We consider a network-preserved model of power networks with proper algebraic constraints resulting from constant power loads. Both for the linear and the nonlinear differential algebraic model of the network, we derive explicit reduced models which are fully expressed in terms of ordinary differential equations. For deriving these reduced models, we introduce the "projected incidence" matrix which yields a novel decomposition of the reduced Laplacian matrix. With the help of this new matrix, we provide a complementary approach to Kron reduction, which is able to cope with constant power loads and nonlinear power flow equations
Many of today’s engineering systems have a network structure. Consider for instance power systems, w...
Precise representation of the loads dependant on voltage and frequency in standard power form is nor...
Stability of power networks is an increasingly important topic because of the high penetration of re...
We consider a network-preserved model of power networks with proper algebraic constraints resulting ...
We consider structure preserving power networks with proper algebraic constraints resulting from con...
We consider a network-preserved model of power networks with proper algebraic constraints resulting ...
In the intuitive modelling of the power network, the generators and the loads are located at differe...
We consider structure preserving power networks with proper algebraic constraints resulting from con...
This paper presents a new technique for the reduction of large power system. It is based on Jordan e...
This paper presents a method for the reduction of network models described by a system of nonlinear ...
Abstract—Consider a weighted undirected graph and its corre-sponding Laplacian matrix, possibly augm...
Virtually all power-system analysis algorithms require the solution of a network/load model. During ...
Kron reduction (KR) is a methodology for analyzing an electrical network by replacing it with a simp...
This paper considers the network structure preserving model reduction of power networks with distrib...
[[abstract]]© 2005 Springer Verlag - This paper presents a general procedure for constructing analyt...
Many of today’s engineering systems have a network structure. Consider for instance power systems, w...
Precise representation of the loads dependant on voltage and frequency in standard power form is nor...
Stability of power networks is an increasingly important topic because of the high penetration of re...
We consider a network-preserved model of power networks with proper algebraic constraints resulting ...
We consider structure preserving power networks with proper algebraic constraints resulting from con...
We consider a network-preserved model of power networks with proper algebraic constraints resulting ...
In the intuitive modelling of the power network, the generators and the loads are located at differe...
We consider structure preserving power networks with proper algebraic constraints resulting from con...
This paper presents a new technique for the reduction of large power system. It is based on Jordan e...
This paper presents a method for the reduction of network models described by a system of nonlinear ...
Abstract—Consider a weighted undirected graph and its corre-sponding Laplacian matrix, possibly augm...
Virtually all power-system analysis algorithms require the solution of a network/load model. During ...
Kron reduction (KR) is a methodology for analyzing an electrical network by replacing it with a simp...
This paper considers the network structure preserving model reduction of power networks with distrib...
[[abstract]]© 2005 Springer Verlag - This paper presents a general procedure for constructing analyt...
Many of today’s engineering systems have a network structure. Consider for instance power systems, w...
Precise representation of the loads dependant on voltage and frequency in standard power form is nor...
Stability of power networks is an increasingly important topic because of the high penetration of re...