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Title: Publishing Microdata with a Robust Privacy Guarantee

Citation Type: Journal Article

Publication Year: 2012

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Abstract: Today, the publication of microdata poses a privacy threat. Vast research has striven to define the privacy condition that microdata should satisfy before it is released, and devise algorithms to anonymize the data so as to achieve this condition. Yet, no method proposed to date explicitly bounds the percentage of information an adversary gains after seeing the published data for each sensitive value therein. This paper introduces -likeness, an appropriately robust privacy model for microdata anonymization, along with two anonymization schemes designed therefore, the one based on generalization, and the other based on perturbation. Our model postulates that an adversary's confidence on the likelihood of a certain sensitive-attribute (SA) value should not increase, in relative difference terms, by more than a predefined threshold. Our techniques aim to satisfy a given threshold with little information loss. We experimentally demonstrate that (i) our model provides an effective privacy guarantee in a way that predecessor models cannot, (ii) our generalization scheme is more effective and efficient in its task than methods adapting algorithms for the k-anonymity model, and (iii) our perturbation method outperforms a baseline approach. Moreover, we discuss in detail the resistance of our model and methods to attacks proposed in previous research.

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Authors: Karras, Panagiotis; Cao, Jianneng

Periodical (Full): Proceedings of the VLDB Endowment

Issue: 11

Volume: 5

Pages: 1388-1399

Data Collections: IPUMS USA

Topics: Methodology and Data Collection

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