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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
101

Constrained graph partitioning : decomposition, polyhedral structure and algorithms

Mehrotra, Anuj 12 1900 (has links)
No description available.
102

Graph approximation : issues and complexity

Horton, Steven Bradish 05 1900 (has links)
No description available.
103

The Bernoulli salesman

Whitaker, Linda M. 08 1900 (has links)
No description available.
104

On partial completion problems

Easton, Todd William 08 1900 (has links)
No description available.
105

Linear algorithms for graphs of tree-width at most four

Sanders, Daniel Preston 08 1900 (has links)
No description available.
106

Varieties of graph congruences

Weiss, Alex. January 1984 (has links)
Graph-monoids are introduced as algebraic objects which correspond to congruences over graphs. Varieties are defined, and a one-to-one correspondence between varieties of graph-monoids and varieties of graph-congruences is demonstrated. This is viewed as a generalization of the known correspondence between monoid varieties and congruence varieties. Some classification and effective characterizations of graph-monoid varieties are obtained. These are used to decide membership in the wreath product of certain monoids varieties and the variety of definite semigroups.
107

Perfect graphs

Hoang, Chinh T. January 1985 (has links)
No description available.
108

Two classes of perfect graphs / 2 classes of perfect graphs.

Hayward, Ryan B. January 1986 (has links)
No description available.
109

Aspects of graph vulnerability.

Day, David Peter. January 1994 (has links)
This dissertation details the results of an investigation into, primarily, three aspects of graph vulnerability namely, l-connectivity, Steiner Distance hereditatiness and functional isolation. Following the introduction in Chapter one, Chapter two focusses on the l-connectivity of graphs and introduces the concept of the strong l-connectivity of digraphs. Bounds on this latter parameter are investigated and then the l-connectivity function of particular types of graphs, namely caterpillars and complete multipartite graphs as well as the strong l-connectivity function of digraphs, is explored. The chapter concludes with an examination of extremal graphs with a given l-connectivity. Chapter three investigates Steiner distance hereditary graphs. It is shown that if G is 2-Steiner distance hereditary, then G is k-Steiner distance hereditary for all k≥2. Further, it is shown that if G is k-Steiner distance hereditary (k≥ 3), then G need not be (k - l)-Steiner distance hereditary. An efficient algorithm for determining the Steiner distance of a set of k vertices in a k-Steiner distance hereditary graph is discussed and a characterization of 2-Steiner distance hereditary graphs is given which leads to an efficient algorithm for testing whether a graph is 2-Steiner distance hereditary. Some general properties about the cycle structure of k-Steiner distance hereditary graphs are established and are then used to characterize 3-Steiner distance hereditary graphs. Chapter four contains an investigation of functional isolation sequences of supply graphs. The concept of the Ranked supply graph is introduced and both necessary and sufficient conditions for a sequence of positive nondecreasing integers to be a functional isolation sequence of a ranked supply graph are determined. / Thesis (Ph.D.)-University of Natal, 1994.
110

Aspects of distance and domination in graphs.

Smithdorf, Vivienne. January 1995 (has links)
The first half of this thesis deals with an aspect of domination; more specifically, we investigate the vertex integrity of n-distance-domination in a graph, i.e., the extent to which n-distance-domination properties of a graph are preserved by the deletion of vertices, as well as the following: Let G be a connected graph of order p and let oi- S s;:; V(G). An S-n-distance-dominating set in G is a set D s;:; V(G) such that each vertex in S is n-distance-dominated by a vertex in D. The size of a smallest S-n-dominating set in G is denoted by I'n(S, G). If S satisfies I'n(S, G) = I'n(G), then S is called an n-distance-domination-forcing set of G, and the cardinality of a smallest n-distance-domination-forcing set of G is denoted by On(G). We investigate the value of On(G) for various graphs G, and we characterize graphs G for which On(G) achieves its lowest value, namely, I'n(G), and, for n = 1, its highest value, namely, p(G). A corresponding parameter, 1](G), defined by replacing the concept of n-distance-domination of vertices (above) by the concept of the covering of edges is also investigated. For k E {a, 1, ... ,rad(G)}, the set S is said to be a k-radius-forcing set if, for each v E V(G), there exists Vi E S with dG(v, Vi) ~ k. The cardinality of a smallest k-radius-forcing set of G is called the k-radius-forcing number of G and is denoted by Pk(G). We investigate the value of Prad(G) for various classes of graphs G, and we characterize graphs G for which Prad(G) and Pk(G) achieve specified values. We show that the problem of determining Pk(G) is NP-complete, study the sequences (Po(G),Pl(G),P2(G), ... ,Prad(G)(G)), and we investigate the relationship between Prad(G)(G) and Prad(G)(G + e), and between Prad(G)(G + e) and the connectivity of G, for an edge e of the complement of G. Finally, we characterize integral triples representing realizable values of the triples b,i,p), b,l't,i), b,l'c,p), b,l't,p) and b,l't,l'c) for a graph. / Thesis (Ph.D.-Mathematics and Applied Mathematics)-University of Natal, 1995.

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