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Secure Multi-Party Quantum Summation Based on Quantum Homomorphic Encryption

Gang Xu, Fan Yun, Xiu‐Bo Chen, Shiyuan Xu, Jingzhong Wang, Tao Shang, Yan Chang, Mianxiong Dong

2022Intelligent Automation & Soft Computing16 citationsDOIOpen Access PDF

Abstract

Secure multi-party computation has been playing a fundamental role in terms of classical cryptography. Quantum homomorphic encryption (QHE) could compute the encrypted data without decryption. At present, most protocols use a semi-honest third party (TP) to protect participants’ secrets. We use a quantum homomorphic encryption scheme instead of TP to protect the privacy of parties. Based on quantum homomorphic encryption, a secure multi-party quantum summation scheme is proposed in which N participants can delegate a server with strong quantum computing power to assist computation. By delegating the computation and key update processes to a server and a semi-honest key center, participants encrypt their private information data using Pauli operators to get the sum. Besides, the server can design and optimize the summation lines itself, and the correct results can be obtained even if the secret information is negative. The correctness analysis showed that the participants could correctly obtain the results of the calculation. The security analysis proves the scheme is resistant to both outside attack and participant’s attack, and is secure against collusive attack by up to N-2 participants. From the theoretical point of view, our protocol can extend to other secure multi-party computing problems.

Topics & Concepts

Computer scienceHomomorphic encryptionEncryptionCorrectnessQuantum cryptographyQuantum computerTheoretical computer scienceComputer securityDelegateCryptographyQuantumQuantum informationAlgorithmPhysicsProgramming languageQuantum mechanicsQuantum Computing Algorithms and ArchitectureCryptography and Data SecurityQuantum Information and Cryptography
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