Your search keyword '"Weakly distributive"' showing total 2 results

1. Poset extensions, convex sets, and semilattice presentations

Author

Bińczak, G., Romanowska, A.B., and Smith, J.D.H.

Subjects

*PARTIALLY ordered sets, *ALGEBRA, *CONVEX sets, *SEMILATTICES

Abstract

Abstract: The paper is devoted to an algebraic and geometric study of the feasible set of a poset, the set of finite probability distributions on the elements of the poset whose weights satisfy the order relationships specified by the poset. For a general poset, this feasible set is a barycentric algebra. The feasible sets of the order structures on a given finite set are precisely the convex unions of the primary simplices, the facets of the first barycentric subdivision of the simplex spanned by the elements of the set. As another fragment of a potential complete duality theory for barycentric algebras, a duality is established between order-preserving mappings and embeddings of feasible sets. In particular, the primary simplices constituting the feasible set of a given finite poset are the feasible sets of the linear extensions of the poset. A finite poset is connected if and only if its barycentre is an extreme point of its feasible set. The feasible set of a (general) disconnected poset is the join of the feasible sets of its components. The extreme points of the feasible set of a finite poset are specified in terms of the disjointly irreducible elements of the semilattice presented by the poset. Semilattices presented by posets are characterised in terms of various distributivity concepts. [Copyright &y& Elsevier]

Published

2007

2. Poset extensions, convex sets, and semilattice presentations

Author

Grzegorz Bińczak, Anna B. Romanowska, and Jonathan D. H. Smith

Subjects

Duality (mathematics), Convex set, Semilattice, Barycentric subdivision, Extreme point, Mildly distributive, Theoretical Computer Science, Combinatorics, Maximal chain, Szpilrajn theorem, Discrete Mathematics and Combinatorics, Barycentric algebra, Semilattice presentation, Finite set, Linear extension, Mathematics, Discrete mathematics, Mathematics::Combinatorics, Distributive semilattice, Feasible region, Duality theory, Poset dimension, Irreducible element, Graded poset, Poset extension, Partially ordered set, Weakly distributive

Abstract

The paper is devoted to an algebraic and geometric study of the feasible set of a poset, the set of finite probability distributions on the elements of the poset whose weights satisfy the order relationships specified by the poset. For a general poset, this feasible set is a barycentric algebra. The feasible sets of the order structures on a given finite set are precisely the convex unions of the primary simplices, the facets of the first barycentric subdivision of the simplex spanned by the elements of the set. As another fragment of a potential complete duality theory for barycentric algebras, a duality is established between order-preserving mappings and embeddings of feasible sets. In particular, the primary simplices constituting the feasible set of a given finite poset are the feasible sets of the linear extensions of the poset. A finite poset is connected if and only if its barycentre is an extreme point of its feasible set. The feasible set of a (general) disconnected poset is the join of the feasible sets of its components. The extreme points of the feasible set of a finite poset are specified in terms of the disjointly irreducible elements of the semilattice presented by the poset. Semilattices presented by posets are characterised in terms of various distributivity concepts.

Published

2007