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873 results on '"Zhu, Xuding"'

101. Nonrepetitive colorings of lexicographic product of graphs

Author

Keszegh, Balázs, Patkós, Balázs, and Zhu, Xuding

Subjects
Mathematics - Combinatorics
Abstract

A coloring $c$ of the vertices of a graph $G$ is nonrepetitive if there exists no path $v_1v_2\ldots v_{2l}$ for which $c(v_i)=c(v_{l+i})$ for all $1\le i\le l$. Given graphs $G$ and $H$ with $|V(H)|=k$, the lexicographic product $G[H]$ is the graph obtained by substituting every vertex of $G$ by a copy of $H$, and every edge of $G$ by a copy of $K_{k,k}$. %Our main results are the following. We prove that for a sufficiently long path $P$, a nonrepetitive coloring of $P[K_k]$ needs at least $3k+\lfloor k/2\rfloor$ colors. If $k>2$ then we need exactly $2k+1$ colors to nonrepetitively color $P[E_k]$, where $E_k$ is the empty graph on $k$ vertices. If we further require that every copy of $E_k$ be rainbow-colored and the path $P$ is sufficiently long, then the smallest number of colors needed for $P[E_k]$ is at least $3k+1$ and at most $3k+\lceil k/2\rceil$. Finally, we define fractional nonrepetitive colorings of graphs and consider the connections between this notion and the above results.

Published
2012

102. Towards on-line Ohba's conjecture

Author

Kozik, Jakub, Micek, Piotr, and Zhu, Xuding

Subjects
Mathematics - Combinatorics, Computer Science - Discrete Mathematics
Abstract

The on-line choice number of a graph is a variation of the choice number defined through a two person game. It is at least as large as the choice number for all graphs and is strictly larger for some graphs. In particular, there are graphs $G$ with $|V(G)| = 2 \chi(G)+1$ whose on-line choice numbers are larger than their chromatic numbers, in contrast to a recently confirmed conjecture of Ohba that every graph $G$ with $|V(G)| \le 2 \chi(G)+1$ has its choice number equal its chromatic number. Nevertheless, an on-line version of Ohba conjecture was proposed in [P. Huang, T. Wong and X. Zhu, Application of polynomial method to on-line colouring of graphs, European J. Combin., 2011]: Every graph $G$ with $|V(G)| \le 2 \chi(G)$ has its on-line choice number equal its chromatic number. This paper confirms the on-line version of Ohba conjecture for graphs $G$ with independence number at most 3. We also study list colouring of complete multipartite graphs $K_{3\star k}$ with all parts of size 3. We prove that the on-line choice number of $K_{3 \star k}$ is at most $3/2k$, and present an alternate proof of Kierstead's result that its choice number is $\lceil (4k-1)/3 \rceil$. For general graphs $G$, we prove that if $|V(G)| \le \chi(G)+\sqrt{\chi(G)}$ then its on-line choice number equals chromatic number., Comment: new abstract and introduction

Published
2011

103. Colouring Edges with many Colours in Cycles

Author

Nesetril, Jaroslav, De Mendez, Patrice Ossona, and Zhu, Xuding

Subjects
Mathematics - Combinatorics
Abstract

The arboricity of a graph G is the minimum number of colours needed to colour the edges of G so that every cycle gets at least two colours. Given a positive integer p, we define the generalized p-arboricity Arb_p(G) of a graph G as the minimum number of colours needed to colour the edges of a multigraph G in such a way that every cycle C gets at least min(|C|; p + 1) colours. In the particular case where G has girth at least p + 1, Arb_p(G) is the minimum size of a partition of the edge set of G such that the union of any p parts induce a forest. If we require further that the edge colouring be proper, i.e., adjacent edges receive distinct colours, then the minimum number of colours needed is the generalized p-acyclic edge chromatic number of G. In this paper, we relate the generalized p-acyclic edge chromatic numbers and the generalized p-arboricities of a graph G to the density of the multigraphs having a shallow subdivision as a subgraph of G.

