Keyword-based mobile semantic search using mobile ontology

A large volume of mobile data is being generated and shared among mobile devices such as smartphones. Most of the mobile platforms provide a user with a keyword-based full text search (FTS) in order to search for mobile data. However, FTS only returns the data corresponding to the keywords given by users as results without considering a user’s query intention. To overcome this limitation, we propose a semantically enhanced keyword-based search method. Although there are various semantic search techniques, it is hard to apply existing methods to mobile devices just as they are. This is caused by the characteristics of mobile devices such as isolated database structures and limited computing resources. To enable semantic search on mobile devices, we also propose a lightweight mobile ontology. Experimental results from the prototype implementation of the proposed method show that the proposed method provides a better user experience than the conventional FTS and returns accurate search results in an acceptable response time.

[1]  Shichao Zhang,et al.  Mapping between Relational Database Schema and OWL Ontology for Deep Annotation , 2006, 2006 IEEE/WIC/ACM International Conference on Web Intelligence (WI 2006 Main Conference Proceedings)(WI'06).

[2]  Mark A. Musen,et al.  Semantic Wiki Search , 2009, ESWC.

[3]  Daniel P. Miranker,et al.  On directly mapping relational databases to RDF and OWL , 2012, WWW.

[4]  Kyong-Ho Lee,et al.  Keyword Based Semantic Search for Mobile Data , 2014, 2014 IEEE 15th International Conference on Mobile Data Management.

[5]  Ihab F. Ilyas,et al.  Interpreting keyword queries over web knowledge bases , 2012, CIKM '12.

[6]  Sonia Bergamaschi,et al.  Keyword search over relational databases: a metadata approach , 2011, SIGMOD '11.

[7]  Seán O'Riain,et al.  Querying Heterogeneous Datasets on the Linked Data Web: Challenges, Approaches, and Trends , 2012, IEEE Internet Computing.

[8]  Günter Ladwig,et al.  SemSearchPro - Using semantics throughout the search process , 2011, J. Web Semant..

[9]  Wolfgang Nejdl,et al.  From keywords to semantic queries - Incremental query construction on the semantic web , 2009, J. Web Semant..

[10]  Chong Wang,et al.  SPARK: Adapting Keyword Query to Semantic Search , 2007, ISWC/ASWC.

[11]  Ihab F. Ilyas,et al.  Expressive and flexible access to web-extracted data: a keyword-based structured query language , 2010, SIGMOD Conference.

[12]  Vladimir I. Levenshtein,et al.  Binary codes capable of correcting deletions, insertions, and reversals , 1965 .

[13]  Thomas Lukasiewicz,et al.  Semantic search on the Web , 2010, Semantic Web.

[14]  Sebastian Hellmann,et al.  Keyword-Driven SPARQL Query Generation Leveraging Background Knowledge , 2011, 2011 IEEE/WIC/ACM International Conferences on Web Intelligence and Intelligent Agent Technology.

[15]  Sébastien Ferré,et al.  Semantic Search: Reconciling Expressive Querying and Exploratory Search , 2011, SEMWEB.

[16]  Kemafor Anyanwu,et al.  Effectively Interpreting Keyword Queries on RDF Databases with a Rear View , 2011, International Semantic Web Conference.

[17]  Haofen Wang,et al.  Q2Semantic: A Lightweight Keyword Interface to Semantic Search , 2008, ESWC.

[18]  Daniel Gatica-Perez,et al.  Mining large-scale smartphone data for personality studies , 2013, Personal and Ubiquitous Computing.

[19]  Daniel P. Miranker,et al.  Survey of directly mapping SQL databases to the Semantic Web , 2011, The Knowledge Engineering Review.

[20]  Ning Zhang,et al.  MQuery: Fast Graph Query via Semantic Indexing for Mobile Context , 2010, 2010 IEEE/WIC/ACM International Conference on Web Intelligence and Intelligent Agent Technology.

[21]  Haofen Wang,et al.  Top-k Exploration of Query Candidates for Efficient Keyword Search on Graph-Shaped (RDF) Data , 2009, 2009 IEEE 25th International Conference on Data Engineering.

[22]  Ellen M. Voorhees,et al.  The TREC-8 Question Answering Track Report , 1999, TREC.

[23]  Jacco van Ossenbruggen,et al.  Configuring Semantic Web Interfaces by Data Mapping , 2009 .

[24]  Haofen Wang,et al.  Semplore: A scalable IR approach to search the Web of Data , 2009, J. Web Semant..