Open AccessAutomated Higher-order Reasoning about Quantales
Author(s) -
Han-Hing Dang,
Peter Höfner
Publication year - 2018
Publication title -
epic series in computing
Language(s) - English
Resource type - Conference proceedings
ISSN - 2398-7340
DOI - 10.29007/l2sz
Subject(s) - automated theorem proving , computer science , automation , algebraic number , commutative property , theoretical computer science , calculus (dental) , programming language , mathematics , pure mathematics , engineering , mechanical engineering , medicine , mathematical analysis , dentistry
Originally developed as an algebraic characterisation for quantum mechanics, the algebraic structure of quantales nowadays nds widespread applications ranging from (noncommutative) logics to hybrid systems. We present an approach to bring reasoning about quantales into the realm of (fully) automated theorem proving. This will yield automation in various (new) elds of applications in the future. To achieve this goal and to receive a general approach (independent of any particular theorem prover), we use the TPTP Problem Library for higher-order logic. In particular, we give an encoding of quantales in the typed higher-order form (THF) and present some theorems about quantales which can be proved fully automatically. We further present prospective applications for our approach and discuss practical experiences using THF.
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