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Degree diameter problem

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In graph theory, the degree diameter problem is the problem of finding the largest possible graph G (in terms of the size of its vertex set V) of diameter k such that the largest degree of any of the vertices in G is at most d. The size of G is bounded above by the Moore bound; for 1 < k and 2 < d, only the Petersen graph, the Hoffman-Singleton graph, and possibly graphs (not yet proven to exist) of diameter k = 2 and degree d = 57 attain the Moore bound. In general, the largest degree-diameter graphs are much smaller in size than the Moore bound.

Formula

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Let be the maximum possible number of vertices for a graph with degree at most d and diameter k. Then , where is the Moore bound:

This bound is attained for very few graphs, thus the study moves to how close there exist graphs to the Moore bound. For asymptotic behaviour note that .

Define the parameter . It is conjectured that for all k. It is known that and that .

See also

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References

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  • Bannai, E.; Ito, T. (1973), "On Moore graphs", J. Fac. Sci. Univ. Tokyo Ser. A, 20: 191–208, MR 0323615
  • Hoffman, Alan J.; Singleton, Robert R. (1960), "Moore graphs with diameter 2 and 3" (PDF), IBM Journal of Research and Development, 5 (4): 497–504, doi:10.1147/rd.45.0497, MR 0140437
  • Singleton, Robert R. (1968), "There is no irregular Moore graph", American Mathematical Monthly, 75 (1), Mathematical Association of America: 42–43, doi:10.2307/2315106, JSTOR 2315106, MR 0225679
  • Miller, Mirka; Širáň, Jozef (2005), "Moore graphs and beyond: A survey of the degree/diameter problem", Electronic Journal of Combinatorics, Dynamic survey: DS14
  • CombinatoricsWiki - The Degree/Diameter Problem