Nonparametric estimation of the division rate of an age dependent branching process - Archive ouverte HAL
Article Dans Une Revue Stochastic Processes and their Applications Année : 2015

Nonparametric estimation of the division rate of an age dependent branching process

Résumé

We study the nonparametric estimation of the branching rate B(x) of a supercritical Bellman-Harris population: a particle with age x has a random lifetime governed by B(x); at its death time, it gives rise to k ≥ 2 children with lifetimes governed by the same division rate and so on. We observe in continuous time the process over [0, T ]. Asymptotics are taken as T → ∞; the data are stochastically dependent and one has to face simultaneously censoring, bias selection and non-ancillarity of the number of observations. In this setting, under appropriate ergodicity properties, we construct a kernel-based estimator of B(x) that achieves the rate of convergence exp(−λ_B β/(2β+1) T), where λ_B is the Malthus parameter and β > 0 is the smoothness of the function B(x) in a vicinity of x. We prove that this rate is optimal in a minimax sense and we relate it explicitly to classical nonparametric models such as density estimation observed on an appropriate (parameter dependent) scale. We also shed some light on the fact that estimation with kernel estimators based on data alive at time T only is not sufficient to obtain optimal rates of convergence, a phenomenon which is specific to nonparametric estimation and that has been observed in other related growth-fragmentation models.
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Dates et versions

hal-01254203 , version 1 (11-01-2016)

Identifiants

Citer

Marc Hoffmann, Adélaïde Olivier. Nonparametric estimation of the division rate of an age dependent branching process. Stochastic Processes and their Applications, 2015, ⟨10.1016/j.spa.2015.11.009⟩. ⟨hal-01254203⟩
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