Euler-Maruyama-MATLAB Euler-Maruyama function for Solving Stochastic Differential Equations using Numerical Integration of Ito integrals This a MATLAB function for solving stochastic differential ...

In this research, finite difference approximate methods for solving initial value ordinary differential equation have been studied. Even if the method is long, it is shown that finite difference ...

The aim of using this software is to solve differential equations individually and as a system of equation in parallel with analytical mathematics trends.

A new method, combining complex analysis with numerics, is introduced for solving a large class of linear partial differential equations (PDEs). This includes any linear constant coefficient PDE, as ...

ABSTRACT: In this section the Successive approximate method (S.A.M) introduced for solving the Wu-Zhang systems, a (1 + 1)-dimensional nonlinear dispersive wave equation, this method shows us that the ...

Efficient numerical algorithm for solving the Benjamin-Bona-Mahony partial differential equation using Fibonacci wavelets and advanced computational techniques ...