On the Descriptional Complexity of Operations on Semilinear Sets

Simon Beier; Markus Holzer; Martin Kutrib

doi:10.4204/EPTCS.252.8

Electronic Proceedings in Theoretical Computer Science (Aug 2017)

On the Descriptional Complexity of Operations on Semilinear Sets

Simon Beier,
Markus Holzer,
Martin Kutrib

Affiliations

Simon Beier: Institut für Informatik, Universität Giessen
Markus Holzer: Institut für Informatik, Universität Giessen
Martin Kutrib: Institut für Informatik, Universität Giessen

DOI: https://doi.org/10.4204/EPTCS.252.8
Journal volume & issue: Vol. 252, no. Proc. AFL 2017
pp. 41 – 55

Abstract

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We investigate the descriptional complexity of operations on semilinear sets. Roughly speaking, a semilinear set is the finite union of linear sets, which are built by constant and period vectors. The interesting parameters of a semilinear set are: (i) the maximal value that appears in the vectors of periods and constants and (ii) the number of such sets of periods and constants necessary to describe the semilinear set under consideration. More precisely, we prove upper bounds on the union, intersection, complementation, and inverse homomorphism. In particular, our result on the complementation upper bound answers an open problem from [G. J. LAVADO, G. PIGHIZZINI, S. SEKI: Operational State Complexity of Parikh Equivalence, 2014].

Published in Electronic Proceedings in Theoretical Computer Science

ISSN: 2075-2180 (Online)
Publisher: Open Publishing Association
Country of publisher: Australia
LCC subjects: Science: Mathematics: Instruments and machines: Electronic computers. Computer science
Website: http://eptcs.org/

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