Adaptive stepsize control is used to control the local errors of the numerical solution. For optimization purposes smoother stepsize controllers are wanted, such that the errors and stepsizes also behave smoothly. We consider approaches from digital linear control theory applied to multistep BDF-methods
An important task in solving second order linear ordinary differential equations by the finite diffe...
The numerical solution of stochastic differential equations (SDEs) has been focused recently on the ...
AbstractThe numerical solution of stochastic differential equations (SDEs) has been focussed recentl...
Adaptive stepsize control is used to control the local errors of the numerical solution. For optimiz...
In transient analysis of electrical circuits the solution is computed by means of numerical integrat...
Adaptive time-stepping based on linear digital control theory has several advantages: the algorithms...
It has long been known that the solutions produced by adaptive solvers for ordinary differential (OD...
Transient analysis is an important circuit simulation technique. The circuit model, which is a syste...
It is critical that computer usage be integrated into assignments that involve the application of ba...
It is critical that computer usage be integrated into assignments that involve the application of ba...
In a k-step adaptive linear multistep methods the coefficients depend on the k − 1 most recent step ...
Adaptive time-stepping is central to the efficient solution of initial value problems in ODEs and DA...
This article presents a digital control that improves the stability of the system, solves the proble...
This article presents a digital control that improves the stability of the system, solves the proble...
AbstractThe effect of the local approximation error on the stepsize control at one-step methods, whi...
An important task in solving second order linear ordinary differential equations by the finite diffe...
The numerical solution of stochastic differential equations (SDEs) has been focused recently on the ...
AbstractThe numerical solution of stochastic differential equations (SDEs) has been focussed recentl...
Adaptive stepsize control is used to control the local errors of the numerical solution. For optimiz...
In transient analysis of electrical circuits the solution is computed by means of numerical integrat...
Adaptive time-stepping based on linear digital control theory has several advantages: the algorithms...
It has long been known that the solutions produced by adaptive solvers for ordinary differential (OD...
Transient analysis is an important circuit simulation technique. The circuit model, which is a syste...
It is critical that computer usage be integrated into assignments that involve the application of ba...
It is critical that computer usage be integrated into assignments that involve the application of ba...
In a k-step adaptive linear multistep methods the coefficients depend on the k − 1 most recent step ...
Adaptive time-stepping is central to the efficient solution of initial value problems in ODEs and DA...
This article presents a digital control that improves the stability of the system, solves the proble...
This article presents a digital control that improves the stability of the system, solves the proble...
AbstractThe effect of the local approximation error on the stepsize control at one-step methods, whi...
An important task in solving second order linear ordinary differential equations by the finite diffe...
The numerical solution of stochastic differential equations (SDEs) has been focused recently on the ...
AbstractThe numerical solution of stochastic differential equations (SDEs) has been focussed recentl...