MattDeVos

Archive of posts with tag 'MattDeVos'

  • (Colloquium) Matt DeVos, On the structure of very small product sets

    FYI (Colloquium)

    On the structure of very small product sets
    Matt DeVos
    Simon Fraser University, Canada
    2014/09/25 Thursday 4:30PM – 5:30PM
    Room 1501

    (SLIDE)

    Let A and B be finite nonempty subsets of a multiplicative group G, and consider the product set AB = { ab | a in A and b in B }. When |G| is prime, a famous theorem of Cauchy and Davenport asserts that |AB| is at least the minimum of {|G|, |A| + |B| – 1}. This lower bound was refined by Vosper, who characterized all pairs (A,B) in such a group for which |AB| < |A| + |B|. Kneser generalized the Cauchy-Davenport theorem by providing a natural lower bound on |AB| which holds in every abelian group. Shortly afterward, Kemperman determined the structure of those pairs (A,B) with |AB| < |A| + |B| in abelian groups. Here we present a further generalization of these results to arbitrary groups. Namely we generalize Kneser’s Theorem, and we determine the structure of those pairs with |AB| < |A| + |B| in arbitrary groups.
  • Matt DeVos, Immersion in Graphs and Digraphs

    Immersion in Graphs and Digraphs
    Matt DeVos
    Simon Fraser University, Canada
    2014/09/12 *Friday* 4PM-5PM
    Room 1409
    Graph immersion is a natural containment relation like graph minors. However, until recently, graph immersion has received relatively little attention. In this talk we shall describe some recent progress toward understanding when a graph does not immerse a certain subgraph. Namely, we detail a rough structure theorem for graphs which do not have K_t as an immersion, and we discuss the precise structure of graphs which do not have K_{3,3} as an immersion.</p>

    Then we turn our attention to a special class of digraphs, those for which every vertex has both indegree and outdegree equal to 2. These digraphs have special embeddings in surfaces where every vertex has a local rotation in which the inward and outward edges alternate. It turns out that the nature of these embeddings relative to immersion is quite closely related to the usual theory of graph embedding and graph minors. Here we describe the complete list of forbidden immersions for (special) embeddings in the projective plane.

    These results are joint with various coauthors including Archdeacon, Dvorak, Fox, Hannie, Malekian, McDonald, Mohar, and Scheide.

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  • Matt DeVos, Additive combinatorics: subsets, sum-product problems, and graphs (KAIST CMC Special Lecture Series)

    Additive combinatorics: subsets, sum-product problems, and graphs
    Matt DeVos
    Department of Mathematics, Simon Fraser University, Burnaby, B.C. Canada
    2014/09/02 Tuesday 4pm-6pm Room 1409

    Lecture 1: Sumsets and Subsequence Sums (Cauchy-Davenport, Kneser, and Erdos-Ginzburg-Ziv) (LECTURE NOTE)

    2014/09/16 Tuesday 4pm-6pm Room 1409

    Lecture 2: Rough Structure (Green-Ruzsa) (LECTURE NOTE)

    2014/09/18 Thursday 4pm-6pm Room 3433

    Lecture 3: Sums and Products (Elekes and Dvir) (LECTURE NOTE)

    2014/09/23 Tuesday 4pm-6pm Room 1409

    Lecture 4: Graphs and Sumsets (Schrijver-Seymour) (LECTURE NOTE)

    I intend to give an introduction to some of the wonderful topics in the world of additive combinatorics. This is a broad subject which features numerous different tools and techniques, and is presently a hotbed of exciting research. My focus will be on the combinatorics, and I will keep things as basic as possible (I will assume nothing more than a basic background in combinatorics). I’ll begin the tour with some of the classical theorems like Cauchy-Davenport and Erdos-Ginzburg-Ziv and I will exhibit some very clean proofs of these and other results such as the Theorems of Schrijver-Seymour, Green-Ruzsa, Dvir, and Elekes. We will also discuss (but not prove) some more recent results like the Breulliard-Green-Tao Theorem.
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