赖红

发布时间:2016-04-28 来源:本站原创 作者:本站编辑   浏览次数:



本人简历

        赖红,西南大学,计算机与信息科学学院 软件学院,副教授

                            

教育经历:

Ÿ   2002/09-2006/07,内江师范学院,数学系,本科

Ÿ   2008/09-2011/07,陕西师范大学,数学与信息科学学院,硕士研究生,导师:李志慧

Ÿ   2011/09-2015/07,北京邮电大学,理学院,博士研究生,导师:肖井华

Ÿ   2013/04-2015/08,澳洲麦考瑞大学,计算机系, 博士研究生,导师: Mehmet A.OrgunJosef Pieprzyk

科研与学术工作经历:

   2015/07-至今,西南大学,计算机与信息科学学院 软件学院,副教授

主持或参加科研项目(课题)及人才计划项目情况:

1.  Quantum communication based Fibonacci-OAM entangled states, the National Natural Science Foundation of China国家青年基金 (No.61702427)2018/01-2020/12260,000RMBY.

 2.  The research on the practical quantum key distribution, the Fundamental Research Funds for the Central Universities 中央基本业务费(No. XDJK2016C043), 2016/01-2018/12, 50,000RMBY.

 3. The design and analysis of high-efficient and high-capacity quantum cryptography, the Doctoral Program of Higher Education西南大学博士基金 (No. SWU115091), 2016/01-2018/12, 100,000RMBY.

教学获奖

1.获西南大学第十二届青年教师讲课比赛一等奖,

2.获西南大学第十一届青年教师讲课比赛二等奖。

代表性研究成果和学术奖励情况(每项均按时间倒序排序)

一、期刊论文(仅不列此项时可删除该标题)

1.    第一作者论文(仅不列此项时可删除该标题)

(1)       Hong Lai, Ming-Xing Luo, Josef Pieprzyk, Jun Zhang, Lei Pan, and Mehmet A. Orgun. High-rate and high-capacity measurement-device-independent quantum key distribution with Fibonacci matrix coding in Free spaceSCIENCE CHINA Information SciencesAccepted.

(2)       Hong Lai, Ming-Xing Luo, Cheng Zhan, Josef Pieprzyk, and Mehmet A. Orgun. An improved coding method of quantum key distribution protocol based on Fibonacci-valued OAM entangled statesPhysics Letters A, 381(35), 18 September 2017, Pages 2922-2926.

(3)       Hong Lai, Ming-Xing Luo, Zhi-Guo Qu, Fu-Yuan Xiao and Mehmet A. Orgun, A Hybrid Quantum Key Distribution Protocol for Tele-care Medicine Information Systems, Wireless Personal Communications, DOI . 10.1007/s11277-017-4902-z, 2017 (5) :1-15

(4)       Hong Lai, Ming-Xing Luo, Josef Pieprzyk, Zhi-Guo Qu, Shu-Dong Li and Mehmet A. Orgun, An efficient quantum blind digital signature scheme, SCIENCE CHINA Information Sciences, 2017, 60(8): 082501.

(5)        Hong Lai, Ming-Xing Luo, Josef Pieprzyk, Jun Zhang, Lei Pan, Shu-Dong Li, and Mehmet A. Orgun. "Fast and simple high-capacity quantum cryptography with error detection." Scientific Reports 7 (2017).

(6)       Hong Lai, Jun Zhang, Ming-Xing Luo, Lei Pan, Josef Pieprzyk, Fu-Yuan Xiao, and Mehmet A. Orgun. Hybrid threshold adaptable quantum secret sharing scheme with reverse Huffman-Fibonacci-tree coding. Scientific reports 6 (2016).

(7)       Hong Lai, Ming-Xing Luo, Josef Pieprzyk, Li Tao, Zhi-Ming Liu, and Mehmet A. Orgun. Large-Capacity Three-Party Quantum Digital Secret Sharing Using Three Particular Matrices Coding. Communications in Theoretical Physics 66, no. 5 (2016): 501.

