DocumentCode
892320
Title
Numerical solutions to Nash-Cournot equilibria in coupled constraint electricity markets
Author
Contreras, Javier ; Klusch, Matthias ; Krawczyk, Jacek B.
Author_Institution
Escuela Tecnica Superior de Ingenicros Industriales, Univ. de Castilla - La Mancha, Ciudad Real, Spain
Volume
19
Issue
1
fYear
2004
Firstpage
195
Lastpage
206
Abstract
A numerical method based on a relaxation algorithm and the Nikaido-Isoda function is presented for the calculation of Nash-Cournot equilibria in electricity markets. Nash equilibrium is attained through a relaxation procedure applied to an objective function, the Nikaido-Isoda function, which is derived from the existing profit maximization functions calculated by the generating companies. We also show how to use the relaxation algorithm to compute, and enforce, a coupled constraint equilibrium, which occurs if regulatory, generation, and distribution (and more) restrictions are placed on the companies and entire markets. Moreover, we use the relaxation algorithm to compute players´ payoffs under several player configurations. This is needed for the solution of our game under cooperative game theory concepts, such as the bilateral Shapley value and the kernel. We show that the existence of both depends critically on demand price elasticity. The numerical method converges to a unique solution under rather specific but plausible concavity conditions. A case study from the IEEE 30-bus system, and a three-bus bilateral market example with a dc model of the transmission line constraints are presented and discussed.
Keywords
game theory; optimisation; power markets; pricing; relaxation theory; IEEE 30 bus system; Nash Cournot equilibria; Nikoida-Isoda function; bilateral Shapley value; cooperative game theory; electricity markets; numerical solutions; price elasticity; profit maximization function; relaxation algorithm; transmission line constraints; Couplings; Electricity supply industry; Game theory; Kernel; Minimization methods; Nash equilibrium; Power industry; Power markets; Power transmission lines; Transmission line theory;
fLanguage
English
Journal_Title
Power Systems, IEEE Transactions on
Publisher
ieee
ISSN
0885-8950
Type
jour
DOI
10.1109/TPWRS.2003.820692
Filename
1266569
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