Distributed Proxy Re- Encryption Protocol for Secure Multiparty Computation with Fully Homomorphic Encryption

Secure computation is required to protect data security and privacy. Homomorphic encryption is known as a safe way for secure computation. However, it comes with limitations such that the ciphertexts to be evaluated must be encrypted with the same key. In the multiparty system, homomorphic evaluatio...

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Bibliographic Details
Published in:International Black Sea Conference on Communications and Networking pp. 199 - 204
Main Authors: Demir, Busranur Bulbul, Altilar, Deniz Turgay
Format: Conference Proceeding
Language:English
Published: IEEE 24.06.2024
Subjects:
Computational modeling
Data privacy
Heuristic algorithms
homomorphic encryption
Multi-party computation
Nearest neighbor methods
Privacy
Protocols
proxy re-encryption
secure data mining
secure multiparty compu-tation
ISSN:2687-9808
Online Access:Get full text
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Summary:Secure computation is required to protect data security and privacy. Homomorphic encryption is known as a safe way for secure computation. However, it comes with limitations such that the ciphertexts to be evaluated must be encrypted with the same key. In the multiparty system, homomorphic evaluation becomes more complex apart from the existing complexity of the homomorphic encryption because of the limitation. In this article, the multi party homomorphic evaluations that are available in the literature are investigated and a novel design is proposed. Distributed proxy re-encryption algorithm that is available for untrusted or semi-trusted system is presented besides distibuted decryption protocol. The pro-posed design is implemented with k-nearest neighbors (KNN) classification algorithm and the results are evaluated in terms of security, privacy and efficiency. The suggested protocol increases operational efficiency while the data security and privacy are provided.
ISSN:2687-9808
DOI:10.1109/BlackSeaCom61746.2024.10646222