AC DC microgrid based on game theory
Energy management of hybrid AC/DC microgrid considering incentive‐based
Hybrid AC–DC microgrids provide a solution, seamlessly integrating renewables while reducing energy losses and improving power grid reliability. Introducing a Stackelberg
Energy management and operation modelling of hybrid AC–DC microgrid
Hybrid AC–DC microgrid is introduced as the future distribution network to utilise both benefits of alternative and direct currents. In such hybrid microgrid, AC and DC loads,
A Game-Theoretic Approach of Optimized Operation
To maximize the benefits of microgrid clusters, a general model and analysis method for studying the optimized operation of AC/DC microgrid clusters using non-cooperative games is proposed. This paper first
A Game Theory-Based Bargaining Model between Electric Vehicles
This paper proposes a game-based bargaining model for trading between EVs and the hybrid AC/DC microgrid. In this model, EVs act as followers and aim to find the optimal charging and
Research on Capacity Optimization Configuration of Hybrid AC/DC
Download Citation | On Mar 26, 2021, Hao Gao and others published Research on Capacity Optimization Configuration of Hybrid AC/DC Microgrid Based on Wind, Solar and Storage |
A multi‐objective optimization for planning of networked microgrid
a networked microgrid based on P2P energy trading scheme. The networked architecture is designed via a cooperative type of game theory technique to get the optimum sizes of the
A Multi-objective Optimization for Planning of Networked Microgrid
A cooperative game theory technique based on a particle swarm optimization algorithm is used to model the networked microgrid, and to find the suitable sizes of the players that simultaneously
Figure 3 from A Game Theory-Based Bargaining
DOI: 10.1109/SPIES55999.2022.10082513 Corpus ID: 257939846; A Game Theory-Based Bargaining Model between Electric Vehicles and the Hybrid AC/DC Microgrid @article{Ai2022AGT, title={A Game Theory-Based Bargaining
Comparative study on electricity transactions between multi-microgrid
DOI: 10.1016/j.apenergy.2024.123459 Corpus ID: 269856825; Comparative study on electricity transactions between multi-microgrid: A hybrid game theory-based peer-to-peer trading in
How can game theory be used to model microgrid participant
Game theory can be used to model microgrid participant behavior by considering the competitive electricity market environment and the objective of profit maximization for different players.
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