通过隐私感知特征选择优化安全分类性能

Erman Pattuk, Murat Kantarcioglu, Huseyin Ulusoy, B. Malin
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引用次数: 5

摘要

个性化医疗的最新进展表明,未来临床决策将取决于患者的个体特征,例如他们的年龄、种族、基因组变异和生活方式。已经有许多商业实体致力于提供软件来支持诸如基于云的服务之类的决策。然而,在这样的环境中部署这样的服务对隐私提出了重要的挑战。最近的一项攻击表明,披露个性化药物剂量建议,结合一些人口统计学知识,可以用来推断患者的单核苷酸多态性变异。防止这种推断的一种方法是应用隐藏所有患者数据的安全多方计算(SMC)技术,这样在决策过程中就不会泄露任何信息,包括临床建议。然而,SMC是一个计算繁琐的过程,为了各种合规性目的,披露一些信息可能是必要的。此外,某些信息(例如,人口统计信息)可能已经是公开的。在这项工作中,我们提供了一种新的方法,在SMC过程之前选择性地披露某些信息,以显着提高个性化决策性能,同时保留所需的隐私水平。为了实现这一目标,我们引入了一种机制来快速计算由于信息披露而导致的隐私损失,同时考虑其对SMC执行阶段的性能影响。我们的实证分析表明,与纯SMC解决方案相比,我们可以实现多达三个数量级的改进,而隐私风险仅略有增加。
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Optimizing secure classification performance with privacy-aware feature selection
Recent advances in personalized medicine point towards a future where clinical decision making will be dependent upon the individual characteristics of the patient, e.g., their age, race, genomic variation, and lifestyle. Already, there are numerous commercial entities working towards the provision of software to support such decisions as cloud-based services. However, deployment of such services in such settings raises important challenges for privacy. A recent attack shows that disclosing personalized drug dosage recommendations, combined with several pieces of demographic knowledge, can be leveraged to infer single nucleotide polymorphism variants of a patient. One manner to prevent such inference is to apply secure multi-party computation (SMC) techniques that hide all patient data, so that no information, including the clinical recommendation, is disclosed during the decision making process. Yet, SMC is a computationally cumbersome process and disclosing some information may be necessary for various compliance purposes. Additionally, certain information (e.g., demographic information) may already be publicly available. In this work, we provide a novel approach to selectively disclose certain information before the SMC process to significantly improve personalized decision making performance while preserving desired levels of privacy. To achieve this goal, we introduce mechanisms to quickly compute the loss in privacy due to information disclosure while considering its performance impact on SMC execution phase. Our empirical analysis show that we can achieve up to three orders of magnitude improvement compared to pure SMC solutions with only a slight increase in privacy risks.
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