论文信息 - (1,{\lambda})-embedded graphs and the acyclic edge choosability

(1,{\lambda})-embedded graphs and the acyclic edge choosability

A (1,{\lambda})-embedded graph is a graph that can be embedded on a surface with Euler characteristic {\lambda} so that each edge is crossed by at most one other edge. A graph G is called {\alpha}-linear if there exists an integral constant {\beta} such that e(G') \leq {\alpha} v(G')+{\beta} for each G'\subseteq G. In this paper, it is shown that every (1,{\lambda})-embedded graph G is 4-linear for all possible {\lambda}, and is acyclicly edge-(3{\Delta}(G)+70)-choosable for {\lambda}=1,2.

Guizhen Liu | Xin Zhang | Jian-Liang Wu

[1] Aldo Procacci,et al. Improved bounds on coloring of graphs , 2010, Eur. J. Comb..

[2] T. Coleman,et al. The cyclic coloring problem and estimation of spare hessian matrices , 1986 .

[3] Mariusz Haluszczak,et al. About acyclic edge colourings of planar graphs , 2008, Inf. Process. Lett..

[4] Tomás Madaras,et al. The structure of 1-planar graphs , 2007, Discret. Math..

[5] G. Ringel. Ein Sechsfarbenproblem auf der Kugel , 1965 .

[6] Wayne Goddard,et al. Acyclic colorings of planar graphs , 1991, Discret. Math..

[7] Noga Alon,et al. Acyclic edge colorings of graphs , 2001, J. Graph Theory.

[8] Elwood S. Buffa,et al. Graph Theory with Applications , 1977 .

[9] Thomas F. Coleman,et al. Estimation of sparse hessian matrices and graph coloring problems , 1982, Math. Program..

[10] J. A. Bondy,et al. Graph Theory with Applications , 1978 .

[11] Bruce A. Reed,et al. Acyclic Coloring of Graphs , 1991, Random Struct. Algorithms.

[12] Bruce A. Reed,et al. Further algorithmic aspects of the local lemma , 1998, STOC '98.