In this paper, the multirate method is introduced to analyse power system behavior for systems with widely varying time constants. Estimates for computational speed-up are derived based on a linear system approach. The method is applied to a small power system example and the results, both in terms of accuracy and computation time, are compared to traditional simulation method
The simultaneous implicit approach proposed by H.W. Dommel and N. Sato (1972), has become the state-...
This paper describes initial investigations towards arriving at a most suitable algorithm for real t...
This dissertation investigates two possible directions of achieving faster-than-real-time simulation...
In this paper, the multirate method is introduced to analyze power system behavior including linear ...
In this paper, the multirate method is applied to the problem of simulating the dynamics of a power ...
Power system transient stability studies are complex and can take a substantial amount of time to si...
An application of the multirate method to differential and algebraic equations (DAEs) is discussed i...
The time evolution of power systems is modeled by systems of differential and algebraic equations (D...
This efficient application of any numerical integration method depends on accurate estimation of the...
Time-domain simlulation plays a large part in the design and analysis of power systems. Given the ex...
This dissertation firstly presents beneficial attributes of Voltage Source Converter-based DC (VSC-H...
With wide applications of power electronic devices in modern power systems, simulation using traditi...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...
International audienceThis paper introduces an original approach of the modeling and simulation of m...
The simultaneous implicit approach proposed by H.W. Dommel and N. Sato (1972), has become the state-...
This paper describes initial investigations towards arriving at a most suitable algorithm for real t...
This dissertation investigates two possible directions of achieving faster-than-real-time simulation...
In this paper, the multirate method is introduced to analyze power system behavior including linear ...
In this paper, the multirate method is applied to the problem of simulating the dynamics of a power ...
Power system transient stability studies are complex and can take a substantial amount of time to si...
An application of the multirate method to differential and algebraic equations (DAEs) is discussed i...
The time evolution of power systems is modeled by systems of differential and algebraic equations (D...
This efficient application of any numerical integration method depends on accurate estimation of the...
Time-domain simlulation plays a large part in the design and analysis of power systems. Given the ex...
This dissertation firstly presents beneficial attributes of Voltage Source Converter-based DC (VSC-H...
With wide applications of power electronic devices in modern power systems, simulation using traditi...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...
International audienceThis paper introduces an original approach of the modeling and simulation of m...
The simultaneous implicit approach proposed by H.W. Dommel and N. Sato (1972), has become the state-...
This paper describes initial investigations towards arriving at a most suitable algorithm for real t...
This dissertation investigates two possible directions of achieving faster-than-real-time simulation...