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Probabilistic Voting in the Spatial Model of Elections: The Theory of Office-motivated Candidates

In: Social Choice and Strategic Decisions

Author

Listed:
  • Jeffrey S. Banks

    (California Institute of Technology)

  • John Duggan

    (University of Rochester)

Abstract

Summary We unify and extend much of the literature on probabilistic voting in two-candidate elections. We give existence results for mixed and pure strategy equilibria of the electoral game. We prove general results on optimality of pure strategy equilibria vis-a-vis a weighted utilitarian social welfare function, and we derive the well-known “mean voter” result as a special case. We establish broad conditions under which pure strategy equilibria exhibit “policy coincidence,” in the sense that candidates pick identical platforms. We establish the robustness of equilibria with respect to variations in demographic and informational parameters. We show that mixed and pure strategy equilibria of the game must be close to being in the majority rule core when the core is close to non-empty and voters are close to deterministic. This controverts the notion that the median (in a one-dimensional model) is a mere “artifact.” Using an equivalence between a class of models including the binary Luce model and a class including additive utility shock models, we then derive a general result on optimality vis-a-vis the Nash social welfare function.

Suggested Citation

  • Jeffrey S. Banks & John Duggan, 2005. "Probabilistic Voting in the Spatial Model of Elections: The Theory of Office-motivated Candidates," Studies in Choice and Welfare, in: David Austen-Smith & John Duggan (ed.), Social Choice and Strategic Decisions, pages 15-56, Springer.
    • Handle: RePEc:spr:stcchp:978-3-540-27295-3_2
    DOI: 10.1007/3-540-27295-X_2
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