Mengel, S., & Skritek, S. (2020). Characterizing Tractability of Simple Well-Designed Pattern Trees with Projection. Theory of Computing Systems, 65, 3–41. https://doi.org/10.1007/s00224-020-10002-z
E192-02 - Forschungsbereich Databases and Artificial Intelligence
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Journal:
Theory of Computing Systems
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ISSN:
1432-4350
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Date (published):
10-Sep-2020
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Number of Pages:
39
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Publisher:
SPRINGER
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Peer reviewed:
Yes
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Keywords:
Theoretical Computer Science; Computational Theory and Mathematics
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Abstract:
We study the complexity of evaluating well-designed pattern trees, a query language extending conjunctive queries with the possibility to define parts of the query to be optional. This possibility of optional parts is important for obtaining meaningful results over incomplete data sources as it is common in semantic web settings. Recently, a structural characterization of the classes of well-designed pattern trees that can be evaluated in polynomial time was shown. However, projection-a central feature of many query languages-was not considered in this study. We work towards closing this gap by giving a characterization of all tractable classes of simple well-designed pattern trees with projection (under some common complexity theoretic assumptions). Since well-designed pattern trees correspond to the fragment of well-designed {AND, OPTIONAL}-SPARQL queries this gives a complete description of the tractable classes of queries with projections in this fragment that can be characterized by the underlying graph structures of the queries. For non-simple pattern trees the tractability criteria for simple pattern trees do not capture all tractable classes. We thus extend the characterization for the non-simple case in order to capture some additional tractable cases.