- School of Historical and Philosophical Studies - Research Publications
School of Historical and Philosophical Studies - Research Publications
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ItemRELEVANT AND SUBSTRUCTURAL LOGICSRestall, G ; Gabbay, DM ; Woods, J (ELSEVIER SCIENCE BV, 2006)
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ItemLogical PluralismBeall, JC ; Restall, G (Oxford University PressOxford, 2005-11-24)Abstract Consequence is at the heart of logic; an account of consequence, of what follows from what, offers a vital tool in the evaluation of arguments. Since philosophy itself proceeds by way of argument and inference, a clear view of what logical consequence amounts to is of central importance to the whole discipline of philosophy. This book presents and defends what it calls logical pluralism, arguing that the notion of logical consequence does not pin down one deductive consequence relation; it allows for many of them. In particular, the book argues that broadly classical, intuitionistic, and relevant accounts of deductive logic are genuine logical consequence relations; we should not search for one true logic, since there are many. The book's conclusions have profound implications for many linguists as well as for philosophers.
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ItemNo Preview AvailableOne way to face factsRestall, G (BLACKWELL PUBL LTD, 2004-07)
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ItemNo Preview AvailableJust What Is Full-Blooded Platonism?†RESTALL, G (Oxford University Press (OUP), 2003-02-01)
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ItemNo Preview AvailableThe geometry of non-distributive logicsRestall, G ; Paoli, F (CAMBRIDGE UNIV PRESS, 2005-12)Abstract In this paper we introduce a new natural deduction system for the logic of lattices, and a number of extensions of lattice logic with different negation connectives. We provide the class of natural deduction proofs with both a standard inductive definition and a global graph-theoretical criterion for correctness, and we show how normalisation in this system corresponds to cut elimination in the sequent calculus for lattice logic. This natural deduction system is inspired both by Shoesmith and Smiley's multiple conclusion systems for classical logic and Girard's proofnets for linear logic.