Operators and strong versions of sentential logics in Abstract Algebraic Logic

This dissertation presents the results of our research on some recent devel-opments in Abstract Algebraic Logic (AAL), namely on the Suszko operator, the Leibniz filters, and truth-equational logics. Part I builts and develops an abstract framework which unifies under a common treatment the study of...

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Detalles Bibliográficos
Autor: Albuquerque, Hugo Cardoso
Tipo de recurso: tesis doctoral
Estado:Versión publicada
Fecha de publicación:2016
País:España
Institución:CBUC, CESCA
Repositorio:TDR. Tesis Doctorales en Red
OAI Identifier:oai:www.tdx.cat:10803/394003
Acceso en línea:http://hdl.handle.net/10803/394003
Access Level:acceso abierto
Palabra clave:Lògica algebraica
Lógica algebraica
Algebraic logic
Lògica deòntica
Lógica deóntica
Deontic logic
Ciències Humanes i Socials
16
Descripción
Sumario:This dissertation presents the results of our research on some recent devel-opments in Abstract Algebraic Logic (AAL), namely on the Suszko operator, the Leibniz filters, and truth-equational logics. Part I builts and develops an abstract framework which unifies under a common treatment the study of the Leibniz, Suszko, and Frege operators in AAL. Part II generalizes the theory of the strong version of protoalgebraic logics, started in, to arbitrary sentential logics. The interplay between several Leibniz- and Suszko-related notions led us to consider a general framework based upon the notion of S-operator (inspired by that of "mapping compatible with S-filters" of Czelakowski), which encompasses the Leibniz, Suszko, and Frege operators. In particular, when applied to the Leibniz and Suszko operators, new notions of Leibniz and Suszko S-filters arise as instances of more general concepts inside the abstract framework built. The former generalizes the existing notion of Leibniz filter for protoalgebraic logics to arbitrary logics, while the latter is introduced here for the first time. Sev-eral results, both known and new, follow quite naturally inside this framework, again by instantiating it with the Leibniz and Suszko operators. Among the main new results, we prove a General Correspondence Theorem (Theorem ??), which generalizes Blok and Pigozzi's well-known Correspondence Theorem for protoalgebraic logics, as well as Czelakowski's less known Correspondence The-orem for arbitrary logics. We characterize protoalgebraic logics in terms of the Suszko operator as those logics in which the Suszko operator commutes with inverse images by surjective homomorphisms (Theorem ??). We characterize truth-equational logics in terms of their (Suszko) S-filters (Theorem ??), in terms of their full g-models (Corollary ??), and in terms of the Suszko operator, a characterization which strengthens that of Raftery, as those logics in which the Suszko operator is a structural representation from the set of S-filters to the set of AIg(S)-relative congruences, on arbitrary algebras (Theorem ??). Finally, we prove a new Isomorphism Theorem for protoalgebraic logics (Theorem ??), in the same spirit of the famous one for algebraizable logics and for weakly algebraizable logics. Endowed with a notion of Leibniz filter applicable to any logic, we are able to generalize the theory of the strong version of a protoalgebraic logic developed by Font and Jansana to arbitrary sentential logics. Given a sentential logic 5, its strong version St is the logic induced by the class of matrices whose truth set is Leibniz filter. We study three definability criteria of Leibniz filters: equational, explicit and logical definability. Under (any of) these assumptions, we prove that the St-filters coincide with Leibniz S-filters on arbitrary algebras. Finally, we apply the general theory developed to a wealth of non-protoalgebraic log-ics covered in the literature. Namely, we consider Positive Modal Logic P,A4,C, Belnap's logic B, the subintuitionistic logics w1C, and Visser's logic VP,C, and Lukasiewicz's infinite-valued logic preserving degrees of truth. We also consider the generalization of the last example mentioned to logics preserving degrees of truth from varieties of integral commutative residuated lattices, and further generalizations to the non-integral case, as well as to the case without multi-plicative constant. We classify all the examples investigated inside the Leibniz and Frege hierarchies. While none of the logics studied is protoalgebraic, all the respective strong versions are truth-equational.