AbstractNumerical integration techniques which have been previously thought of as distinct are shown to be examples of a general type. The variations from the general form comprise a spectrum of methods whose extremes are the “onestep” methods and the “multistep” methods. An analysis of stability properties provides a means for finding the optimal computational stepsize so that error is minimized
During the numerical integration of a system of first order differential equations, practical algori...
ABSTRACT. In this paper, the results of the first detailed and systematic study of the family of fif...
AbstractCodes for the solution of the initial value problem for a system of ordinary differential eq...
AbstractNumerical integration techniques which have been previously thought of as distinct are shown...
For effcient integration of such kind of systems we consider implicit-explicit (IMEX) methods, where...
When faced with the task of solving stiff problems, highly stable numerical methods are often needed...
AbstractPanovsky and Richardson [A family of implicit Chebyshev methods for the numerical integratio...
AbstractFor the numerical solution of initial value problems a general procedure to determine global...
The use of numerical integration techniques is pervasive in several contexts of applied science and ...
AbstractThis paper deals with the stability analysis of one-step methods for the numerical solution ...
Abstract. Implicit integration schemes for ODEs, such as Runge-Kutta and Runge-Kutta-Nyström method...
Second-order unconditionally stable schemes of linear multi-step methods, and their equivalent singl...
The numerical solution of partial differential equations discretized along the space variables requi...
Panovsky and Richardson [A family of implicit Chebyshev methods for the numerical integration of sec...
It is the purpose of this paper to construct an error estimation for highly stable two-step continuo...
During the numerical integration of a system of first order differential equations, practical algori...
ABSTRACT. In this paper, the results of the first detailed and systematic study of the family of fif...
AbstractCodes for the solution of the initial value problem for a system of ordinary differential eq...
AbstractNumerical integration techniques which have been previously thought of as distinct are shown...
For effcient integration of such kind of systems we consider implicit-explicit (IMEX) methods, where...
When faced with the task of solving stiff problems, highly stable numerical methods are often needed...
AbstractPanovsky and Richardson [A family of implicit Chebyshev methods for the numerical integratio...
AbstractFor the numerical solution of initial value problems a general procedure to determine global...
The use of numerical integration techniques is pervasive in several contexts of applied science and ...
AbstractThis paper deals with the stability analysis of one-step methods for the numerical solution ...
Abstract. Implicit integration schemes for ODEs, such as Runge-Kutta and Runge-Kutta-Nyström method...
Second-order unconditionally stable schemes of linear multi-step methods, and their equivalent singl...
The numerical solution of partial differential equations discretized along the space variables requi...
Panovsky and Richardson [A family of implicit Chebyshev methods for the numerical integration of sec...
It is the purpose of this paper to construct an error estimation for highly stable two-step continuo...
During the numerical integration of a system of first order differential equations, practical algori...
ABSTRACT. In this paper, the results of the first detailed and systematic study of the family of fif...
AbstractCodes for the solution of the initial value problem for a system of ordinary differential eq...