The Tight Bound for the Strong Chromatic Indices of Claw-Free Subcubic Graphs

Let G be a graph and k a positive integer. A strong k -edge-coloring of G is a mapping ϕ : E ( G ) → { 1 , 2 , ⋯ , k } such that for any two edges e and e ′ that are either adjacent to each other or adjacent to a common edge, ϕ ( e ) ≠ ϕ ( e ′ ) . The strong chromatic index of G , denoted as χ s ′ (...

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Vydáno v:Graphs and combinatorics Ročník 39; číslo 3; s. 58
Hlavní autoři: Lin, Yuquan, Lin, Wensong
Médium: Journal Article
Jazyk:angličtina
Vydáno: Tokyo Springer Japan 01.05.2023
Springer Nature B.V
Témata:
Algorithms
Combinatorial analysis
Combinatorics
Engineering Design
Graph coloring
Graphs
Integers
Mathematics
Mathematics and Statistics
Original Paper
Polynomials
Upper bounds
Subcubic graph
Strong chromatic index
Strong edge coloring
Claw-free graph
ISSN:0911-0119, 1435-5914
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Popis
Shrnutí:Let G be a graph and k a positive integer. A strong k -edge-coloring of G is a mapping ϕ : E ( G ) → { 1 , 2 , ⋯ , k } such that for any two edges e and e ′ that are either adjacent to each other or adjacent to a common edge, ϕ ( e ) ≠ ϕ ( e ′ ) . The strong chromatic index of G , denoted as χ s ′ ( G ) , is the minimum integer k such that G has a strong k -edge-coloring. Lv, Li and Zhang [Graphs and Combinatorics 38 (3) (2022) 63] proved that if G is a claw-free subcubic graph other than the triangular prism then χ s ′ ( G ) ≤ 8 . In addition, they asked if the upper bound 8 can be improved to 7. In this paper, we answer this question in the affirmative. Our proof implies a polynomial-time algorithm for finding strong 7-edge-colorings of such graphs. We also construct infinitely many claw-free subcubic graphs with their strong chromatic indices attaining the bound 7.
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ISSN:0911-0119
1435-5914
DOI:10.1007/s00373-023-02655-7