Atlas: Gan-based differentially private multi-party data sharing
In this article, we study the problem of differentially private multi-party data sharing, where
the involved parties assisted by a semi-honest curator collectively generate a shared dataset
while satisfying differential privacy. Inspired by the success of data synthesis with the
generative adversarial network (GAN), we propose a novel GAN-based differentially private
multi-party data sharing approach named ATLAS. In ATLAS, we extend the original GAN to
multiple discriminators, and let each party hold a discriminator while the curator holds a …
the involved parties assisted by a semi-honest curator collectively generate a shared dataset
while satisfying differential privacy. Inspired by the success of data synthesis with the
generative adversarial network (GAN), we propose a novel GAN-based differentially private
multi-party data sharing approach named ATLAS. In ATLAS, we extend the original GAN to
multiple discriminators, and let each party hold a discriminator while the curator holds a …
In this article, we study the problem of differentially private multi-party data sharing, where the involved parties assisted by a semi-honest curator collectively generate a shared dataset while satisfying differential privacy. Inspired by the success of data synthesis with the generative adversarial network (GAN), we propose a novel GAN-based differentially private multi-party data sharing approach named ATLAS. In ATLAS, we extend the original GAN to multiple discriminators, and let each party hold a discriminator while the curator holds a generator. To update the generator without compromising each party's privacy, we decompose the calculation of the generator's gradient and selectively sanitize the discriminators’ responses . Additionally, we propose two methods to improve the utility of shared data, i.e., the collaborative discriminator filtering (CDF) method and the adaptive gradient perturbation (AGP) method. Specifically, the CDF method utilizes trained discriminators to refine synthetic records, while the AGP method adaptively adjusts the noise scale during training to reduce the impact of deferentially private noise on the final shared data. Extensive experiments on real-world datasets validate the superiority of our ATLAS approach.
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