Leader election using random walks.

In the classical leader election procedure all players toss coins independently and those who get tails leave the game, while those who get heads move to the next round where the procedure is repeated. We investigate a generalizion of this procedure in which the labels (positions) of the players who remain in the game are determined using an integer-valued random walk. We study the asymptotics of some relevant quantities for this model such as: the positions of the persons who remained after n rounds; the total number of rounds until all the persons among 1, 2,..., M leave the game; and the number of players among 1, 2,..., M who survived the first n rounds. Our results lead to some interesting connection with Galton-Watson branching processes and with the solutions of certain stochasticfixed point equations arising in the context of the stability of point processes under thinning. We describe the set of solutions to these equations and thus provide a characterization of one-dimensional point processes that are stable with respect to thinning by integer-valued random walks. [ABSTRACT FROM AUTHOR]