Journal article

Secure and private control using semi-homomorphic encryption

F Farokhi, I Shames, N Batterham

Control Engineering Practice | Published : 2017

DOI: 10.1016/j.conengprac.2017.07.004

Abstract

Networked control systems with encrypted sensors measurements is considered. Semi-homomorphic encryption, specifically the Paillier encryption, is used so that the controller can perform the required computation on the encrypted data. Conditions on the parameters of the encryption technique are provided that guarantee the stability and the performance of the closed-loop system. The results are subsequently extended Laplacian based distributed systems, such as formation-seeking algorithms. It is shown that the problem of figuring out the state measurements of the neighbouring agents of a compromised agent upon using the proposed algorithm is numerically intractable.

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Grants

Awarded by Melbourne School of Engineering, ARC

Awarded by Defence Science and Technology Group

Funding Acknowledgements

The work was supported by a McKenzie Fellowship, an early career grant from Melbourne School of Engineering, ARC grant LP130100605, and Defence Science and Technology Group through the Research Agreement MyIP:6288.

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Keywords

Paillier Method
Engineering, Electrical & Electronic
Networked Control System
Semi-Homomorphic Encryption
40 Engineering
Privacy
Technology
Science & Technology
4007 Control Engineering, Mechatronics and Robotics
Scheme
Management
Control-Systems
Engineering
Security
Automation & Control Systems