English

Stateful Switch: Optimized Time Series Release with Local Differential Privacy

Cryptography and Security 2022-12-20 v1

Abstract

Time series data have numerous applications in big data analytics. However, they often cause privacy issues when collected from individuals. To address this problem, most existing works perturb the values in the time series while retaining their temporal order, which may lead to significant distortion of the values. Recently, we propose TLDP model that perturbs temporal perturbation to ensure privacy guarantee while retaining original values. It has shown great promise to achieve significantly higher utility than value perturbation mechanisms in many time series analysis. However, its practicability is still undermined by two factors, namely, utility cost of extra missing or empty values, and inflexibility of privacy budget settings. To address them, in this paper we propose {\it switch} as a new two-way operation for temporal perturbation, as opposed to the one-way {\it dispatch} operation. The former inherently eliminates the cost of missing, empty or repeated values. Optimizing switch operation in a {\it stateful} manner, we then propose StaSwitchStaSwitch mechanism for time series release under TLDP. Through both analytical and empirical studies, we show that StaSwitchStaSwitch has significantly higher utility for the published time series than any state-of-the-art temporal- or value-perturbation mechanism, while allowing any combination of privacy budget settings.

Keywords

Cite

@article{arxiv.2212.08792,
  title  = {Stateful Switch: Optimized Time Series Release with Local Differential Privacy},
  author = {Qingqing Ye and Haibo Hu and Kai Huang and Man Ho Au and Qiao Xue},
  journal= {arXiv preprint arXiv:2212.08792},
  year   = {2022}
}

Comments

This paper is accepted and will appear in INFOCOM 2023 as regular research paper

R2 v1 2026-06-28T07:39:54.142Z