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Optimal power flow application issues in the Pool paradigm
George Gross
, Ettore Bompard
Electrical and Computer Engineering
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peer-review
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Keyphrases
Optimal Power Flow
100%
Numerical Results
14%
Systems-based
14%
Wide-ranging
14%
Decision Authority
14%
Vertically Integrated
14%
Inherent Characteristics
14%
Supply Side
14%
Demand Side
14%
Competitive Environment
14%
Economic Impact
14%
Price Volatility
14%
Optimal Allocation
14%
Bus Network
14%
Nodal Pricing
14%
Market Players
14%
Competitive Electricity Market
14%
Competitive Market
14%
Decision Tool
14%
Market Efficiency
14%
Decentralized Decision-making
14%
Competing Suppliers
14%
Integrated Utilities
14%
Financial Well-being
14%
Power Flow Formulation
14%
IEEE 30 Bus System
14%
Economics, Econometrics and Finance
Price Volatility
100%
Electricity Market
100%
Competitive Market
100%
Efficient Market Hypothesis
100%
Engineering
Optimal Power Flow
100%
Metrics
16%
Flatness
16%
Market Player
16%
Supply Side
16%
Demand Side
16%
Optimal Allocation
16%
Inherent Characteristic
16%
Computer Science
optimal power
100%
Decision-Making
42%
Optimal Allocation
14%
Bus Network
14%
Competitive Environment
14%
Decision Making Tool
14%