A SPARQL-based framework to preserve privacy of sensitive data on the semantic web

[1]  D. O’Sullivan,et al.  FAIRVASC: A semantic web approach to rare disease registry integration , 2022, Comput. Biol. Medicine.

[2]  Hye-Young Paik,et al.  A Case for Connecting SOLiD and Blockchains: Enforcement of Transparent Access Rights in Personal Data Stores , 2021, 2021 IEEE International Conference on Blockchain and Cryptocurrency (ICBC).

[3]  Dong-Hyuk Im,et al.  Distributed L-diversity using spark-based algorithm for large resource description frameworks data , 2021, The Journal of Supercomputing.

[4]  Philippe Calvez,et al.  Knowledge Graph Anonymization using Semantic Anatomization , 2020, 2020 IEEE International Conference on Big Data (Big Data).

[5]  Hassan Al-Mahdi,et al.  A New Method of Data Encryption based on One to One Functions , 2020 .

[6]  Tharam S. Dillon,et al.  Achieving security scalability and flexibility using Fog-Based Context-Aware Access Control , 2020, Future Gener. Comput. Syst..

[7]  Angela Bonifati,et al.  RDF Graph Anonymization Robust to Data Linkage , 2020, WISE.

[8]  Marlene Goncalves,et al.  PURE: A Privacy Aware Rule-Based Framework over Knowledge Graphs , 2019, DEXA.

[9]  Angela Bonifati,et al.  Query-Based Linked Data Anonymization , 2018, SEMWEB.

[10]  Maria-Esther Vidal,et al.  BOUNCER: Privacy-Aware Query Processing over Federations of RDF Datasets , 2018, DEXA.

[11]  Axel Polleres,et al.  Self-Enforcing Access Control for Encrypted RDF , 2017, ESWC.

[12]  Dietrich Rebholz-Schuhmann,et al.  SAFE: SPARQL Federation over RDF Data Cubes with Access Control , 2017, J. Biomed. Semant..

[13]  Annett Laube,et al.  Access Control in Linked Data Using WebID , 2016, SEMANTiCS.

[14]  Tim Berners-Lee,et al.  A Demonstration of the Solid Platform for Social Web Applications , 2016, WWW.

[15]  Egor V. Kostylev,et al.  Logical Foundations of Privacy-Preserving Publishing of Linked Data , 2016, AAAI.

[16]  Emmanuel Coquery,et al.  Inference Leakage Detection for Authorization Policies over RDF Data , 2015, DBSec.

[17]  Frederik Armknecht,et al.  Towards Search on Encrypted Graph Data , 2013, PrivOn@ISWC.

[18]  Stefan Decker,et al.  Secure Manipulation of Linked Data , 2013, SEMWEB.

[19]  Serena Villata,et al.  Linked Data Access Goes Mobile: Context-Aware Authorization for Graph Stores , 2012, LDOW.

[20]  Serena Villata,et al.  An Access Control Model for Linked Data , 2011, OTM Workshops.

[21]  Alban Gabillon,et al.  A View Based Access Control Model for SPARQL , 2010, 2010 Fourth International Conference on Network and System Security.

[22]  Christian Bizer,et al.  The Berlin SPARQL Benchmark , 2009, Int. J. Semantic Web Inf. Syst..

[23]  Bhavani M. Thuraisingham,et al.  ROWLBAC: representing role based access control in OWL , 2008, SACMAT '08.

[24]  Yufei Tao,et al.  Anatomy: simple and effective privacy preservation , 2006, VLDB.

[25]  Yufei Tao,et al.  Personalized privacy preservation , 2006, Privacy-Preserving Data Mining.

[26]  Mark Giereth,et al.  On Partial Encryption of RDF-Graphs , 2005, SEMWEB.

[27]  Jeff Heflin,et al.  LUBM: A benchmark for OWL knowledge base systems , 2005, J. Web Semant..

[28]  Holger Kummert,et al.  The PPP Triple-DES Encryption Protocol (3DESE) , 1998, RFC.

[29]  Eric Miller,et al.  An Introduction to the Resource Description Framework , 1998, D Lib Mag..

[30]  V. Rodríguez-Doncel,et al.  Using the ODRL Profile for Access Control for Solid Pod Resource Governance , 2022, ESWC.

[31]  Mohamed El kholy,et al.  Efficient Security Model for RDF Files Used in IoT Applications , 2021 .

[32]  A. Hogan The Web of Data , 2020, The Web of Data.

[33]  Axel Polleres,et al.  HDTcrypt: Compression and encryption of RDF datasets , 2020, Semantic Web.

[34]  Dong-Hyuk Im,et al.  Efficient Access Control of Large Scale RDF Data Using Prefix-Based Labeling , 2020, IEEE Access.

[35]  Stefan Decker,et al.  k - RDF-Neighbourhood Anonymity: Combining Structural and Attribute-based Anonymisation for Linked Data , 2017, PrivOn@ISWC.

[36]  Alexandre Passant,et al.  A Privacy Preference Ontology (PPO) for Linked Data , 2011, LDOW.

[37]  Hilde van der Togt,et al.  Publisher's Note , 2003, J. Netw. Comput. Appl..

[38]  A. Cuzzocrea,et al.  Effective and efficient skyline query processing over attribute-order-preserving-free encrypted data in cloud-enabled databases , 2022, Future Gener. Comput. Syst..