Coupling a Power Dispatch Model with a Wardrop or Mean-Field-Game Equilibrium Model

Coupling a Power Dispatch Model with a Wardrop or Mean-Field-Game Equilibrium Model

In this paper, we propose an approach for coupling a power network dispatch model, which is part of a long-term multi-energy model, with Wardrop or Mean-Field-Game (MFG) equilibrium models that represent the demand response of a large population of small “prosumers” connected at the various nodes of...

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Veröffentlicht in:Dynamic games and applications 2021-06, Vol.11 (2), p.217-241
Hauptverfasser: Babonneau, F., Foguen, R. T., Haurie, A., Malhamé, R.
Format: Artikel
Sprache:eng
Schlagworte:
Communications Engineering
Computer Systems Organization and Communication Networks
Coupling
Dynamic Games for Smart Energy Systems
Economic Theory/Quantitative Economics/Mathematical Methods
Economics
Equilibrium
Game Theory
Management Science
Mathematics
Mathematics and Statistics
Networks
Operations Research
Optimization
Power dispatch
Robustness (mathematics)
Social and Behav. Sciences
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Beschreibung
Zusammenfassung:In this paper, we propose an approach for coupling a power network dispatch model, which is part of a long-term multi-energy model, with Wardrop or Mean-Field-Game (MFG) equilibrium models that represent the demand response of a large population of small “prosumers” connected at the various nodes of the electricity network. In a deterministic setting, the problem is akin to an optimization problem with equilibrium constraints taking the form of variational inequalities or nonlinear complementarity conditions. In a stochastic setting, the problem is formulated as a robust optimization with uncertainty sets informed by the probability distributions resulting from an MFG equilibrium solution. Preliminary numerical experimentations, using heuristics mimicking standard price adjustment techniques, are presented for both the deterministic and stochastic cases.
ISSN:2153-0785
2153-0793
DOI:10.1007/s13235-020-00357-w