Differentially private density estimation via Gaussian mixtures model

2016 IEEE/ACM 24th International Symposium on Quality of Service (IWQoS) Pub Date : 2016-06-20 DOI:10.1109/IWQoS.2016.7590445

Yuncheng Wu, Yao Wu, Hui Peng, Juru Zeng, Hong Chen, Cuiping Li

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引用次数: 8

Abstract

Density estimation can construct an estimate of the probability density function from the observed data. However, such a function may compromise the privacy of individuals. A notable paradigm for offering strong privacy guarantees in data analysis is differential privacy. In this paper, we propose DPGMM, a parametric density estimation algorithm using Gaussian mixtures model (GMM) under differential privacy. GMM is a well-known model that could approximate any distribution and can be solved via Expectation-Maximization (EM) algorithm. The main idea of DPGMM is to add two extra steps after getting the estimated parameters in the M step of each iteration. The first step is the noise adding step, which injects calibrated noise to the estimated parameters according to their L1-sensitivities and privacy budgets. The second step is the post-processing step, which post-processes those noisy parameters that might break their intrinsic characteristics. Extensive experiments using both real and synthetic datasets evaluate the performance of DPGMM, and demonstrate that the proposed method outperforms a state-of-art approach.

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基于高斯混合模型的差分私有密度估计

密度估计可以根据观测数据构造概率密度函数的估计值。然而，这种功能可能会损害个人的隐私。在数据分析中提供强大隐私保障的一个值得注意的范例是差异隐私。本文提出了差分隐私下基于高斯混合模型的参数密度估计算法DPGMM。GMM是一个众所周知的模型，它可以近似任何分布，并可以通过期望最大化(EM)算法求解。DPGMM的主要思想是在每次迭代的M步得到估计参数后，再增加两个额外的步骤。第一步是噪声添加步骤，根据估计参数的l1灵敏度和隐私预算向估计参数注入校准后的噪声。第二步是后处理步骤，即对可能破坏其固有特征的噪声参数进行后处理。使用真实和合成数据集进行的大量实验评估了DPGMM的性能，并证明了所提出的方法优于当前最先进的方法。

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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2016 IEEE/ACM 24th International Symposium on Quality of Service (IWQoS)

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