Completely regular semirings

Schumann, Rick

16 July 2013

Vollständig reguläre Halbgruppen weisen eine stark regelmäßige Struktur auf, die verschiedenste Zerlegungsmöglichkeiten gestatten. Ziel dieser Dissertation ist es, diese strukturelle Regelmäßigkeit auf Halbringe zu übertragen und die gewonnenen Algebren zu untersuchen. Mehrere Charakterisierungen werden herausgearbeitet, aufgrund derer es sich herausstellt, dass die Klasse aller vollständig regulären Halbringe eine Varietät bilden, deren Untervarietäten in der Folge untersucht werden. Zentrale Bedeutung haben dabei vollständig einfache Halbringe, deren Analyse einen der Schwerpunkte der Arbeit darstellt. Es zeigt sich, dass diese Bausteine vollständig regulärer Halbringe untereinander eine feste Struktur besitzen, selber aber auch als Zusammensetzung von isomorphen Halbringen aufgefasst werden können. Außerdem werden orthodoxe Halbringe, also Halbringe, deren idempotente Elemente einen Unterhalbring bilden, betrachtet. Zunächst wird dabei wieder auf mehrere Teilklassen eingegangen, bevor abschließend für beliebige vollständig reguläre Halbringe eine Beschreibung der kleinsten Kongruenz angegeben wird, deren Faktorhalbring orthodox ist.

Algebra

universelle Algebra

Halbringe

Halbgruppen

algebra

universal algebra

semirings

semigroups

ddc:510

Universelle Algebra

Halbgruppe

Halbring

Completely regular semirings

Schumann, Rick

05 July 2013

Vollständig reguläre Halbgruppen weisen eine stark regelmäßige Struktur auf, die verschiedenste Zerlegungsmöglichkeiten gestatten. Ziel dieser Dissertation ist es, diese strukturelle Regelmäßigkeit auf Halbringe zu übertragen und die gewonnenen Algebren zu untersuchen. Mehrere Charakterisierungen werden herausgearbeitet, aufgrund derer es sich herausstellt, dass die Klasse aller vollständig regulären Halbringe eine Varietät bilden, deren Untervarietäten in der Folge untersucht werden. Zentrale Bedeutung haben dabei vollständig einfache Halbringe, deren Analyse einen der Schwerpunkte der Arbeit darstellt. Es zeigt sich, dass diese Bausteine vollständig regulärer Halbringe untereinander eine feste Struktur besitzen, selber aber auch als Zusammensetzung von isomorphen Halbringen aufgefasst werden können. Außerdem werden orthodoxe Halbringe, also Halbringe, deren idempotente Elemente einen Unterhalbring bilden, betrachtet. Zunächst wird dabei wieder auf mehrere Teilklassen eingegangen, bevor abschließend für beliebige vollständig reguläre Halbringe eine Beschreibung der kleinsten Kongruenz angegeben wird, deren Faktorhalbring orthodox ist.

info:eu-repo/classification/ddc/510

ddc:510

From data tables to general geometric structures

Kaiser, Tim Benjamin

January 2008

Zugl.: Dresden, Techn. Univ., Diss., 2008

Clones over Finite Sets and Minor Conditions

Vucaj, Albert

15 December 2023

Achieving a classification of all clones of operations over a finite set is one of the goals at the heart of universal algebra. In 1921 Post provided a full description of the lattice of all clones over a two-element set. However, over the following years, it has been shown that a similar classification seems arduously reachable even if we only focus on clones over three-element sets: in 1959 Janov and Mučnik proved that there exists a continuum of clones over a k-element set for every k > 2. Subsequent research in universal algebra therefore focused on understanding particular aspects of clone lattices over finite domains. Remarkable results in this direction are the description of maximal and minimal clones. One might still hope to classify all operation clones on finite domains up to some equivalence relation so that equivalent clones share many of the properties that are of interest in universal algebra. In a recent turn of events, a weakening of the notion of clone homomorphism was introduced: a minor-preserving map from a clone C to D is a map which preserves arities and composition with projections. The minor-equivalence relation on clones over finite sets gained importance both in universal algebra and in computer science: minor-equivalent clones satisfy the same set identities of the form f(x_1,...,x_n) = g(y_1,...,y_m), also known as minor-identities. Moreover, it was proved that the complexity of the CSP of a finite structure A only depends on the set of minor-identities satisfied by the polymorphism clone of A. Throughout this dissertation we focus on the poset that arises by considering clones over a three-element set with the following order: we write C ≤_{m} D if there exist a minor-preserving map from C to D. It has been proved that ≤_{m} is a preorder; we call the poset arising from ≤_{m} the pp-constructability poset. We initiate a systematic study of the pp-constructability poset. To this end, we distinguish two cases that are qualitatively distinct: when considering clones over a finite set A, one can either set a boundary on the cardinality of A, or not. We denote by P_n the pp-constructability poset restricted to clones over a set A such that |A|=n and by P_{fin} we denote the whole pp-constructability poset, i.e., we only require A to be finite. First, we prove that P_{fin} is a semilattice and that it has no atoms. Moreover, we provide a complete description of P_2 and describe a significant part of P_3: we prove that P_3 has exactly three submaximal elements and present a full description of the ideal generated by one of these submaximal elements. As a byproduct, we prove that there are only countably many clones of self-dual operations over {0,1,2} up to minor-equivalence.

