Open AccessSpanning Trees with Many Leaves
Author(s) -
Daniel J. Kleitman,
Douglas B. West
Publication year - 1991
Publication title -
siam journal on discrete mathematics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.843
H-Index - 66
eISSN - 1095-7146
pISSN - 0895-4801
DOI - 10.1137/0404010
Subject(s) - combinatorics , mathematics , spanning tree , minimum degree spanning tree , vertex (graph theory) , minimum spanning tree , graph , connectivity , integer (computer science) , degree (music) , discrete mathematics , physics , computer science , acoustics , programming language
A connected graph having large minimum vertex degree must have a spanning tree with many leaves. In particular, let $l( n,k )$ be the maximum integer m such that every connected n-vertex graph with minimum degree at least k has a spanning tree with at least m leaves. Then $l( n,3 )\geqq n/4 + 2, l( n,4 )\geqq ( 2n + 8 )/5,$ and $l( n,k )\leqq n - 3\lfloor n/( k + 1 ) \rfloor + 2$ for all k. The lower bounds are proved by an algorithm that constructs a spanning tree with at least the desired number of leaves. Finally, $l( n,k )\geqq ( 1 - b \ln k/k )n$ for large k, again proved algorithmically, where b is any constant exceeding 2.5.
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