空间RDF数据Top-k相关语义位置检索

Proceedings of the 2016 International Conference on Management of Data Pub Date : 2016-06-26 DOI:10.1145/2882903.2882941

Jieming Shi, Dingming Wu, N. Mamoulis

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引用次数: 27

摘要

传统上使用结构化查询语言(如SPARQL)访问RDF数据。但是，这需要用户理解该语言以及RDF模式。RDF数据的关键字搜索就是为了使用户从这些需求中解脱出来;用户只输入一组关键字，目标是找到包含所有关键字的RDF子图。同时，流行的RDF知识库还包括空间语义，这为基于位置的搜索操作开辟了道路。在这项工作中，我们提出并研究了一种新的基于位置的RDF关键字搜索查询。top-k相关语义位置(kSP)检索的目标是查找包含查询关键字的RDF子图，这些子图植根于靠近查询位置的空间实体。kSP查询的新颖之处在于它们是位置感知的，并且不依赖于结构化查询语言的使用。我们设计了一个处理kSP查询的基本方法。为了进一步加快kSP检索速度，提出了两种剪枝方法和一种数据预处理技术。在两个真实数据集上的大量实证研究表明，与基本方法相比，我们的建议具有优越的鲁棒性。

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Top-k Relevant Semantic Place Retrieval on Spatial RDF Data

RDF data are traditionally accessed using structured query languages, such as SPARQL. However, this requires users to understand the language as well as the RDF schema. Keyword search on RDF data aims at relieving the user from these requirements; the user only inputs a set of keywords and the goal is to find small RDF subgraphs which contain all keywords. At the same time, popular RDF knowledge bases also include spatial semantics, which opens the road to location-based search operations. In this work, we propose and study a novel location-based keyword search query on RDF data. The objective of top-k relevant semantic places (kSP) retrieval is to find RDF subgraphs which contain the query keywords and are rooted at spatial entities close to the query location. The novelty of kSP queries is that they are location-aware and that they do not rely on the use of structured query languages. We design a basic method for the processing of kSP queries. To further accelerate kSP retrieval, two pruning approaches and a data preprocessing technique are proposed. Extensive empirical studies on two real datasets demonstrate the superior and robust performance of our proposals compared to the basic method.

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Proceedings of the 2016 International Conference on Management of Data

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