I examine players' equilibrium effort levels in two-player asymmetric contests with ratio-form contest success functions. I first characterize the Nash equilibrium of the simultaneous-move game. I show that the equilibrium effort ratio is equal to the valuation ratio, and that the prize dissipation ratios for the players are the same. I also show that the prize dissipation ratio for each player is less than or equal to the minimum of the players' probabilities of winning at the Nash equilibrium and thus never exceeds a half. Then I examine how the equilibrium effort ratio, the prize dissipation ratios, and the players' equilibrium effort levels respond when the players' valuations for the prize or their abilities change. (JEL D72, C72) Copy...
We study tournaments with many ex-ante asymmetric contestants, whose valuations for the prize are in...
A market share attraction model of competitive effort allocation by two firms is formulated as a con...
In this paper, we present a contest success function (CSF), which is homogeneous of degree zero and ...
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...
In imperfectly discriminating contests with symmetric valuations, equilibrium payoffs are positive s...
This thesis presents an analysis on a class of asymmetric imperfectly discrim- inating multi-prize c...
We investigate the pure-strategy Nash equilibria of asymmetric, winner-take-all, imperfectly discrim...
We investigate how individuals react to different types of asymmetries in experimental two-player Tu...
We explore the equilibrium properties of two types of “difference-form” persuasion contest functions...
Under standard assumptions about players’ cost functions, we show that a Tullock contest with asymme...
This paper considers n-player contests in which the size of the prize is endogenouslydetermined. In ...
In imperfectly discriminating contests with symmetric valuations, equilibrium payoffs are positive s...
This article investigates contests when heterogeneous players compete to obtain a share of a prize. ...
Copyright © 2013 Kyung Hwan Baik. This is an open access article distributed under the Creative Comm...
We study tournaments with many ex-ante asymmetric contestants, whose valuations for the prize are in...
A market share attraction model of competitive effort allocation by two firms is formulated as a con...
In this paper, we present a contest success function (CSF), which is homogeneous of degree zero and ...
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...
In imperfectly discriminating contests with symmetric valuations, equilibrium payoffs are positive s...
This thesis presents an analysis on a class of asymmetric imperfectly discrim- inating multi-prize c...
We investigate the pure-strategy Nash equilibria of asymmetric, winner-take-all, imperfectly discrim...
We investigate how individuals react to different types of asymmetries in experimental two-player Tu...
We explore the equilibrium properties of two types of “difference-form” persuasion contest functions...
Under standard assumptions about players’ cost functions, we show that a Tullock contest with asymme...
This paper considers n-player contests in which the size of the prize is endogenouslydetermined. In ...
In imperfectly discriminating contests with symmetric valuations, equilibrium payoffs are positive s...
This article investigates contests when heterogeneous players compete to obtain a share of a prize. ...
Copyright © 2013 Kyung Hwan Baik. This is an open access article distributed under the Creative Comm...
We study tournaments with many ex-ante asymmetric contestants, whose valuations for the prize are in...
A market share attraction model of competitive effort allocation by two firms is formulated as a con...
In this paper, we present a contest success function (CSF), which is homogeneous of degree zero and ...