Fluctuation Theory for Upwards Skip-Free Lévy Chains

Fluctuation Theory for Upwards Skip-Free Lévy Chains

A fluctuation theory and, in particular, a theory of scale functions is developed for upwards skip-free Lévy chains, i.e., for right-continuous random walks embedded into continuous time as compound Poisson processes. This is done by analogy to the spectrally negative class of L&eacut...

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Bibliographic Details
Main Author: Matija Vidmar
Format: Article
Language:English
Published: MDPI AG 2018-09-01
Series:Risks
Subjects:
Lévy processes
non-random overshoots
skip-free random walks
fluctuation theory
scale functions
capital surplus process
Online Access:http://www.mdpi.com/2227-9091/6/3/102
Description
Summary:A fluctuation theory and, in particular, a theory of scale functions is developed for upwards skip-free Lévy chains, i.e., for right-continuous random walks embedded into continuous time as compound Poisson processes. This is done by analogy to the spectrally negative class of Lévy processes—several results, however, can be made more explicit/exhaustive in the compound Poisson setting. Importantly, the scale functions admit a linear recursion, of constant order when the support of the jump measure is bounded, by means of which they can be calculated—some examples are presented. An application to the modeling of an insurance company’s aggregate capital process is briefly considered.
ISSN:2227-9091

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