Abstract

This paper extends a probabilistic voting model with a multidimensional policy space, allowing candidates to have different prior probability distributions of the distribution of voters’ ideal policies. In this model, we show that a platform pair is a Nash equilibrium if and only if both candidates choose a common generalized median of expected ideal policies. Thus, the existence of a Nash equilibrium requires not only that each candidate’s belief have an expected generalized median, which is already a knife-edge condition, but also that the two medians coincide. We also study limits of ϵ-equilibria of Radner (1980) as ϵ ! 0, which we call “limit equilibria.” Limit equilibria are policy pairs that approximate choices by the candidates who almost perfectly optimize. We show that a policy pair is a limit equilibrium if and only if both candidates choose the same policy around which they form “opposite expectations” in a certain sense. For a limit equilibrium to exist (equivalently, for ϵ-equilibria to exist for all ϵ > 0), it is sufficient, though not necessary, that either candidate has an expected generalized median.

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