Demand Response Management in Smart Grid Networks: a Two-Stage Game-Theoretic Learning-Based Approach

In this paper, the combined problem of power company selection and demand response management (DRM) in a smart grid network consisting of multiple power companies and multiple customers is studied via adopting a reinforcement learning and game-theoretic technique. Each power company is characterized...

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Bibliographic Details
Published in:Mobile networks and applications 2021-04, Vol.26 (2), p.548-561
Main Authors: Apostolopoulos, Pavlos Athanasios, Tsiropoulou, Eirini Eleni, Papavassiliou, Symeon
Format: Article
Language:English
Subjects:
Communications Engineering
Computer Communication Networks
Computer simulation
Corporate learning
Customers
Demand side management
Electric power demand
Electrical Engineering
Electricity consumption
Electricity pricing
Energy management
Engineering
Game theory
IT in Business
Iterative algorithms
Iterative methods
Machine learning
Management
Networks
Optimization
Performance evaluation
Power consumption
Smart grid
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Summary:In this paper, the combined problem of power company selection and demand response management (DRM) in a smart grid network consisting of multiple power companies and multiple customers is studied via adopting a reinforcement learning and game-theoretic technique. Each power company is characterized by its reputation and competitiveness. The customers, acting as learning automata select the most appropriate power company to be served, in terms of price and electricity needs’ fulfillment, via a reinforcement learning based mechanism. Given customers’ power company selection, the DRM problem is formulated as a two-stage game-theoretic optimization framework. At the first stage the optimal customers’ electricity consumption is determined and at the second stage the optimal power companies’ pricing is obtained. The output of the DRM problem feeds the learning system to build knowledge and to conclude to the optimal power company selection. To realize the aforementioned framework a two-stage Power Company learning selection and Demand Response Management (PC-DRM) iterative algorithm is introduced. The performance evaluation of the proposed approach is achieved via modeling and simulation and its superiority against other approaches is illustrated.
ISSN:1383-469X
1572-8153
DOI:10.1007/s11036-018-1124-x