Abstract
Generalized Nash games with shared constraints represent an extension of Nash games in which strategy sets are coupled across players through a shared or common constraint. The equilibrium conditions of such a game can be compactly stated as a quasi-variational inequality (QVI), an extension of the variational inequality (VI). In (Eur. J. Oper. Res. 54(1):81–94, 1991), Harker proved that for any QVI, under certain conditions, a solution to an appropriately defined VI solves the QVI. This is a particularly important result, given that VIs are generally far more tractable than QVIs. However Facchinei et al. (Oper. Res. Lett. 35(2):159–164, 2007) suggested that the hypotheses of this result are difficult to satisfy in practice for QVIs arising from generalized Nash games with shared constraints. We investigate the applicability of Harker’s result for these games with the aim of formally establishing its reach. Specifically, we show that if Harker’s result is applied in a natural manner, its hypotheses are impossible to satisfy in most settings, thereby supporting the observations of Facchinei et al. But we also show that an indirect application of the result extends the realm of applicability of Harker’s result to all shared-constraint games. In particular, this avenue allows us to recover as a special case of Harker’s result, a result provided by Facchinei et al. (Oper. Res. Lett. 35(2):159–164, 2007), in which it is shown that a suitably defined VI provides a solution to the QVI of a shared-constraint game.
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Notes
Nontrivial shared-constraint games allude to games where the set defining the shared constraint is not Cartesian or rectangular.
Arrow and Debreu termed these games as “abstract economies.”
Theorem 3.1 is a slight modification Harker’s Theorem 3 in [1]. Harker’s version also requires that the set ‘A’ in Theorem 3.1 to be compact, whereas we have required only closedness on A. Compactness is imposed presumably in keeping with the assumption prevailing in [1] that each player has compact strategy sets. It is trivial to check that the result is valid even under mere closedness of A.
References
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Acknowledgements
The authors would like to acknowledge the support of NSF awards CCF-0728863 and DOE DE-SC0003879.
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This work was done while Kulkarni was at the latter department.
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Kulkarni, A.A., Shanbhag, U.V. Revisiting Generalized Nash Games and Variational Inequalities. J Optim Theory Appl 154, 175–186 (2012). https://doi.org/10.1007/s10957-011-9981-5
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DOI: https://doi.org/10.1007/s10957-011-9981-5