The paper is devoted to the construction of economical explicit sixth-order numerical method for solving structurally partitioned systems of ordinary differential equations. The general form of the method, which algorithmically uses the properties of the system structure, is presented. Conditions of order six, which the parameters of the method must satisfy, are derived. The simplifying conditions are found, which reduces the large nonlinear system of order conditions to a solvable smaller system. A solution with two free parameters is obtained. Economic explicit sixth-order schemes for systems of ordinary differential equations are presented. Numerical tests to compare to known explicit sixth-order one-step methods are performed
under the Creative Commons Attribution License, which permits unrestricted use, distribution, and re...
A family of numerical methods is developed for the solution of special nonlinear sixth-order bounda...
In this paper, we present a new sixth-order iterative method for solving nonlinear systems and prove...
The paper deals with construction of an efficient explicit sixth order method for structurally part...
Systems of ordinary differential equations partitioned on base of their right-hand side dependencies...
In the paper embedded methods of order six, with seven stages for solving systems of ordinary differ...
Based on Traub-Steffensen method, we present a derivative free three-step family of sixth-order meth...
An embedded one-step numerical method for structurally partitioned systems of ordinary differential ...
In this Paper, we extend the idea of collocation of linear multistep methods to develop a uniform Or...
AbstractThis paper presents a sixth-order, explicit, one-step method which is proved to be A-stable....
Abstract: Problem statement: The conventional methods of solving higher order differential equations...
For the numerical solution of differential equations of the second order there are two possibilities...
Numerical methods to solve initial value problems of differential equations progressed quite a bit i...
In this article, the general form of Runge-Kutta method for directly solving a special fourth- order...
A new six-step block method for solving second order initial value problems of ordinary differential...
under the Creative Commons Attribution License, which permits unrestricted use, distribution, and re...
A family of numerical methods is developed for the solution of special nonlinear sixth-order bounda...
In this paper, we present a new sixth-order iterative method for solving nonlinear systems and prove...
The paper deals with construction of an efficient explicit sixth order method for structurally part...
Systems of ordinary differential equations partitioned on base of their right-hand side dependencies...
In the paper embedded methods of order six, with seven stages for solving systems of ordinary differ...
Based on Traub-Steffensen method, we present a derivative free three-step family of sixth-order meth...
An embedded one-step numerical method for structurally partitioned systems of ordinary differential ...
In this Paper, we extend the idea of collocation of linear multistep methods to develop a uniform Or...
AbstractThis paper presents a sixth-order, explicit, one-step method which is proved to be A-stable....
Abstract: Problem statement: The conventional methods of solving higher order differential equations...
For the numerical solution of differential equations of the second order there are two possibilities...
Numerical methods to solve initial value problems of differential equations progressed quite a bit i...
In this article, the general form of Runge-Kutta method for directly solving a special fourth- order...
A new six-step block method for solving second order initial value problems of ordinary differential...
under the Creative Commons Attribution License, which permits unrestricted use, distribution, and re...
A family of numerical methods is developed for the solution of special nonlinear sixth-order bounda...
In this paper, we present a new sixth-order iterative method for solving nonlinear systems and prove...