An Empirical Analysis of Fairness Notions under Differential Privacy
de Oliveira, Anderson Santana, Kaplan, Caelin, Mallat, Khawla, Chakraborty, Tanmay
–arXiv.org Artificial Intelligence
Recent works have shown that selecting an optimal model architecture suited to the differential privacy setting is necessary to achieve the best possible utility for a given privacy budget using differentially private stochastic gradient descent (DP-SGD)(Tramer and Boneh 2020; Cheng et al. 2022). In light of these findings, we empirically analyse how different fairness notions, belonging to distinct classes of statistical fairness criteria (independence, separation and sufficiency), are impacted when one selects a model architecture suitable for DP-SGD, optimized for utility. Using standard datasets from ML fairness literature, we show using a rigorous experimental protocol, that by selecting the optimal model architecture for DP-SGD, the differences across groups concerning the relevant fairness metrics (demographic parity, equalized odds and predictive parity) more often decrease or are negligibly impacted, compared to the non-private baseline, for which optimal model architecture has also been selected to maximize utility. These findings challenge the understanding that differential privacy will necessarily exacerbate unfairness in deep learning models trained on biased datasets.
arXiv.org Artificial Intelligence
Feb-6-2023
- Country:
- Oceania > Australia (0.04)
- North America
- United States
- Alaska (0.04)
- Massachusetts > Middlesex County
- Cambridge (0.04)
- Florida > Broward County
- Fort Lauderdale (0.04)
- California
- Santa Clara County > San Jose (0.04)
- Santa Barbara County > Santa Barbara (0.04)
- Los Angeles County > Long Beach (0.04)
- Canada > British Columbia
- United States
- Europe
- Asia
- Singapore (0.04)
- China > Shaanxi Province
- Xi'an (0.04)
- Genre:
- Research Report > New Finding (0.46)
- Industry:
- Information Technology > Security & Privacy (1.00)
- Law (0.93)
- Government > Regional Government
- Technology: