Federated learning (FL) enables participants to store data locally while collaborating in training, yet it remains vulnerable to privacy attacks, such as data reconstruction. Existing differential privacy (DP) technologies inject noise dynamically into the training process to mitigate the impact of excessive noise. However, this dynamic scheduling is often grounded in factors indirectly related to privacy, making it difficult to clearly explain the intricate relationship between dynamic noise adjustments and privacy requirements. To address this issue, we propose FedSDP, a novel and explainable DP-based privacy protection mechanism that guides noise injection based on privacy contribution. Specifically, FedSDP leverages Shapley values to assess the contribution of private attributes to local model training and dynamically adjusts the amount of noise injected accordingly. By providing theoretical insights into the injection of varying scales of noise into local training, FedSDP enhances interpretability. Extensive experiments demonstrate that FedSDP can achieve a superior balance between privacy preservation and model performance, surpassing state-of-the-art (SOTA) solutions.
View on arXiv@article{li2025_2503.12958,
title={ FedSDP: Explainable Differential Privacy in Federated Learning via Shapley Values },
author={ Yunbo Li and Jiaping Gui and Yue Wu },
journal={arXiv preprint arXiv:2503.12958},
year={ 2025 }
}