Graduiertenkolleg: Methods for Discrete Structures

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Monday Lecture and Colloquium


Monday, April 27, 2015

Technische Universität Berlin
Institut für Mathematik
Straße des 17. Juni 136
10623 Berlin
room MA 041



Lecture - 14:15

Reinhard Diestel - Universität Hamburg

Unifying duality theorems for width parameters in graphs and matroids

Abstract:
We prove a general duality theorem for width parameters in combinatorial structures such as graphs and matroids. It implies the classical such theorems for path-width, tree-width, branch-width and rank-width, and gives rise to new width parameters with associated duality theorems. The dense substructures witnessing large width are presented in a unified way akin to tangles, as orientations of separation systems satisfying certain consistency axioms.




Colloquium - 16:00

Gennadiy Averkov - OVGU Magdeburg

Integrally maximal lattice-free polyhedra

Abstract:
A polyhedron P is called integral if P is the convex hull of its integral points; P is called lattice-free if the interior of P contains no integral points. Integral lattice-free polyhedra occur in several areas of research including cutting-plane theory for mixed-integer optimization and the geometry of toric varieties.

We call an integral lattice-free polyhedron P integrally maximal if P is not a proper subset of another integral lattice-free polyhedron. It is known that, for each given dimension, there are essentially finitely many integral lattice-free polyhedra that are integrally maximal. However, classification of such polyhedra is a challenging task for each dimension starting from three. Benjamin Nill and Günter Ziegler (2011) asked whether in dimension three integrally maximal integral lattice-free polyhedra are also maximal in a certain stronger sense (that is, within the family of all lattice-free polyhedra). I will present a result that answers the latter question in positive and enables to carry out a complete classification in the case of dimension three.

This is joint work with Jan Krümpelmann and Stefan Weltge.



Letzte Aktualisierung: 17.04.2015