Random walks in the quarter plane absorbed at the boundary: exact and asymptotic
Résumé
Nearest neighbor random walks in the quarter plane that are absorbed when reaching the boundary are studied. The cases of positive and zero drift are considered. Absorption probabilities at a given time and at a given site are made explicit. The following asymptotics for these random walks starting from a given point $(n_0,m_0)$ are computed : that of probabilities of being absorbed at a given site $(i,0)$ [resp. $(0,j)$] as $i\to \infty$ [resp. $j \to \infty$], that of the distribution's tail of absorption time at $x$-axis [resp. $y$-axis], that of the Green functions at site $(i,j)$ when $i,j\to \infty$ and $j/i \to \tan \gamma$ for $\gamma \in [0, \pi/2]$. These results give the Martin boundary of the process and in particular the suitable Doob $h$-transform in order to condition the process never to reach the boundary. They also show that this $h$-transformed process is equal in distribution to the limit as $n\to \infty$ of the process conditioned by not being absorbed at time $n$. The main tool used here is complex analysis.
Origine : Fichiers produits par l'(les) auteur(s)
Loading...