Euclidean algorithm for a class of linear orders

Borrowing inspiration from Marcone and Montálban's one-one correspondence between the class of signed trees and the equimorphism classes of indecomposable scattered linear orders, we find a subclass of signed trees which has an analogous correspondence with equimorphism classes of indecomposabl...

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Bibliographic Details
Published in:Discrete mathematics Vol. 346; no. 12; p. 113639
Main Authors: Agrawal, Shashwat, Kuber, Amit, Gupta, Esha
Format: Journal Article
Language:English
Published: Elsevier B.V 01.12.2023
Subjects:
Discrete linear order
Euclidean algorithm
Finitely presented linear order
Isomorphism problem
Signed trees
Isomorphism problem
Signed trees
Euclidean algorithm
Discrete linear order
Finitely presented linear order
ISSN:0012-365X
Online Access:Get full text
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Summary:Borrowing inspiration from Marcone and Montálban's one-one correspondence between the class of signed trees and the equimorphism classes of indecomposable scattered linear orders, we find a subclass of signed trees which has an analogous correspondence with equimorphism classes of indecomposable finite rank discrete linear orders. We also introduce the class of finitely presented linear orders–the smallest subclass of finite rank linear orders containing 1, ω and ω⁎ and closed under finite sums and lexicographic products. For this class we develop a generalization of the Euclidean algorithm where the width of a linear order plays the role of the Euclidean norm. Using this as a tool we classify the isomorphism classes of finitely presented linear orders in terms of an equivalence relation on their presentations using 3-signed trees.
ISSN:0012-365X
DOI:10.1016/j.disc.2023.113639