List-antimagic labeling of vertex-weighted graphs

A graph \(G\) is \(k\)-\(weighted-list-antimagic\) if for any vertex weighting \(\omega\colon V(G)\to\mathbb{R}\) and any list assignment \(L\colon E(G)\to2^{\mathbb{R}}\) with \(|L(e)|\geq |E(G)|+k\) there exists an edge labeling \(f\) such that \(f(e)\in L(e)\) for all \(e\in E(G)\), labels of edg...

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Bibliographic Details
Published in:arXiv.org 2021-11
Main Authors: Berikkyzy, Zhanar, Brandt, Axel, Sogol Jahanbekam, Larsen, Victor, Rorabaugh, Danny
Format: Article
Language:English
Subjects:
Apexes
Colon
Graph theory
Labeling
Labels
Weight
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Summary:A graph \(G\) is \(k\)-\(weighted-list-antimagic\) if for any vertex weighting \(\omega\colon V(G)\to\mathbb{R}\) and any list assignment \(L\colon E(G)\to2^{\mathbb{R}}\) with \(|L(e)|\geq |E(G)|+k\) there exists an edge labeling \(f\) such that \(f(e)\in L(e)\) for all \(e\in E(G)\), labels of edges are pairwise distinct, and the sum of the labels on edges incident to a vertex plus the weight of that vertex is distinct from the sum at every other vertex. In this paper we prove that every graph on \(n\) vertices having no \(K_1\) or \(K_2\) component is \(\lfloor{\frac{4n}{3}}\rfloor\)-weighted-list-antimagic. An oriented graph \(G\) is \(k\)-\(oriented-antimagic\) if there exists an injective edge labeling from \(E(G)\) into \(\{1,\dotsc,|E(G)|+k\}\) such that the sum of the labels on edges incident to and oriented toward a vertex minus the sum of the labels on edges incident to and oriented away from that vertex is distinct from the difference of sums at every other vertex. We prove that every graph on \(n\) vertices with no \(K_1\) component admits an orientation that is \(\lfloor{\frac{2n}{3}}\rfloor\)-oriented-antimagic.
ISSN:2331-8422
DOI:10.48550/arxiv.1510.05070