Extending Service Life of Household Water Filters by Mixing Metallic Iron with Sand
Chicgoua Noubactep;Sabine Caré;Fulbert Togue-Kamga;Angelika Schöner.
Clean-soil Air Water (2010)
Analog simulation of the dynamics of a van der Pol oscillator coupled to a Duffing oscillator
J.C. Chedjou;H.B. Fotsin;P. Woafo;S. Domngang.
IEEE Transactions on Circuits and Systems I-regular Papers (2001)
Nonlinear dynamics and strange attractors in the biological system
H.G. Enjieu Kadji;J.B. Chabi Orou;R. Yamapi;P. Woafo.
Chaos Solitons & Fractals (2007)
Three-Dimensional Chaotic Autonomous System with a Circular Equilibrium: Analysis, Circuit Implementation and Its Fractional-Order Form
Sifeu Takougang Kingni;Viet-Thanh Pham;Sajad Jafari;Guy Richard Kol.
Circuits Systems and Signal Processing (2016)
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