Add to ORKGIn an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the information structure determines aggregate volatility. We show that the maximal aggregate volatility is attained in a noise free information structure in which the agents confound idiosyncratic and common components of the payoff state, and display excess response to the common component, as in Lucas (1972). The upper bound on aggregate volatility is linearly increasing in the variance of idiosyncratic shocks, for any given variance of aggregate shocks. Our results hold in a setting of symmetric agents with linear best responses and normal uncertainty. We show our results by providing a characterization of the set of all joint distributions o...
How effectively does a decentralized marketplace aggregate information that is dispersed throughout ...
How effectively does a decentralized marketplace aggregate information that is dispersed throughout ...
We consider demand function competition with a finite number of agents and private information. We an...
In an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the...
In an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the...
In an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the...
In an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the...
In an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the...
We analyze a class of games with interdependent values and linear best responses. The payoff uncertai...
We analyze a class of games with interdependent values and linear best responses. The payoff uncertai...
We provide a production-based asset pricing model with dispersed information and small deviations fr...
We study a linear interaction model with asymmetric information. We first characterize the linear Bay...
We study a linear interaction model with asymmetric information. We first characterize the linear Bay...
We consider demand function competition with a finite number of agents and private information. We sh...
We consider demand function competition with a finite number of agents and private information. We sh...
How effectively does a decentralized marketplace aggregate information that is dispersed throughout ...
How effectively does a decentralized marketplace aggregate information that is dispersed throughout ...
We consider demand function competition with a finite number of agents and private information. We an...
In an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the...
In an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the...
In an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the...
In an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the...
In an economy of interacting agents with both idiosyncratic and aggregate shocks, we examine how the...
We analyze a class of games with interdependent values and linear best responses. The payoff uncertai...
We analyze a class of games with interdependent values and linear best responses. The payoff uncertai...
We provide a production-based asset pricing model with dispersed information and small deviations fr...
We study a linear interaction model with asymmetric information. We first characterize the linear Bay...
We study a linear interaction model with asymmetric information. We first characterize the linear Bay...
We consider demand function competition with a finite number of agents and private information. We sh...
We consider demand function competition with a finite number of agents and private information. We sh...
How effectively does a decentralized marketplace aggregate information that is dispersed throughout ...
How effectively does a decentralized marketplace aggregate information that is dispersed throughout ...
We consider demand function competition with a finite number of agents and private information. We an...