Published
2011

104. The Alon–Tarsi number of planar graphs revisited.

Author

Gu, Yangyan and Zhu, Xuding

Subjects
*PLANAR graphs
Abstract

This paper gives a simple proof of the result that every planar graph G $G$ has Alon–Tarsi number at most 5, and has a matching M $M$ such that G−M $G-M$ has Alon–Tarsi number at most 4. [ABSTRACT FROM AUTHOR]

Published
2024
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106. Circular chromatic index of graphs of maximum degree 3

Author

Afshani, Peyman, Ghandehari, Mahsa, Ghandehari, Mahya, Hatami, Hamed, Tusserkani, Ruzbeh, and Zhu, Xuding

Subjects
Mathematics - Combinatorics, 05C15
Abstract

This paper proves that if $G$ is a graph (parallel edges allowed) of maximum degree 3, then $\chi_c'(G) \leq 11/3$ provided that $G$ does not contain $H_1$ or $H_2$ as a subgraph, where $H_1$ and $H_2$ are obtained by subdividing one edge of $K_2^3$ (the graph with three parallel edges between two vertices) and $K_4$, respectively. As $\chi_c'(H_1) = \chi_c'(H_2) = 4$, our result implies that there is no graph $G$ with $11/3 < \chi_c'(G) < 4$. It also implies that if $G$ is a 2-edge connected cubic graph, then $\chi'(G) \le 11/3$.

Published
2006

117. Bad list assignments for non‐k $k$‐choosable k $k$‐chromatic graphs with 2k+2 $2k+2$‐vertices.

Author

Zhu, Jialu and Zhu, Xuding

Subjects
*LOGICAL prediction, *COMPLETE graphs, *BIPARTITE graphs
Abstract

It was conjectured by Ohba, and proved by Noel, Reed and Wu that k $k$‐chromatic graphs G $G$ with ∣V(G)∣≤2k+1 $| V(G)| \le 2k+1$ are chromatic‐choosable. This upper bound on ∣V(G)∣ $| V(G)| $ is tight: if k $k$ is even, then K3⋆(k∕2+1),1⋆(k∕2−1) ${K}_{3\star (k\unicode{x02215}2+1),1\star (k\unicode{x02215}2-1)}$ and K4,2⋆(k−1) ${K}_{4,2\star (k-1)}$ are k $k$‐chromatic graphs with 2k+2 $2k+2$ vertices that are not chromatic‐choosable. It was proved by Zhu and Zhu that these are the only non‐k $k$‐choosable complete k $k$‐partite graphs with 2k+2 $2k+2$ vertices. For G∈{K3⋆(k∕2+1),1⋆(k∕2−1),K4,2⋆(k−1)} $G\in \{{K}_{3\star (k\unicode{x02215}2+1),1\star (k\unicode{x02215}2-1)},{K}_{4,2\star (k-1)}\}$, a bad list assignment of G $G$ is a k $k$‐list assignment L $L$ of G $G$ such that G $G$ is not L $L$‐colourable. Bad list assignments for G=K4,2⋆(k−1) $G={K}_{4,2\star (k-1)}$ were characterized by Enomoto, Ohba, Ota and Sakamoto. In this paper, we first give a simpler proof of this result, and then we characterize bad list assignments for G=K3⋆(k∕2+1),1⋆(k∕2−1) $G={K}_{3\star (k\unicode{x02215}2+1),1\star (k\unicode{x02215}2-1)}$. Using these results, we characterize all non‐k $k$‐choosable k $k$‐chromatic graphs with 2k+2 $2k+2$ vertices. [ABSTRACT FROM AUTHOR]

Published
2023
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127. Complexity of Cycle Transverse Matching Problems

Author

Churchley, Ross, Huang, Jing, Zhu, Xuding, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Iliopoulos, Costas S., editor, and Smyth, William F., editor

Published
2011
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131. List Total Weighting of Graphs

Author

Wong, Tsai-Lien, Zhu, Xuding, Yang, Daqing, Tóth, Gábor Fejes, editor, Katona, Gyula O. H., editor, Lovász, László, editor, Pálfy, Péter Pál, editor, Recski, András, editor, Stipsicz, András, editor, Szász, Domokos, editor, Miklós, Dezső, editor, Schrijver, Alexander, editor, Szőnyi, Tamás, editor, and Sági, Gábor, editor

Published
2010
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134. Recent Developments in Circular Colouring of Graphs

Author

Zhu, Xuding, Graham, R. L., editor, Korte, B., editor, Lovász, L., editor, Wigderson, A., editor, Ziegler, G. M., editor, Klazar, Martin, editor, Kratochvíl, Jan, editor, Loebl, Martin, editor, Matoušek, Jiří, editor, Valtr, Pavel, editor, and Thomas, Robin, editor

Published
2006
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