88 research outputs found
Monochromatic loose paths in multicolored -uniform cliques
For integers and , a -uniform hypergraph is called a
loose path of length , and denoted by , if it consists of
edges such that if and
if . In other words, each pair of
consecutive edges intersects on a single vertex, while all other pairs are
disjoint. Let be the minimum integer such that every
-edge-coloring of the complete -uniform hypergraph yields a
monochromatic copy of . In this paper we are mostly interested in
constructive upper bounds on , meaning that on the cost of
possibly enlarging the order of the complete hypergraph, we would like to
efficiently find a monochromatic copy of in every coloring. In
particular, we show that there is a constant such that for all ,
, , and , there is an
algorithm such that for every -edge-coloring of the edges of , it
finds a monochromatic copy of in time at most . We also
prove a non-constructive upper bound
On the order of the largest induced tree in a random graph
AbstractConsider a random graph K(n, p) with n labeled vertices in which the edges are chosen independently and with a probability p. Let Tn(p) be the order of the largest induced tree in K(n, p). Among other results it is shown, using an algorithmic approach, that if p=(c log n)/n, where c ≥ e is a constant, then for any fixed ε > 01c−εlog lognlognn<Tn(p)<2c+εlog lognlogn almost surely
Planar Ramsey numbers for cycles
AbstractFor two given graphs G and H the planar Ramsey number PR(G,H) is the smallest integer n such that every planar graph F on n vertices either contains a copy of G or its complement contains a copy H. By studying the existence of subhamiltonian cycles in complements of sparse graphs, we determine all planar Ramsey numbers for pairs of cycles
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