%0 Journal Article %1 doerfler10 %A Dörfler, Florian %A Bullo, Francesco %D 2010 %J FAC Proceedings Volumes %K effective.resistance kron laplacian network resistor schur %N 19 %P 197--202 %R 10.3182/20100913-2-FR-4014.00048 %T Synchronization of Power Networks: Network Reduction and Effective Resistance %V 43 %X Abstract In transient stability studies in power networks two types of mathematical models are commonly used – the differential-algebraic structure-preserving model and the reduced dynamic model of interconnected swing equations. This paper analyzes the reduction process relating the two power network models. The reduced admittance matrix is obtained by a Schur complement of the topological network admittance matrix with respect to its bus nodes. We provide a detailed spectral, algebraic, and graph-theoretic analysis of this network reduction process, termed Kron reduction, with particular focus on the effective resistance. As an application of this analysis, we are able to state concise conditions relating synchronization in the considered structure-preserving power network model directly to the state, parameters, and topology of the underlying network. In particular, we provide a spectral condition based on the algebraic connectivity of the network and a second condition based on the effective resistance among generators.

@article{doerfler10, abstract = {Abstract In transient stability studies in power networks two types of mathematical models are commonly used – the differential-algebraic structure-preserving model and the reduced dynamic model of interconnected swing equations. This paper analyzes the reduction process relating the two power network models. The reduced admittance matrix is obtained by a Schur complement of the topological network admittance matrix with respect to its bus nodes. We provide a detailed spectral, algebraic, and graph-theoretic analysis of this network reduction process, termed Kron reduction, with particular focus on the effective resistance. As an application of this analysis, we are able to state concise conditions relating synchronization in the considered structure-preserving power network model directly to the state, parameters, and topology of the underlying network. In particular, we provide a spectral condition based on the algebraic connectivity of the network and a second condition based on the effective resistance among generators. }, added-at = {2016-05-20T11:19:36.000+0200}, author = {D\"{o}rfler, Florian and Bullo, Francesco}, biburl = {https://www.bibsonomy.org/bibtex/245c5600a13f18aca5c975960c1b97af6/ytyoun}, doi = {10.3182/20100913-2-FR-4014.00048}, interhash = {77a2be2f33df84415ba0f012bf5973c7}, intrahash = {45c5600a13f18aca5c975960c1b97af6}, issn = {1474-6670}, journal = {{FAC} Proceedings Volumes }, keywords = {effective.resistance kron laplacian network resistor schur}, note = {2nd \{IFAC\} Workshop on Distributed Estimation and Control in Networked Systems }, number = 19, pages = {197--202}, timestamp = {2016-05-20T11:19:36.000+0200}, title = {Synchronization of Power Networks: Network Reduction and Effective Resistance }, volume = 43, year = 2010 }