January 22, 2021


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Layer-wise Characterization of Latent Information Leakage in Federated Learning. (arXiv:2010.08762v2 [cs.CR] UPDATED)

Training deep neural networks via federated learning allows clients to share
the model updated on their data, instead of the original data. In practice, it
is shown that a client’s private information, unrelated to the main learning
task, can be discovered from the shared model, which compromises the promised
privacy protection. However, there is still no formal approach for quantifying
the leakage of such latent information from the shared model/gradients. As a
solution, we introduce and evaluate two mathematically-grounded metrics for
better characterizing the amount of information included in the shared
gradients computed on the clients’ private data. First, using an adaptation of
the empirical $mathcal{V}$-information, we show how to quantify the amount of
private latent information captured in gradients that are usable for an
attacker. Second, based on a sensitivity analysis}using Jacobian matrices, we
show how to measure changes in the gradients with respect to latent
information. Further, we show the applicability of our proposed metrics in (i)
localizing private latent information in a layer-wise manner, in both settings
where we have or we do not have the knowledge of the attackers’ capability, and
(ii) comparing the capacity of each layer in a neural network in capturing
higher-level versus lower-level latent information. Experimental results on
three real-world datasets using three benchmark models show the validity of the
proposed metrics.