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Let (S) be the classical Bernoulli random walk on the integer line with jump parameters ∈ (01) and = 1 − . The probability distribution of the sojourn time of the walk in the set of non-negative integers up to a fixed time is well-known, but its expression is not simple. By modifying slightly this sojourn time through a particular counting process of the zeros of the walk as done by Chung & Feller [35 (1949) 605–608], simpler representations may be obtained for its probability distribution....
Let (Sk)k≥1 be the classical Bernoulli random walk on the integer line with jump parameters
p ∈ (0,1) and
q = 1 − p. The probability distribution of the sojourn
time of the walk in the set of non-negative integers up to a fixed time is well-known, but
its expression is not simple. By modifying slightly this sojourn...
We study the probability distribution of the location of a particle
performing a cyclic random motion in . The particle can take
possible directions with different velocities and the changes of
direction occur at random times. The speed-vectors as well as the
support of the distribution form a polyhedron (the first one having
constant sides and the other expanding with time ). The
distribution of the location of the particle is made up of two
components: a singular component (corresponding to...
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