JOURNAL OF SHANDONG UNIVERSITY(NATURAL SCIENCE) ›› 2017, Vol. 52 ›› Issue (3): 8-15.doi: 10.6040/j.issn.1671-9352.2.2016.026
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XU Ting-ting, LI Zhi-hui*, MA Min
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[1] SHAMIR A. How to share a secret[J]. Communications of the ACM, 1979, 22(11):612-613. [2] BLAKLEY G R. Safeguarding cryptographic keys[C] // Proceedings of the 1979 AFIPS National Computer Conference.[S.l.] :[s.n.] , 1979: 313-317. [3] 刘木兰,张志芳. 密钥共享体制和安全多方计算[M]. 北京:电子工业出版社,2008. LIU Mulan, ZHANG Zhifang. Secret sharing schemes and secure multiparty computation[M]. Beijing: Publishing House of Electronics Industry, 2008. [4] STINSON D R. 密码学原理与实践[M]. 3版. 冯登国, 译. 北京: 电子工业出版社, 2009. STINSON D R. Cryptography theory and practice[M]. FENG Dengguo, trans. 3rd ed. Beijing: Publishing House of Electronics Industry, 2009. [5] HILLERY M, BUZEK V, BERTHIAUME A. Quantum secret sharing[J]. Physical Review A, 1999, 59(3):1829-1834. [6] CLEVE R, GOTTESMAN D, LO H K. How to share a quantum secret[J]. Physical Review Letters, 1999, 83(3):648-651. [7] GOTTESMAN D. Theory of quantum secret sharing[J]. Physical Review A, 2000, 61(4):192-193. [8] IMAI H, MULLER-QUADE J, NASCIMENTO A C A, et al. An information theoretical model for quantum secret sharing[J]. Quantum Information & Computation, 2005, 5(1):69-80. [9] HSU Liyi, LI Cheming. Quantum secret sharing using product states[J]. Physical Review A, 2005, 71(2):159-159. [10] LI Qin, CHAN Waihong, LONG Dongyang. Semiquantum secret sharing using entangled states[J]. Physical Review A, 2010, 82(2):2422-2427. [11] GHEORGHIU V. Generalized semi-quantum secret sharing schemes[J]. Physical Review A, 2012, 85(5):77-77. [12] 于丹,李振兴. 秘密共享发展综述[J]. 哈尔滨师范大学自然科学学报,2014,30(1):47-49. YU Dan, LI Zhenxing. An overview of the development of secret sharing[J]. Natural Sciences Journal of Harbin Normal University, 2014, 30(1):47-49. [13] RAHAMAN R, PARKER M G. Quantum scheme for secret sharing based on local distinguishability[J]. Physical Review A, 2015, 91. [14] 谢佳丽,李志慧,薛丽霞. 含3条超边的超星存取结构及其刻画[J].武汉大学学报(理学版), 2016,62(2):191-196. XIE Jiali, LI Zhihui, XUE Lixia. Hyperstar access structures with three hyperedges and their characteristics[J]. J Wuhan Univ(Nat Sci Ed), 2016, 62(2):191-196. [15] FAN Ling, ZHANG Kejia, QIN Sujuan, et al. A novel quantum blind signature scheme with four-particle GHZ states[J]. International Journal of Theoretical Physics, 2015, 55(2):1-8. [16] ZHANG Zhichao, GAO Fei, CAO Tianqing, et al. Entanglement as a resource to distinguish orthogonal product states[J]. Scientific Reports, 2016, 6. [17] NASCIMENTO A C A, MUELLER-QUADE J, IMAI H. Improving quantum secret-sharing schemes[J]. Physical Review A, 2001, 64(4):502-508. [18] BAI Chenming, LI Zhihui, XU Tingting, et al. A generalized information theoretical model for quantum secret sharing[J]. International Journal of Theoretical Physics, 2016, 55(11):4972-4986. [19] NIELSEN M A, CHUANG I L. Quantum computation and quantum information[M]. Cambridge: Cambridge University Press, 2000. [20] 宋云,李志慧,李永明. 含至多四个参与者的量子秘密共享方案的最优信息率[J].电子学报,2014,42(10):1951-1956. SONG Yun, LI Zhihui, LI Yongming. The optimal information rate of quantum secret sharing schemes based on at most four participants[J]. Acta Electronica Sinica, 2014, 42(10):1951-1956. [21] GIOVANNI D C, CLEMENTE G. Hypergraph decomposition and secret sharing[J]. Discrete Applied Mathematics, 2009,157(5):928-946. |
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