Complex dynamics of knowledgeable monopoly models with gradient mechanisms
Abstract
This study explores the dynamics of two monopoly models with knowledgeable players. The first model was initially introduced by Naimzada and Ricchiuti, while the second one is simplified by the famous monopoly model of Puu. We employ several tools based on symbolic computations to analyze the local stability and bifurcations of the two models. To the best of our knowledge, the complete stability conditions of the second model are obtained for the first time. We investigate periodic solutions and their stability. Most importantly, we discover that the topological structure of the parameter space of the second model is much more complex than that of the first one. Specifically, in the first model, the parameter region for the stability of any periodic orbits with a fixed order constitutes a connected set. In the second model, however, the stability regions for the 3-cycle, 4-cycle, and 5-cycle orbits are disconnected sets formed by many disjoint portions. Furthermore, we find that the basins of the two stable equilibria in the second model are disconnected and have complicated topological structures. In addition, the existence of chaos in the sense of Li-Yorke is rigorously proved by finding snapback repellers and 3-cycle orbits.
- Publication:
-
Nonlinear Dynamics
- Pub Date:
- June 2023
- DOI:
- 10.1007/s11071-023-08414-w
- arXiv:
- arXiv:2301.01497
- Bibcode:
- 2023NonDy.11111629L
- Keywords:
-
- Monopoly;
- Gradient mechanism;
- Stability;
- Periodic orbit;
- Chaos;
- Economics - Theoretical Economics;
- Mathematics - Dynamical Systems