Database Reference
In-Depth Information
[72] Y. Lei, V. Uren, E. Motta. SemSearch: A Search Engine for the
Semantic Web,
Managing Knowledge in a World of Networks
, 2006.
[73] T. B. Lee, J. Hendler, O. Lassila. The Semantic Web.
Scientific
American
, 2001.
[74] A. Madan, S. Moturu, D. Lazer, A. Pentland. Social Sensing: Ob-
sesity, Healthy Eating and Exercise in Face-to-Face Networks,
Wire-
less Health
, 2010.
[75] A. Matono, T. Amagasa, M. Yoshikawa, S. Uemura. A path-based
relational RDF database.
ADC
, 2005.
[76] E. Miller. An Introduction to the Resource Description Framework,
D-Lib Magazine
, 4(5), 1998.
[77] P. Mika, G. Tummarello. Web semantics in the clouds.
IEEE Intel-
ligent Systems
, 23(5), pp. 82-87, 2008.
[78] D. Molnar, D. Wagner. Privacy and Security in Library RFID: Is-
sues, Practices and Architectures,
CCS
, 2004.
[79] T. Neumann, G. Weikum. Scalable Join Processing on Very Large
RDF Graphs,
ACM SIGMOD Conference
, 2009.
[80] T. Neumann, G. Weikum. The RDF-3X Engine for Scalable Man-
agement of RDF Data,
VLDB Journal
, 19(1), 2010.
[81] M. Ohkubo, K. Suzuki, S. Kinoshita. RFID Privacy Issues and Tech-
nical Challenges,
Communications of the ACM
, 48(9), 2005.
[82] M. Ohkubo, K. Suzuki, S. Kinoshita. A cryptographic approach to
“privacy-friendly” tags.
RFID Privacy Workshop
, 2003.
[83] C. Olston, B. Reed, U. Srivastava, R. Kumar. PigLatin: A Not so
Foreign Language for Data Processing,
ACM SIGMOD Conference
,
2008.
[84] J. Paek, J. Kim, R. Govindan. Energy-ecient rate-adaptive gps-
based positioning for smartphones,
MobiSys
, 2010.
[85] Z. Pan, J. Heflin. DLDB: Extending relational databases to support
Semantic Web queries.
PSSS
, 2003.
[86] J. Perez, M. Arenas, C. Gutierrez. Semantics and Complexity of
SPARQL,
ISWC
, 2006.
[87] R. A. Popa, H. Balakrishnan, A. Blumberg. VPriv: Protecting Pri-
vacy in Location-Based Vehicular Services.
USENIX Security Sym-
posium
, 2008.
[88] E. Prud'hommeaux, A. Seaborne. SPARQL Query Language
for RDF (Working Draft),
http://www.w3.org/TR/2007/
