Privacy‐preserving federated learning based on multi‐key homomorphic encryption

Privacy‐preserving federated learning based on multi‐key homomorphic encryption

With the advance of machine learning and the Internet of Things (IoT), security and privacy have become critical concerns in mobile services and networks. Transferring data to a central unit violates the privacy of sensitive data. Federated learning mitigates this need to transfer local data by shar...

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Bibliographic Details
Published in:International journal of intelligent systems Vol. 37; no. 9; pp. 5880 - 5901
Main Authors: Ma, Jing, Naas, Si‐Ahmed, Sigg, Stephan, Lyu, Xixiang
Format: Journal Article
Language:English
Published: New York Hindawi Limited 01-09-2022
Subjects:
Encryption
Federated learning
Intelligent systems
Internet of Things
IoT
Leakage
Machine learning
Model accuracy
multi‐key homomorphic encryption
Privacy
privacy protection
Servers
smart healthcare
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Summary:With the advance of machine learning and the Internet of Things (IoT), security and privacy have become critical concerns in mobile services and networks. Transferring data to a central unit violates the privacy of sensitive data. Federated learning mitigates this need to transfer local data by sharing model updates only. However, privacy leakage remains an issue. This paper proposes xMK‐CKKS, an improved version of the MK‐CKKS multi‐key homomorphic encryption protocol, to design a novel privacy‐preserving federated learning scheme. In this scheme, model updates are encrypted via an aggregated public key before sharing with a server for aggregation. For decryption, a collaboration among all participating devices is required. Our scheme prevents privacy leakage from publicly shared model updates in federated learning and is resistant to collusion between k < N − 1 participating devices and the server. The evaluation demonstrates that the scheme outperforms other innovations in communication and computational cost while preserving model accuracy.
ISSN:0884-8173
1098-111X
DOI:10.1002/int.22818