Combining and automating classical and non-classical logics in classical higher-order logics

Benzmüller, Christoph

doi:10.1007/s10472-011-9249-7

Cited by 15 publications

(19 citation statements)

References 37 publications

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“…These examples together with their performance results are available in the TPTP THF library (cf. [75] for further details) and they provide first evidence for the practicality of our proposed solution.…”

Section: A Proper Treatment Of Modal Contexts In Sumomentioning

confidence: 71%

“…Most importantly, encodings based on modal logics and first-order logic can be elegantly combined in classical higher-order logics. It is this representational power which we have exploited in our recent work [75,79,74,86,87] and which we do also employ here. Moreover, deeper semantic issues can be clarified when taking a solid higher-order perspective.…”

Section: Related Workmentioning

confidence: 97%

“…A recent case study by Otten and Raths on automating quantified monomodal logics [71] actually confirms that higherorder automated theorem provers such as Satallax and LEO-II can in fact compete with the above mentioned specialist reasoners for reasoning in quantified monomodal logics when using our semantic embeddings based approach. Moreover, a number of alternative examples requiring combinations of modalities have been studied and automated [75]. These examples together with their performance results are available in the TPTP THF library (cf.…”

Section: A Proper Treatment Of Modal Contexts In Sumomentioning

confidence: 99%

“…Moreover, there is already some evidence that our automation approach scales to at least some reasonable number of combinations and nestings of modal operators [75]. Since there is currently no practical system in the direct or first-order approach available that supports flexible combinations and nestings of modalities, a solid comparison with alternative approaches is not feasible at this stage.…”

Section: Mapping Sumo Via Qml To Thf0mentioning

confidence: 99%

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Higher-order aspects and context in SUMO

Benzmüller

Pease

2012

Journal of Web Semantics

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This article addresses the automation of higher-order aspects in expressive ontologies such as the Suggested Upper Merged Ontology SUMO. Evidence is provided that modern higher-order automated theorem provers like LEO-II can be fruitfully employed for the task. A particular focus is on embedded formulas (formulas as terms), which are used in SUMO, for example, for modeling temporal, epistemic, or doxastic contexts. This modeling is partly in conflict with SUMO's assumption of a bivalent, classical semantics and it may hence lead to counterintuitive reasoning results with automated theorem provers in practice. A solution is proposed that maps SUMO to quantified multimodal logic which is in turn modeled as a fragment of classical higher-order logic. This way automated higher-order theorem provers can be safely applied for reasoning about modal contexts in SUMO.Our findings are of wider relevance as they analogously apply to other expressive ontologies and knowledge representation formalisms.

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Section: A Proper Treatment Of Modal Contexts In Sumomentioning

confidence: 71%

Section: Related Workmentioning

confidence: 97%

Section: A Proper Treatment Of Modal Contexts In Sumomentioning

confidence: 99%

Section: Mapping Sumo Via Qml To Thf0mentioning

confidence: 99%

See 2 more Smart Citations

Higher-order aspects and context in SUMO

Benzmüller

Pease

2012

Journal of Web Semantics

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“…For example, the knowledge and belief of intelligent agents can be modelled with epistemic and doxastic logics, which are directly amenable to the SSE approach, since they are just particular modal logics. To demonstrate this, prominent AI puzzles about knowledge and belief, including the well known wise men puzzle, have been successfully automated [3,36]. Moreover, the semantic web description logic ALC is just a reinvention of basic multi-modal logic K and, hence, the SSE approach is immediately applicable to it.…”

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confidence: 99%

Recent Successes with a Meta-Logical Approach to Universal Logical Reasoning (Extended Abstract)

Benzmüller

2017

Lecture Notes in Computer Science

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The quest for a most general framework supporting universal reasoning is very prominently represented in the works of Leibniz. He envisioned a scientia generalis founded on a characteristica universalis, that is, a most universal formal language in which all knowledge about the world and the sciences can be encoded. A quick study of the survey literature on logical formalisms suggests that quite the opposite to Leibniz' dream has become reality. Instead of a characteristica universalis, we are today facing a very rich and heterogenous zoo of different logical systems, and instead of converging towards a single superior logic, this logic zoo is further expanding, eventually even at accelerated pace. As a consequence, the unified vision of Leibniz seems farther away than ever before. However, there are also some promising initiatives to counteract these diverging developments. Attempts at unifying approaches to logic include categorial logic algebraic logic and coalgebraic logic.My own research draws on another alternative at universal logical reasoning: the shallow semantical embeddings (SSE) approach. This approach has a very pragmatic motivation, foremost reuse of tools, simplicity and elegance. It utilises classical higherorder logic [22] as a unifying meta-logic in which the syntax and semantics of varying other logics can be explicitly modeled and flexibly combined (cf.[6] and the references therein). Off-the-shelf higher-order interactive and automated theorem provers [7] can then be employed to reason about and within the shallowly embedded logics.Respective experiments have e.g. been conducted in metaphysics. An initial focus thereby has been on computer-supported assessments of modern variants of the ontological argument for the existence of God, where the SSE approach has been utilised in particular for automating variants of higher-order (multi-)modal logics [9].In the course of these experiments (cf. [17,15,16,18,19,14] [20]. Further modern variants of the argument have subsequently been studied with the approach, and theorem provers have even contributed to the clarification of an unsettled philosophical dispute [13].Another, more ambitious study has focused on Ed Zalta's Principia Logico-Metaphysica (PLM) [38], which aims at a foundational logical theory for all of metaphysics and the sciences. This includes mathematics, and in this sense it is more ambitious than Russel's Principia Mathematica. The semantical embedding of PLM in HOL has been very challenging, since in addition to its size, its foundational theory is complicated: the PLM is based on hyperintensional higher-order modal logic S5 defined on top of a relational (as opposed to a functional) type theory that comes with restricted comprehension principles (the use of full comprehension in the PLM has been known to cause para-

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Invited Talk: On a (Quite) Universal Theorem Proving Approach and Its Application in Metaphysics

Benzmüller

2015

Lecture Notes in Computer Science

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Combining and automating classical and non-classical logics in classical higher-order logics

Cited by 15 publications

References 37 publications

Higher-order aspects and context in SUMO

Higher-order aspects and context in SUMO

Recent Successes with a Meta-Logical Approach to Universal Logical Reasoning (Extended Abstract)

Invited Talk: On a (Quite) Universal Theorem Proving Approach and Its Application in Metaphysics

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