Mathematics – Probability
Scientific paper
2010-03-31
Mathematics
Probability
30 pages
Scientific paper
Iterated Bessel processes R^\gamma(t), t>0, \gamma>0 and their counterparts on hyperbolic spaces, i.e. hyperbolic Brownian motions B^{hp}(t), t>0 are examined and their probability laws derived. The higher-order partial differential equations governing the distributions of I_R(t)=_1R^\gamma(_2R^\gamma(t)), t>0 and J_R(t) =_1R^\gamma(|_2R^\gamma(t)|^2), t>0 are obtained and discussed. Processes of the form R^\gamma(T_t), t>0, B^{hp}(T_t), t>0 where T_t=\inf{s: B(s)=t} are examined and numerous probability laws derived, including the Student law, the arcsin laws (also their asymmetric versions), the Lamperti distribution of the ratio of independent positively skewed stable random variables and others. For the process R^{\gamma}(T^\mu_t), t>0 (where T^\mu_t = \inf{s: B^\mu(s)=t} and B^\mu is a Brownian motion with drift \mu) the explicit probability law and the governing equation are obtained. For the hyperbolic Brownian motions on the Poincar\'e half-spaces H^+_2, H^+_3 we study B^{hp}(T_t), t>0 and the corresponding governing equation. Iterated processes are useful in modelling motions of particles on fractures idealized as Bessel processes (in Euclidean spaces) or as hyperbolic Brownian motions (in non-Euclidean spaces).
D'Ovidio Mirko
Orsingher Enzo
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