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ATAL
2006
Springer

A technique for reducing normal-form games to compute a Nash equilibrium

14 years 2 months ago
A technique for reducing normal-form games to compute a Nash equilibrium
We present a technique for reducing a normal-form (aka. (bi)matrix) game, O, to a smaller normal-form game, R, for the purpose of computing a Nash equilibrium. This is done by computing a Nash equilibrium for a subgame, G, of O for which a certain condition holds. We also show that such a subgame G on which to apply the technique can be found in polynomial time (if it exists), by showing that the condition that G needs to satisfy can be modeled as a Horn satisfiability problem. We show that the technique does not extend to computing Pareto-optimal or welfare-maximizing equilibria. Finally, we present a class of games, which we call ALAGIU (Any Lower Action Gives Identical Utility) games, for which recursive application of (special cases of) the technique is sufficient for finding a Nash equilibrium in linear time.
Vincent Conitzer, Tuomas Sandholm
Added 20 Aug 2010
Updated 20 Aug 2010
Type Conference
Year 2006
Where ATAL
Authors Vincent Conitzer, Tuomas Sandholm
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