J
Jacques Kengne
Researcher at University of Dschang
Publications - 160
Citations - 4366
Jacques Kengne is an academic researcher from University of Dschang. The author has contributed to research in topics: Attractor & Multistability. The author has an hindex of 29, co-authored 122 publications receiving 2749 citations. Previous affiliations of Jacques Kengne include Alpen-Adria-Universität Klagenfurt.
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Dynamical analysis of a simple autonomous jerk system with multiple attractors
TL;DR: In this article, the authors performed a systematic analysis of a simple jerk system with cubic nonlinearity and found a window in the parameter space in which the jerk system experiences the unusual and striking feature of multiple attractors.
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Periodicity, chaos, and multiple attractors in a memristor-based Shinriki's circuit.
TL;DR: A novel memristor-based oscillator, obtained from Shinriki's circuit by substituting the nonlinear positive conductance with a first order memristive diode bridge, is introduced and experiences the unusual and striking feature of multiple attractors over a broad range of circuit parameters.
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Design and implementation of a simple dynamical 4-D chaotic circuit with applications in image encryption
Nestor Tsafack,Jacques Kengne,Bassem Abd-El-Atty,Abdullah M. Iliyasu,Abdullah M. Iliyasu,Abdullah M. Iliyasu,Kaoru Hirota,Ahmed A. Abd El-Latif,Ahmed A. Abd El-Latif,Ahmed A. Abd El-Latif +9 more
TL;DR: Since the network is characterised by smooth fourth-order exponential nonlinearity, a distinctive approach is employed to assess its different properties: the circuit stability near fixed points is examined and dynamic complexity is evaluated using the Lyaponov spectrum analysis, bifurcation analysis and phase space trajectories.
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Antimonotonicity, chaos and multiple attractors in a novel autonomous memristor-based jerk circuit
TL;DR: In this paper, a memristor-based oscillator derived from the autonomous jerk circuit is proposed, where a first-order memristive diode bridge replaces the semiconductor diode of the original circuit.
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Coexistence of multiple attractors and crisis route to chaos in a novel memristive diode bidge-based Jerk circuit
Zeric Tabekoueng Njitacke,Jacques Kengne,Hilaire Bertrand Fotsin,A. Nguomkam Negou,D. Tchiotsop +4 more
TL;DR: In this article, a memristor based oscillator is obtained from the autonomous Jerk circuit by substituting the nonlinear element of the original circuit with a first order memristive diode bridge.