A decomposition for Levy processes inspected at Poisson moments

Abstract

We consider a L\'evy process Y(t) that is not permanently observed, but rather inspected at Poisson(ω) moments only, over an exponentially distributed time Tβ with parameter β. The focus lies on the analysis of the distribution of the running maximum at such inspection moments up to Tβ, denoted by Yβ,ω. Our main result is a decomposition: we derive a remarkable distributional equality that contains Yβ,ω as well as the running maximum process Y(t) at the exponentially distributed times Tβ and Tβ+ω. Concretely, Y(Tβ) can be written the sum of the two independent random variables that are distributed as Yβ,ω and Y(Tβ+ω). The distribution of Yβ,ω can be identified more explicitly in the two special cases of a spectrally positive and a spectrally negative L\'evy process. As an illustrative example of the potential of our results, we show how to determine the asymptotic behavior of the bankruptcy probability in the Cram\'er-Lundberg insurance risk model.

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