Efficiently Deciding µ-calculus with Converse over Finite Trees

We present a sound and complete satisfiability-testing algorithm and its effective implementation for an alternation-free modal µ-calculus with converse, where formulas are cycle-free and are interpreted over finite ordered trees. The time complexity of the satisfiability-testing algorithm is 2^O(n) in terms of formula size n. The algorithm is implemented using symbolic techniques (BDD). We present crucial implementation techniques and heuristics that we used to make the algorithm as fast as possible in practice. Our implementation is available online, and can be used to solve logical formulas of significant size and practical value. We illustrate this in the setting of XML trees.

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Soumis le : vendredi 30 janvier 2015-15:28:14

Dernière modification le : vendredi 23 janvier 2026-09:12:06

Archivage à long terme le : samedi 15 avril 2017-23:40:17

Dates et versions

hal-00868722 , version 1 (01-10-2013)

hal-00868722 , version 2 (31-01-2014)

hal-00868722 , version 3 (03-06-2014)

hal-00868722 , version 4 (14-01-2015)

hal-00868722 , version 5 (30-01-2015)

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HAL Id : hal-00868722 , version 5
DOI : 10.1145/2724712

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Pierre Genevès, Nabil Layaïda, Alan Schmitt, Nils Gesbert. Efficiently Deciding µ-calculus with Converse over Finite Trees. ACM Transactions on Computational Logic, 2015, 16 (2), pp.41. ⟨10.1145/2724712⟩. ⟨hal-00868722v5⟩