Primal Infon Logic with Conjunctions as Sets
Résumé
Primal infon logic was proposed by Gurevich and Neeman as an efficient yet expressive logic for policy and trust management. It is a propositional multimodal subintuitionistic logic decidable in linear time. However in that logic the principle of the replacement of equivalents fails. For example, $\left(x \land y\right) \to z$ does not entail $\left(y \land x\right) \to z$, and similarly $w \to \left(\left(x \land y\right)\land z\right)$ does not entail $w \to \left(x \land \left(y \land z\right)\right)$. Imposing the full principle of the replacement of equivalents leads to an NP-hard logic according to a recent result of Beklemishev and Prokhorov. In this paper we suggest a way to regain the part of this principle restricted to conjunction: We introduce a version of propositional primal logic that treats conjunctions as sets, and show that the derivation problem for this logic can be decided in linear expected time and quadratic worst-case time.
Domaines
Informatique [cs]Origine | Fichiers produits par l'(les) auteur(s) |
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