PUBLISHED
PAPERS IN JOURNALS
[59] Y. Lu, R. Lu, Wenhua
Yu, “Parallel Computing Efficiency Analysis of BOR-FDTD Code on a
Beowulf Cluster,”
Microwave and Optics Technology Letters, Vol.49, No.6, 2007, pp.1398-1401.
[58] Wenhua Yu, X. Yang, Y. Liu, T. Su, N. Huang and R. Mittra, “New Direction in Computational
Electromagnetics
— Solving Large Problems Using the Parallel FDTD on the BlueGene/L Supercomputer
Yielding Teraflop-Level Performance,” IEEE Antenna and Propagation Magazine.(to be published).
[57] Wenhua Yu, X. Yang, Y. Liu, T. Su and R. Mittra, “Solving Electrically Large Problems Combining
Parallel FDTD and BlueGene/L Supercomputer,” Chinese Journal of Radio Science, Vol.21, no.4, pp92-96.
[56] W. Xu, L. Ma, Wenhua Yu and R. Mittra, “A Novel Expression of Lumped Elements 4 in FDTD Simulations,”
International Journal of Frared and Millimeter Waves, 27 (7): 985-993 JUL 2006.
[55] Wenhua Yu , M. Hashemi, R. Mittra, et al, “Massively Parallel Conformal FDTD
on a BlueGene Supercomputer,” IEEE Transactions on Advanced Packaging.(in press).
[54] Wenhua Yu, Tao Su and Raj Mittra, “A Novel Separable Backward-Central FDTD Method,”
Microwave and Optics Technology Letters, Feb. 2006 (to appear).
[53] Wenhua Yu, Tao Su and Raj Mittra, “An Improved Approach to Predict Far Field for Infinite
Planar Structures in FDTD Simulations,” Microwave and Optics Technology Letters, Vol. 47,
pp. 338-343,November 2005.
[52] Tao Su, Wenhua Yu and Raj Mittra, “A New Look of FDTD Excitation Source,”
Microwave and Optics Technology Letters, May 2005.
[51] Wenhua Yu, Yongjun Liu, Tao Su, and Raj Mittra, "A Robust Parallel Conformal Finite
Difference Time Domain Processing Package Using MPI Library," IEEE Antenna and Propagation
Magazine, Vol. 47, June 2005, No. 3, pp. 39-59.
[50] Sicong Wang, Baixin Zhou, and Wenhua Yu, “Application of Data Compressing Technique to
Far Field pattern prediction in FDTD Simulation,”Microwave and Optics Technology Letters
40(9), September 2004.
[49] Baixin Zhou, Sicong Wang and Wenhua Yu, “An Effective Approach to Predict far Field
Pattern in FDTD Simuation,” IEEE Antenna and Wireless Propagation Letters, Vol.3, No.9,
2004, pp.148-151.
[48] Baixin Zhou, Sicong Wang and Wenhua Yu, “Numerical Investigation of the Effective
Dimensions of Perfect Electric Conductor (PEC) In FDTD Simulation107-109 JAN 20 2004.
[47] Hany E. Abd El-Raouf, Wenhua Yu and Raj Mittra, “Application of Z-transform to Modeling
Lumped Load in FDTD,” IEE Proceedings - Microwaves, Antennas and Propagation, 151(1), 67-
70, Deb. 2004.
[46] Nader Farahat, Wenhua Yu and Raj Mittra, "A fast near-to-fat field transformation
technique in BOR-FDTD Method," IEEE Transactions on Antennas and Propagation, Vol. 51, No.
9, September 2003, pp. 2534-2540.
[45] Baixin Zhou, Sicong Wang and Wenhua Yu, “An Accurate FDTD Simulation Technique Using
Relatively Coarse Mesh for Modeling PEC Planar Structures,” MICROW OPT TECHN LET,
Vol. 39, No. 1, 2003, pp. 17-19.
[44] Z. J. Yang, YinChao Chen, WenHua Yu and Raj Mittra, “Hybrid FDTD/AUTOcad (R) method
for the analysis of BOR horns and reflectors,” MICROW OPT TECHN LET 37 (4):
pp. 236-243 MAY 20 2003.
