Integrating Connection Search in Graph Queries - Inria - Institut national de recherche en sciences et technologies du numérique
Communication Dans Un Congrès Année : 2022

Integrating Connection Search in Graph Queries

Résumé

Graph data management and querying has many practical applications. When graphs are very heterogeneous and/or users are unfamiliar with their structure, they may need to find how two or more groups of nodes are connected in a graph, even when users are not able to describe the connections. This is only partially supported by existing query languages, which allow searching for paths, but not for trees connecting three or more node groups. The latter is related to the NP-hard Group Steiner Tree problem, and has been previously considered for keyword search in databases. In this work, we formally show how to integrate connecting tree patterns (CTPs, in short) within a graph query language such as SPARQL or Cypher, leading to an Extended Query Language (or EQL, in short). We then study a set of algorithms for evaluating CTPs; we generalize prior keyword search work, most importantly by (i) considering bidirectional edge traversal and (ii) allowing users to select any score function for ranking CTP results. To cope with very large search spaces, we propose an efficient pruning technique and formally establish a large set of cases where our algorithm, MOLESP, is complete even with pruning. Our experiments validate the performance of our CTP and EQL evaluation algorithms on a large set of synthetic and real-world workloads.
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Dates et versions

hal-03886320 , version 1 (24-12-2022)

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  • HAL Id : hal-03886320 , version 1

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Angelos Christos Anadiotis, Ioana Manolescu, Madhulika Mohanty. Integrating Connection Search in Graph Queries. BDA 2022 - 38ème Conférence sur la Gestion de Données - Principes, Technologies et Applications (Informal publication only), Oct 2022, Clermont-Ferrand, France. ⟨hal-03886320⟩
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