This paper examines a perfectly discriminating contest (all-pay auction) with two asymmetric players. We focus on unordered valuations. Valuations are endogenous (polynomial functions) and depend on the effort each player invests in the contest. The shape of the valuation function is common knowledge and differs between the contestants. Some key properties of R&D races, lobbying activity and sport contests are captured by this framework. After analyzing the unique mixed strategy equilibrium, we derive a closed form of the expected expenditure of both players. We characterize the expected expenditure by means of incomplete Beta functions
We extend the war of attrition and all-pay auction analysis of Krishna and Morgan (1997) to a stocha...
We consider a two-player contest in which one contestant has a headstart advantage, but both can exe...
We study all-pay contests under incomplete information where the reward is a function of the contest...
This paper examines a perfectly discriminating contest (all-pay auction) with two asymmetric players...
This paper examines a perfectly discriminating contest (all-pay auction) with two asymmetric players...
Available online from Blackwell SynergyWe study all–pay auctions with variable rewards under incompl...
We study equilibria of first- and second-price all-pay auctions with resale when players’ signals ar...
The paper characterizes the mixed-strategy equilibria in all-pay auctions with endogenous prizes tha...
Contest or auction designers who want to maximize the overall revenue are frequently con- cerned wit...
We study asymmetric all-pay auctions with multiple objects where players’ values for the objects are...
We study N-bidders, asymmetric all-pay auctions under incomplete information. First, we solve for th...
Perfectly discriminating contests (or all pay auction) are widely used as a model of situations wher...
This paper considers all-pay contests in which the relationship between bids and allocations reflect...
We study N-bidders, asymmetric all-pay auctions under incomplete information. First, we solve for th...
Models of two contestants exerting effort to win a prize are very common and widely used in politica...
We extend the war of attrition and all-pay auction analysis of Krishna and Morgan (1997) to a stocha...
We consider a two-player contest in which one contestant has a headstart advantage, but both can exe...
We study all-pay contests under incomplete information where the reward is a function of the contest...
This paper examines a perfectly discriminating contest (all-pay auction) with two asymmetric players...
This paper examines a perfectly discriminating contest (all-pay auction) with two asymmetric players...
Available online from Blackwell SynergyWe study all–pay auctions with variable rewards under incompl...
We study equilibria of first- and second-price all-pay auctions with resale when players’ signals ar...
The paper characterizes the mixed-strategy equilibria in all-pay auctions with endogenous prizes tha...
Contest or auction designers who want to maximize the overall revenue are frequently con- cerned wit...
We study asymmetric all-pay auctions with multiple objects where players’ values for the objects are...
We study N-bidders, asymmetric all-pay auctions under incomplete information. First, we solve for th...
Perfectly discriminating contests (or all pay auction) are widely used as a model of situations wher...
This paper considers all-pay contests in which the relationship between bids and allocations reflect...
We study N-bidders, asymmetric all-pay auctions under incomplete information. First, we solve for th...
Models of two contestants exerting effort to win a prize are very common and widely used in politica...
We extend the war of attrition and all-pay auction analysis of Krishna and Morgan (1997) to a stocha...
We consider a two-player contest in which one contestant has a headstart advantage, but both can exe...
We study all-pay contests under incomplete information where the reward is a function of the contest...