An approximate dynamic programming approach to solving dynamic oligopoly models

Author(s)

Farias, Vivek F.; Saure, Denis; Weintraub, Gabriel Y.

Abstract

In this article, we introduce a new method to approximate Markov perfect equilibrium in large-scale Ericson and Pakes (1995)-style dynamic oligopoly models that are not amenable to exact solution due to the curse of dimensionality. The method is based on an algorithm that iterates an approximate best response operator using an approximate dynamic programming approach. The method, based on mathematical programming, approximates the value function with a linear combination of basis functions. We provide results that lend theoretical support to our approach. We introduce a rich yet tractable set of basis functions, and test our method on important classes of models. Our results suggest that the approach we propose significantly expands the set of dynamic oligopoly models that can be analyzed computationally.

Date issued

2012-06

URI

http://hdl.handle.net/1721.1/74676

Department

Sloan School of Management

Journal

RAND Journal of Economics

Publisher

Wiley Blackwell

Citation

Farias, Vivek, Denis Saure, and Gabriel Y. Weintraub. “An Approximate Dynamic Programming Approach to Solving Dynamic Oligopoly Models.” The RAND Journal of Economics 43.2 (2012): 253–282.

Version: Author's final manuscript

ISSN

0741-6261

1756-2171