Why Does Propositional Quantification Make Modal and Temporal Logics on Trees Robustly Hard? - Laboratoire Méthodes Formelles
Article Dans Une Revue Logical Methods in Computer Science Année : 2022

Why Does Propositional Quantification Make Modal and Temporal Logics on Trees Robustly Hard?

Résumé

Adding propositional quantification to the modal logics K, T or S4 is known to lead to undecidability but CTL with propositional quantification under the tree semantics (QCTLt) admits a non-elementary Tower-complete satisfiability problem. We investigate the complexity of strict fragments of QCTLt as well as of the modal logic K with propositional quantification under the tree semantics. More specifically, we show that QCTLt restricted to the temporal operator EX is already Tower-hard, which is unexpected as EX can only enforce local properties. When QCTLt restricted to EX is interpreted on N-bounded trees for some N ≥ 2, we prove that the satisfiability problem is AExppol-complete; AExppol- hardness is established by reduction from a recently introduced tiling problem, instrumental for studying the model-checking problem for interval temporal logics. As consequences of our proof method, we prove Tower-hardness of QCTLt restricted to EF or to EXEF and of the well-known modal logics such as K, KD, GL, K4 and S4 with propositional quantification under a semantics based on classes of trees.
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Dates et versions

hal-03749464 , version 1 (28-09-2023)

Identifiants

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Bartosz Bednarczyk, Stéphane Demri. Why Does Propositional Quantification Make Modal and Temporal Logics on Trees Robustly Hard?. Logical Methods in Computer Science, 2022, 18 (3), pp.5:1--5:46. ⟨10.46298/lmcs-18(3:5)2022⟩. ⟨hal-03749464⟩
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