Publication detail
A digital Jordan surface theorem with respect to a graph connectedness
ŠLAPAL, J.
English title
A digital Jordan surface theorem with respect to a graph connectedness
Type
journal article in Web of Science
Language
en
Original abstract
After introducing a graph connectedness induced by a given set of paths of the same length, we focus on the 2-adjacency graph on the digital line Z with a certain set of paths of length n for every positive integer n . The connectedness in the strong product of three copies of the graph is used to define digital Jordan surfaces. These are obtained as polyhedral surfaces bounding the polyhedra that can be face-to-face tiled with digital tetrahedra.
English abstract
After introducing a graph connectedness induced by a given set of paths of the same length, we focus on the 2-adjacency graph on the digital line Z with a certain set of paths of length n for every positive integer n . The connectedness in the strong product of three copies of the graph is used to define digital Jordan surfaces. These are obtained as polyhedral surfaces bounding the polyhedra that can be face-to-face tiled with digital tetrahedra.
Keywords in English
simple graph, strong product, path, connectedness, digital space, Jordan surface; MSC 2020: 52C22, 68R10
Released
31.12.2023
Publisher
De Gruyter
Location
Poland
ISSN
2391-5455
Volume
21
Number
1
Pages from–to
1–9
Pages count
9
BIBTEX
@article{BUT186967,
author="Josef {Šlapal},
title="A digital Jordan surface theorem with respect to a graph connectedness",
year="2023",
volume="21",
number="1",
month="December",
pages="1--9",
publisher="De Gruyter",
address="Poland",
issn="2391-5455"
}