A game-theoretic economic operation of residential distribution system with high participation of distributed electricity prosumers

[1]  H. Nikaidô,et al.  Note on non-cooperative convex game , 1955 .

[2]  J. Aubin Mathematical methods of game and economic theory , 1979 .

[3]  Tharwat Fawzi,et al.  New Approach for the Application of Shunt Capacitors to the Primary Distribution Feeders , 1983, IEEE Transactions on Power Apparatus and Systems.

[4]  L. Shapley,et al.  The Shapley Value , 1994 .

[5]  R. Rubinstein,et al.  On relaxation algorithms in computation of noncooperative equilibria , 1994, IEEE Trans. Autom. Control..

[6]  Stan Uryasev,et al.  Relaxation algorithms to find Nash equilibria with economic applications , 2000 .

[7]  J. Krawczyk,et al.  Numerical solutions to Nash-Cournot equilibria in coupled constraint electricity markets , 2004, IEEE Transactions on Power Systems.

[8]  M.A. Matos,et al.  Economic Analysis of Microgrids Including Reliability Aspects , 2006, 2006 International Conference on Probabilistic Methods Applied to Power Systems.

[9]  P.T. Krein,et al.  Game-Theoretic Control of Small-Scale Power Systems , 2009, IEEE Transactions on Power Delivery.

[10]  Vahid Vahidinasab,et al.  Multiobjective environmental/techno-economic approach for strategic bidding in energy markets , 2009 .

[11]  Qiong Wu,et al.  Multi-objective optimization for the operation of distributed energy systems considering economic and environmental aspects , 2010 .

[12]  A Q Huang,et al.  The Future Renewable Electric Energy Delivery and Management (FREEDM) System: The Energy Internet , 2011, Proceedings of the IEEE.

[13]  Walid Saad,et al.  Coalitional Game Theory for Cooperative Micro-Grid Distribution Networks , 2011, 2011 IEEE International Conference on Communications Workshops (ICC).

[14]  Walid Saad,et al.  Game-Theoretic Methods for the Smart Grid: An Overview of Microgrid Systems, Demand-Side Management, and Smart Grid Communications , 2012, IEEE Signal Processing Magazine.

[15]  Daniel M. Kammen,et al.  The role of large-scale energy storage design and dispatch in the power grid: A study of very high grid penetration of variable renewable resources , 2014 .

[16]  A. Huang,et al.  A game theoretic framework for a next-generation retail electricity market with high penetration of distributed residential electricity suppliers , 2014 .

[17]  Wencong Su,et al.  The Role of Customers in the U.S. Electricity Market: Past, Present and Future , 2014 .

[18]  Mohammad Shahidehpour,et al.  Sustainable resource planning in energy markets , 2014 .

[19]  Jiming Chen,et al.  Residential Energy Consumption Scheduling: A Coupled-Constraint Game Approach , 2014, IEEE Transactions on Smart Grid.

[20]  Patrick Lauenburg,et al.  Smart district heating networks – A simulation study of prosumers’ impact on technical parameters in distribution networks , 2014 .

[21]  Yu Yan,et al.  Game-theory-based electricity market clearing mechanisms for an open and transactive distribution grid , 2015, 2015 IEEE Power & Energy Society General Meeting.

[22]  Hongxing Yang,et al.  Development of hybrid battery-supercapacitor energy storage for remote area renewable energy systems , 2015 .