Three Duopoly Game-Theoretic Models for the Smart Grid Demand Response Management Problem

Slim Belhaiza

doi:10.3390/systems12100401

Three Duopoly Game-Theoretic Models for the Smart Grid Demand Response Management Problem

Slim Belhaiza^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Demand response management (DRM) significantly influences the prospective advancement of electricity smart grids. This paper introduces three distinct game-theoretic duopoly models for the smart grid demand response management problem. It delineates several rational assumptions regarding the model variables, functions, and parameters. The first model adopts a Cournot duopoly form, offering a unique closed-form equilibrium solution. The second model adopts a Stackelberg duopoly structure, also providing a unique closed-form equilibrium solution. Following a comparison of the economic viability of the two model equilibria and an assessment of their sensitivity to parametric changes, the paper proposes a third model with a Cartel structure and discusses its advantages over the earlier models. Finally, the paper examines how demand forecasting affects the equilibrium quantities and pricing solutions of each model.

Original language	English
Article number	401
Journal	Systems
Volume	12
Issue number	10
DOIs	https://doi.org/10.3390/systems12100401
State	Published - Oct 2024

Bibliographical note

Publisher Copyright:
© 2024 by the author.

Keywords

equilibrium
game theory
load forecasting
smart grid

ASJC Scopus subject areas

Control and Systems Engineering
Software
Modeling and Simulation
Computer Networks and Communications
Information Systems and Management

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10.3390/systems12100401

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title = "Three Duopoly Game-Theoretic Models for the Smart Grid Demand Response Management Problem",

abstract = "Demand response management (DRM) significantly influences the prospective advancement of electricity smart grids. This paper introduces three distinct game-theoretic duopoly models for the smart grid demand response management problem. It delineates several rational assumptions regarding the model variables, functions, and parameters. The first model adopts a Cournot duopoly form, offering a unique closed-form equilibrium solution. The second model adopts a Stackelberg duopoly structure, also providing a unique closed-form equilibrium solution. Following a comparison of the economic viability of the two model equilibria and an assessment of their sensitivity to parametric changes, the paper proposes a third model with a Cartel structure and discusses its advantages over the earlier models. Finally, the paper examines how demand forecasting affects the equilibrium quantities and pricing solutions of each model.",

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N2 - Demand response management (DRM) significantly influences the prospective advancement of electricity smart grids. This paper introduces three distinct game-theoretic duopoly models for the smart grid demand response management problem. It delineates several rational assumptions regarding the model variables, functions, and parameters. The first model adopts a Cournot duopoly form, offering a unique closed-form equilibrium solution. The second model adopts a Stackelberg duopoly structure, also providing a unique closed-form equilibrium solution. Following a comparison of the economic viability of the two model equilibria and an assessment of their sensitivity to parametric changes, the paper proposes a third model with a Cartel structure and discusses its advantages over the earlier models. Finally, the paper examines how demand forecasting affects the equilibrium quantities and pricing solutions of each model.

AB - Demand response management (DRM) significantly influences the prospective advancement of electricity smart grids. This paper introduces three distinct game-theoretic duopoly models for the smart grid demand response management problem. It delineates several rational assumptions regarding the model variables, functions, and parameters. The first model adopts a Cournot duopoly form, offering a unique closed-form equilibrium solution. The second model adopts a Stackelberg duopoly structure, also providing a unique closed-form equilibrium solution. Following a comparison of the economic viability of the two model equilibria and an assessment of their sensitivity to parametric changes, the paper proposes a third model with a Cartel structure and discusses its advantages over the earlier models. Finally, the paper examines how demand forecasting affects the equilibrium quantities and pricing solutions of each model.

KW - equilibrium

KW - game theory

KW - load forecasting

KW - smart grid

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DO - 10.3390/systems12100401

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AN - SCOPUS:85207673030

SN - 2079-8954

VL - 12

JO - Systems

JF - Systems

IS - 10

M1 - 401

ER -

Three Duopoly Game-Theoretic Models for the Smart Grid Demand Response Management Problem

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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