论文信息 - Some New Characterizations of Graph Colorability and of Blocking Sets of Projective Spaces

Some New Characterizations of Graph Colorability and of Blocking Sets of Projective Spaces

Let $G=(V,E)$ be a graph and $q$ be an odd prime power. We prove that $G$ possess a proper vertex coloring with $q$ colors if and only if there exists an odd vertex labeling $x\in F_q^V$ of $G$. Here, $x$ is called odd if there is an odd number of partitions $\pi=\{V_1,V_2,\dotsc,V_t\}$ of $V$ whose blocks $V_i$ are $G$-bipartite and $x$-balanced, i.e., such that $G|_{V_i}$ is connected and bipartite, and $\sum_{v\in V_i}x_v=0$. Other new characterizations concern edge colorability of graphs and, on a more general level, blocking sets of projective spaces. Some of these characterizations are formulated in terms of a new switching game.

Uwe Schauz | U. Schauz

[1] Uwe Schauz. Anti-Codes in Terms of Berlekamp's Switching Game , 2012, Electron. J. Comb..

[2] Bruce E. Sagan,et al. Sinks in Acyclic Orientations of Graphs , 2000, J. Comb. Theory, Ser. B.

[3] Uwe Schauz,et al. Colorings and Nowhere-Zero Flows of Graphs in Terms of Berlekamp's Switching Game , 2011, Electron. J. Comb..

[4] Uwe Schauz,et al. Algebraically Solvable Problems: Describing Polynomials as Equivalent to Explicit Solutions , 2008, Electron. J. Comb..

[5] H. Whitney. A logical expansion in mathematics , 1932 .

[6] Thomas Zaslavsky,et al. ON THE INTERPRETATION OF WHITNEY NUMBERS THROUGH ARRANGEMENTS OF HYPERPLANES, ZONOTOPES, NON-RADON PARTITIONS, AND ORIENTATIONS OF GRAPHS , 1983 .