Article ID: | iaor20071408 |
Country: | Germany |
Volume: | 2 |
Issue: | 1 |
Start Page Number: | 21 |
End Page Number: | 56 |
Publication Date: | Jan 2005 |
Journal: | Computational Management Science |
Authors: | Pang Jong-Shi, Fukushima Masao |
Keywords: | programming: mathematical |
The noncooperative multi-leader–follower game can be formulated as a generalized Nash equilibrium problem where each player solves a nonconvex mathematical program with equilibrium constraints. Two major deficiencies exist with such a formulation: One is that the resulting Nash equilibrium may not exist, due to the nonconvexity in each player's problem; the other is that such a nonconvex Nash game is computationally intractable. In order to obtain a viable formulation that is amenable to practical solution, we introduce a class of remedial models for the multi-leader–follower game that can be formulated as generalized Nash games with convexified strategy sets. In turn, a game of the latter kind can be formulated as a quasi-variational inequality for whose solution we develop an iterative penalty method. We establish the convergence of the method, which involves solving a sequence of penalized variational inequalities, under a set of modest assumptions. We also discuss some oligopolistic competition models in electric power markets that lead to multi-leader–follower games.