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Dynamic Controller That Operates Over Homomorphically Encrypted Data for Infinite Time Horizon

Junsoo Kim, Hyungbo Shim, Kyoohyung Han

2022IEEE Transactions on Automatic Control63 citationsDOI

Abstract

In this article, we present a dynamic feedback controller that computes the next state and the control signal over encrypted data using homomorphic properties of cryptosystems, whose performance is equivalent to the linear dynamic controllers over real-valued data. Assuming that the input as well as the output of the plant is encrypted and transmitted back to the controller, it is shown that the state matrix of any linear time-invariant controller can be always converted to a matrix of integer components. This allows the dynamic feedback controller to operate for infinite time horizon without decryption or reset of its internal state. For implementation in practice, we illustrate the use of a cryptosystem that is based on the Learning With Errors problem, which allows both multiplication and addition over encrypted data. It is also shown that the effect of injected random numbers during encryption for security can be maintained within a small bound by way of the closed-loop stability.

Topics & Concepts

EncryptionCryptosystemControl theory (sociology)Homomorphic encryptionComputer scienceController (irrigation)Multiplication (music)Discrete time and continuous timeMathematicsControl (management)BiologyCombinatoricsAgronomyStatisticsArtificial intelligenceOperating systemCryptography and Data SecurityCryptographic Implementations and SecurityComplexity and Algorithms in Graphs
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