TY - GEN
T1 - Concealer
T2 - Advances in Database Technology - 24th International Conference on Extending Database Technology, EDBT 2021
AU - Gupta, Peeyush
AU - Mehrotra, Sharad
AU - Sharma, Shantanu
AU - Venkatasubramanian, Nalini
AU - Wang, Guoxi
N1 - Publisher Copyright:
© 2021 Copyright held by the owner/author(s).
PY - 2021/1/1
Y1 - 2021/1/1
N2 - This paper proposes a system, entitled Concealer that allows sharing time-varying spatial data (e.g., as produced by sensors) in encrypted form to an untrusted third-party service provider to provide location-based applications (involving aggregation queries over selected regions over time windows) to users. Concealer exploits carefully selected encryption techniques to use indexes supported by database systems and combines ways to add fake tuples in order to realize an efficient system that protects against leakage based on output-size. Thus, the design of Concealer overcomes two limitations of existing symmetric searchable encryption (SSE) techniques: (i) it avoids the need of specialized data structures that limit usability/practicality of SSE in large scale deployments, and (ii) it avoids information leakages based on the output-size, which may leak data distributions. Experimental results validate the efficiency of the proposed algorithms over a spatial time-series dataset (collected from a smart space) and TPC-H datasets, each of 136 Million rows, the size of which prior approaches have not scaled to.
AB - This paper proposes a system, entitled Concealer that allows sharing time-varying spatial data (e.g., as produced by sensors) in encrypted form to an untrusted third-party service provider to provide location-based applications (involving aggregation queries over selected regions over time windows) to users. Concealer exploits carefully selected encryption techniques to use indexes supported by database systems and combines ways to add fake tuples in order to realize an efficient system that protects against leakage based on output-size. Thus, the design of Concealer overcomes two limitations of existing symmetric searchable encryption (SSE) techniques: (i) it avoids the need of specialized data structures that limit usability/practicality of SSE in large scale deployments, and (ii) it avoids information leakages based on the output-size, which may leak data distributions. Experimental results validate the efficiency of the proposed algorithms over a spatial time-series dataset (collected from a smart space) and TPC-H datasets, each of 136 Million rows, the size of which prior approaches have not scaled to.
UR - http://www.scopus.com/inward/record.url?scp=85113715451&partnerID=8YFLogxK
U2 - 10.5441/002/edbt.2021.25
DO - 10.5441/002/edbt.2021.25
M3 - Conference contribution
AN - SCOPUS:85113715451
T3 - Advances in Database Technology - EDBT
SP - 277
EP - 288
BT - Advances in Database Technology - EDBT 2021
A2 - Velegrakis, Yannis
A2 - Velegrakis, Yannis
A2 - Zeinalipour, Demetris
A2 - Chrysanthis, Panos K.
A2 - Chrysanthis, Panos K.
A2 - Guerra, Francesco
PB - OpenProceedings.org
Y2 - 23 March 2021 through 26 March 2021
ER -