This thesis is a study of the faces of certain combinatorially defined polyhedra. In particular, we examine the vertices and facets of these polyhedra. Chapter 2 contains the essential mathematical background in polyhedral theory, linear programming and graph theory. We also discuss the existence of an integer-valued optimum solution to a linear program. This is essential for determining that the vertices of certain polyhedra are integer-valued, and for establishing related combinatorial min-max relations. Chapter 3 is the a application of the results of Chapter 4 to the polymatroid aspects of matroid theory. We characterize the vertices and the facets of the intersection of two matroid polyhedra. We use the characterization of the facets of this intersection to derive a graph theoretic description of the facets of the polyhedron associated with branchings in a graph. In Chapter 5 we discuss certain polyhedra which can be associated with strong k-covers and strong k-matchings of an acyclic graph. By proving the existence of integer¥valued optimum solutions to particular primal-dual pairs of linear programs we are able to demonstrate certain combinatorial min-max relations. Chapter 6 is a unification of the polyhedra described in Chapters 4 and 5, We give a combinatorial definition of a class of polyhedra which includes polymatroid intersection and the polyhedra associated with strong k-covers and strong k-matchings of an acyclic graph. We establish the existence of integer-valued optimum solutions to certain dual linear programs and thereby draw conclusions concerning the integrality of the vertices of particular polyhedra within this class. The applications include establishing the integrality of the vertices of the intersection of two integral polymatroids and the integrality of the vertices of strong k-cover and strong k-matching polyhedra. Chapter 7 is a discussion of the facets of polyhedra defined in Chapter 6 and we obtain a description of the facets of a subclass of these polyhedra which includes a description of the facets of the intersection of two polymatroids and the facets of strong k-cover and strong k-matching polyhedra.
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SUBMODULAR FUNCTIONS, GRAPHS AND INTEGER POLYHEDRA