Shannon multigraph : Examples, Edge coloring Wikipedia, the free encyclopedia

Shannon multigraph

In the mathematical discipline of graph theory, Shannon multigraphs, named after Claude Shannon by Vizing (1965), are a special type of triangle graphs, which are used in the field of edge coloring in particular.

A Shannon multigraph is multigraph with 3 vertices for which either of the following conditions holds:

a) all 3 vertices are connected by the same number of edges.
b) as in a) and one additional edge is added.

More precisely one speaks of Shannon multigraph Sh(n), if the three vertices are connected by $\left\lfloor {\frac {n}{2}}\right\rfloor$ , $\left\lfloor {\frac {n}{2}}\right\rfloor$ and $\left\lfloor {\frac {n+1}{2}}\right\rfloor$ edges respectively. This multigraph has maximum degree n. Its multiplicity (the maximum number of edges in a set of edges that all have the same endpoints) is $\left\lfloor {\frac {n+1}{2}}\right\rfloor$ .

Examples

Shannon multigraphs
Sh(2)
Sh(3)
Sh(4)
Sh(5)
Sh(6)
Sh(7)

Edge coloring

According to a theorem of Shannon (1949), every multigraph with maximum degree $\Delta$ has an edge coloring that uses at most ${\frac {3}{2}}\Delta$ colors. When $\Delta$ is even, the example of the Shannon multigraph with multiplicity $\Delta /2$ shows that this bound is tight: the vertex degree is exactly $\Delta$ , but each of the ${\frac {3}{2}}\Delta$ edges is adjacent to every other edge, so it requires ${\frac {3}{2}}\Delta$ colors in any proper edge coloring.

A version of Vizing's theorem (Vizing 1964) states that every multigraph with maximum degree $\Delta$ and multiplicity $\mu$ may be colored using at most $\Delta +\mu$ colors. Again, this bound is tight for the Shannon multigraphs.

References

Fiorini, S.; Wilson, Robin James (1977), Edge-colourings of graphs, Research Notes in Mathematics, vol. 16, London: Pitman, p. 34, ISBN 0-273-01129-4, MR 0543798
Shannon, Claude E. (1949), "A theorem on coloring the lines of a network", J. Math. Physics, 28: 148–151, doi:10.1002/sapm1949281148, hdl:10338.dmlcz/101098, MR 0030203.
Volkmann, Lutz (1996), Fundamente der Graphentheorie (in German), Wien: Springer, p. 289, ISBN 3-211-82774-9.
Vizing, V. G. (1964), "On an estimate of the chromatic class of a p-graph", Diskret. Analiz., 3: 25–30, MR 0180505.
Vizing, V. G. (1965), "The chromatic class of a multigraph", Kibernetika, 1965 (3): 29–39, MR 0189915.