Optimization on products of combinatorial structures

Chappell, Glenn G.

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https://hdl.handle.net/2142/22881 Copy

Description

Title

Optimization on products of combinatorial structures

Author(s)

Chappell, Glenn G.

Issue Date

1996

Doctoral Committee Chair(s)

West, Douglas B.

Department of Study

Mathematics

Discipline

Mathematics

Degree Granting Institution

University of Illinois at Urbana-Champaign

Degree Name

Ph.D.

Degree Level

Dissertation

Keyword(s)

Mathematics

Language

eng

Abstract

• We consider optimization problems on combinatorial structures with a product form. The independence number of a graph G, denoted $\alpha (G)$, is the size of the largest independent set in G, where a subset S of the vertex set V(G) is independent if no two vertices in S are adjacent in G. The clique covering number of G, denoted $\Theta (G)$, is the minimum number of complete subgraphs required to cover the vertices of G.
• The Cartesian product of graphs G and H, denoted $G\square H$, is defined by $V(G\square H) = V(G)\times V(H)$, with vertices $(g\sb1,\ h\sb1)$ and $(g\sb2,\ h\sb2)$ adjacent in $G\square H$ if and only if either (1) $g\sb1,\ g\sb2$ are adjacent in G and $h\sb1 = h\sb2$, or (2) $g\sb1 = g\sb2$ and $h\sb1,\ h\sb2$ are adjacent in H. We seek sufficient conditions on graphs G and H for $\alpha (G\square H) = \Theta (G\square H)$.
• We define product perfection, a product generalization of graph perfection. We prove product perfection for several classes of Cartesian product graphs. We extend these ideas to the context of integer linear programs. We define and study a product generalization of total dual integrality, a condition guaranteeing that a linear program has an integer optimum solution.
• We also discuss optimization on product structures in the context of independence systems. An independence system is a pair consisting of a set E and a nonempty collection of subsets of E that is closed under taking subsets. We extend results of West and Tovey on products of partially ordered sets to independence systems.
• A theorem of Greene and Kleitman states that in any finite partially ordered set P, certain upper bounds on the sizes of unions of antichains are tight. We extend results of West showing when the Greene-Kleitman Theorem is best possible.

Type of Resource

text

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http://hdl.handle.net/2142/22881

Copyright and License Information

Copyright 1996 Chappell, Glenn G.

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