Abstract
We present a simple construction method for Feller processes and a framework for the generation of sample paths of Feller processes. The construction is based on state space dependent mixing of Lévy processes. Brownian Motion is one of the most frequently used continuous time Markov processes in applications. In recent years also Lévy processes, of which Brownian Motion is a special case, have become increasingly popular. Lévy processes are spatially homogeneous, but empirical data often suggest the use of spatially inhomogeneous processes. Thus it seems necessary to go to the next level of generalization: Feller processes. These include Lévy processes and in particular Brownian motion as special cases but allow spatial inhomogeneities. Many properties of Feller processes are known, but proving the very existence is, in general, very technical. Moreover, an applicable framework for the generation of sample paths of a Feller process was missing. We explain, with practitioners in mind, how to overcome both of these obstacles. In particular our simulation technique allows to apply Monte Carlo methods to Feller processes.
Highlights
The paper is written especially for practitioners and applied scientists
Suppose we know that the process we want to model behaves like a Levy process in a region K1 and like a different Levy process t§0
We know that a Feller process t§0 which models this behavior exists by the following result: Theorem
Summary
The paper is written especially for practitioners and applied scientists. It is based on two recent papers in stochastic analysis [1,2]. The main part of the paper contains a simple existence result for Feller processes and a description of the general simulation scheme. One can construct a family of Levy processes by replacing these parameters by state space dependent functions.
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