​张彦华

时间:2024-03-05浏览:99设置

郑州轻工业大学硕士生导师基本情况一览表

 

姓名

张彦华

职称

讲师

学科/专业学位类别

网络空间安全

研究方向

后量子密码学

1.导师基本情况

2017/12-至今    郑州轻工业大学, 计算机科学与技术学院, 讲师, 硕士生导师

2023/12-至今    澳大利亚伍伦贡大学,密码学,访问学者

2016/07-2017/08  新加坡南洋理工大学, 密码学, 联合培养博士

2012/08-2017/12  西安电子科技大学, 密码学, 硕博连读

2.代表性成果

截止目前,以第一作者或通讯作者身份发表SCI/EI论文30余篇:

[1]      张彦华*, 陈岩, 刘西蒙, . 格上基于身份的变色龙签名方案[J]. 电子与信息学报, 2023, 待刊出. (EI)

[2]        Bingbing Wang, Yanhua Zhang (通讯作者). Server-Aided Revocable   Identity-Based Signature over Lattices[C]. ICIT 2023, Kyoto, Japan, 待刊出. (EI)

[3]        Pingyuan Zhang, Haining Yang,   Liang Zhu, Yanhua Zhang (通讯作者), et al. A New Lattice-Based Online/Offline Signatures Framework   for Low-Power Devices[J]. Theoretical Computer Science, 2023, 962: 113942. (SCI,   CCF-B)

[4]        Yanhua Zhang*, Ximeng Liu,   Yupu Hu, et al. Cloud-Aided Scalable Revocable IBE with Ciphertext Update   from Lattices in the Random Oracle Model[C]. FCS 2023, Chengdu, China, CCIS 1992:   387-403. (EI)

[5]      Yanhua Zhang*, Ximeng Liu, Yupu Hu. Simplified Server-Aided   Revocable Identity-Based Encryption from Lattices[C]. ProvSec 2022, Nanjing,   China, LNCS 13600: 71-87. (EI, CCF-C)

[6]      Yanhua Zhang*, Ximeng Liu, Yupu Hu, et al. Verifier-Local   Revocation Group Signatures with Backward Unlinkability from Lattices[J].   Frontiers of Information Technology and Electronic Engineering, 2022, 23(6):   876-892.  (SCI, JCR-2)

[7]      Huiwen Jia, Chunming Tang, Yanhua Zhang (通讯作者). Lattice-Based   Logarithmic-Size Non-Interactive Deniable Ring Signatures[J]. Entropy, 2021,   23(8): 980. (SCI, JCR-2)

[8]      Yanhua Zhang*, Ximeng Liu, Yupu Hu, et al. An Improved   Lattice-Based Group Signature with Verifier-Local Revocation[J]. Security and   Communication Networks, 2021, 9988939. (SCI, CCF-C)

[9]      Yanhua Zhang*, Ximeng Liu, Yupu Hu, et al. Cloud-Aided Scalable   Revocable Identity-Based Encryption with Ciphertext Update from Lattices[C].   FCS 2021, Haikou, China, CCIS 1558: 269-287. (EI)

[10]   Yanhua Zhang*, Ximeng Liu, Yupu Hu, et al. On the Analysis of the   Outsourced Revocable Identity-Based Encryption from Lattices[C]. NSS 2021,   Tianjin, China, LNCS 13041: 79-99. (EI)

[11]   Yanhua Zhang*, Ximeng Liu, Yupu Hu, et al. Cryptanalysis of a   Fully Anonymous Group Signature with Verifier-Local Revocation from ICICS   2018[C]. NSS 2021, Tianjin, China, LNCS 13041: 369-382. (EI)

[12]   Yanhua Zhang*, Ximeng Liu, Yupu Hu, et al. Revocable   Identity-Based Encryption with Server-Aided Ciphertext Evolution from   Lattices[C]. Inscrypt 2021, Qingdao, China, LNCS 13007: 442-465. (EI, CCF-C)

[13]   Yanhua Zhang*, Ximeng Liu, Yupu Hu, et al. Cryptanalysis of a   Lattice-Based Group Signature with Verifier-Local Revocation Achieving Full   Security[C]. ACNS 2021 workshops, Kamakura, Japan, LNCS 12809: 332-345. (EI, CCF-C)

[14]   Yanhua Zhang*, Ximeng Liu, Yifeng Yin, et al. On New   Zero-Knowledge Proofs for Fully Anonymous Lattice-Based Group Signature   Scheme with Verifier-local Revocation[C]. ACNS 2020 workshops, Rome, Italy,   LNCS 12418: 381-399. (EI, CCF-C)

[15]   Yanhua Zhang*, Ximeng Liu, Yupu Hu, et al. Cryptanalysis of Two   Fully Anonymous Attribute-Based Group Signature Schemes with Verifier-Local   Revocation from Lattices[C]. WISA 2020, Jeju Island, Korea, LNCS 12583:   334-346. (EI)

[16]   张彦华*, 胡予濮, 刘西蒙, . 格上本地验证者撤销属性基群签名的零知识证明[J]. 电子与信息学报, 2020, 42(2): 315-321. (EI)

[17]   Xingting Dong, Yanhua Zhang (通讯作者), Baocang Wang, et al. Server-Aided Revocable Attribute-Based   Encryption from Lattices[J]. Security and Communication Networks, 2020,   1460531. (SCI, CCF-C)

[18]   Yanhua Zhang*, Ximeng Liu, Yupu Hu, et al. Attribute-Based   Signatures for Inner-Product Predicate from Lattices[J]. CSS 2019, Guangzhou,   China, LNCS 11982: 173-185. (EI)

