On the spatial Julia set generated by fractional Lotka-Volterra system with noise
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Publication:2122320
DOI10.1016/j.chaos.2019.07.044zbMath1483.28011OpenAlexW2964783005WikidataQ122643713 ScholiaQ122643713MaRDI QIDQ2122320
Hui Li, Da Wang, Yupin Wang, Shu-Tang Liu
Publication date: 6 April 2022
Published in: Chaos, Solitons and Fractals (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.chaos.2019.07.044
Fractals (28A80) Dynamics of complex polynomials, rational maps, entire and meromorphic functions; Fatou and Julia sets (37F10) Fractional ordinary differential equations (34A08)
Related Items (6)
A brief note on fractal dynamics of fractional Mandelbrot sets ⋮ Spatial dynamics of a fractional predator-prey system with time delay and Allee effect ⋮ Fractional quantum Julia set ⋮ On fractional difference logistic maps: dynamic analysis and synchronous control ⋮ Fractal dynamics and control of the fractional Potts model on diamond-like hierarchical lattices ⋮ Adaptive synchronization of Julia sets generated by Mittag-Leffler function
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Cites Work
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- Dynamical behaviors of fractional-order Lotka-Volterra predator-prey model and its discretization
- Symmetries of the Julia sets of Newton's method for multiple root
- On a topological closeness of perturbed Julia sets
- Fractional-order nonlinear systems. Modeling, analysis and simulation
- Fractional dynamics of populations
- Solvability to infinite-point boundary value problems for singular fractional differential equations on the half-line
- Fractal analysis and control of the fractional Lotka-Volterra model
- On a topological closeness of perturbed Mandelbrot sets
- Equilibrium points, stability and numerical solutions of fractional-order predator-prey and rabies models
- Fractional differential equations. An introduction to fractional derivatives, fractional differential equations, to methods of their solution and some of their applications
- On the Julia set of the perturbed Mandelbrot map
- Physical meaning for Mandelbrot and Julia sets
- Spatio-temporal patterns in population dynamics
- A fractional order SIR epidemic model for dengue transmission
- On the noise-perturbed spatial Julia set generated by Lorenz system
- Fractal dimension analysis and control of Julia set generated by fractional Lotka-Volterra models
- No nonlocality. No fractional derivative
- Stochastic variability and transitions to chaos in a hierarchical three-species population model
- Fractal analysis and control of the competition model
- ON A CLOSENESS OF THE JULIA SETS OF NOISE-PERTURBED COMPLEX QUADRATIC MAPS
- Eigenvalue problems for fractional differential equations with mixed derivatives and generalized p-Laplacian
- Fractal Control Theory
- Fractal analysis and control in the predator–prey model
- On the Julia sets of a noise-perturbed Mandelbrot map
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