HU Jun
Professor
1471W
86-10-62757982
hujun@math.pku.edu.cn
Education
Ph.D., Chinese Academy of Sciences, 2004.
M.S., Xiangtan University, 2001.
M.S., Xiangtan University, 2001.
Research Interests
1. Nonstandard finite element methods
2. Finite element methods of partial differential equations eigenvalue problems
3. Adaptive finite element methods
4. Finite element methods of variational inequalities
2. Finite element methods of partial differential equations eigenvalue problems
3. Adaptive finite element methods
4. Finite element methods of variational inequalities
Selected Publication
Jun Hu, Finite element approximations of symmetric tensors on simplicial grids in any dimension: the higher order case, J. Comput. Math., 33(2015), pp. 283--296.
Jun Hu, A new family of efficient conforming mixed elements on both rectangular and cuboid meshes for linear elasticity in the symmetric formulation, SIAM J. Numer. Anal., 53(2015), pp. 1438--1463.
Jun Hu and Shangyou Zhang, A family of symmetric mixed finite elements for linear elasticity on tetrahedral grids, Sci. China math., 58(2015), pp. 297--307.
Jun Hu, Yunqing Huang, Qun Lin, Lower bounds for eigenvalues of elliptic operators: by nonconforming finite element methods, J. Sci. Comput., 61(2014), pp.196--221.
Jun Hu and Zhongci Shi, The best L2 norm error estimate of lower order finite element methods for the fourth order problem, J. Comput. Math., 30(2012), pp. 449--460.
Jun Hu, A new family of efficient conforming mixed elements on both rectangular and cuboid meshes for linear elasticity in the symmetric formulation, SIAM J. Numer. Anal., 53(2015), pp. 1438--1463.
Jun Hu and Shangyou Zhang, A family of symmetric mixed finite elements for linear elasticity on tetrahedral grids, Sci. China math., 58(2015), pp. 297--307.
Jun Hu, Yunqing Huang, Qun Lin, Lower bounds for eigenvalues of elliptic operators: by nonconforming finite element methods, J. Sci. Comput., 61(2014), pp.196--221.
Jun Hu and Zhongci Shi, The best L2 norm error estimate of lower order finite element methods for the fourth order problem, J. Comput. Math., 30(2012), pp. 449--460.