An iterative difference scheme for solving arbitrary order nonlinear Volterra integro-differential population growth model
From MaRDI portal
Publication:6621076
DOI10.1007/s41478-023-00593-4MaRDI QIDQ6621076
Publication date: 17 October 2024
Published in: The Journal of Analysis (Search for Journal in Brave)
Integro-ordinary differential equations (45J05) Numerical methods for integral equations (65R20) Population dynamics (general) (92D25) Fractional derivatives and integrals (26A33) Volterra integral equations (45D05)
Cites Work
- Unnamed Item
- Unnamed Item
- Solving Volterra's population growth model of arbitrary order using the generalized fractional order of the Chebyshev functions
- Legendre wavelets method for solving fractional population growth model in a closed system
- Analytical approximations for a population growth model with fractional order
- A CAS wavelet method for solving nonlinear Fredholm integro-differential equations of fractional order
- A numerical approximation for Volterra's population growth model with fractional order
- An iterative method for solving nonlinear functional equations
- Numerical approximations and padé approximants for a fractional population growth model
- The analysis of fractional differential equations. An application-oriented exposition using differential operators of Caputo type
- Fractional differential equations. An introduction to fractional derivatives, fractional differential equations, to methods of their solution and some of their applications
- Mathematical biology. Vol. 1: An introduction.
- Adomian decomposition and homotopy perturbation method for the solution of time fractional partial integro-differential equations
- Numerical solution of fractional integro-differential equations by a hybrid collocation method
- Vito Volterra and theoretical ecology
- Classroom Note:Numerical and Analytical Solutions of Volterra's Population Model
- Generalized wavelet quasilinearization method for solving population growth model of fractional order
- Error Analysis of a Finite Difference Method on Graded Meshes for a Time-Fractional Diffusion Equation
- Analysis of finite difference schemes for Volterra integro-differential equations involving arbitrary order derivatives
- Gegenbauer wavelet quasi‐linearization method for solving fractional population growth model in a closed system
Related Items (1)
This page was built for publication: An iterative difference scheme for solving arbitrary order nonlinear Volterra integro-differential population growth model
