This efficient application of any numerical integration method depends on accurate estimation of the local truncation error to govern step size control. In this paper, the local truncation error of the multirate method using the forward Euler integration is derived leading to the calculation of the optimal step ratio. The techniques of applying multirate method in power systems are discussed. By implementing the multirate method in a practical power system example, the multirate strategies are proved to be efficient compared with traditional simulation methods
The (nonlinear) transient analysis of electrical circuit models plays an important role in circuit d...
For large systems of ordinary differential equations (ODEs), some components may show a more active ...
An efficient approach for the numerical integration of a European power system network model is desc...
Power system transient stability studies are complex and can take a substantial amount of time to si...
In this paper, the multirate method is introduced to analyze power system behavior including linear ...
In this paper, the multirate method is introduced to analyse power system behavior for systems with ...
In order to reduce the online calculations for power system simulations of transient stability, and ...
In this paper, the multirate method is applied to the problem of simulating the dynamics of a power ...
This dissertation firstly presents beneficial attributes of Voltage Source Converter-based DC (VSC-H...
Simulation of large physical systems often leads to initial value problems in which some of the solu...
The time evolution of power systems is modeled by systems of differential and algebraic equations (D...
An application of the multirate method to differential and algebraic equations (DAEs) is discussed i...
Transient analysis is an important circuit simulation technique. The circuit model, which is a syste...
The "General Compound" multirate methods are attractive integration methods for the transient analys...
The (nonlinear) transient analysis of electrical circuit models plays an important role in circuit d...
For large systems of ordinary differential equations (ODEs), some components may show a more active ...
An efficient approach for the numerical integration of a European power system network model is desc...
Power system transient stability studies are complex and can take a substantial amount of time to si...
In this paper, the multirate method is introduced to analyze power system behavior including linear ...
In this paper, the multirate method is introduced to analyse power system behavior for systems with ...
In order to reduce the online calculations for power system simulations of transient stability, and ...
In this paper, the multirate method is applied to the problem of simulating the dynamics of a power ...
This dissertation firstly presents beneficial attributes of Voltage Source Converter-based DC (VSC-H...
Simulation of large physical systems often leads to initial value problems in which some of the solu...
The time evolution of power systems is modeled by systems of differential and algebraic equations (D...
An application of the multirate method to differential and algebraic equations (DAEs) is discussed i...
Transient analysis is an important circuit simulation technique. The circuit model, which is a syste...
The "General Compound" multirate methods are attractive integration methods for the transient analys...
The (nonlinear) transient analysis of electrical circuit models plays an important role in circuit d...
For large systems of ordinary differential equations (ODEs), some components may show a more active ...
An efficient approach for the numerical integration of a European power system network model is desc...