Spatial Parrondo games with spatially dependent game A

12/22/2020
by   Sung Chan Choi, et al.
0

Parrondo games with spatial dependence were introduced by Toral (2001) and have been studied extensively. In Toral's model, N players are arranged in a circle. The players play either game A or game B. In game A, a randomly chosen player wins or loses one unit according to the toss of a fair coin. In game B, which depends on parameters p_0,p_1,p_2∈[0,1], a randomly chosen player, player x say, wins or loses one unit according to the toss of a p_m-coin, where m∈{0,1,2} is the number of nearest neighbors of player x who won their most recent game. In this paper, we replace game A by a spatially dependent game, which we call game A', introduced by Xie et al. (2011). In game A', two nearest neighbors are chosen at random, and one pays one unit to the other based on the toss of a fair coin. Noting that game A' is fair, we say that the Parrondo effect occurs if game B is losing or fair and game C', determined by a random or periodic sequence of games A' and B, is winning. We investigate numerically the region in which the Parrondo effect appears. We give sufficient conditions for the mean profit in game C' to converge as N→∞. Finally, we compare the Parrondo region in the model of Xie et al. with that in the model of Toral.

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