TY - JOUR
T1 - Differentially private Bayesian learning on distributed data
AU - Heikkilä, Mikko
AU - Lagerspetz, Eemil
AU - Kaski, Samuel
AU - Shimizu, Kana
AU - Tarkoma, Sasu
AU - Honkela, Antti
N1 - Funding Information:
This work was funded by the Academy of Finland [Centre of Excellence COIN and projects 259440, 278300, 292334, 294238, 297741, 303815, 303816], the Japan Agency for Medical Research and Development (AMED), and JST CREST [JPMJCR1688].
Publisher Copyright:
© 2017 Neural information processing systems foundation. All rights reserved.
PY - 2017
Y1 - 2017
N2 - Many applications of machine learning, for example in health care, would benefit from methods that can guarantee privacy of data subjects. Differential privacy (DP) has become established as a standard for protecting learning results. The standard DP algorithms require a single trusted party to have access to the entire data, which is a clear weakness, or add prohibitive amounts of noise. We consider DP Bayesian learning in a distributed setting, where each party only holds a single sample or a few samples of the data. We propose a learning strategy based on a secure multi-party sum function for aggregating summaries from data holders and the Gaussian mechanism for DP. Our method builds on an asymptotically optimal and practically efficient DP Bayesian inference with rapidly diminishing extra cost.
AB - Many applications of machine learning, for example in health care, would benefit from methods that can guarantee privacy of data subjects. Differential privacy (DP) has become established as a standard for protecting learning results. The standard DP algorithms require a single trusted party to have access to the entire data, which is a clear weakness, or add prohibitive amounts of noise. We consider DP Bayesian learning in a distributed setting, where each party only holds a single sample or a few samples of the data. We propose a learning strategy based on a secure multi-party sum function for aggregating summaries from data holders and the Gaussian mechanism for DP. Our method builds on an asymptotically optimal and practically efficient DP Bayesian inference with rapidly diminishing extra cost.
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M3 - Conference article
AN - SCOPUS:85047010172
SN - 1049-5258
VL - 2017-December
SP - 3227
EP - 3236
JO - Advances in Neural Information Processing Systems
JF - Advances in Neural Information Processing Systems
T2 - 31st Annual Conference on Neural Information Processing Systems, NIPS 2017
Y2 - 4 December 2017 through 9 December 2017
ER -