主要成果: | 科研成果: 2011年江苏省科技创新团队成员;为丰盛超导技术有限公司主持研发成功了国内第一款全身人体成像有源屏蔽梯度线圈;参与了南京丰盛超导技术有限公司国内第一款商用超导磁体的研发。已发表论文30余篇,SCI检索论文10余篇;参与编写专著1部;已受理发明专利4篇。 主要论文论著: [1] Xuewei Ping*, Caixia Bian, Xinghui Yin and Jiaqi Chen, “Simple Methods to Raise the Robustness and Efficiency of the Incomplete Cholesky Preconditioners for FEM Simulation of Electromagnetic Problems,” Progress In Electromagnetics Research M, Vol.35, pp.49-56, 2014. [2] X. W. Ping, T. J. Cui, and W. B. Lu, “The combination of BCGSTAB with multifrontal algorithm to solve FEBI-MLFMA linear systems arising from inhomogeneous electromagnetic scattering problems,” Progress In Electromagnetics Research, Vol.93, pp.91-105, 2009. (SCI 收录,IDS Number: 510TN; EI收录, EI Accession Number:20093712305372). [3] X. W. Ping, T. J. Cui, “The factorized sparse approximate inverse preconditioned conjugate gradient algorithm for finite element analysis of scattering problems,” Progress In Electromagnetics Research, PIER 98, pp.15-31, 2009. (SCI 收录, IDS Number: 520SA) [4] X. W. Ping, X. Y. Zhou, W. M. Yu and T. J. Cui, “Fast electromagnetic simulation algorithm based on hierarchical and curvilinear finite elements,” Microwave and Optical Technology Letters, vol.53, no.2, pp.324-331, February 2011. (SCI收录,IDS Number: 705JU ) [5] X. W. Ping, R. S. Chen, K. F. Tsang, and Edward K.N. Yung, “The SSOR-preconditioned inner-outer flexible GMRES method for the FEM analysis of EM problems,” Microwave and Optical Technology Letters, vol.48, no.9, pp.1708-1712, September 2006. (SCI收录,IDS Number: 067QK) [6] X. W. Ping, R. S. Chen, “Application of algebraic domain decomposition combined with Krylov subspace iterative methods to solve 3D vector finite element equations,” Microwave and Optical Technology Letters, vol.49, no.3, pp.686-692, March 2007. (SCI收录,IDS Number: 134RV; EI收录,EI Accession Number:20071110485452) [7] Y. B. Zhai, X. W. Ping, W. X. Jiang and T. J. Cui, “Finite-element analysis of three-dimensional axisymmetrical invisibility cloaks and other metamaterial devices,” Communications in Computational Physics, vol.8, no.4, pp.823-834. (SCI 收录, IDS Number: 644TV ). [8] Yong Bo Zhai, Xue Wei Ping, Xiao Yang Zhou, Jian Feng Zhang, Wen Ming Yu, Wei Bing Lu, and Tie Jun Cui, “Fast Computations to Electromagnetic Scattering Properties of Complex Bodies of Revolution Buried and Partly Buried in Layered Lossy Media,”IEEE Transactions On Geoscience And Remote Sensing, vol.49, no. 4, APRIL 2011. (SCI 收录, IDS Number: 740AC) [9] Yong Bo Zhai, Xue Wei Ping, Tie Jun Cui“Scattering From Complex Bodies of Revolution Using a High-Order Mixed Finite Element Method and Locally-Conformal Perfectly Matched Layer,” IEEE Transactions on Antennas and Propagation, no.5,pp.1761-1764, May 2011.vol.59,(SCI 收录, IDS Number: 758OR) [10] J. Zhu, X. W. Ping, R. S. Chen, Z. H. Fan, and D. Z. Ding, “An incomplete factorization preconditioner based on shifted Laplace operators for FEM analysis of microwavestructures,” Microwave and Optical Technology Letters, vol.52, no.5,pp.1036-1042, March 2010. (SCI收录, IDS Number: 582GD ) [11] R. S. Chen, X.W. Ping, Edward K. N. Yung, C. H. Chan etc, “Application of diagonally perturbed incomplete factorization preconditioned conjugate gradient algorithms for edge finite element analysis of Helmholtz equations,” IEEE Trans. Antennas Propagat., vol.54, no.5, pp.1604-1608, May 2006. (SCI收录,IDS Number: 043 LS;) [12] R. S. Chen, X. W. Ping, and K. F. Tsang, “Application of robust incomplete Cholesky factorizations preconditioned CG algorithms for FEM analysis of millimeter wave filters,” International Journal of Infrared and Millimeter Waves, vol.24, no.12, pp.2139-2151, December 2003. (SCI收录,IDS Number: 756ZZ) [13] R. S. Chen, X. W. Ping, and Edward K. N. Yung, “Parallel realization of algebraic domain decomposition for the vector finite element analysis of 3D time-harmonic EM field problems,” International Journal of Numerical Modelling, vol.18, no.6, pp.481-492, November 2005. (SCI收录, IDS Number:982PH) [14] R. S. Chen, X. W. Ping, and Edward. K. N. Yung, “SSOR preconditioned GMRES for the FEM analysis of waveguide discontinuities with anisotropic dielectric,” International Journal of Numerical Modelling, vol.17, no.2, pp.105-118, March 2004. (SCI收录,IDS Number: 814IW; ) [15] Y. J. Sheng, R. S. Chen, X. W. Ping “,” Finite Elements in Analysis and Design.vol.44,no.13, pp.732-737, 2008. (SCI收录,IDS Number: 344LU; ) [16] X. W. Ping, W. M. Yu, T. J. Cui, “The approximate inverse preconditioner for finite element analysis of Helmholtz equations,” Asia-Pacific Microwave Conference 2009, Singapore, December 2009. (EI Accession Number: 20101512844925) [17] X. W. Ping, T. J. Cui, “The application of Schur decomposition-based BCG solver in the solution of FEBI systems for inhomogeneous media,” IEEE 2009 International Symposium on Microwave, Antenna, Propagation and EMC Technologies For Wireless Communications, Beijing China, October 2009. (EI Accession Number:20101312814632) [18] X. W. Ping, T. J. Cui, “The SSOR preconditioned Bi-conjugate gradient iterative solver for finite element solution of scattering problems,” The 2009 International Conference on Microwave Technology & Computational Electromagnetics, Beijing China, November 2009. (EI Accession Number: 20104913467890) [19] X. W. Ping, T.J. Cui, “Comparison of classical precondition techniques for iterative solution of edge-based finite element equations,” the Progress in Electromagnetics Research Symposium 2010, Xi’an China, 2010. [20] X. W. Ping, T. J. Cui, “Efficient simulation of inhomogeneous media with the hybrid FEM/BEM-MLFMA algorithm,” The 2009 Workshop on Computational Electromagnetics and Its Applications, Chengdu China, 2009. [21] 平学伟, 崔铁军, 陆卫兵 FEBI-MLFMA 结合Multifrontal 算法求解电磁散射问题, 全国微波毫米波会议2009, 中国西安, 2009 年5月, pp.889-891. |