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Article-ISWC2023-SolidQuery author me.
Article-ISWC2023-SolidQuery author me.
Article-ISWC2023-SolidQuery creator me.
Article-ISWC2023-SolidQuery creator me.
Article-ISWC2023-SolidQuery about query_processing.
Article-ISWC2023-SolidQuery about federated_querying.
Article-ISWC2023-SolidQuery about Solid.
Article-ISWC2023-SolidQuery about Decentralization.
Article-ISWC2023-SolidQuery about World_Wide_Web.
Article-ISWC2023-SolidQuery author me.
Article-ISWC2023-SolidQuery author me.
Article-ISWC2023-SolidQuery coparticipatesWith me.
Article-ISWC2023-SolidQuery coparticipatesWith me.
Article-ISWC2023-SolidQuery type ScholarlyArticle.
Article-ISWC2023-SolidQuery type Article.
Article-ISWC2023-SolidQuery type Document.
Article-ISWC2023-SolidQuery type Q386724.
Article-ISWC2023-SolidQuery type CreativeWork.
Article-ISWC2023-SolidQuery type Document.
Article-ISWC2023-SolidQuery type Work.
Article-ISWC2023-SolidQuery type Document.
Article-ISWC2023-SolidQuery P50 me.
Article-ISWC2023-SolidQuery P50 me.
Article-ISWC2023-SolidQuery maker me.
Article-ISWC2023-SolidQuery maker me.
Article-ISWC2023-SolidQuery title "Link Traversal Query Processing over Decentralized Environments with Structural Assumptions".
Article-ISWC2023-SolidQuery isPartOf proceedings_of_the_22nd_international_semantic_web_conference.
Article-ISWC2023-SolidQuery name "Link Traversal Query Processing over Decentralized Environments with Structural Assumptions".
Article-ISWC2023-SolidQuery label "Link Traversal Query Processing over Decentralized Environments with Structural Assumptions".
Article-ISWC2023-SolidQuery name "Link Traversal Query Processing over Decentralized Environments with Structural Assumptions".
Article-ISWC2023-SolidQuery topic query_processing.
Article-ISWC2023-SolidQuery topic federated_querying.
Article-ISWC2023-SolidQuery topic Solid.
Article-ISWC2023-SolidQuery topic Decentralization.
Article-ISWC2023-SolidQuery topic World_Wide_Web.
Article-ISWC2023-SolidQuery subject query_processing.
Article-ISWC2023-SolidQuery subject federated_querying.
Article-ISWC2023-SolidQuery subject Solid.
Article-ISWC2023-SolidQuery subject Decentralization.
Article-ISWC2023-SolidQuery subject World_Wide_Web.
Article-ISWC2023-SolidQuery authorList b0_b1829.
Article-ISWC2023-SolidQuery topic query_processing.
Article-ISWC2023-SolidQuery topic federated_querying.
Article-ISWC2023-SolidQuery topic Solid.
Article-ISWC2023-SolidQuery topic Decentralization.
Article-ISWC2023-SolidQuery topic World_Wide_Web.
Article-ISWC2023-SolidQuery abstract "To counter societal and economic problems caused by data silos on the Web, efforts such as Solid strive to reclaim private data by storing it in permissioned documents over a large number of personal vaults across the Web. Building applications on top of such a decentralized Knowledge Graph involves significant technical challenges: centralized aggregation prior to query processing is impossible for legal reasons, and current federated querying techniques cannot handle this large scale of distribution at the expected performance. We propose an extension to Link Traversal Query Processing (LTQP) that incorporates structural properties within decentralized environments to tackle their unprecedented scale. In this article, we analyze the structural properties of the Solid decentralization ecosystem that are relevant for query execution, we introduce novel LTQP algorithms leveraging these structural properties, and evaluate their effectiveness. Our experiments indicate that these new algorithms obtain correct results in the order of seconds, which existing algorithms cannot achieve. This work reveals that a traversal-based querying method using structural assumptions can be effective for large-scale decentralization, but that advances are needed in the area of query planning for LTQP to handle more complex queries. These insights open the door to query-driven decentralized applications, in which declarative queries shield developers from the inherent complexity of a decentralized landscape.".
Article-ISWC2023-SolidQuery datePublished "2023".
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