一种新的隐私保护优化进化计算框架

Zhi-hui Zhan, Sheng-Hao Wu, Jun Zhang
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引用次数: 7

摘要

进化计算(EC)是一种先进的计算智能(CI)算法和先进的人工智能(AI)算法。EC算法已被广泛研究用于解决各种实际应用中的优化和调度问题,它们与模糊系统和神经网络一起成为CI和AI的三大应用之一。尽管近年来算法发展迅速,但有一个假设是,算法设计者可以得到优化问题的目标函数,从而计算出个体的适应度值,从而遵循自然选择中的“适者生存”原则。但在实际应用场景中,存在目标函数为隐私的问题,使得算法设计者无法直接获得个体的适应度值。这就是可用目标函数假设不成立的隐私保护优化问题(PPOP)。如何解决PPOP问题是一个研究较少的新兴领域,也是电子商务领域一个具有挑战性的研究课题。本文提出了一种基于秩的加密函数(RCF)来保护适应度值信息。特别是算法用户采用RCF将所有个体的适应度值加密为秩,使得算法设计者不知道确切的适应度信息,只知道秩信息。尽管如此,RCF可以保护算法用户的隐私,但仍然可以为算法设计者提供足够的信息来驱动EC算法。我们将RCF隐私保护方法应用于粒子群优化(PSO)和差分进化(DE)两种典型的EC算法。实验结果表明,基于rcf的隐私保护PSO和DE可以在不损失性能的情况下解决PPOP问题。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A New Evolutionary Computation Framework for Privacy-Preserving Optimization
Evolutionary computation (EC) is a kind of advanced computational intelligence (CI) algorithm and advanced artificial intelligence (AI) algorithm. EC algorithms have been widely studied for solving optimization and scheduling problems in various real-world applications, which act as one of the Big Three in CI and AI, together with fuzzy systems and neural networks. Even though EC has been fast developed in recent years, there is an assumption that the algorithm designer can obtain the objective function of the optimization problem so that they can calculate the fitness values of the individuals to follow the “survival of the fittest” principle in natural selection. However, in a real-world application scenario, there is a kind of problem that the objective function is privacy so that the algorithm designer can not obtain the fitness values of the individuals directly. This is the privacy-preserving optimization problem (PPOP) where the assumption of available objective function does not check out. How to solve the PPOP is a new emerging frontier with seldom study but is also a challenging research topic in the EC community. This paper proposes a rank-based cryptographic function (RCF) to protect the fitness value information. Especially, the RCF is adopted by the algorithm user to encrypt the fitness values of all the individuals as rank so that the algorithm designer does not know the exact fitness information but only the rank information. Nevertheless, the RCF can protect the privacy of the algorithm user but still can provide sufficient information to the algorithm designer to drive the EC algorithm. We have applied the RCF privacy-preserving method to two typical EC algorithms including particle swarm optimization (PSO) and differential evolution (DE). Experimental results show that the RCF-based privacy-preserving PSO and DE can solve the PPOP without performance loss.
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