讲授课程: |
Computational method
Scientific Computational method Scientific modeling and its realization Finite element method for PDE (postgraduate)
Former Ph.D. as co-advisor: Benxi Zhu, Haiming Song, Jingshi Li, Jiachuan Zhang, Yongle Hao, Qianru Liu.
Former Post-doctoral : Qiong Wu (CIEE, JLU).
Current Ph.D. : Yu Gao, Yan Jiang, Xuechen Mu, Fuchang Huo,Jingrong Yang. |
教育经历: |
1995-1999, B.S., Computational Mathematics, JLU. 1999-2000, M.S., Computational Mathematics, JLU. 2000-2006, Ph.D., Computational Mathematics, JLU. 2003-2008, Jointed Ph.D., Computational Mathematics, CUHK. |
工作经历: |
2006.09-2011.09, Lecturer, JLU 2008.08-2010.07, Postdoc, MSU 2008.07-2008.08, Visiting Scholar, Department of Mathematics, CUHK 2009.08, Visiting Scholar, Department of Mathematics, IWU 2010.04, Visiting Scholar, Department of Mathematics, AU 2011.09-2015.09, Associate Professor, JLU 2014.07-2014.08, Visiting Professor, Department of Mathematics, HKBU
2015.09- 2020.05, Professor, JLU 2020.06- Now, Tang Aoqing Professor, JLU |
科研项目: |
Principal Investigator 1. 2006-2007, The Youth Foundation, Jilin University. 2. 2008-2010, NSF of China (No.10701039). 3. 2011-2013, Forefront of science and interdisciplinary innovation projects of Jilin University. 4. 2012-2013, Open Project Program of the State Key Lab of CAD & CG(No.A1302). 5. 2014-2015, Scientific research foundation for the returned overseas Chinese scholars. 6. 2014-2015, Open project program of the Jilin provincial science and technology department. 7. 2015.01-2018.12, NSF of China (No.11471141). 8. 2015.01-2017.12, The basic research of the science and technology development program of Jilin province (No.20150101058JC). 9. 2018.01-2019.12, The key laboratory of symbolic computation and knowledge engineering of ministry of education, Jilin University (No.93K172018Z01). 10. 2019.01-2022.12, NSF of China (No.11871245). 11. 2023.01-2026.12, NSF of China (No.12271207).
Joined 1. 2010-2012, NSF of China (No.10971082), second member. 2. 2010-2013, NSF of China (No.11076014), second member. 3. 2010-2013, NSF of China (No.11071103), second member. 4. 2016-2018, NSAF of China (No.U153010036), third member. 5. 2017.07-2021.06, National Key Research and Development Plan (No.2017YFC06016), Subject. 6. 2017.07-2021.06, National Key Research and Development Plan (No.2017YFC06022), Subject. 7. 2021.05-2025.04, The fundamental research funds for the central universities, Subject. |
学术论文: |
Selected SCI paper (Total 60 paper) 1. H.Y. Liu and K. Zhang, Multi-symplectic Runge-Kutta type methods for Hamiltonian wave equations. IMA J. Numer. Anal., 26, 2006, 252-271. 2. Y.P. Lin, K. Zhang and J. Zou, Studies on some perfectly matched layers for one-dimensional time-dependent systems. Adv. Comput. Math., 30, 2009, 1-35. 3. M. Li, S.M. Gao and K. Zhang, Goal-oriented engineering analysis error estimation of design simplification. Comput. Meth. Appl. Mech. Engin, 255, 2013, 89-103. 4. Y.L. Hao, F.D. Kang, J.Z. Li and K. Zhang, A numerical method for Maxwell's equations with random interfaces via shape calculus and pivoted low-rank approximation. J. Comput. Phys., 371, 2018, 1-18. 5. G. Bao, Y.Z. Cao, Y.L. Hao, and K. Zhang, A robust numerical method for the random interface grating problem via shape calculus, weak Galerkin method, and low-rank approximation. J. Sci. Comput., 77(1), 2018, 419-442. 6. M. Li, L.C. Zhu, J.Z. Li and K. Zhang, Efficient optimal design of interconnected anisotropic porous structures using extended triply periodic minimal surfaces. J. Comput. Phys., 425, 2021, 109909. 7. Y. Gao, H.Y. Liu, X.C. Wang and K. Zhang, On an artificial neural network for inverse scattering problems. J. Comput. Phys., 448, 2022, 110771. 8. Y.J. Deng, Y. Jiang, H.Y. Liu and K. Zhang, On new surface-localized transmission eigenmodes. Inverse Probl. Imaging, 16(3), 2022, 595-611. 9. Y. Gao, H.Y. Liu, X.C. Wang and K. Zhang, A Bayesian scheme for reconstructing obstacles in acoustic waveguides. J. Sci. Comput., 97(3), 2023, 53. 10. Y. Jiang, H.Y. Liu, J.C. Zhang and K. Zhang, Spectral patterns of elastic transmission eigenfunctions: boundary localization, surface resonance and stress concentration. SIAM Appl. Math., 83(6), 2023, 2469-2498. |