Time-dependent balls and bins model with positive feedback

Abstract

Balls and bins models are classical probabilistic models where balls are added to bins at random according to a certain rule. The balls and bins model with feedback is a non-linear generalisation of the P\'olya urn, where the probability of a new ball choosing a bin with m balls is proportional to mα, with α being the feedback parameter. It is known that if the feedback is positive (i.e. α>1) then the model is monopolistic: there is a finite time after which one of the bins will receive all incoming balls. We consider a time-dependent version of this model, where σn independent balls are added at time n instead of just one. We show that if α>1 then one of the bins gets all but a negligible number of balls, and identify a phase transition in the growth of (σn) between the monopolistic and non-monopolistic behaviour. We also describe the critical regime, where the probability of monopoly is strictly between zero and one. Finally, we show that in the feedback-less case α=1 no dominance occurs, that is, each bin gets a non-negligible proportion of balls eventually. This is in sharp contrast with a similar model where new balls added at time n are all placed in the same bin rather than independently.