This paper considers the network structure preserving model reduction of power networks with distributed controllers. The studied system and controller are modeled as second-order and first-order ordinary differential equations, which are coupled to a closed-loop model for analyzing the dissimilarities of the power units. By transfer functions, we characterize the behavior of each node (generator or load) in the power network and define a novel notion of dissimilarity between two nodes by the ℋ2-norm of the transfer function deviation. Then, the reduction methodology is developed based on separately clustering the generators and loads according to their behavior dissimilarities. The characteristic matrix of the resulting clustering is adopt...
We consider structure preserving power networks with proper algebraic constraints resulting from con...
In the intuitive modelling of the power network, the generators and the loads are located at differe...
Stability of power networks is an increasingly important topic because of the high penetration of re...
This paper considers the network structure preserving model reduction of power networks with distrib...
Many of today’s engineering systems have a network structure. Consider for instance power systems, w...
We consider structure preserving power networks with proper algebraic constraints resulting from con...
Part 2: Control of Distributed Parameter SystemsInternational audienceWe propose a model order reduc...
This paper demonstrates how structured model reduction can be used to reduce the order of power syst...
In modeling of distributed systems with distributed sources large networks with RLC-elements and ind...
The widespread integration of distributed energy resources (DERs) in the future power system is like...
Abstract—The analysis and simulation of effects induced by intercon-nects become increasingly import...
This paper proposes a general framework for structure-preserving model reduction of a second-order n...
We consider structure preserving power networks with proper algebraic constraints resulting from con...
In the intuitive modelling of the power network, the generators and the loads are located at differe...
Stability of power networks is an increasingly important topic because of the high penetration of re...
This paper considers the network structure preserving model reduction of power networks with distrib...
Many of today’s engineering systems have a network structure. Consider for instance power systems, w...
We consider structure preserving power networks with proper algebraic constraints resulting from con...
Part 2: Control of Distributed Parameter SystemsInternational audienceWe propose a model order reduc...
This paper demonstrates how structured model reduction can be used to reduce the order of power syst...
In modeling of distributed systems with distributed sources large networks with RLC-elements and ind...
The widespread integration of distributed energy resources (DERs) in the future power system is like...
Abstract—The analysis and simulation of effects induced by intercon-nects become increasingly import...
This paper proposes a general framework for structure-preserving model reduction of a second-order n...
We consider structure preserving power networks with proper algebraic constraints resulting from con...
In the intuitive modelling of the power network, the generators and the loads are located at differe...
Stability of power networks is an increasingly important topic because of the high penetration of re...