Game theory techniques for balancing active power in a low-voltage microgrid
Keywords:
game theory, microgrid, demand side managementAbstract
The article discusses the problem of developing a concept of fully distributed Demand Side Management in a low-voltage microgrid, using an algorithm based on game theory. The following solution can be used as a primary method to maintain the balance of active power and as a backup system in a case of switching the microgrid to isolated mode, and also in Smart Power Grid in a situation where there is a loss of communication between the controllers.References
Amini, S., 2015, Dynamic Load Altering Attacks in Smart Grid, Innovative Smart Grid Technologies Conference (ISGT), IEEE Power & Energy Society.
[2] Gellings, C., 2011, Estimating the Costs and Benefits of the Smart Grid, Electric Power Research Institute USA.
[3] Hurwicz, L., 1951, Optimality Criteria for Decision Making under Ignorance, Statistics, no. 370.
[4] Mindykowski, J., 2004, Dlaczego problem jakości energii elektrycznej w systemach okrętowych zasługuje na szczególną uwagę? „Przegląd Elektrotechniczny”, nr 6.
[5] Parol, M., 2013, Mikrosieci niskiego napięcia, Oficyna Wydawnicza Politechniki Warszawskiej, Warszawa.
[6] Straffin, P.D., 2001, Teoria gier, Wydawnictwo Naukowe SCHOLAR, Warszawa.
[7] Wald, A., Wofowitz, J., 1951, Two Methods of Randomization in Statistics and Theory of Games, Annals of Mathematics, vol. 53, s. 581–586.
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