Publications: Local time of a two-dimensional diffusion
Abstract
When a Markovian random process taking values in a continuous
state-space, such as R, visits a particular point repeatedly,
it is natural to seek some quantity which records how long it spends there.
Typically however, the number of visits made to the point is uncountably
infinite, and the (Lebesgue) length of time spent there is zero. One
interesting object to consider is the local time, sometimes thought of
as the occupation density of the process, which at each point is a random
Cantor function that increases only when the process visits the point.
The review article by Rogers contains a good introduction to the local
time of a one-dimensional Brownian motion and its relevance to the
excursions of Brownian motion from zero. In two-dimensions, a typical
diffusion, such as Brownian motion in the plane, never revisits a point,
so it does not have a local time. In this paper we shall construct the local
times of some particular two-dimensional diffusions on a one-dimensional
subspace, and show that they are jointly continuous in both time and space.
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