Continuous Regular Functions

Alexi Block Gorman; Philipp Hieronymi; Elliot Kaplan; Ruoyu Meng; Erik Walsberg; Zihe Wang; Ziqin Xiong; Hongru Yang

doi:10.23638/LMCS-16(1:17)2020

Logical Methods in Computer Science (Feb 2020)

Continuous Regular Functions

Alexi Block Gorman,
Philipp Hieronymi,
Elliot Kaplan,
Ruoyu Meng,
Erik Walsberg,
Zihe Wang,
Ziqin Xiong,
Hongru Yang

Affiliations

Alexi Block Gorman
Philipp Hieronymi
Elliot Kaplan
Ruoyu Meng
Erik Walsberg
Zihe Wang
Ziqin Xiong
Hongru Yang

DOI: https://doi.org/10.23638/LMCS-16(1:17)2020
Journal volume & issue: Vol. Volume 16, Issue 1

Abstract

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Following Chaudhuri, Sankaranarayanan, and Vardi, we say that a function $f:[0,1] \to [0,1]$ is $r$-regular if there is a B\"{u}chi automaton that accepts precisely the set of base $r \in \mathbb{N}$ representations of elements of the graph of $f$. We show that a continuous $r$-regular function $f$ is locally affine away from a nowhere dense, Lebesgue null, subset of $[0,1]$. As a corollary we establish that every differentiable $r$-regular function is affine. It follows that checking whether an $r$-regular function is differentiable is in $\operatorname{PSPACE}$. Our proofs rely crucially on connections between automata theory and metric geometry developed by Charlier, Leroy, and Rigo.

Published in Logical Methods in Computer Science

ISSN: 1860-5974 (Online)
Publisher: Logical Methods in Computer Science e.V.
Country of publisher: Germany
LCC subjects: Philosophy. Psychology. Religion: Logic; Science: Mathematics: Instruments and machines: Electronic computers. Computer science
Website: https://lmcs.episciences.org/

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