Abstract

The dynamic behavior of n-firm oligopolies is examined without product differentiation and with linear price and cost functions. Continuous time scales are assumed with best response dynamics, in which case the equilibrium is asymptotically stable without delays. The firms are assumed to face both implementation and information delays. If the delays are equal, then the model is a single delay case, and the equilibrium is oscillatory stable if the delay is small, at the threshold stability is lost by Hopf bifurcation with cyclic behavior, and for larger delays, the trajectories show expanding cycles. In the case of the non-equal delays, the stability switching curves are constructed and the directions of stability switches are determined. In the case of growth rate dynamics, the local behavior of the trajectories is similar to that of the best response dynamics. Simulation studies verify and illustrate the theoretical findings.

Highlights

  • Examining oligopoly models is a very frequently studied research area in mathematical economics.Based on the pioneering work of Cournot [1], many researchers were devoted to this interesting and challenging model and its variants and extensions

  • The dynamic behavior of n-firm oligopolies is examined without product differentiation and with linear price and cost functions

  • Continuous time scales are assumed with best response dynamics, in which case the equilibrium is asymptotically stable without delays

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Summary

Introduction

Examining oligopoly models is a very frequently studied research area in mathematical economics. One frequently studied extension is obtained by considering the dynamic behavior of the firms These models can be divided into several categories including linear and nonlinear models, discrete and continuous time scales, best response, and gradient adjustments. McManus and Quandt [3] showed that the equilibrium is always asymptotically stable in the linear case regardless of the values of the positive speeds of adjustments. We reconsider the classical Theocharis model by examining the dynamic behavior of linear n-firm oligopolies without product differentiation and with the additional assumption that the firms face both implementation and information delays. The stability switching curves are shown and the directions of stability switches are determined In both sections, numerical results and simulation studies verify and illustrate the theoretical results.

Best Reply Dynamics
Stability Switching
Equal Delays
Growth Rate Dynamics
Stability Switching Curves
Bifurcation with n
Concluding Remarks

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