DENG Zhao
Lecturer
Dept. of Systems Science
E-MAIL: dengzhao2016@163.com
Educational Background
2017--2020, Xidian University, Applied Mathematics, Doctor.
2014--2017, Guangxi University, Operational Research and Cybernetics, Master.
2010--2014, Hubei Minzu University, Information and Computing Science, Bachelor.
Work Experience
2022--Present , lecturer, Dept. of Systems Science, Wuhan University of Science and Technology, China.
2020--2022, Postdoctor, Beihang University.
Research Field
Main research field is Optimization theory and methods, such as:
1: Convex programming.
2: Nonlinear programming.
3: Operator splitting methods.
Academic Achievements
[1] Zhao Deng#*, Deren Han. Multi-step inertial strictly contractive PRSM algorithms for convex programming problems with applications. Journal of Computational and Applied Mathematics, 20230721,February 2024, 437, (Article number: 115469).
[2] Zhao Deng#*, Sanyang Liu. Inertial generalized proximal Peaceman-Rachford splitting method for separable convex programming. Calcolo, 2021, 58(1), (Article number: 10).
[3] Zhao Deng#*, Sanyang Liu. Generalized Peaceman-Rachford splitting method with substitution for convex programming. Optimization Letters, 2020, 14(7): 1781-1802.
[4] Zhao Deng#*, Sanyang Liu. Inertial proximal strictly contractive Peaceman-Rachford splitting method with an indefinite term for convex optimization. Journal of Computational and Applied Mathematics, 2020, 374, (Article number: 112772).
[5] Zhao Deng#*, Sanyang Liu. An indefinite proximal Peaceman-Rachford splitting method with substitution procedure for convex programming. Computational & Applied Mathematics, 2019, 38(4), (Article number: 180).
[6] Xiaokai Chang#*, Sanyang Liu, Zhao Deng, Suoping Li. An inertial subgradient extragradient algorithm with adaptive stepsizes for variational inequality problems. Optimization Methods & Software, 2022, 37(4): 1507-1526.
[7] Miantao Chao#, Zhao Deng, Jinbao Jian*. Convergence of linear Bregman ADMM for nonconvex and nonsmooth problems with nonseparable structure. Complexity, 2020, 1-14.
