Importance: Medium ✭✭
Author(s): Tarsi, Michael
Subject: Graph Theory
» Coloring
Keywords:
Recomm. for undergrads: no
Posted by: fhavet
on: March 3rd, 2013
Conjecture   The union of a $ 1 $-degenerate graph (a forest) and a $ 2 $-degenerate graph is $ 5 $-colourable.

A graph is $ k $-degenerate if it can be reduced to $ K_1 $ (the graph with a unique vertex) by repeatedly deleting vertices of degree at most $ k $. A $ 1 $-degenerate graph $ G_1 $ admits a proper $ 2 $-colouring $ c_1 $, and a $ 2 $-degenerate graph $ G_2 $ admits a proper $ 3 $-colouring $ c_2 $. Thus, $ (c_1,c_2) $ is a proper $ 6 $-colouring of $ G_1 $ and $ G_2 $.

The conjecture is tigth because $ K_5 $ is the union of a $ 1 $-degenerate graph and a $ 2 $-degenerate graph.

Based on a decompostion of the complete graph, Klein and Schönheim [KlSc93] generalised this conjecture to $ (m_1, \dots, m_s) $-composed graphs, which are unions of $ s $ graphs $ G_1, \dots , G_s $ such that $ G_i $ is $ m_i $-degenerate, $ 1\leq i\leq s $.

Conjecture   Every $ (m_1, \dots, m_s) $-composed graph is $ \left(\sum_{i=1}^s m_i+\bigg\lfloor\frac{1}{2}\bigg(1+\sqrt{1+8\sum_{1\leq i<j\leq s}m_i m_j}\bigg)\bigg\rfloor\right) $-colourable.

Partial results towards this conjecture are obtained in [KlSc95].

Bibliography

*[K] R. Klein. On the colorability of {$ m $}-composed graphs. Discrete Math. 133 (1994), 181--190.

[KlSc93] R. Klein and J. Schönheim. Decomposition of {$ K_n $} into degenerate graphs. In Combinatorics and graph theory (Hefei, 1992), pages 141--155. World Sci. Publ., River Edge, NJ, 1993.

[KlSc95] R. Klein and J. Schönheim. On the colorability of graphs decomposable into degenerate graphs with specified degeneracy. Australas. J. Combin., 12:201--208, 1995.


* indicates original appearance(s) of problem.

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