Finite-State Dimension and Real Arithmetic

David Doty; Jack H. Lutz; Satyadev Nandakumar

Electronic Colloquium on Computational Complexity

Under the auspices of the Computational Complexity Foundation (CCF)

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Paper:

TR06-038 | 10th February 2006 00:00

Finite-State Dimension and Real Arithmetic

TR06-038 Authors: David Doty, Jack H. Lutz, Satyadev Nandakumar
Publication: 17th March 2006 05:22
Downloads: 3239

Keywords:

effective fractal dimension, entropy rate, finite-state dimension, normal number, Schur concavity

Abstract:

We use entropy rates and Schur concavity to prove that, for every integer k >= 2, every nonzero rational number q, and every real number alpha, the base-k expansions of alpha, q+alpha, and q*alpha all have the same finite-state dimension and the same finite-state strong dimension. This extends, and gives a new proof of, Wall's 1949 theorem stating that the sum or product of a nonzero rational number and a Borel normal number is always Borel normal.

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