AbstractThe effect of the local approximation error on the stepsize control at one-step methods, which are used for the numerical solution of delay differential equations, are considered. It is shown, how to get a reliable estimate for the local error and so a working stepsize control by using a pair of formulae
When using software for ordinary differential equation (ODE) initial value problems, it is not unrea...
We discuss the practical determination of stability regions when various fixed-stepsize Runge-Kutta ...
AbstractOver the last decade several general-purpose numerical methods for ordinary differential equ...
AbstractThe effect of the local approximation error on the stepsize control at one-step methods, whi...
AbstractThe use of continuously imbedded Runge–Kutta–Sarafyan methods for the solution of ordinary d...
AbstractThis paper considers the use of continuously embedded Runge-Kutta-Sarafyan methods for the s...
A 2-point variable order variable stepsize block method for the numerical solution of delay differen...
Delay differential equations play an important role in modeling many real life phenomena. The applic...
AbstractAn adaptation of the Runge-Kutta-Verner (5, 6) formula pair is used to construct a numerical...
AbstractThis work examines the performance of explicit, adaptive, Runge-Kutta based algorithms for s...
In this paper, initial value problems of first order delay differential equations (DDEs) are solved ...
In this paper, we derive a class of extended one-step methods of order m for solving delay-different...
Introduction to delay differential equations (DDEs) and their examples are presented. The General fo...
This thesis describes the development of sequential and parallel methods for solving delay differen...
Abstract. Runge-Kutta-Nyström (RKN) methods provide a popular way to solve the initial value proble...
When using software for ordinary differential equation (ODE) initial value problems, it is not unrea...
We discuss the practical determination of stability regions when various fixed-stepsize Runge-Kutta ...
AbstractOver the last decade several general-purpose numerical methods for ordinary differential equ...
AbstractThe effect of the local approximation error on the stepsize control at one-step methods, whi...
AbstractThe use of continuously imbedded Runge–Kutta–Sarafyan methods for the solution of ordinary d...
AbstractThis paper considers the use of continuously embedded Runge-Kutta-Sarafyan methods for the s...
A 2-point variable order variable stepsize block method for the numerical solution of delay differen...
Delay differential equations play an important role in modeling many real life phenomena. The applic...
AbstractAn adaptation of the Runge-Kutta-Verner (5, 6) formula pair is used to construct a numerical...
AbstractThis work examines the performance of explicit, adaptive, Runge-Kutta based algorithms for s...
In this paper, initial value problems of first order delay differential equations (DDEs) are solved ...
In this paper, we derive a class of extended one-step methods of order m for solving delay-different...
Introduction to delay differential equations (DDEs) and their examples are presented. The General fo...
This thesis describes the development of sequential and parallel methods for solving delay differen...
Abstract. Runge-Kutta-Nyström (RKN) methods provide a popular way to solve the initial value proble...
When using software for ordinary differential equation (ODE) initial value problems, it is not unrea...
We discuss the practical determination of stability regions when various fixed-stepsize Runge-Kutta ...
AbstractOver the last decade several general-purpose numerical methods for ordinary differential equ...