摘要
研究了量子同态加密,提出了一种通用的构造量子同态加密算子的方法,进而建立了构造量子同态加密方案的一种通用框架;通过二值和三值量子态的酉变换,利用该框架构造了相应的量子同态加密方案,与现有文献的构造方案相比,利用该框架构造的量子同态加密方案更具有普遍性;通过安全性分析,该框架的安全性是基于加密算法的安全性和密钥的安全性。由于该框架采用了对称量子加密算法,导致构造量子同态算子时需要加密密钥,从而该框架是一种弱的对称量子同态加密框架。最后,该框架被推广到了量子公钥加密的情形。
Through studying quantum homomorphic encryption, this paper proposes a general construction method forquantum homomorphic operator, thus sets up a universal construction framework for quantum homomorphic encryptionscheme. Compared with existing quantum homomorphic encryption schemes, the schemes constructed by the universalconstruction framework according to the binary and ternary quantum unitary transformations, are more feasible.This paper analyzes the security of the universal framework from two respects. One is the security of quantum encryptionscheme. The other is the security of the secret key. In the universal construction framework, the symmetric quantumencryption scheme is used and the evaluation algorithm is dependent on the secret key in the process of constructingthe corresponding quantum homomorphic operator. As a result, the universal construction framework is a kind of weaksymmetric quantum homomorphic encryption framework. Finally, it is generalized to the case of the quantum publickey encryption.
出处
《计算机科学与探索》
CSCD
北大核心
2016年第11期1571-1576,共6页
Journal of Frontiers of Computer Science and Technology
基金
国家自然科学基金Nos.61272175
61572109
福建省教育厅项目No.JA15321
四川省科技支撑计划No.2015GZ0102~~
关键词
量子同态加密
量子同态算子
量子代理计算
对称量子加密
量子密码
quantum homomorphic encryption
quantum homomorphic operator
quantum delegated computation
symmetric quantum encryption
quantum cryptography
