一、基本信息
出生年月:1982年7月
职称:副教授
最高学位:博士
主要研究方向:信息安全、密码学
导师类别(专硕、学硕):硕士生导师
工作单位:武汉理工大学
邮箱:xiazhe@whut.edu.cn
二、教育及工作经历
2005.09 – 2009.06 英国萨里大学,信息安全,博士,导师:Prof. Steve Schneide
2004.09 – 2005.08 英国萨里大学,信息系统,硕士,导师:Prof. Steve Schneider
2000.09 – 2004.06 武汉大学,计算机科学与技术,学士
2013.02 – 至今 武汉理工大学,计算机学院,副教授
2017.12 – 2018.12 澳大利亚伍伦贡大学,计算机与信息学院,访问学者,合作导师:穆怡
2009.04 – 2013.02 英国萨里大学,计算机学院,博士后,合作导师:Prof. Steve Schneide
三、近期主持的科研项目
1.中电科三十所开放基金,分布式密钥协商与管理研究,2020.07至2022.06,主持
贵州省公共大数据重点实验室开放基金,2019BDKFJJ005,大数据环境中具有隐私保护的数据聚合协议研究,2019.12至2021.12,主持
2.广西可信软件重点实验室开放基金,KX201908,无线体域网中关于隐私保护数据聚合的若干问题研究,2019.05至2021.04,主持
湖北省自然科学基金,2017CFB303,物联网中认证与密钥协商机制研究,2017.01至2018.12,主持
3.交通物联网技术湖北省重点实验室开放基金,2017III028-001,无线体域网中认证与密钥协商机制研究,2018.01至2019.12,主持
4.武汉市应用基础研究计划,2016010101010004,基于云平台的大规模固件安全分析关键技术研究,2016.08至2018.08,参与
5.国家科技支撑计划课题“国家网络信息安全实验平台”子课题,2012BAH45B01,攻击路径及协议分析系统,2015.09至2016.08,参与
6.湖北省自然科学基金,2015CFA069,物联网系统安全可靠性建模与分析技术研究,2015.01至2017.12,参与
7.中央高校基本科研业务费基础研究项目,2014-IV-020,抗胁迫全程可验证远程安全投票协议的设计与分析,2014.01至2015.10,主持
8.英国EPSRC项目,EP/G025797/1,Trustworthy Voting Systems,2009.04至2013 .02,参与
四、近期代表性学术成果
1.Novel generic construction of leakage-resilient PKE scheme with CCA security. Designs, Codes and Cryptography, 2021. (CCF-B)
2.Novel public-key encryption with continuous leakage amplification. Computer Journal, 2021. (CCF-B)
3.Construction of lightweight authenticated joint arithmetic computation for 5G IoT networks. Computer Journal, 2021. (CCF-B)
4.Lightweight and flexible key distribution schemes for secure group communications. Wireless Networks, 2021. (CCF-C)
5.Non-interactive secure multi-party arithmetic computations with confidentiality for P2P networks. Peer-to-Peer Networking and Applications, 2021. (CCF-C)
6.Design of ideal secret sharing based on new results on representable quadripartite matroids. Journal of Information Security Applications, 2021. (CCF-C)
7.Non-interactive integrated membership authentication and group arithmetic computation output for 5G sensor networks. IET Communications, 2021. (CCF-C)
8.Secret sharing with secure secret reconstruction. Information Sciences, 2020. (CCF-B)
9.An efficient aggregation scheme resisting on malicious data mining attacks for smart grid. Information Sciences, 2020. (CCF-B)
10.Continuous leakage-resilient certificate-based encryption scheme without bilinear pairings. The Computer Journal, 2020. (CCF-B)
11.Identity-based encryption with leakage-amplified chosen-ciphertext attacks security. Theoretic Computer Science, 2020. (CCF-B)
12.Cryptanalysis and improvement of a group authentication scheme with multiple trials and multiple authentications. Secure and Communication Networks, 2020. (CCF-C)
13.A generic construction of CCA-secure deterministic encryption. Information Processing Letters, 2020. (CCF-C)
14.Improvement of attribute-based encryption using Blakley secret sharing. ACISP 2020. (CCF-C)
15.Privacy-preserving raw data collection without a trusted authority for IoT. Computer Networks, 2019. (CCF-B)
16.An alternative approach to public cloud data auditing supporting data dynamics. Soft Computing, 2019. (CCF-C)
17.Provably secure group authentication in the asynchronous communication model. ICICS 2019. (CCF-C)
18.Continuous leakage-resilient access control for wireless sensor networks. Ad Hoc Networks, 2018. (CCF-C)
19.A cheating detectable privacy-preserving data sharing scheme for cloud computing. Security and Communication Networks, 2018. (CCF-C)
20.Verifiable secret sharing based on hyperplane geometry with applications to optimal resilient proactive cryptosystems. ACISP 2018. (CCF-C)
21.Framework for practical and receipt-free remote voting. IET Information Security, 2018. (CCF-C)
22.抗泄露的无证书密钥封装机制及应用,《中国科学:信息科学》,2021
23.抗泄露的(分层)身份基密钥封装机制,《计算机学报》,2021
24.抵抗泄漏攻击的可撤销IBE机制,《计算机学报》2020
25.CCA安全的抗泄漏IBE机制的新型构造,《中国科学:信息科学》,2020