(8)       Hong Lai, Mehmet A. Orgun, Josef Pieprzyk, Jing Li, Ming-Xing Luo, Jing-Hua Xiao, and Fu-Yuan Xiao. "High-capacity quantum key distribution using Chebyshev-map values corresponding to Lucas numbers coding." Quantum Information Processing 15, no. 11 (2016): 4663-4679.

(9)       Hong Lai , Mehmet A. Orgun, Josef Pieprzyk, Jing-Hua Xiao, Li-Yin Xue, Zhonh-Tian Jia. Controllable quantum private queries using an entangled Fibonacci-sequence spiral source, Physics Letters A, 2015, 379, 2561-2568.

(10)   Hong Lai, Jing-Hua Xiao, Li-Xiang Li, Yi-Xian Yang. Recursive hiding of biometrics-based secret sharing scheme using adversary structure, Information Processing Letters, 2012, 112: 683-687.

(11)   Hong Lai, Jing-Hua Xiao, Li-Xiang Li, Yi-Xian Yang. Applying semi-group property of enhanced Chebyshev polynomials to anonymous authentication protocol, Mathematical Problems in Engineering, 2012, 2012, 454823.

(12)   Hong Lai, Jing-Hua Xiao, Mehmet A. Orgun, Li-Yin Xue, Josef Pieprzyk. Quantum direct secret sharing with efficient eavesdropping-check and authentication based on distributed fountain codes, Quantum Information Processing, 2014, 13: 895-907.

(13)   Hong Lai, Mehmet A. Orgun, Jing-Hua Xiao, Li-Yin Xue. Fault-tolerant high-capacity quantum key distribution over a collective-noise channel, Quantum Information Processing, 2014, 13:1523-1535.

(14)   Hong Lai, Mehmet A. Orgun, Jing-Hua Xiao, Josef Pieprzyk, Li-Yin XueYi-Xian Yang. Provably secure three-party key agreement protocol using Chebyshev maps in the standard mode, Nonlinear Dynamics, 2014, 4, 1427-1439.

(15)   Hong Lai, Li-Yin Xue, Mehmet A. Orgun, Jing-Hua Xiao, Josef Pieprzyk. A hybrid quantum Key distribution using exte2nded unitary operations and distributed fountain codes, Quantum Information Processing, 2015, 14, 697-713. 被引2次。

(16)   Hong Lai, Mehmet A. Orgun, Jing-Hua Xiao, Li-Yin Xue, Josef Pieprzyk. Dynamic (2,3) Threshold quantum secret sharing of secure direct communication, Communications in Theoretical Physics , 2015, 63,459-465.

(17)   赖红, 李志慧, 郭玉娟, 改进的动态可验证的(t, n) 门限秘密共享方案, 计算机工程与应用, 201147, 106-108.

2. 既非第一作者又非通讯作者论文

(1)      Zhi-Hui Li *Ting Xue, Hong Lai, Secret sharing schemes from binary linear codeInformation Sciences2010, 180, 4412-4419

(2)      Ming-Xing Luo *, Hui-Ran Li, Hong Lai, Xiao-Jun Wang, Teleportations of ququart systems using hyper-entangled photons assisted atomic-ensemble memories, Physical Review A, 93, 012332 (2016) .

(3)      Ming-Xing Luo *, Hui-Ran Li, Hong Lai & Xiao-Jun Wang, Quantum Computation Based on Photons with Three Degrees of Freedom, Scientific Reports 6, 25977 (2016)

(4)      Ming-Xing Luo *, Hui-Ran Li, Hong LaiQuantum computation based on photonic systems with two degrees of freedom assisted by the weak cross-Kerr nonlinearityScientific Reports 6, 29939 (2016)

二、会议论文

   Hong Lai *, Mehmet A. Orgun, Li-Yin Xue, Jing-Hua Xiao, Josef Pieprzyk. Dual compressible Hybrid quantum secret sharing schemes based on extended unitary operations [C]. Proc. SPIE 9123, Quantum Information and Computation XII, Baltimore,        USA, May, 2014.

              招收数学、计算机、物理背景的学生。对量子密码,经典密码,大数据安全,云计算安全,网络通信安全等方向有兴趣的同学,欢迎邮件联系 hlai@swu.edu.cn.

              对学生的要求: 热爱科学,勤奋,乐观,做事积极认真,性格好!