Fairness-aware Differentially Private Collaborative Filtering
This addresses fairness issues in privacy-preserving recommendation systems for e-commerce platforms, but is incremental as it combines existing techniques.
The paper tackled the problem that differential privacy in collaborative filtering increases unfairness against inactive users, and proposed DP-Fair, a two-stage framework that improved overall accuracy and fairness on Amazon and Etsy datasets compared to vanilla DP-SGD.
Recently, there has been an increasing adoption of differential privacy guided algorithms for privacy-preserving machine learning tasks. However, the use of such algorithms comes with trade-offs in terms of algorithmic fairness, which has been widely acknowledged. Specifically, we have empirically observed that the classical collaborative filtering method, trained by differentially private stochastic gradient descent (DP-SGD), results in a disparate impact on user groups with respect to different user engagement levels. This, in turn, causes the original unfair model to become even more biased against inactive users. To address the above issues, we propose \textbf{DP-Fair}, a two-stage framework for collaborative filtering based algorithms. Specifically, it combines differential privacy mechanisms with fairness constraints to protect user privacy while ensuring fair recommendations. The experimental results, based on Amazon datasets, and user history logs collected from Etsy, one of the largest e-commerce platforms, demonstrate that our proposed method exhibits superior performance in terms of both overall accuracy and user group fairness on both shallow and deep recommendation models compared to vanilla DP-SGD.