Add to ORKGThe famous Black-Scholes partial differential equation is one of the most widely used and researched equations in modern financial engineering to address the complex evaluations in the financial markets. This thesis investigates a numerical technique, using a fourth-order discretization in time and space, to solve a generalized version of the classical Black-Scholes partial differential equation. The numerical discretization in space consists of a fourth order centered difference approximation in the interior points of the spatial domain along with a fourth order left and right sided approximation for the points near the boundary. On the other hand, the temporal discretization is made by implementing a Runge-Kutta order four (RK4) method. T...
This paper discuss how to modified Fourth order Runge-Kutta Kutta method based on the geometric mea...
This paper discuss how to modified Fourth order Runge-Kutta Kutta method based on the geometric mea...
Some ordinary differential equations do not have exact solutions. Their solutions can be approximate...
The famous Black-Scholes partial differential equation is one of the most widely used and researched...
A Runge-Kutta type method for directly solving special fourth-order ordinary differential equations ...
In this paper, we classified a class of fourth-order partial differential equations (PDEs) to be fou...
In this paper, an explicit Runge–Kutta method for solving directly fourth-order ordinary differentia...
of the fourth order Runge-Kutta method for the solution of systems of differential equation
In this article, the general form of Runge-Kutta method for directly solving a special fourth- order...
This paper discuss how to modified Fourth order Runge-Kutta Kutta method based on the geometric mea...
In this paper, we consider fourth order Runge-Kutta method for solving ordinary differential equatio...
We present two pairs of embedded Runge-Kutta type methods for direct solution of fourth-order ordina...
Numerical solution methods for pricing American options are considered. We propose a second-order ac...
We present two pairs of embedded Runge-Kutta type methods for direct solution of fourth-order ordina...
This paper discuss how to modified Fourth order Runge-Kutta Kutta method based on the geometric mea...
This paper discuss how to modified Fourth order Runge-Kutta Kutta method based on the geometric mea...
This paper discuss how to modified Fourth order Runge-Kutta Kutta method based on the geometric mea...
Some ordinary differential equations do not have exact solutions. Their solutions can be approximate...
The famous Black-Scholes partial differential equation is one of the most widely used and researched...
A Runge-Kutta type method for directly solving special fourth-order ordinary differential equations ...
In this paper, we classified a class of fourth-order partial differential equations (PDEs) to be fou...
In this paper, an explicit Runge–Kutta method for solving directly fourth-order ordinary differentia...
of the fourth order Runge-Kutta method for the solution of systems of differential equation
In this article, the general form of Runge-Kutta method for directly solving a special fourth- order...
This paper discuss how to modified Fourth order Runge-Kutta Kutta method based on the geometric mea...
In this paper, we consider fourth order Runge-Kutta method for solving ordinary differential equatio...
We present two pairs of embedded Runge-Kutta type methods for direct solution of fourth-order ordina...
Numerical solution methods for pricing American options are considered. We propose a second-order ac...
We present two pairs of embedded Runge-Kutta type methods for direct solution of fourth-order ordina...
This paper discuss how to modified Fourth order Runge-Kutta Kutta method based on the geometric mea...
This paper discuss how to modified Fourth order Runge-Kutta Kutta method based on the geometric mea...
This paper discuss how to modified Fourth order Runge-Kutta Kutta method based on the geometric mea...
Some ordinary differential equations do not have exact solutions. Their solutions can be approximate...