隐私保护数据发布的分层自适应进化框架

Mingshan You, Yong-Feng Ge, Kate Wang, Hua Wang, Jinli Cao, Georgios Kambourakis
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引用次数: 0

摘要

数据发布的需求日益增长,人们对数据隐私的关注也不断升级,这导致研究、工业和政府部门对隐私保护数据发布(PPDP)的兴趣激增。尽管意义重大,但 PPDP 仍然是一个具有挑战性的 NP 难问题,尤其是在处理复杂数据集时,传统的遍历搜索方法往往效率低下。进化算法(EAs)已成为应对这一挑战的一种有前途的方法,但其在 PPDP 应用中的有效性、效率和鲁棒性仍有待提高。本文提出了一种新颖的分层自适应进化框架(HAEF),旨在利用遗传算法(GA)和差分进化(DE)通过属性泛化和记录抑制来优化 t-closeness匿名化。为了平衡遗传算法和差分进化算法,HAEF 的第一个层次采用了遗传算法优先的自适应策略,以加强探索搜索。这种组合旨在实现探索与开发之间的平衡。第二个层次采用随机优先的自适应策略来选择不同的突变策略,从而充分利用各种突变策略的优势。性能基准测试证明了所提技术的有效性和效率。在16个测试实例中,HAEF的性能明显优于传统的深度优先遍历搜索,并在大多数数据集上超过了以前最先进的EA的性能。就总体性能而言,在所测试的三种隐私约束下,HAEF平均比传统的深度优先遍历搜索高出47.78%,比基于GA的ID-DGA方法高出37.38%,比TLEF中的GA-DE混合方法高出8.35%。此外,消融实验证实了框架内各种策略的有效性。这些发现提高了数据发布过程的效率,确保了隐私和安全,并最大限度地提高了数据可用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Hierarchical adaptive evolution framework for privacy-preserving data publishing

Hierarchical adaptive evolution framework for privacy-preserving data publishing

The growing need for data publication and the escalating concerns regarding data privacy have led to a surge in interest in Privacy-Preserving Data Publishing (PPDP) across research, industry, and government sectors. Despite its significance, PPDP remains a challenging NP-hard problem, particularly when dealing with complex datasets, often rendering traditional traversal search methods inefficient. Evolutionary Algorithms (EAs) have emerged as a promising approach in response to this challenge, but their effectiveness, efficiency, and robustness in PPDP applications still need to be improved. This paper presents a novel Hierarchical Adaptive Evolution Framework (HAEF) that aims to optimize t-closeness anonymization through attribute generalization and record suppression using Genetic Algorithm (GA) and Differential Evolution (DE). To balance GA and DE, the first hierarchy of HAEF employs a GA-prioritized adaptive strategy enhancing exploration search. This combination aims to strike a balance between exploration and exploitation. The second hierarchy employs a random-prioritized adaptive strategy to select distinct mutation strategies, thus leveraging the advantages of various mutation strategies. Performance bencmark tests demonstrate the effectiveness and efficiency of the proposed technique. In 16 test instances, HAEF significantly outperforms traditional depth-first traversal search and exceeds the performance of previous state-of-the-art EAs on most datasets. In terms of overall performance, under the three privacy constraints tested, HAEF outperforms the conventional DFS search by an average of 47.78%, the state-of-the-art GA-based ID-DGA method by an average of 37.38%, and the hybrid GA-DE method by an average of 8.35% in TLEF. Furthermore, ablation experiments confirm the effectiveness of the various strategies within the framework. These findings enhance the efficiency of the data publishing process, ensuring privacy and security and maximizing data availability.

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