Compared to other methods of model reduction in power systems such as modal analysis or coherency based methods, singular perturbation analysis has the advantages of retaining the physical identity of state variables and requiring less preprocessing of data. In this paper, the asymptotic expansion method is applied to the nonlinear model of a single machine infinite bus system with exciter and governor representation. The computational strategies and benefits are quantified through a three machine linearized model example
This paper proposes a two-time scale simulation approach of both short-term and long-term dynamics i...
Stability of large scale power systems using direct methods has been investigated either through red...
The results are presented of applying multi-time scale analysis using the singular perturbation tech...
This paper reviews some recent results in applying singular perturbation theory to obtain simplified...
Power system stability analysis is extremely complex due to its multi-time scale nature, high dimens...
Large, sparse power system models arise naturally as dynamic models of a wide range of power system ...
Large, sparse power system models arise naturally as dynamic models of a wide range of power system ...
The singularly perturbed systems are ill-conditioned systems exhibiting slow fast phenomena with com...
Abstract With the increase in the proportion of multiple renewable energy sources, power electronics...
In this paper a theoretical framework for the incorporation of the effect of excitation limits on no...
This paper presents a simplified generator model for use in dynamic studies of electric power system...
This work analyzes power system nonlinear electromechanical oscillations (EOs). Two new tools are pr...
This paper presents a simplified generator model for use in dynamic studies of electric power system...
A singular perturbation analysis of the synchronous machine equations in the(d, q)reference frame re...
For the synchronous generator simulation and analysis and for the power system stabilizer design and...
This paper proposes a two-time scale simulation approach of both short-term and long-term dynamics i...
Stability of large scale power systems using direct methods has been investigated either through red...
The results are presented of applying multi-time scale analysis using the singular perturbation tech...
This paper reviews some recent results in applying singular perturbation theory to obtain simplified...
Power system stability analysis is extremely complex due to its multi-time scale nature, high dimens...
Large, sparse power system models arise naturally as dynamic models of a wide range of power system ...
Large, sparse power system models arise naturally as dynamic models of a wide range of power system ...
The singularly perturbed systems are ill-conditioned systems exhibiting slow fast phenomena with com...
Abstract With the increase in the proportion of multiple renewable energy sources, power electronics...
In this paper a theoretical framework for the incorporation of the effect of excitation limits on no...
This paper presents a simplified generator model for use in dynamic studies of electric power system...
This work analyzes power system nonlinear electromechanical oscillations (EOs). Two new tools are pr...
This paper presents a simplified generator model for use in dynamic studies of electric power system...
A singular perturbation analysis of the synchronous machine equations in the(d, q)reference frame re...
For the synchronous generator simulation and analysis and for the power system stabilizer design and...
This paper proposes a two-time scale simulation approach of both short-term and long-term dynamics i...
Stability of large scale power systems using direct methods has been investigated either through red...
The results are presented of applying multi-time scale analysis using the singular perturbation tech...