Clones, universal algebra

universelle Algebra, Klone

info:eu-repo/classification/ddc/510

ddc:510

A Connection Between Clone Theory and FCA Provided by Duality Theory

Kerkhoff, Sebastian

02 August 2012

The aim of this paper is to show how Formal Concept Analysis can be used for the bene t of clone theory. More precisely, we show how a recently developed duality theory for clones can be used to dualize clones over bounded lattices into the framework of Formal Concept Analysis, where they can be investigated with techniques very di erent from those that universal algebraists are usually armed with. We also illustrate this approach with some small examples.

Formale Begriffsanalyse

Verband

Dualität

Klon

Operationen

wesentliche Stelligkeit

Kontext

Formal Concept Analysis

lattice

clone

duality

operation

context

ddc:510

rvk:SK 150

rvk:SK 200

Formale Begriffsanalyse

Universelle Algebra

Dualitätstheorie

A Connection Between Clone Theory and FCA Provided by Duality Theory

Kerkhoff, Sebastian

02 August 2012

The aim of this paper is to show how Formal Concept Analysis can be used for the bene t of clone theory. More precisely, we show how a recently developed duality theory for clones can be used to dualize clones over bounded lattices into the framework of Formal Concept Analysis, where they can be investigated with techniques very di erent from those that universal algebraists are usually armed with. We also illustrate this approach with some small examples.

info:eu-repo/classification/ddc/510

ddc:510

A General Galois Theory for Operations and Relations in Arbitrary Categories

Kerkhoff, Sebastian

20 September 2011

In this paper, we generalize the notions of polymorphisms and invariant relations to arbitrary categories. This leads us to a Galois connection that coincides with the classical case from universal algebra if the underlying category is the category of sets, but remains applicable no matter how the category is changed. In analogy to the situation in universal algebra, we characterize the Galois closed classes by local closures of clones of operations and local closures of what we will introduce as clones of (generalized) relations. Since the approach is built on purely category-theoretic properties, we will also discuss the dualization of our notions.

Klon

Operation

Relation

Invarianz

Polymorphismen

bewahren

Kompabilität

Galois Verbindung

Galois Theory

Co-Klon

Co-Relation

Dualität

Kategorientheorie

clone

operation

relation

invariance

polymorphism

preserving

compability

Galois connection

Galois theory

coclone

corelation

duality theory

category theory

ddc:510

rvk:SK 200

rvk:SK 320

Galois-Verbindung

Universelle Algebra

Kategorientheorie

A General Duality Theory for Clones

Kerkhoff, Sebastian

12 October 2011

In this thesis, we generalize clones (as well as their relational counterparts and the relationship between them) to categories. Based on this framework, we introduce a general duality theory for clones and apply it to obtain new results for clones on finite sets.

Klon

Dualitätstheorie

Kategorientheorie

Operation

Relation

Duale Operation

Duale Relation

Polymorphismus

Invarianz

Bewahren

Klone über distributiven Verbänden

Klone über Algebren

Galois-Theorie

clone

duality theory

category theory

operation

relation

dual operation

dual relation

polymorphism

invariance

preserving

clones over distributive lattices

clones over algebras

Galois theory

ddc:510

rvk:SK 200

Universelle Algebra

Dualitätstheorie

Kategorientheorie

A General Galois Theory for Operations and Relations in Arbitrary Categories

Kerkhoff, Sebastian

20 September 2011

In this paper, we generalize the notions of polymorphisms and invariant relations to arbitrary categories. This leads us to a Galois connection that coincides with the classical case from universal algebra if the underlying category is the category of sets, but remains applicable no matter how the category is changed. In analogy to the situation in universal algebra, we characterize the Galois closed classes by local closures of clones of operations and local closures of what we will introduce as clones of (generalized) relations. Since the approach is built on purely category-theoretic properties, we will also discuss the dualization of our notions.

info:eu-repo/classification/ddc/510

ddc:510

A General Duality Theory for Clones

Kerkhoff, Sebastian

28 June 2011

In this thesis, we generalize clones (as well as their relational counterparts and the relationship between them) to categories. Based on this framework, we introduce a general duality theory for clones and apply it to obtain new results for clones on finite sets.

info:eu-repo/classification/ddc/510

ddc:510