2020
DOI: 10.48550/arxiv.2007.07009
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Generalized Contingency Analysis Based on Graph Theory and Line Outage Distribution Factor

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Cited by 2 publications
(14 citation statements)
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“…With the N-1 Substation contingency, all the optimized networks are more reliable with fewer violations and unsolved situations. With the critical contingencies from [44,45], all the optimized networks are found to be more reliable than in their original form. ACTIVSg200-200-OPF has the best performance out of all the optimized network.…”
Section: Network Reliability Comparisonmentioning
confidence: 99%
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“…With the N-1 Substation contingency, all the optimized networks are more reliable with fewer violations and unsolved situations. With the critical contingencies from [44,45], all the optimized networks are found to be more reliable than in their original form. ACTIVSg200-200-OPF has the best performance out of all the optimized network.…”
Section: Network Reliability Comparisonmentioning
confidence: 99%
“…The loss of one substation can catastrophically impact the entire system, providing a good validation of the redesigned system's ability to absorb large disturbances. Additionally, Narimani et al and Huang et al have utilized Line Outage Distribution Factors (LODFs) and Group Betweenness Centrality (GBC) to successfully identify sets of critical elements in synthetic grids, whose out of service can cause the system under stress [44,45] . All the contingency analyses investigated here are performed without remedial actions.…”
Section: Network Reliability Comparisonmentioning
confidence: 99%
“…None of the above studies consider the impact of component loss in identifying critical components. Our previous work [14] applies Line Outage Distribution Factors (LODFs) [15] and betweenness centrality metrics to identify multiple critical branches in electric power grids. In this work, we improve upon the approach in [14] to search in a wider area in the corresponding graph of the electric power grid, which enables the method to evaluate coupled critical branches that may be far away from each other.…”
Section: Introductionmentioning
confidence: 99%
“…Our previous work [14] applies Line Outage Distribution Factors (LODFs) [15] and betweenness centrality metrics to identify multiple critical branches in electric power grids. In this work, we improve upon the approach in [14] to search in a wider area in the corresponding graph of the electric power grid, which enables the method to evaluate coupled critical branches that may be far away from each other. These geographically distributed coupled elements may be missed in the previous approach, and they are important to identify.…”
Section: Introductionmentioning
confidence: 99%
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