A note on powers of Boolean spaces with internal semigroups

Borlido, Célia; Gehrke, Mai

doi:10.48550/arxiv.1811.12339

Cited by 2 publications

(2 citation statements)

References 13 publications

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“…This is an instance of the fact that modal algebras are dual to co-algebras for the Vietoris monad, enriched in the category of monoids, see [1]. However, since this finitary instance is quite simple to derive, for completeness, we include a proof.…”

Section: Preliminaries On Formal Languages and Logic On Wordsmentioning

confidence: 99%

Difference hierarchies and duality with an application to formal languages

Borlido

Gehrke

Krebs

et al. 2020

Topology and its Applications

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The notion of a difference hierarchy, first introduced by Hausdorff, plays an important role in many areas of mathematics, logic and theoretical computer science such as descriptive set theory, complexity theory, and the theory of regular languages and automata. From a lattice theoretic point of view, the difference hierarchy over a bounded distributive lattice stratifies the Boolean algebra generated by it according to the minimum length of difference chains required to describe the Boolean elements. While each Boolean element is given by a finite difference chain, there is no canonical such writing in general. We show that, relative to the filter completion, or equivalently, the lattice of closed upsets of the dual Priestley space, each Boolean element over the lattice has a canonical minimum length decomposition into a Hausdorff difference. As a corollary each Boolean element over a (co-)Heyting algebra has a canonical difference chain. With a further generalization of this result involving a directed family of adjunctions with meetsemilattices, we give an elementary proof of the fact that a regular language is given by a Boolean combination of purely universal sentences using arbitrary numerical predicates if and only if it is given by a Boolean combination of purely universal sentences using only regular numerical predicates.

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Section: Preliminaries On Formal Languages and Logic On Wordsmentioning

confidence: 99%

Difference hierarchies and duality with an application to formal languages

Borlido

Gehrke

Krebs

et al. 2020

Topology and its Applications

Self Cite

View full text Add to dashboard Cite

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“…It is not difficult to verify that R −1 (♦ ϕ) = π i (j(ϕ)) for every ϕ ∈ B, see e.g. Corollary 3.2 of (Borlido and Gehrke, 2019). Consequently, the Boolean algebra dual to the image of R can be identified with the subalgebra of P(Mod n\i ) generated by the elements of the form π i (j(ϕ)) for ϕ ∈ B, which is precisely B i ∃ .…”

Section: M(b)mentioning

confidence: 99%

A Cook's tour of duality in logic: from quantifiers, through Vietoris, to measures

Gehrke,

Jakl,

Reggio

2020

Preprint

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We identify and highlight certain landmark results in Samson Abramsky's work which we believe are fundamental to current developments and future trends. In particular, we focus on the use of • topological duality methods to solve problems in logic and computer science;• category theory and, more particularly, free (and co-free) constructions;• these tools to unify the 'power' and 'structure' strands in computer science.

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A note on powers of Boolean spaces with internal semigroups

Cited by 2 publications

References 13 publications

Difference hierarchies and duality with an application to formal languages

Difference hierarchies and duality with an application to formal languages

A Cook's tour of duality in logic: from quantifiers, through Vietoris, to measures

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