The impact of transitive closure on the expressiveness of navigational query languages on unlabeled graphs

The impact of transitive closure on the expressiveness of navigational query languages on unlabeled graphs

Several established and novel applications motivate us to study the expressive power of navigational query languages on graphs, which represent binary relations. Our basic language has only the operators union and composition, together with the identity relation. Richer languages can be obtained by...

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Veröffentlicht in:Annals of mathematics and artificial intelligence 2015-01, Vol.73 (1-2), p.167-203
Hauptverfasser: Fletcher, George H. L., Gyssens, Marc, Leinders, Dirk, Van den Bussche, Jan, Van Gucht, Dirk, Vansummeren, Stijn, Wu, Yuqing
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Sprache:eng
Schlagworte:
Artificial Intelligence
Boolean
Boolean algebra
Closures
Complex Systems
Computer Science
Expert systems
Graphs
Mathematical analysis
Mathematics
Projection
Queries
Query languages
Query processing
Unions
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container_end_page 203
container_issue 1-2
container_start_page 167
container_title Annals of mathematics and artificial intelligence
container_volume 73
creator Fletcher, George H. L.
Gyssens, Marc
Leinders, Dirk
Van den Bussche, Jan
Van Gucht, Dirk
Vansummeren, Stijn
Wu, Yuqing
description Several established and novel applications motivate us to study the expressive power of navigational query languages on graphs, which represent binary relations. Our basic language has only the operators union and composition, together with the identity relation. Richer languages can be obtained by adding other features such as intersection, difference, projection and coprojection, converse, and the diversity relation. The expressive power of the languages thus obtained cannot only be evaluated at the level of path queries (queries returning binary relations), but also at the level of Boolean or yes/no queries (expressed by the nonemptiness of an expression). For the languages considered above, adding transitive closure augments the expressive power not only at the level of path queries but also at the level of Boolean queries, for the latter provided that multiple input relations are allowed. This is no longer true in the context of unlabeled graphs (i.e., in the case where there is only one input relation), however. In this paper, we prove that this is indeed not the case for the basic language to which none, one, or both of projection and the diversity relation are added, a surprising result given the limited expressive power of these languages. In combination with earlier work (Fletcher et al. 2011 , 2012 ), this result yields a complete understanding of the impact of transitive closure on the languages under consideration.
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subjects Artificial Intelligence
Boolean
Boolean algebra
Closures
Complex Systems
Computer Science
Expert systems
Graphs
Mathematical analysis
Mathematics
Projection
Queries
Query languages
Query processing
Unions
title The impact of transitive closure on the expressiveness of navigational query languages on unlabeled graphs
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