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Minimax Filter: Learning to Preserve Privacy from Inference Attacks

Jihun Hamm; 18(129):1−31, 2017.

Abstract

Preserving privacy of continuous and/or high-dimensional data such as images, videos and audios, can be challenging with syntactic anonymization methods which are designed for discrete attributes. Differentially privacy, which uses a more rigorous definition of privacy loss, has shown more success in sanitizing continuous data. However, both syntactic and differential privacy are susceptible to inference attacks, i.e., an adversary can accurately infer sensitive attributes from sanitized data. The paper proposes a novel filter-based mechanism which preserves privacy of continuous and high-dimensional attributes against inference attacks. Finding the optimal utility-privacy tradeoff is formulated as a min-diff-max optimization problem. The paper provides an ERM-like analysis of the generalization error and also a practical algorithm to perform minimax optimization. In addition, the paper proposes a noisy minimax filter which combines minimax filter and differentially-private mechanism. Advantages of the method over purely noisy mechanisms is explained and demonstrated with examples. Experiments with several real-world tasks including facial expression classification, speech emotion classification, and activity classification from motion, show that the minimax filter can simultaneously achieve similar or higher target task accuracy and lower inference accuracy, often significantly lower than previous methods.

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