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He, Zaobo, Cai, Zhipeng, Sun, Yunchuan, Li, Yingshu, Cheng, Xiuzhen.  2017.  Customized Privacy Preserving for Inherent Data and Latent Data. Personal Ubiquitous Comput.. 21:43–54.
The huge amount of sensory data collected from mobile devices has offered great potentials to promote more significant services based on user data extracted from sensor readings. However, releasing user data could also seriously threaten user privacy. It is possible to directly collect sensitive information from released user data without user permissions. Furthermore, third party users can also infer sensitive information contained in released data in a latent manner by utilizing data mining techniques. In this paper, we formally define these two types of threats as inherent data privacy and latent data privacy and construct a data-sanitization strategy that can optimize the tradeoff between data utility and customized two types of privacy. The key novel idea lies that the developed strategy can combat against powerful third party users with broad knowledge about users and launching optimal inference attacks. We show that our strategy does not reduce the benefit brought by user data much, while sensitive information can still be protected. To the best of our knowledge, this is the first work that preserves both inherent data privacy and latent data privacy.
He, Zaobo, Cai, Zhipeng, Li, Yingshu.  2016.  Customized Privacy Preserving for Classification Based Applications. Proceedings of the 1st ACM Workshop on Privacy-Aware Mobile Computing. :37–42.

The rise of sensor-equipped smart phones has enabled a variety of classification based applications that provide personalized services based on user data extracted from sensor readings. However, malicious applications aggressively collect sensitive information from inherent user data without permissions. Furthermore, they can mine sensitive information from user data just in the classification process. These privacy threats raise serious privacy concerns. In this paper, we introduce two new privacy concerns which are inherent-data privacy and latent-data privacy. We propose a framework that enables a data-obfuscation mechanism to be developed easily. It preserves latent-data privacy while guaranteeing satisfactory service quality. The proposed framework preserves privacy against powerful adversaries who have knowledge of users' access pattern and the data-obfuscation mechanism. We validate our framework towards a real classification-orientated dataset. The experiment results confirm that our framework is superior to the basic obfuscation mechanism.