Best-Response Dynamics in Lottery Contests

Abstract

We study the convergence of best-response dynamics in lottery contests. We show that best-response dynamics rapidly converges to the (unique) equilibrium for homogeneous agents but may not converge for non-homogeneous agents, even for two non-homogeneous agents. For 2 homogeneous agents, we show convergence to an ε-approximate equilibrium in ((1/ε)) steps. For n 3 agents, the dynamics is not unique because at each step n-1 2 agents can make non-trivial moves. We consider a model where the agent making the move is randomly selected at each time step. We show convergence to an ε-approximate equilibrium in O(β (n/(εδ))) steps with probability 1-δ, where β is a parameter of the agent selection process, e.g., β = n if agents are selected uniformly at random at each time step. Our simulations indicate that this bound is tight.