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研究生: 翁瑞鴻
Weng, Jui-Hung
論文名稱: 分層隱私保留 K 匿名
Multi-Level Privacy Preserving K-Anonymity
指導教授: 紀博文
Chi, Po-Wen
口試委員: 王銘宏
Wang, Ming-Hung
莊允心
Chuang, Yun-Hsin
紀博文
Chi, Po-Wen
口試日期: 2021/07/30
學位類別: 碩士
Master
系所名稱: 資訊工程學系
Department of Computer Science and Information Engineering
論文出版年: 2022
畢業學年度: 110
語文別: 英文
論文頁數: 44
中文關鍵詞: 匿名化資料隱私K 匿名
英文關鍵詞: Anonymization, Data privacy, k-anonymity
DOI URL: http://doi.org/10.6345/NTNU202200936
論文種類: 學術論文
相關次數: 點閱:68下載:7
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  • K 匿名是達到資料隱私的一種常見做法,其確保發布的資料集中,任一筆紀錄至少有其他 k - 1 筆與其具有相同屬性值的紀錄。在 K 匿名的保護下,資料發布者會以所有紀錄中最高的隱私要求去設定 k 值,使得每筆紀錄達到相同程度的匿名保護。然而,不同的人或物時常會有不同的隱私要求。有些紀錄需要額外的保護,有些紀錄則僅須較低程度的隱私要求。

    在這篇論文中,我們提出了基於 K 匿名架構的分層隱私保留 K 匿名。其將資料集中的紀錄分至不同群組,並限制各群組符合自己對應的隱私要求。此作法使得資料發布者不必再以最高的隱私要求去設定 k 值,從而減輕匿名化造成的資訊損失。此外,我們提出了一個叢聚的演算法,來達到分層隱私保留 K 匿名的要求。從真實世界資料集的實驗與評估中,我們證實了提出的方法,對比傳統的 K 匿名,除了在設定參數有更大的彈性,也提供了更高的資料可用性。此外,實驗結果也顯示提出的演算法不僅可以有效率地運行在大型資料集上,也不會因為分層的架構產生額外的執行時間。

    k-anonymity is a well-known definition of privacy, which guarantees that any person in the released dataset cannot be distinguished from at least k-1 other individuals. In the protection model, the records are anonymized through generalization or suppression with a fixed value of k. Accordingly, each record has the same level of anonymity in the published dataset. However, different people or items usually have inconsistent privacy requirements. Some records need extra protection while others require a relatively low level of privacy constraint.

    In this paper, we propose Multi-Level Privacy Preserving K-Anonymity, an advanced protection model based on k-anonymity, which divides records into different groups and requires each group to satisfy its respective privacy requirement. Moreover, we present a practical algorithm using clustering techniques to ensure the property. The evaluation on a real-world dataset confirms that the proposed method has the advantages of offering more flexibility in setting privacy parameters and providing higher data utility than traditional k-anonymity.

    Chapter 1 Introduction 1 1.1 The Importance of Data Privacy 1 1.2 Data Publishing and Anonymization 3 1.3 Motivation 5 1.4 Contributions 6 1.5 Organization 7 Chapter 2 Related Work 8 2.1 Privacy-Preserving Data Publishing 8 2.1.1 k-Anonymity 9 2.1.2 ℓ-Diversity 11 2.1.3 t-Closeness 13 2.2 Cost Metrics 16 2.2.1 Discernibility Metric 16 2.2.2 Classification Metric 17 2.2.3 Information Loss Metric 18 2.3 k-Anonymization Approaches 20 2.3.1 Complexity of k-Anonymization 20 2.3.2 Optimization Algorithms 21 2.3.3 Partitioning-based Algorithms 24 2.3.4 Clustering-based Algorithms 25 2.4 k-anonymity with Multiple Privacy Constraints 26 Chapter 3 Multi-Level Privacy Preserving K-anonymity 28 3.1 Definition 28 3.2 Cost Metric 30 3.3 Greedy Clustering-Based Algorithm 32 Chapter 4 Evaluation 35 4.1 Setup 35 4.2 Comparison with Traditional k-anonymity 36 4.3 Scalability of |K| 38 Chapter 5 Conclusion 40 References 41

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