Computational complexity of logical theories of one successor and another unary function

Archive for Mathematical Logic 46 (2):123-148 (2007)
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Abstract

The first-order logical theory Th $({\mathbb{N}},x + 1,F(x))$ is proved to be complete for the class ATIME-ALT $(2^{O(n)},O(n))$ when $F(x) = 2^{x}$ , and the same result holds for $F(x) = c^{x}, x^{c} (c \in {\mathbb{N}}, c \ge 2)$ , and F(x) = tower of x powers of two. The difficult part is the upper bound, which is obtained by using a bounded Ehrenfeucht–Fraïssé game

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10.1007/s00153-006-0031-1

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The computational complexity of logical theories.Jeanne Ferrante - 1979 - New York: Springer Verlag. Edited by Charles W. Rackoff.
On the computational complexity of the theory of Abelian groups.Libo Lo - 1988 - Annals of Pure and Applied Logic 37 (3):205-248.

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