一.基本情况
姓名:胡钊
学位:博士
职称:讲师
研究方向:编码与密码
联系方式:zhao.hu@hubu.edu.cn
二.教育背景
2020.10-2023.06 湖北大学 博士研究生 应用数学
2017.09-2020.06 湖北大学 硕士研究生 基础数学
2013.09-2017.06 湖北大学 本科 数学与应用数学
三.工作经历
2023.07-至今 湖北大学 讲师
四.教学情况
担任本科生《Python程序设计》《信息论与编码》等课程的教学工作。
五.主持项目
(1)国家自然科学基金,青年项目,最佳线性码的若干关键问题研究, 2025.01-2027.12。
(2)湖北省自然科学基金,青年项目,最佳纠错编码设计的若干问题研究, 2024.03-2026.03。
六.论文情况
(1)Bing Chen, Yunge Xu,Zhao Hu*, Nian Li, Xiangyong Zeng, Optimal linear codes with few weights from simplicial complexes,IEEE Transactions on Information Theory, DOI: 10.1109/TIT.2025.3550182, 2025.
(2)Zhao Hu, Yunge Xu, Nian Li*, Xiangyong Zeng, Lisha Wang, Xiaohu Tang, New constructions of optimal linear codes from simplicial complexes, IEEE Transactions on Information Theory,70(3): 1823-1835, 2024.
(3)Zhao Hu, Nian Li*, Linjie Xu, Xiangyong Zeng, Xiaohu Tang, The differential spectrum and boomerang spectrum of a class of locally-APN functions, Designs, Codes and Cryptography, 91: 1695-1711, 2023.
(4)Zhao Hu, Nian Li*, Xiangyong Zeng, Lisha Wang, Xiaohu Tang, A subfield-based construction of optimal linear codes over finite fields, IEEE Transactions on Information Theory, 68(7): 4408-4421, 2022.
(5) Nian Li,Zhao Hu, Maosheng Xiong*, Xiangyong Zeng, A note on "Cryptographically strong permutations from the butterfly structure", Designs, Codes and Cryptography, 90(2): 265-276, 2022.
(6) Lisha Wang, Nian Li*, Linjie Xu,Zhao Hu, Xiangyong Zeng, Liujie Nie, Several new classes of optimal ternary cyclic codes with minimum distance four, Advances in Mathematics of Communications, 16(4): 1001-1010, 2022.
(7)Zhao Hu, Bing Chen, Nian Li*, Xiangyong Zeng, Two classes of optimal few-weight codes over Fq+uFq. In: Mesnager, S., Zhou, Z. (eds) Arithmetic of Finite Fields. WAIFI 2022. Lecture Notes in Computer Science, vol 13638. Springer, Cham.
(8)Zhao Hu, Lisha Wang*, Nian Li, Xiangyong Zeng, Several classes of linear codes with few weights from the closed butterfly structure, Finite Fields and Their Applications, 76: 101926, 2021.
(9)Zhao Hu, Nian Li*, Xiangyong Zeng, New linear codes with few weights derived from Kloosterman sums, Finite Fields and Their Applications, 62: 101608, 2020.
