差分私有分布式优化

Proceedings of the 16th International Conference on Distributed Computing and Networking Pub Date : 2014-01-11 DOI:10.1145/2684464.2684480

Zhenqi Huang, S. Mitra, N. Vaidya

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引用次数: 214

摘要

在分布式优化和迭代共识文献中，一个标准问题是N个智能体在欧氏空间的子集上最小化函数f，其中代价函数表示为Σ fi的总和。本文研究私有分布优化问题(PDOP)，该问题要求个体代理的成本函数保持差分私有。攻击者试图从代理交换的消息中推断有关私有成本函数的信息。实现差异隐私要求个人成本函数的任何变化只会导致消息统计数据的非实质性变化。我们提出了一类求解PDOP的迭代算法，该算法实现了差分隐私性和收敛到一个公共值。我们的分析揭示了所获得的准确性和隐私级别对算法参数的依赖性。我们观察到，为了实现ε-微分隐私，算法的精度为O(1/ε2)阶。

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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Differentially Private Distributed Optimization

In distributed optimization and iterative consensus literature, a standard problem is for N agents to minimize a function f over a subset of Euclidean space, where the cost function is expressed as a sum Σ fi. In this paper, we study the private distributed optimization problem (PDOP) with the additional requirement that the cost function of the individual agents should remain differentially private. The adversary attempts to infer information about the private cost functions from the messages that the agents exchange. Achieving differential privacy requires that any change of an individual's cost function only results in unsubstantial changes in the statistics of the messages. We propose a class of iterative algorithms for solving PDOP, which achieves differential privacy and convergence to a common value. Our analysis reveals the dependence of the achieved accuracy and the privacy levels on the the parameters of the algorithm. We observe that to achieve ε-differential privacy the accuracy of the algorithm has the order of O(1/ε2).

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Proceedings of the 16th International Conference on Distributed Computing and Networking

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