[43] S. H. Yan, BingZhong Wang, WenHua Yu and Raj Mittra, “A locally conformal algorithm for
handling curved metallic surfaces and its application,” INT J INFRARED MILLI 24 (6):
pp. 985-992 JUN 2003.
[42] Tao Su, Yongjun Liu, Wenhua Yu and Raj Mittra, "A New Conformal Mesh Generating Technique
for Conformal Finite-Difference Time-Domain (CFDTD) Method," IEEE Antenna and
Propagation Magazine, Magazine, Vol. 46, No.1, January 2004, pp.37-49.
[41] Hany E. Abd El-Raouf, Lai-Ching Ma, Wenhua Yu and Raj Mittra, "Analysis of Microstrip
Patch Arrays Using the FDTD Method," Microwave and Optical Technology Letters, Vol. 36,
No. 4, February 2003, pp. 250-254.
[40] Wenhua Yu and Raj Mittra, "A Development Technique of Finite-Difference Time-Domain (FDTD)
Software Package," IEEE Antenna and Propagation Magazine No.1, February 2003, pp.58-74.
[39] Nader Farahat, Wenhua Yu and Raj Mittra, “Extraction of Lumped-Element Equivalent-Circuit
Models of Microstrip Discontinuities Using the Finite-Difference Time-Domain Method,“
Microwave and Optical Technology Letters, vol. 33, no. 2, April 2002.
[38] Wenhua Yu, D. H. Werner, R. Mittra, ”Finite difference time domain (FDTD) analysis of an
artificially-synthesized absorbing medium,” Journal of Electromagnetic Waves and
Applications, 15 (8): 1005-1026 2001.
[37] Bing-Zhong Wang, Yingjun Wang, Wenhua Yu, and Raj Mittra,"A Hybrid 2-D FDTD Subgridding
Scheme for Modeling On-Chip Interconnects," IEEE Transactions on Advanced Packaging.,
vol. 24, No.4, pp.528-533, Nov. 2001.
[36] Nader Farahat, Wenhua Yu, Raj Mittra and Thierry Koleck, "Cross-Shaped Dielectric Resonator
Antenna Analysisross-Shaped Dielectric Resonator Antenna Analysis Using the Conformal
Finite Difference Time Domain (CFDTD) Method," Electronics Letters, vol. 37, no. 18,
August 2001, pp. 1105-1106.
[35] Hany E. Abd El-Raouf, Wenhua Yu and Raj Mittra, ”A Truncation Technique of
Infinite Feed Line of Patch Antennas Using Matched Loads,” Microwave and Optical Technology
Letters, November 2001.
[34] Wenhua Yu, Nader Farahat and Raj Mittra, "Far field pattern calculation in BOR-FDTD method,"
Microwave and Optical Technology Letters, vol. 31, no.1, Oct. 2001, pp. 47-50.
[33] Wenhua Yu, Douglas H. Werner and Raj Mittra, "Reflection Characteristics Analysis of
Artificially-Synthesized Medium," IEEE Transactions on Magnetics, Vol. 37, no. 5, 2001.
[32] Wenhua Yu, Nader Farahat and Raj Mittra, "Application of FDTD Methods to Conformal Patch
Antennas," IEE Preocedding -- Microwave, Antennas and Propagation. Volume 148, Issue 3,
pp. 218-220, 2001.
[31] Wenhua Yu, Raj Mittra and Sourav Chakravarty, “Stability Characteristics of
Absorbing Boundary conditions in Microwave Circuit Simulations,” IEEE Transactions
on Antennas and Propagation, vol. 49, no. 9, September 2001.
[30] Arakaki Dean, Wenhua Yu and Raj Mittra, “On the Solution of a Class of Large Body
Problems with Partial Circular Symmetry (Multiple Asymmetries) by Using a Hybrid
Dimensional Finite Difference Time Domain (FDTD) Method,” IEEE Transactions on
Antennas and Propagation, vol. 49, no. 3, pp. 354-360, March 2001.
