Privacy-preserving publishing of multilevel utility-controlled graph datasets
Document Type
Article
Publication Date
1-1-2018
Abstract
Conventional private data publication schemes are targeted at publication of sensitive datasets either after the k-anonymization process or through differential privacy constraints. Typically these schemes are designed with the objective of retaining as much utility as possible for the aggregate queries while ensuring the privacy of the individual records. Such an approach, though suitable for publishing aggregate information as public datasets, is inapplicable when users have different levels of access to the same data. We argue that existing schemes either result in increased disclosure of private information or lead to reduced utility when some users have more access privileges than the others. In this article, we present an anonymization framework for publishing large datasets with the goals of providing different levels of utility to the users based on their access privilege levels. We design and implement our proposed multilevel utility-controlled anonymization schemes in the context of large association graphs considering three levels of user utility, namely, (1) users having access to only the graph structure, (2) users having access to the graph structure and aggregate query results, and (3) users having access to the graph structure, aggregate query results, and individual associations. Our experiments on real large association graphs show that the proposed techniques are effective and scalable 4 and yield the required level of privacy and utility for each user privacy and access privilege level.
Publication Source (Journal or Book title)
ACM Transactions on Internet Technology
Recommended Citation
Palanisamy, B., Liu, L., Zhou, Y., & Wang, Q. (2018). Privacy-preserving publishing of multilevel utility-controlled graph datasets. ACM Transactions on Internet Technology, 18 (2) https://doi.org/10.1145/3125622
