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Clustering and supervisory voltage control in power systems
Mayank Baranwal
,
Srinivasa Salapaka
Mechanical Science and Engineering
Industrial and Enterprise Systems Engineering
Coordinated Science Lab
Center for South Asian and Middle Eastern Studies
Research output
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Contribution to journal
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Article
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peer-review
Overview
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Keyphrases
Bus Voltage
33%
Clustering Algorithm
33%
Clustering Process
33%
Computational Complexity
33%
Controlled Islanding
33%
Coupled Zone
66%
Decentralized Control Strategy
33%
Directed Graph
33%
Edge Weight
33%
Effective Management
33%
Electrical Influences
33%
Electrical Power Transmission
33%
Flexible Management
33%
Fully Connected
33%
Graph Clustering
33%
IEEE Test System
33%
Interconnected Power Network
33%
Islanding
33%
Jacobian
33%
Large Power
33%
Loose Coupling
33%
Node Weight
33%
Power Flow Equation
33%
Power Network
66%
Power Perturbation
33%
Power System
100%
Power Topologies
33%
Power Transmission System
66%
Reactive Power
33%
Rule-based
33%
Secondary Level
33%
Similarity Measure
33%
Voltage Control
100%
Voltage Fluctuation
33%
Weakly Coupled
66%
Weighted Directed Graph
33%
Wide-Area Blackouts
33%
Engineering
Bus Voltage
25%
Clustering Algorithm
25%
Computational Complexity
25%
Control Strategy
25%
Decentralized Control
25%
Electrical Power
25%
Flow Equation
25%
Jacobian matrix
25%
Nodes
25%
Power Engineering
100%
Power Flow
25%
Power Transmission
50%
Reactive Power
25%
Regional Level
25%
Secondary Level
25%
Similarities
100%
Subnetwork
25%
Test System
25%
Voltage Fluctuation
25%