[19]   Yanhua Zhang*, Yifeng Yin, Ximeng Liu, et al. Zero-Knowledge   Proofs for Improved Lattice-Based Group Signature Scheme with Verifier-Local   Revocation[C]. FCS 2019, Xi’an, China, CCIS 1105: 107-127. (EI, Best Paper)

[20]   Yanhua Zhang*, Ximeng Liu, Yupu Hu, et al. Lattice-Based Group   Signatures with Verifier-Local Revocation: Achieving Shorter Key-Size and   Explicit Traceability with Ease[C]. CANS 2019, Fuzhou, China, LNCS 11829:   120-140. (EI, CCF-C)

[21]   Yanhua Zhang*, Yupu Hu, Qikun Zhang, et al. On New Zero- Knowledge   Proofs for Lattice-Based Group Signatures with Verifier-Local Revocation[C].   ISC 2019, New York, USA, LNCS 11723: 190-208. (EI, CCF-C)

[22]   Yanhua Zhang*, Yupu Hu, Yong Can, et al. Efficient Fuzzy   Identity-Based Signature from Lattices for Identities in A Small (or Large)   Universe[J]. Journal of Information Security and Applications, 2019, 47:   86-93. (SCI, JCR-2)

[23]   张彦华*, 胡予濮, 陈江山. 格上无匿名性撤销的隐藏的属性签名[J]. 计算机学报, 2018, 41(2): 481-492. (EI,   CCF-A)

[24]   Yanhua Zhang*, Yong Gan, Yifeng Yin, et al. Attribute-Based VLR   Group Signature Scheme from Lattices[C]. ICA3PP 2018, Guangzhou, China, LNCS   11337: 600-610. (EI)

[25]   Yanhua Zhang*, Yong Gan, Yifeng Yin, et al. Efficient Lattice FIBS   for Identities in a Small Universe[C]. FCS 2018, Chengdu, China, CCIS 879:   83-95. (EI)

[26]   Yanhua Zhang*, Yong Gan, Yifeng Yin, et al. Fuzzy Identity-Based   Signature from Lattices for Identities in a Large Universe[C]. ICCCS 2018,   Haikou, China, LNCS 11065: 573-584. (EI)

[27]   张彦华*, 胡予濮. 新的基于格的可验证加密签名方案[J]. 计算机研究与发展, 2017, 54(2): 305-312.   (EI, CCF-A)

[28]   Yanhua Zhang*, Yupu Hu, Jia Xie, et al. Efficient Ring Signature   Schemes over NTRU Lattices[J]. Security and Communication Networks, 2016,   9(18): 5252-5261. (SCI, JCR-4)

[29]   Yanhua Zhang*, Yupu Hu, Wen Gao, et al. Simpler Efficient Group   Signature Scheme with Verifier-Local Revocation from Lattice[J]. KSII   Transactions on Internet & Information Systems, 2016, 10(1): 414-430.   (SCI, JCR-4)

[30]   张彦华*, 胡予濮, 江明明, . 格上可撤销的基于身份的适应性安全的加密方案[J]. 电子与信息学报, 2015, 37(2): 423-428. (EI)

[31]   Yanhua Zhang*, Yupu Hu, Mingming Jiang, et al. Lattice-Based   Sequential Aggregate Signatures with Lazy Verification[J]. Journal of China   Universities of Post and Telecommunications, 2015, 22(6): 36-44. (EI)

[32]   河南省科技进步一等奖, 2021.

[33]     国家发明专利, 基于隐私保护和属性认证的群组密钥协商方法, 2022.

[34]   国家发明专利, 基于区块链的对称群组密钥协商方法, 2021.

[35]   国家发明专利, 一种基于区块链的非对称群组密钥协商方法, 2021.

[36]   实用新型专利, 一种防震隔热的网络安全机柜, 2023.

[37]   实用新型专利, 一种具有清灰功能的计算机, 2022.

[38]   河南省教育系统网络安全和信息化工作先进个人, 2022.

[39]   中国大学生计算机设计大赛一等奖, 2022, 指导教师.

[40]   河南省第四届“金盾信安杯”网络安全大赛优秀指导教师奖, 2022.

3.在研项目

[1]      国家留学基金委河南省地方合作项目, 2024/12-2025/12,   在研, 主持

[2]                    河南省科技攻关项目, 2024/01-2025/12, 在研, 主持

[3]                    河南省高等学校重点科研项目, 2024/01-2025/12, 在研, 主持

[4]                    河南省高层次人才国际化培养项目, 2023/06-2024/05, 在研, 主持

[5]                    郑州轻工业大学基础研究基金项目, 2023/01-2024/12, 在研, 主持

[6]                    河南省网络密码技术重点实验室开放课题, 2022/09-2024/08, 在研, 主持

[7]                    河南省重点研发专项, 2022/01-2024/12, 在研, 参与, 主持人:张建伟

[8]                    河南省自然科学青年基金项目, 2022/01-2023/12, 结题, 主持

[9]                    河南省高等学校重点科研项目, 2022/01-2023/12, 结题, 主持

[10]                 广西密码学与信息安全重点实验室开放课题, 2020/06-2022/05, 结题, 主持

[11]                 河南省科技攻关项目, 2020/01-2021/12, 结题, 主持

[12]                 郑州轻工业大学博士基金项目, 2018/10-2022/10, 结题, 主持

[13]                 国家自然科学基金面上项目, 2017/01-2020/12, 结题, 参与, 主持人: 胡予濮

[14]                 国家自然科学基金面上项目, 2016/01-2019/12, 结题, 参与, 主持人: 王保仓

[15]                 国家自然科学基金面上项目, 2015/01-2018/12, 结题, 参与, 主持人: 胡予濮

 


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