A Decidable Spatial Logic with Cone-Shaped Cardinal Directions

Montanari, Angelo; Puppis, Gabriele; Sala, Pietro

doi:10.1007/978-3-642-04027-6_29

Cited by 21 publications

(17 citation statements)

References 12 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Not surprisingly, a few such results can be found in the literature. In [12], Montanari et al improve the result given in [8] by proving PSPACEcompleteness and maximality with respect to decidability of the fragment BBDDLL over the rational line. In [13], the satisfiability problem for ABBĀ (resp., AEĒĀ), interpreted over finite linear orders, has been shown to be decidable, but not primitive recursive.…”

Section: Introductionmentioning

confidence: 92%

“…PROBLEM FOR ABBL In [8], Montanari et al give an automaton-based algorithm to check satisfiability of formulas of a spatial modal logic based on an encoding of the problem into a suitable fragment of CTL. The very same technique can be used to check the satisfiability of an ABBL-formula ϕ.…”

Section: Complexity Bounds To the Satisfiabilitymentioning

confidence: 99%

“…Among them, we mention the fragments DD and AĀ. In [8], Montanari et al introduce a spatial modal logic based on cone-shaped cardinal directions over the rational plane (cone logic for short) and they prove PSPACEcompleteness of its satisfiability problem. Moreover, they show that the decidability of DD, interpreted over the rational line, can be easily derived from that of cone logic.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

What's Decidable about Halpern and Shoham's Interval Logic? The Maximal Fragment ABBL

Bresolin

Montanari

Sala

et al. 2011

2011 IEEE 26th Annual Symposium on Logic in Computer Science

Self Cite

View full text Add to dashboard Cite

The introduction of Halpern and Shoham's modal logic of intervals (later on called HS) dates back to 1986. Despite its natural semantics, this logic is undecidable over all interesting classes of temporal structures. This discouraged research in this area until recently, when a number of nontrivial decidable fragments have been found. This paper is a contribution toward the complete classification of HS fragments. Different combinations of Allen's interval relations begins (B), meets (A), and later (L), and their inversesĀ,B, andL, have been considered in the literature. We know from previous work that the combination ABBĀ is decidable over finite linear orders and undecidable everywhere else. We extend these results by showing that ABBL is decidable over the class of all (resp., dense, discrete) linear orders, and that it is maximal with respect to decidability over these classes: adding any other interval modality immediately leads to undecidability.

show abstract

Section: Introductionmentioning

confidence: 92%

Section: Complexity Bounds To the Satisfiabilitymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

What's Decidable about Halpern and Shoham's Interval Logic? The Maximal Fragment ABBL

Bresolin

Montanari

Sala

et al. 2011

2011 IEEE 26th Annual Symposium on Logic in Computer Science

Self Cite

View full text Add to dashboard Cite

show abstract

“…The fragment AABBDD is the minimal undecidable fragment that includes all decidable ones on dense linear orders, and it contains two, incomparable, maximal decidable fragments, namely, BBDD and ABBL. The fragment AA is still NEXPTIME-complete [54], and NEXPTIME-hardness already holds, again, for A and A; ABBL, is in EXPSPACE, and EXPSPACE-hardness already holds for the fragments ABB and AB [55]; the fragments ABBA and ABB are already undecidable [48]; the fragment BBDD (which includes L and L as definable operators) is in PSPACE, and PSPACE-hardness holds for D and D alone [56]; finally, BB is NP-complete [43], and, obviously, NP-hardness holds for B and B alone too. Probably, we could extend the NP-completeness (in particular, NP-membership) of BB can be extended to BBLL and each one of its fragments, as we did in the strongly discrete case, and the EXPSPACE-completeness (in particular, EXPSPACEhardness) of AB might be possibly adapted to the fragment AB, but, still, this is currently ongoing research.…”

Section: Other Classes Of Linearly Ordered Setsmentioning

confidence: 99%

Reasoning with Time Intervals: A Logical and Computational Perspective

Sciavicco

2012

ISRN Artificial Intelligence

View full text Add to dashboard Cite

The role of time in artificial intelligence is extremely important. Interval-based temporal reasoning can be seen as a generalization of the classical point-based one, and the first results in this field date back to Hamblin (1972) and Benhtem (1991) from the philosophical point of view, to Allen (1983) from the algebraic and first-order one, and to Halpern and Shoham (1991) from the modal logic one. Without purporting to provide a comprehensive survey of the field, we take the reader to a journey through the main developments in modal and first-order interval temporal reasoning over the past ten years and outline some landmark results on expressiveness and (un)decidability of the satisfiability problem for the family of modal interval logics.

show abstract

“…The most significant ones are the logic BB (resp., EĒ) of Allen's "begun by/begins" (resp., "ended by/ends") relations [9], the logic AĀ of temporal neighborhood, whose modalities correspond to Allen's "meets/met by" relations (it can be easily shown that Allen's "before/after" relations can be expressed in AĀ) [8], and the logic DD of the subinterval/superinterval relations, whose modalities correspond to Allen's "contains/during" relations [14]. In this paper, we focus our attention on the logic AĀBB that joins BB and AĀ (the case of AĀEĒ is fully symmetric).…”

Section: Introductionmentioning

confidence: 99%

Maximal Decidable Fragments of Halpern and Shoham’s Modal Logic of Intervals

Montanari

Puppis

Sala

2010

Automata, Languages and Programming

Self Cite

View full text Add to dashboard Cite

Abstract. In this paper, we focus our attention on the fragment of Halpern and Shoham's modal logic of intervals (HS) that features four modal operators corresponding to the relations "meets", "met by", "begun by", and "begins" of Allen's interval algebra (AĀBB logic). AĀBB properly extends interesting interval temporal logics recently investigated in the literature, such as the logic BB of Allen's "begun by/begins" relations and propositional neighborhood logic AĀ, in its many variants (including metric ones). We prove that the satisfiability problem for AĀBB, interpreted over finite linear orders, is decidable, but not primitive recursive (as a matter of fact, AĀBB turns out to be maximal with respect to decidability). Then, we show that it becomes undecidable when AĀBB is interpreted over classes of linear orders that contains at least one linear order with an infinitely ascending sequence, thus including the natural time flows N, Z, and R.

show abstract

A Decidable Spatial Logic with Cone-Shaped Cardinal Directions

Cited by 21 publications

References 12 publications

What's Decidable about Halpern and Shoham's Interval Logic? The Maximal Fragment ABBL

What's Decidable about Halpern and Shoham's Interval Logic? The Maximal Fragment ABBL

Reasoning with Time Intervals: A Logical and Computational Perspective

Maximal Decidable Fragments of Halpern and Shoham’s Modal Logic of Intervals

Contact Info

Product

Resources

About