Statistical inference for a partially observed interacting system of Hawkes processes

Abstract

We observe the actions of a K sub-sample of N individuals up to time t for some large K<N. We model the relationships of individuals by i.i.d. Bernoulli(p)-random variables, where p∈ (0,1] is an unknown parameter. The rate of action of each individual depends on some unknown parameter μ> 0 and on the sum of some function φ of the ages of the actions of the individuals which influence him. The function φ is unknown but we assume it rapidly decays. The aim of this paper is to estimate the parameter p asymptotically as N ∞, K ∞, and t ∞. Let mt be the average number of actions per individual up to time t. In the subcritical case, where mt increases linearly, we build an estimator of p with the rate of convergence 1K+NmtK+NKmt. In the supercritical case, where mt increases exponentially fast, we build an estimator of p with the rate of convergence 1K+NmtK.