论文信息 - On k-ary spanning trees of tournaments

On k-ary spanning trees of tournaments

It is well known that every tournament contains a Hamiltonian path, which can be restated as that every tournament contains a unary spanning tree. The purpose of this article is to study the general problem of whether a tournament contains a k-ary spanning tree. In particular, we prove that, for any fixed positive integer k, there exists a minimum number h(k) such that every tournament of order at least h(k) contains a k-ary spanning tree. The existence of a Hamiltonian path for any tournament is the same as h(1) = 1. We then show that h(2) = 4 and h(3) = 8. The values of h(k) remain unknown for k ≥ 4. c © 1999 John Wiley & Sons, Inc. J Graph Theory 30: 167–176, 1999

Chak-Kuen Wong | Da-Wei Wang | Gerard J. Chang | Xiaoyun Lu | In-Jen Lin

[1] H. Landau. On dominance relations and the structure of animal societies: III The condition for a score structure , 1953 .

[2] Branko Grünbaum. Antidirected Hamiltonian paths in tournaments , 1971 .

[3] Chak-Kuen Wong,et al. Rooted Spanning Trees in Tournaments , 2000, Graphs Comb..

[4] K. B. Reid,et al. Three Problems on Tournaments , 1989 .

[5] Xiaoyun Lu. Claws contained in all n-tournaments , 1993, Discret. Math..

[6] Xiaoyun Lu. On claws belonging to every tournament , 1991, Comb..

[7] Xiaoyun Lu. On avoidable and unavoidable trees , 1996, J. Graph Theory.

[8] T. Skolem. Ein kombinatorischer Satz mit Anwendung auf ein logisches Entscheidungsproblem , 1933 .

[9] M. Rosenfeld. Antidirected Hamiltonian circuits in tournaments , 1974 .

[10] Michael E. Saks,et al. Largest digraphs contained in alln-tournaments , 1983, Comb..

[11] Chak-Kuen Wong,et al. On avoidable and unavoidable claws , 1998, Discret. Math..

[12] Andrew Thomason,et al. Trees in tournaments , 1991, Comb..

[13] Gerard J. Chang,et al. MEDIANS OF GRAPHS AND KINGS OF TOURNAMENTS , 1997 .