DWRank: Learning concept ranking for ontology search

Butt, Anila Sahar; Haller, Armin; Xie, Lexing

doi:10.3233/sw-150185

Cited by 20 publications

(22 citation statements)

References 25 publications

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“…In these approaches, different graph/ontology features are selected (or computed) and on the basis of these features a ranking model is learnt and then the learned model is used to produce the ranking for search results [8].…”

Section: Ranking Factormentioning

confidence: 99%

A Taxonomy of Semantic Web Data Retrieval Techniques

Butt

Haller

Xie

2015

Proceedings of the 8th International Conference on Knowledge Capture

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The Semantic Web provides access to an increasing amount of structured information in a wide variety of domains. Information overload due to the large amount of structured data is as much a problem as on the traditional Web. To solve this problem, ample research has been proposed on Semantic Web data retrieval techniques and after more than a decade of research in this domain it is now reasonable to consider the questions: is the field of Semantic Web data retrieval making progress? What are the directions that have been taken? and what are some of the promising significant directions to pursue future research? To answer these questions, we review the state-of-the-art Semantic Web data retrieval techniques and define a taxonomy of these techniques to classify the ongoing research and find potential future research directions.

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Section: Ranking Factormentioning

confidence: 99%

A Taxonomy of Semantic Web Data Retrieval Techniques

Butt

Haller

Xie

2015

Proceedings of the 8th International Conference on Knowledge Capture

Self Cite

View full text Add to dashboard Cite

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“…Approaches to ontology ranking adopt conventional ranking techniques and models from information retrieval, which can be categorized as follows [17]: relevance ranking models aim to rank an ontology o from a repository R based on their relevance to a query q, i.e., in the form of Φ(q, o) or Φ(q, o, R). These include wellknown approaches (e.g., TF-IDF [26], BM25 [24]) and further ontology-specific approaches such as centrality of matched concepts in the ontology graph [8]. On the other hand, one can find importance ranking models that rank ontologies independently from the query, i.e., in the form of Φ(o) or Φ(o, R).…”

Section: Ontology Ranking and Learning To Rankmentioning

confidence: 99%

“…The CBRBench ground truth [6] was gathered through human labeling based on how well ontology terms meet their definition in a dictionary, comprising ten queries with a total of 819 relevance judgments. CBRBench was used to learn a ranking model in DWRank [8]. Termpicker [28] proposes a ground truth derived from LOD datasets and a ranking model that relies on popularity features, offering ontology term recommendations upon a query in form of triple patterns.…”

Section: Related Workmentioning

confidence: 99%

Popularity-Driven Ontology Ranking Using Qualitative Features

Kolbe¹,

Kubler²,

Traon³

2019

Lecture Notes in Computer Science

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Efficient ontology reuse is a key factor in the Semantic Web to enable and enhance the interoperability of computing systems. One important aspect of ontology reuse is concerned with ranking most relevant ontologies based on a keyword query. Apart from the semantic match of query and ontology, the state-of-the-art often relies on ontologies' occurrences in the Linked Open Data (LOD) cloud to determine relevance. We observe that ontologies of some application domains, in particular those related to Web of Things (WoT), often do not appear in the underlying LOD datasets used to define ontologies' popularity, resulting in ineffective ranking scores. This motivated us to investigate -based on the problematic WoT case -whether the scope of ranking models can be extended by relying on qualitative attributes instead of an explicit popularity feature. We propose a novel approach to ontology ranking by (i) selecting a range of relevant qualitative features, (ii) proposing a popularity measure for ontologies based on scholarly data, (iii) training a ranking model that uses ontologies' popularity as prediction target for the relevance degree, and (iv) confirming its validity by testing it on independent datasets derived from the state-of-the-art. We find that qualitative features help to improve the prediction of the relevance degree in terms of popularity. We further discuss the influence of these features on the ranking model.

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“…We give particular attention to methods that are capable of generating query-biased snippets for ontology search [3,17,31,5,6]. An ontology schema is often represented as a graph where nodes represent terms and edges represent axioms associating terms [44,17].…”

Section: Snippets For Ontology Schemasmentioning

confidence: 99%

A Framework for Evaluating Snippet Generation for Dataset Search

Wang

Chen

et al. 2019

Lecture Notes in Computer Science

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Reusing existing datasets is of considerable significance to researchers and developers. Dataset search engines help a user find relevant datasets for reuse. They can present a snippet for each retrieved dataset to explain its relevance to the user's data needs. This emerging problem of snippet generation for dataset search has not received much research attention. To provide a basis for future research, we introduce a framework for quantitatively evaluating the quality of a dataset snippet. The proposed metrics assess the extent to which a snippet matches the query intent and covers the main content of the dataset. To establish a baseline, we adapt four state-of-the-art methods from related fields to our problem, and perform an empirical evaluation based on real-world datasets and queries. We also conduct a user study to verify our findings. The results demonstrate the effectiveness of our evaluation framework, and suggest directions for future research.

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DWRank: Learning concept ranking for ontology search

Cited by 20 publications

References 25 publications

A Taxonomy of Semantic Web Data Retrieval Techniques

A Taxonomy of Semantic Web Data Retrieval Techniques

Popularity-Driven Ontology Ranking Using Qualitative Features

A Framework for Evaluating Snippet Generation for Dataset Search

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