481 research outputs found
Extremal Infinite Graph Theory
We survey various aspects of infinite extremal graph theory and prove several
new results. The lead role play the parameters connectivity and degree. This
includes the end degree. Many open problems are suggested.Comment: 41 pages, 16 figure
Logarithmically-small Minors and Topological Minors
Mader proved that for every integer there is a smallest real number
such that any graph with average degree at least must contain a
-minor. Fiorini, Joret, Theis and Wood conjectured that any graph with
vertices and average degree at least must contain a -minor
consisting of at most vertices. Shapira and Sudakov
subsequently proved that such a graph contains a -minor consisting of at
most vertices. Here we build on their method
using graph expansion to remove the factor and prove the
conjecture.
Mader also proved that for every integer there is a smallest real number
such that any graph with average degree larger than must contain
a -topological minor. We prove that, for sufficiently large , graphs
with average degree at least contain a -topological
minor consisting of at most vertices. Finally, we show
that, for sufficiently large , graphs with average degree at least
contain either a -minor consisting of at most
vertices or a -topological minor consisting of at most
vertices.Comment: 19 page
An advance in infinite graph models for the analysis of transportation networks
This paper extends to infinite graphs the most general extremal issues, which are problems of determining the maximum
number of edges of a graph not containing a given subgraph. It also relates the new results with the corresponding situations
for the finite case. In particular, concepts from ‘finite’ graph theory, like the average degree and the extremal number, are
generalized and computed for some specific cases. Finally, some applications of infinite graphs to the transportation of
dangerous goods are presented; they involve the analysis of networks and percolation thresholds.Unión Europea FEDER G-GI3003/IDI
Graph Theory
This workshop focused on recent developments in graph theory. These included in particular recent breakthroughs on nowhere-zero flows in graphs, width parameters, applications of graph sparsity in algorithms, and matroid structure results
On topological relaxations of chromatic conjectures
There are several famous unsolved conjectures about the chromatic number that
were relaxed and already proven to hold for the fractional chromatic number. We
discuss similar relaxations for the topological lower bound(s) of the chromatic
number. In particular, we prove that such a relaxed version is true for the
Behzad-Vizing conjecture and also discuss the conjectures of Hedetniemi and of
Hadwiger from this point of view. For the latter, a similar statement was
already proven in an earlier paper of the first author with G. Tardos, our main
concern here is that the so-called odd Hadwiger conjecture looks much more
difficult in this respect. We prove that the statement of the odd Hadwiger
conjecture holds for large enough Kneser graphs and Schrijver graphs of any
fixed chromatic number
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