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  1. Designing normative theories for ethical and legal reasoning: LogiKEy framework, methodology, and tool support.Christoph Benzmüller, Xavier Parent & Leendert van der Torre - 2020 - Artificial Intelligence 287 (C):103348.
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  • Higher-order automated theorem proving.Michael Kohlhase - unknown
    The history of building automated theorem provers for higher-order logic is almost as old as the field of deduction systems itself. The first successful attempts to mechanize and implement higher-order logic were those of Huet [13] and Jensen and Pietrzykowski [17]. They combine the resolution principle for higher-order logic (first studied in [1]) with higher-order unification. The unification problem in typed λ-calculi is much more complex than that for first-order terms, since it has to take the theory of αβη-equality into (...)
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  • Multimodal and intuitionistic logics in simple type theory.Christoph Benzmueller & Lawrence Paulson - 2010 - Logic Journal of the IGPL 18 (6):881-892.
    We study straightforward embeddings of propositional normal multimodal logic and propositional intuitionistic logic in simple type theory. The correctness of these embeddings is easily shown. We give examples to demonstrate that these embeddings provide an effective framework for computational investigations of various non-classical logics. We report some experiments using the higher-order automated theorem prover LEO-II.
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  • Quantified Multimodal Logics in Simple Type Theory.Christoph Benzmüller & Lawrence C. Paulson - 2013 - Logica Universalis 7 (1):7-20.
    We present an embedding of quantified multimodal logics into simple type theory and prove its soundness and completeness. A correspondence between QKπ models for quantified multimodal logics and Henkin models is established and exploited. Our embedding supports the application of off-the-shelf higher-order theorem provers for reasoning within and about quantified multimodal logics. Moreover, it provides a starting point for further logic embeddings and their combinations in simple type theory.
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  • Combined reasoning by automated cooperation.Christoph Benzmüller, Volker Sorge, Mateja Jamnik & Manfred Kerber - 2008 - Journal of Applied Logic 6 (3):318-342.
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  • Sweet SIXTEEN: Automation via Embedding into Classical Higher-Order Logic.Alexander Steen & Christoph Benzmüller - 2016 - Logic and Logical Philosophy 25 (4):535-554.
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  • Cut-Elimination for Quantified Conditional Logic.Christoph Benzmüller - 2017 - Journal of Philosophical Logic 46 (3):333-353.
    A semantic embedding of quantified conditional logic in classical higher-order logic is utilized for reducing cut-elimination in the former logic to existing results for the latter logic. The presented embedding approach is adaptable to a wide range of other logics, for many of which cut-elimination is still open. However, special attention has to be payed to cut-simulation, which may render cut-elimination as a pointless criterion.
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  • Higher-order Aspects and Context in SUMO.Christoph Benzmüller & Adam Pease - 2012 - Journal of Web Semantics 12:104-117.
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