TY - GEN
T1 - PrivShape: Extracting Shapes in Time Series under User-Level Local Differential Privacy
AU - Mao, Yulian
AU - Ye, Qingqing
AU - Hu, Haibo
AU - Wang, Qi
AU - Huang, Kai
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024/7
Y1 - 2024/7
N2 - Time series have numerous applications in finance, healthcare, IoT, and smart city. In many of these applications, time series typically contain personal data, so privacy infringement may occur if they are released directly to the public. Recently, local differential privacy (LDP) has emerged as the state-of-the-art approach to protecting data privacy. However, existing works on LDP-based collections cannot preserve the shape of time series. A recent work, PatternLDP, attempts to address this problem, but it can only protect a finite group of elements in a time series due to ?-event level privacy guarantee. In this paper, we propose PrivShape, a trie-based mechanism under user-level LDP to protect all elements. PrivShape first transforms a time series to reduce its length, and then adopts trie-expansion and two-level refinement to improve utility. By extensive experiments on real-world datasets, we demonstrate that PrivShape outperforms PatternLDP when adapted for offline use, and can effectively extract frequent shapes.
AB - Time series have numerous applications in finance, healthcare, IoT, and smart city. In many of these applications, time series typically contain personal data, so privacy infringement may occur if they are released directly to the public. Recently, local differential privacy (LDP) has emerged as the state-of-the-art approach to protecting data privacy. However, existing works on LDP-based collections cannot preserve the shape of time series. A recent work, PatternLDP, attempts to address this problem, but it can only protect a finite group of elements in a time series due to ?-event level privacy guarantee. In this paper, we propose PrivShape, a trie-based mechanism under user-level LDP to protect all elements. PrivShape first transforms a time series to reduce its length, and then adopts trie-expansion and two-level refinement to improve utility. By extensive experiments on real-world datasets, we demonstrate that PrivShape outperforms PatternLDP when adapted for offline use, and can effectively extract frequent shapes.
KW - Local differential privacy
KW - Shape extraction
KW - Time series
KW - User-level privacy
UR - http://www.scopus.com/inward/record.url?scp=85200454634&partnerID=8YFLogxK
U2 - 10.1109/ICDE60146.2024.00141
DO - 10.1109/ICDE60146.2024.00141
M3 - Conference article published in proceeding or book
AN - SCOPUS:85200454634
T3 - Proceedings - International Conference on Data Engineering
SP - 1739
EP - 1751
BT - Proceedings - 2024 IEEE 40th International Conference on Data Engineering, ICDE 2024
PB - IEEE Computer Society
T2 - 40th IEEE International Conference on Data Engineering, ICDE 2024
Y2 - 13 May 2024 through 17 May 2024
ER -