综合数据中属性披露风险的基线

Proceedings of the Tenth ACM Conference on Data and Application Security and Privacy Pub Date : 2020-03-16 DOI:10.1145/3374664.3375722

Markus Hittmeir, Rudolf Mayer, Andreas Ekelhart

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引用次数: 19

摘要

合成数据的生成被广泛认为是缓解隐私问题和降低微数据识别和属性披露风险的可行方法。合成数据集中的记录是人为创建的，因此不直接与原始数据中的个体以一对一的对应关系相关联。因此，关于上述个人的推断似乎是不可行的，同时，数据的效用可能保持在较高水平。在本文中，我们通过将属性披露的标准攻击者模型解释为分类问题来挑战这种信念。我们展示了如何将最近出版物中提出的披露风险措施与机器学习分类模型进行比较，甚至重新制定为机器学习分类模型。本文的总体目标是对合成数据中的属性披露风险进行实证分析，并探讨其与数据效用的密切关系。此外，我们通过应用RadiusNearestNeighbor和EnsembleVote分类器的变体，从攻击者的角度改进了属性披露风险的基线。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A Baseline for Attribute Disclosure Risk in Synthetic Data

The generation of synthetic data is widely considered as viable method for alleviating privacy concerns and for reducing identification and attribute disclosure risk in micro-data. The records in a synthetic dataset are artificially created and thus do not directly relate to individuals in the original data in terms of a 1-to-1 correspondence. As a result, inferences about said individuals appear to be infeasible and, simultaneously, the utility of the data may be kept at a high level. In this paper, we challenge this belief by interpreting the standard attacker model for attribute disclosure as classification problem. We show how disclosure risk measures presented in recent publications may be compared to or even be reformulated as machine learning classification models. Our overall goal is to empirically analyze attribute disclosure risk in synthetic data and to discuss its close relationship to data utility. Moreover, we improve the baseline for attribute disclosure risk from the attacker's perspective by applying variants of the RadiusNearestNeighbor and the EnsembleVote classifier.

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Proceedings of the Tenth ACM Conference on Data and Application Security and Privacy

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