For transient eddy current problems modelled as differential-algebraic equations (DAEs) a time integration method suitable for ordinary differential equations (ODEs) will not necessarily work. We present two Runge-Kutta methods that are suitable for the time integration of the classes of DAEs to which eddy current problems belong. Both methods have error estimators and hence allow variable step sizes. In tests our variable step size integrators were competitive with fixed step size integrators, in particular with Crank-Nicolson.Peer reviewe
Different from the way we have been looking in the past at developments encompassing modal type and ...
We deal with the well known and largely adopted Gear integration method that belongs to the class of...
A study on the properties of the precise time-step integration methods for the simulation of dynamic...
This paper constructs highly accurate and efficient time integration methods for the solution of tra...
The time domain-electric field integral equation (TD-EFIE) and its differentiated version are widely...
The computation accuracies of the boundary-element method (BEM) and finite-element method (FEM) in t...
The spatial discretization of the magnetic vector potential formulation of magnetoquasistatic field ...
This paper presents a set of methods for time integration of problems arising from finite element se...
The eddy current model is obtained from Maxwell’s equations by neglecting the displacement currents ...
The objective of this work is to propose effective and reliable higher order time integration scheme...
In this paper, we present an algebraic multigrid algorithm for fully coupled implicit Runge-Kutta (I...
Adaptive time stepping can significantly enhance the accuracy and the efficiency of computational me...
Adaptive time stepping can significantly enhance the accuracy and the efficiency of computational me...
Abstract. Implicit integration schemes for ODEs, such as Runge-Kutta and Runge-Kutta-Nyström method...
This work addresses a variable step-size formulation of the generalized- time integration scheme f...
Different from the way we have been looking in the past at developments encompassing modal type and ...
We deal with the well known and largely adopted Gear integration method that belongs to the class of...
A study on the properties of the precise time-step integration methods for the simulation of dynamic...
This paper constructs highly accurate and efficient time integration methods for the solution of tra...
The time domain-electric field integral equation (TD-EFIE) and its differentiated version are widely...
The computation accuracies of the boundary-element method (BEM) and finite-element method (FEM) in t...
The spatial discretization of the magnetic vector potential formulation of magnetoquasistatic field ...
This paper presents a set of methods for time integration of problems arising from finite element se...
The eddy current model is obtained from Maxwell’s equations by neglecting the displacement currents ...
The objective of this work is to propose effective and reliable higher order time integration scheme...
In this paper, we present an algebraic multigrid algorithm for fully coupled implicit Runge-Kutta (I...
Adaptive time stepping can significantly enhance the accuracy and the efficiency of computational me...
Adaptive time stepping can significantly enhance the accuracy and the efficiency of computational me...
Abstract. Implicit integration schemes for ODEs, such as Runge-Kutta and Runge-Kutta-Nyström method...
This work addresses a variable step-size formulation of the generalized- time integration scheme f...
Different from the way we have been looking in the past at developments encompassing modal type and ...
We deal with the well known and largely adopted Gear integration method that belongs to the class of...
A study on the properties of the precise time-step integration methods for the simulation of dynamic...