TY - GEN
T1 - Compressive mechanism
T2 - 10th Annual ACM Workshop on Privacy in the Electronic Society, WPES'11 - Co-located with 18th ACM Conference on Computer and Communications Security, CCS 2011
AU - Li, Yang D.
AU - Zhang, Zhenjie
AU - Winslett, Marianne
AU - Yang, Yin
PY - 2011
Y1 - 2011
N2 - Differential privacy provides the first theoretical foundation with provable privacy guarantee against adversaries with arbitrary prior knowledge. The main idea to achieve differential privacy is to inject random noise into statistical query results. Besides correctness, the most important goal in the design of a differentially private mechanism is to reduce the effect of random noise, ensuring that the noisy results can still be useful. This paper proposes the compressive mechanism, a novel solution on the basis of state-of-the-art compression technique, called compressive sensing. Compressive sensing is a decent theoretical tool for compact synopsis construction, using random projections. In this paper, we show that the amount of noise is significantly reduced from O(√n) to O(log(n)), when the noise insertion procedure is carried on the synopsis samples instead of the original database. As an extension, we also apply the proposed compressive mechanism to solve the problem of continual release of statistical results. Extensive experiments using real datasets justify our accuracy claims.
AB - Differential privacy provides the first theoretical foundation with provable privacy guarantee against adversaries with arbitrary prior knowledge. The main idea to achieve differential privacy is to inject random noise into statistical query results. Besides correctness, the most important goal in the design of a differentially private mechanism is to reduce the effect of random noise, ensuring that the noisy results can still be useful. This paper proposes the compressive mechanism, a novel solution on the basis of state-of-the-art compression technique, called compressive sensing. Compressive sensing is a decent theoretical tool for compact synopsis construction, using random projections. In this paper, we show that the amount of noise is significantly reduced from O(√n) to O(log(n)), when the noise insertion procedure is carried on the synopsis samples instead of the original database. As an extension, we also apply the proposed compressive mechanism to solve the problem of continual release of statistical results. Extensive experiments using real datasets justify our accuracy claims.
KW - Compressive sensing
KW - Differential privacy
KW - Randomness
UR - http://www.scopus.com/inward/record.url?scp=80955157833&partnerID=8YFLogxK
U2 - 10.1145/2046556.2046581
DO - 10.1145/2046556.2046581
M3 - Conference contribution
AN - SCOPUS:80955157833
SN - 9781450310024
T3 - Proceedings of the ACM Conference on Computer and Communications Security
SP - 177
EP - 182
BT - WPES'11 - Proceedings of the 10th Annual ACM Workshop on Privacy in the Electronic Society
Y2 - 17 October 2011 through 17 October 2011
ER -