This article investigates contests when heterogeneous players compete to obtain a share of a prize. We prove the existence and uniqueness of the Nash equilibrium when players have general preference structures. Our results show that many of the standard conclusions obtained in the analysis of contests - such as aggregate effort increasing in the size of the prize and the dissipation ratio invariant to the size of the prize — may no longer hold under a general preference setting. We derive the key conditions on preferences, which involve the rate of change of the marginal rate of substitution between a player’s share of the prize and their effort within the contest, under which these counter-intuitive results may hold. Our approach is able t...
There can be three types of heterogeneity among players in a rent-seeking contest. First, the effect...
This paper considers n-player contests in which the size of the prize is endogenouslydetermined. In ...
In this paper we investigate how heterogeneous agents choose among tournaments with different prizes...
We study tournaments with many ex-ante asymmetric contestants, whose valuations for the prize are in...
We consider contests with many, possibly heterogeneous, players and prizes, and show that the equili...
We study tournaments with many ex-ante asymmetric contestants, whose valuations for the prize are in...
We show how symmetric equilibria emerge in general two-player contests in which skill and effort are...
We show how symmetric equilibria emerge in general two-player contests in which skill and effort are...
We construct a generalized Tullock contest under complete information where contingent upon winning ...
There can be three types of heterogeneity among players in a rent-seeking contest. First, effectiven...
We construct a generalized Tullock contest under complete information where contingent upon winning...
We develop a general framework for studying contests, including the well-known models of Tullock (19...
Contests are economic or social interactions in which two or more players expend costly resources in...
I examine players' equilibrium effort levels in two-player asymmetric contests with ratio-form conte...
We examine the equilibrium effort levels of individual players and groups in contests in which n gro...
There can be three types of heterogeneity among players in a rent-seeking contest. First, the effect...
This paper considers n-player contests in which the size of the prize is endogenouslydetermined. In ...
In this paper we investigate how heterogeneous agents choose among tournaments with different prizes...
We study tournaments with many ex-ante asymmetric contestants, whose valuations for the prize are in...
We consider contests with many, possibly heterogeneous, players and prizes, and show that the equili...
We study tournaments with many ex-ante asymmetric contestants, whose valuations for the prize are in...
We show how symmetric equilibria emerge in general two-player contests in which skill and effort are...
We show how symmetric equilibria emerge in general two-player contests in which skill and effort are...
We construct a generalized Tullock contest under complete information where contingent upon winning ...
There can be three types of heterogeneity among players in a rent-seeking contest. First, effectiven...
We construct a generalized Tullock contest under complete information where contingent upon winning...
We develop a general framework for studying contests, including the well-known models of Tullock (19...
Contests are economic or social interactions in which two or more players expend costly resources in...
I examine players' equilibrium effort levels in two-player asymmetric contests with ratio-form conte...
We examine the equilibrium effort levels of individual players and groups in contests in which n gro...
There can be three types of heterogeneity among players in a rent-seeking contest. First, the effect...
This paper considers n-player contests in which the size of the prize is endogenouslydetermined. In ...
In this paper we investigate how heterogeneous agents choose among tournaments with different prizes...