Simulating a power system with both transmission and distribution networks modeled in detail is a huge computational challenge. In this paper, we propose a Schur-complement-based domain decomposition algorithm to provide accurate, detailed dynamic simulations of the combined system. The simulation procedure is accelerated with the use of parallel programming techniques, taking advantage of the parallelization opportunities inherent in domain decomposition algorithms. The proposed algorithm is general, portable and scalable on inexpensive, shared-memory, multi-core machines. A large-scale test system is used for its performance evaluation
The Schur complement domain decomposition method is used for solution of large linear systems. The a...
peer reviewedHydro-Québec has a long interest in on-line Dynamic Security Assessment (DSA) driven by...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...
peer reviewedSimulating a power system with both transmission and distribution networks modeled in d...
Simulating a power system with both transmission and distribution networks modeled in detail is a hu...
Simulating a power system with both transmission and distribution networks modeled in detail is a hu...
As the need for faster power system dynamic simulations increases, it is essential to develop new al...
As the need for faster power system dynamic simulations increases, it is essential to develop new al...
Simulating a power system with both transmission and distribution networks modeled in detail is a hu...
Power system dynamic simulations are crucial for the operation of electric power systems as they pro...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...
peer reviewedThis paper proposes a Schur complement-based Domain Decomposition Method to accelerate ...
The power system networks in North America and Europe are the largest man-made interconnected system...
peer reviewedIn this paper, some algorithmic and computational advances are presented for power syst...
Abstract—Simulating a power system with both transmission and distribution networks modeled is a cha...
The Schur complement domain decomposition method is used for solution of large linear systems. The a...
peer reviewedHydro-Québec has a long interest in on-line Dynamic Security Assessment (DSA) driven by...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...
peer reviewedSimulating a power system with both transmission and distribution networks modeled in d...
Simulating a power system with both transmission and distribution networks modeled in detail is a hu...
Simulating a power system with both transmission and distribution networks modeled in detail is a hu...
As the need for faster power system dynamic simulations increases, it is essential to develop new al...
As the need for faster power system dynamic simulations increases, it is essential to develop new al...
Simulating a power system with both transmission and distribution networks modeled in detail is a hu...
Power system dynamic simulations are crucial for the operation of electric power systems as they pro...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...
peer reviewedThis paper proposes a Schur complement-based Domain Decomposition Method to accelerate ...
The power system networks in North America and Europe are the largest man-made interconnected system...
peer reviewedIn this paper, some algorithmic and computational advances are presented for power syst...
Abstract—Simulating a power system with both transmission and distribution networks modeled is a cha...
The Schur complement domain decomposition method is used for solution of large linear systems. The a...
peer reviewedHydro-Québec has a long interest in on-line Dynamic Security Assessment (DSA) driven by...
Dynamic simulation studies are used to analyze the behavior of power systems after a disturbance has...