In many industries, the number of firms evolves non-monotonically over time. A phase of rapid entry is followed by an industry shakeout: a large number of firms exit within a short period. We present a simple timing game of entry and exit with an exogenous technological process governing firm effi- ciency. We calibrate our model to data from the post World War II penicillin industry. The equilibrium dynamics of the calibrated model closely match the patterns observed in many industries. In particular, our model gener- ates richer and more realistic dynamics than competitive models previously analyzed. The entry phase is characterized by preemption motives while the shakeout phase mimics a war of attrition. We show that dynamic stra...
We generalize the War of Attrition model to allow for N + K firms competing for N prizes. Two specia...
This paper develops a simple model of firm entry, competition, and exit in oligopolistic markets. It...
Abstract: We use the Stock and Wise approximation of stochastic dynamic programming in order to iden...
In many industries, the number of rms evolves non-monotonically over time. A phase of rapid entry is...
In many industries, the number of firms evolves non-monotonically over time. A phase of rapid entry...
The timing of entry is a critical decision for a firm that is interested in a new industry. The deci...
This paper extends the static analysis of oligopoly structure into an infinite-horizon setting with ...
This paper extends the static analysis of oligopoly structure into an infinite-horizon setting with ...
This paper extends the static analysis of oligopoly structure into an infinite-horizon setting with ...
This paper develops an econometric model of firm entry, competition, and exit in oligopolistic marke...
We propose a likelihood based method that relies on sequential importance sampling to estimate dynam...
We consider an extension of Dixit-Shapiro's (1986) model of entry dynamics to the case when there ar...
This paper develops a simple model of firm entry, competition, and exit in oligopolistic markets. It...
The main contribution of entrepreneurship theory to economics is to provide an account of market per...
We propose a likelihood based method that relies on sequential importance sampling to estimate dynam...
We generalize the War of Attrition model to allow for N + K firms competing for N prizes. Two specia...
This paper develops a simple model of firm entry, competition, and exit in oligopolistic markets. It...
Abstract: We use the Stock and Wise approximation of stochastic dynamic programming in order to iden...
In many industries, the number of rms evolves non-monotonically over time. A phase of rapid entry is...
In many industries, the number of firms evolves non-monotonically over time. A phase of rapid entry...
The timing of entry is a critical decision for a firm that is interested in a new industry. The deci...
This paper extends the static analysis of oligopoly structure into an infinite-horizon setting with ...
This paper extends the static analysis of oligopoly structure into an infinite-horizon setting with ...
This paper extends the static analysis of oligopoly structure into an infinite-horizon setting with ...
This paper develops an econometric model of firm entry, competition, and exit in oligopolistic marke...
We propose a likelihood based method that relies on sequential importance sampling to estimate dynam...
We consider an extension of Dixit-Shapiro's (1986) model of entry dynamics to the case when there ar...
This paper develops a simple model of firm entry, competition, and exit in oligopolistic markets. It...
The main contribution of entrepreneurship theory to economics is to provide an account of market per...
We propose a likelihood based method that relies on sequential importance sampling to estimate dynam...
We generalize the War of Attrition model to allow for N + K firms competing for N prizes. Two specia...
This paper develops a simple model of firm entry, competition, and exit in oligopolistic markets. It...
Abstract: We use the Stock and Wise approximation of stochastic dynamic programming in order to iden...