Abstract
Suppose we have a tournament with edges labelled so that the edges incident with any vertex have at most k distinct labels (and no vertex has outdegree 0). Let m be the minimal size of a subset of labels such that for any vertex there exists an outgoing edge labelled by one of the labels in the subset. It was known that m ≤ (k+12) for any tournament. We show that this bound is almost best possible, by a probabilistic construction of tournaments with m = O(k2/log k). We give explicit tournaments with m = k2−o(1). If the number of vertices is bounded by N < 2k1 we have a better upper bound of m = O(k log N), which is again almost optimal. We also consider a relaxation of this problem in which instead of the size of a subset of labels we minimize the total weight of a fractional set with analogous properties. In that case the optimal bound is 2k − 1. © 1996 John Wiley & Sons, Inc.
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