How to tell when a product of two partially ordered spaces has a certain property: General results with application to fuzzy logic

Zapata, Francisco; Kosheleva, Olga; Villaverde, Karen

doi:10.1109/nafips.2011.5752044

Cited by 1 publication

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“…In this application, to each statement, we assign the expert's degree of certainty that this statement is true. A natural partial ordering relation a b describes the fact that we are more certain in b than in a; see, e.g., [20,34,38,39,43,44].…”

Section: Formulation Of the Problemmentioning

confidence: 99%

Reconstructing an Open Order from Its Closure, with Applications to Space-Time Physics and to Logic

Zapata

Kreinovich

2012

Stud Logica

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Abstract. In his logical papers, Leo Esakia studied corresponding ordered topological spaces and order-preserving mappings. Similar spaces and mappings appear in many other application areas such the analysis of causality in space-time. It is known that under reasonable conditions, both the topology and the original order relation can be uniquely reconstructed if we know the "interior" ≺ of the order relation. It is also known that in some cases, we can uniquely reconstruct ≺ (and hence, topology) from . In this paper, we show that, in general, under reasonable conditions, the open order ≺ (and hence, the corresponding topology) can be uniquely determined from its closure .Keywords: ordered topological space, order-preserving mappings, open and closed orders, space-time geometry, logic Formulation of the ProblemOrder-preserving mappings of topological spaces in logic and in physics: general reminder. Many interesting mathematical results appear when we are able to find connection between two seemingly different areas of mathematics -and thus, use known results and techniques from one area to study techniques from another area. In particular, for Heyting algebras -models of intuitionistic logics -many results originated from a relation between Heyting algebras and a special class of (partially) ordered topological spaces called Esakia spaces, a relation that was discovered and actively explored by Leo Esakia in [10,11]. In his research, L. Esakia paid special attention to studying order-preserving maps between the corresponding partially ordered spaces.Esakia's work was not the first application of ordered topological spaces and order-preserving mappings: such spaces and mappings also naturally appear in space-time physics and in other areas of logic.In physics, a natural ordering relation is the causality relation between events, when a b means that an event a can influence the event b.

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Section: Formulation Of the Problemmentioning

confidence: 99%