New AI method keeps data private

Thu, 21.12.2017
New machine learning method developed by researchers at the University of Helsinki, Aalto University and Waseda University of Tokyo can use for example data on cell phones while guaranteeing data subject privacy.

Modern AI is based on machine learning which creates models by learning from data. Data used in many applications such as health and human behaviour is private and needs protection. New privacy-aware machine learning methods have been developed recently based on the concept of differential privacy. They guarantee that the published model or result can reveal only limited information on each data subject.

"Previously you needed one party with unrestricted access to all the data. Our new method enables learning accurate models for example using data on user devices without the need to reveal private information to any outsider", Assistant Professor Antti Honkela of the University of Helsinki says.

The group of researchers at the University of Helsinki and Aalto University, Finland, has applied privacy-aware methods for example to predicting cancer drug efficacy using gene expression.

"We have developed these methods with funding from the Academy of Finland for a few years, and now things are starting to look promising. Learning from big data is easier, but now we can also get results from smaller data", Academy Professor Samuel Kaski of Aalto University says.

The method was published and presented in early December in the annual premier machine learning conference NIPS.

Reference: M. Heikkilä, E. Lagerspetz, S. Kaski, K. Shimizu, S. Tarkoma, A. Honkela. Differentially private Bayesian learning on distributed data. In Advances in Neural Information Processing Systems 30 (NIPS 2017).

For more information: Assistant Professor Antti Honkela, University of Helsinki, tel. +358 50 311 2483, @ahonkela, antti.honkela@helsinki.fi

Minna Meriläinen-Tenhu, 050 415 0316, @MinnaMeriTenhu, minna.merilainen@helsinki.fi

 


Last updated on 21 Dec 2017 by Antti Honkela - Page created on 21 Dec 2017 by Antti Honkela