English

On the time a diffusion process spends along a line

Probability 2026-03-03 v1 Statistics Theory Statistics Theory

Abstract

For an arbitrary diffusion process XX with time-homogeneous drift and variance parameters μ(x)\mu(x) and σ2(x)\sigma^2(x), let VεV_\varepsilon be 1/ε1/\varepsilon times the total time X(t)X(t) spends in the strip [a+bt(1/2)ε,a+bt+(1/2)ε][a+bt-(1/2)\varepsilon,a+bt+(1/2)\varepsilon].The limit VV as ε0\varepsilon\rightarrow0 is the full halfline version of the local time of X(t)abtX(t)-a-bt at zero, and can be thought of as the time XX spends along the straight line x=a+btx=a+bt. We prove that VV is either infinite with probability 1 or distributed as a mixture of an exponential and a unit point mass at zero, and we give formulae for the parameters of this distribution in terms of μ()\mu(\cdot), σ()\sigma(\cdot), aa, bb, and the starting point X(0)X(0). The special case ofa Brownian motion is studied in more detail, leading in particular to a full process V(b)V(b) with continuous sample paths and exponentially distributed marginals. This construction leads to new families of bivariate and multivariate exponential distributions. Truncated versions of such `total relative time' variables are also studied. A relation is pointed out to a second order asymptotics problem in statistical estimation theory, recently investigated in Hjort and Fenstad (1992a, 1992b).

Keywords

Cite

@article{arxiv.2603.00784,
  title  = {On the time a diffusion process spends along a line},
  author = {Nils Lid Hjort and Rafail Zalmonovich Khasminskii},
  journal= {arXiv preprint arXiv:2603.00784},
  year   = {2026}
}

Comments

16 pages, 0 figures; Statistical Research Report, Department of Mathematics, University of Oslo, October 1992, but now arXiv'd in March 2026. The paper is published, in essentially this form, in Stochastic Processes and their Applications, 1993, vol. 47, pages 229-247, and may be found at this url: www.sciencedirect.com/science/article/pii/030441499390016W

R2 v1 2026-07-01T10:57:26.974Z