Probabilistic methods of bypassing the maze using stones and a random number sensor
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In this paper, some open questions that are posed in Ajans' dissertation continue to be addressed: a robot bypass with a generator of random bits of integer spaces in the presence of a stone and a subspace of flags. This work is devoted to bypassing the maze with a finite state machine with a random bit generator. This task is part of the rapidly evolving theme of bypassing the maze by various finite state machines. or their teams, which is closely related to problems from the theory of computational complexity and probability theory. In this paper, it is shown at what dimensions a robot with a random bit generator and a stone can bypass integer space with a subspace of flags. In this paper, we will study the behavior of a finite state machine with a random bit generator on integer spaces. In particular, it was proved that the robot bypasses zs ^ 2 and cannot bypass zs ^ 3; a robot with a stone bypasses zs ^ 4 and cannot bypass zs ^ 5; a robot with a stone and a flag bypasses zs ^ 6 and cannot bypass zs ^ 7; a robot with a stone and a plane of flags bypasses zs ^ 8 and cannot bypass zs ^ 9.
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