Algorithms for fast and superfast solvers of large systems of linear algebraic equations, used in solving mathematical problems of electric power industry, are proposed. These algorithms are constructed based on a novel method of multistep decomposition of a multidimensional linear dynamic system. Examples of the analytical synthesis of iterative solvers for matrices of the general form and for large numerical systems of linear algebraic equations are presented
This paper illustrates the construction of a new class of iterative solvers for power flow calculati...
Power flow calculations for systems with a large number of buses, e.g. grids with multiple voltage l...
Based on a hierarchical modular modeling the large nonlinear systems of differential algebraic equat...
Algorithms for fast and superfast solvers of large systems of linear algebraic equations, used in so...
This paper illustrates the construction of a new class of iterative solvers for power flow calculati...
The solution of large sparse linear systems forms the core of power system computations whether it i...
The power flow problem is generally solved by the Newton-Raphson method with a sparse direct solver ...
The time domain solution of power system models is generally done via the simultaneous implicit meth...
To meet the future needs of the electric power system, improvements need to be made in the areas of ...
Current and future developments in the power system industry demand fast power flow solvers for larg...
The final publication is available at Springer via http://dx.doi.org/10.1007/s11831-017-9223-6The po...
New, fast and reliable algorithms for solving load-flow problems are presented in this thesis. Each ...
The simultaneous implicit approach proposed in [1] has become the state-of-the-art for transient sta...
In this paper, iterative solver techniques belonging to the family of conjugate-gradient methods for...
Abstract-This paper proposes the application of unsymmetric multifrontal method to solve the differe...
This paper illustrates the construction of a new class of iterative solvers for power flow calculati...
Power flow calculations for systems with a large number of buses, e.g. grids with multiple voltage l...
Based on a hierarchical modular modeling the large nonlinear systems of differential algebraic equat...
Algorithms for fast and superfast solvers of large systems of linear algebraic equations, used in so...
This paper illustrates the construction of a new class of iterative solvers for power flow calculati...
The solution of large sparse linear systems forms the core of power system computations whether it i...
The power flow problem is generally solved by the Newton-Raphson method with a sparse direct solver ...
The time domain solution of power system models is generally done via the simultaneous implicit meth...
To meet the future needs of the electric power system, improvements need to be made in the areas of ...
Current and future developments in the power system industry demand fast power flow solvers for larg...
The final publication is available at Springer via http://dx.doi.org/10.1007/s11831-017-9223-6The po...
New, fast and reliable algorithms for solving load-flow problems are presented in this thesis. Each ...
The simultaneous implicit approach proposed in [1] has become the state-of-the-art for transient sta...
In this paper, iterative solver techniques belonging to the family of conjugate-gradient methods for...
Abstract-This paper proposes the application of unsymmetric multifrontal method to solve the differe...
This paper illustrates the construction of a new class of iterative solvers for power flow calculati...
Power flow calculations for systems with a large number of buses, e.g. grids with multiple voltage l...
Based on a hierarchical modular modeling the large nonlinear systems of differential algebraic equat...