Ergodic behavior of products of random positive operators

Abstract

This article is devoted to the study of products of random operators of the form M0,n=M0·s Mn-1, where (Mn)n∈N is an ergodic sequence of positive operators on the space of signed measures on a space X. Under suitable conditions, in particular, a Doeblin-type minoration suited for non conservative operators, we obtain asymptotic results of the form \[ μ M0,n μ(h) rn πn,\] where h is a random bounded function, (rn)n≥ 0 is a random non negative sequence and πn is a random probability measure on X. Moreover, h, (rn) and πn do not depend on the choice of the measure μ. We prove additionally that n-1 (rn) converges almost surely to the Lyapunov exponent λ of the process (M0,n)n≥ 0 and that the sequence of random probability measures (πn) converges weakly towards a random probability measure. These results are analogous to previous estimates from Hennion in the case of d× d matrices, that were obtained with different techniques, based on a projective contraction in Hilbert distance. In the case where the sequence (Mn) is i.i.d, we additionally exhibit an expression of the Lyapunov exponent λ as an integral with respect to the weak limit of the sequence of random probability measures (πn) and exhibit an oscillation behavior of rn when λ=0. We provide a detailed comparison of our assumptions with the ones of Hennion and present some example of applications of our results, in particular in the field of population dynamics.

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