This preview has intentionally blurred sections. Sign up to view the full version.
View Full Document
Unformatted text preview: Lecture IV: Nash Equilibrium Markus M. M¨obius March 3, 2003 Readings for this class: Osborne and Rubinstein, Chapter 2.1 2.3; FT has a good section on the connection to IDSDS. Iterated dominance is an attractive solution concept because it only as sumes that all players are rational and that it is common knowledge that every player is rational (although this might be too strong an assumption as our experiments showed). It is essentially a constructive concept  the idea is to restrict my assumptions about the strategy choices of other players by eliminating strategies one by one. For a large class of games iterated deletion of strictly dominated strategies significantly reduces the strategy set. However, only a small class of games are solvable in this way (such as Counot competition with linear demand curve). Today we introduce the most important concept for solving games: Nash equilibrium. We will later show that all finite games have at least one Nash equilibrium, and that the set of Nash equilibria is a subset of the strategy pro files which survive iterated deletion. In that sense, Nash equilibrium makes stronger predictions than iterated deletion would but it is not excessively strong in the sense that it does not rule out any equilibrium play for some games. Definition 1 A strategy profile s * is a pure strategy Nash equilibrium of G if and only if u i ( s * i ,s * i ) ≥ u i ( s i ,s * i ) for all players i and all s i ∈ S i . Definition 2 A pure strategy NE is strict if u i ( s * i ,s * i ) > u i ( s i ,s * i ) 1 A Nash equilibrium captures the idea of equilibrium. Both players know what strategy the other player is going to choose, and no player has an incentive to deviate from equilibrium play because her strategy is a best response to her belief about the other player’s strategy.response to her belief about the other player’s strategy....
View
Full
Document
This note was uploaded on 05/19/2010 for the course DFDAS 220 taught by Professor Ding during the Fall '10 term at Academy of Art University.
 Fall '10
 ding

Click to edit the document details