[29] Elena Semouchkina, Wenwu Cao, Raj Mittra, and Wenhua Yu, “Analysis of resonance
processes in microstrip ring resonators by the FDTD method,” Microwave
and Optical Technology Letters, Vol: 28, Issue: 5, Pages: 312-321, March 2001.
[28] Elena Semouchkina, Wenwu Cao, Raj Mittra, and Wenhua Yu, “Efficient determination
of resonance frequencies in resonant structures using the FDTD method”, Microwave
and Optical Technology Letters, Vol: 28, Issue: 4, Pages: 244-248, February 2001.
[27] Wenhua Yu, and Raj Mittra, “A Conformal Finite Difference Time Domain Technique
for Modeling Curved Dielectric Surfaces,” IEEE Microwave and Guided Wave Letters,
vol. 11, no. 1, pp. 25-27, January 2001.
[26] Wenhua Yu, Raj Mittra and Suproyi Dey, “Application of Non-uniform FDTD technique
to Analysis of Coaxial Discontinuity Structures,” IEEE Transactions on Microwave
Theory and Techniques vol. 49, no. 1, January 2001.
[25] Elena Semouchkina, Wenwu Cao, Raj Mittra, and Wenhua Yu, “Combing FDTD Simulations with
Measurements of Microstrip Ring Resonators for Charaterization of Low- and High-K
dielectrics at Microwaves,” Microwave and Optical Technology Letters, Vol. 29,
Issue: 4, Pages: 21-24, April 5, 2001.
[24] Wenhua Yu, Arakaki Dean and Raj Mittra, “On the Solution of a Class of Large Body
Problem with Full or Partial Circular Symmetry by Using the Finite Difference Time
Domain (FDTD) Method,” IEEE Transactions on Antennas and Propagation,
vol. 48, no. 12, December 2000.
[23] Wenhua Yu, Raj Mittra, ”A Conformal FDTD Software Package for Modeling of Antennas
and Microstrip Circuit Components,”IEEE Antenna and Propagation Magazine. Vol.
42, no. 5, pp. 28-39, October 2000.
[22] Wenhua Yu and Raj Mittra, “A conformal FDTD algorithm for modeling perfectly conducting
objects with curved shaped surfaces and edges,” Microwave And Optical Technology Letters,
Vol. 22, pp. 136-138, October 2000.
[21] Ji-Fu Ma, Wenhua Yu and Raj Mittra, “Detection of Buried Dielectric Cavities using
the Finite Difference Time Domain Method (FDTD) in Conjunction with Signal
Processing Techniques,” IEEE Transactions on Antennas and Propagation,
vol. 48, no. 9, pp. 1289-1294, September 2000.
[20] Wenhua Yu and Raj Mittra, “Accurate modeling of planar microwave circuit using
conformal FDTD algorithm,” Electronics Letters, Vol. 36, no. 4, 2000.
[19] Wenhua Yu, Douglas H. Werner, and Raj Mittra, “An Artificially Synthesized Medium
for The Truncation of FDTD Lattices,” IEEE Microwave and Guided Wave Letters, vol.
10, no. 4, pp. 128-130, 2000.
[18] Wenhua Yu, S. Dey, and Raj Mittra, “On the Modeling Periodic Structures Using
FDTD Method,” Microwave And Optical Technology Letters, vol.22, no.2, pp. 151-155,
February 2000.
[17] Wenhua Yu, Raj Mittra, and Douglas H. Werner, “FDTD Modeling of an Artificially-
Synthesized Absorbing Medium,” IEEE Microwave and Guided Wave Letters, vol. 9,
no. 12, pp. 496-498, Dec. 1999.
[16] Wenhua Yu and Raj Mittra, “A new Subgridding Method for Finite Difference Time
Domain (FDTD) algorithm,” Microwave And optical Technology Letters, Vol. 21, no. 5,
pp. 330-333, June 1999.
[15] Wenhua Yu and Raj Mittra, “Electromagnetic Scattering of Underground Object Using
Non-Uniform Mesh FDTD and PML,” Microwave And Optical Technology Letters, Vol. 21,
no. 2, pp.151-156, April 1999.
[14] Wenhua Yu and Raj Mittra, “A technique of Improving the accuracy of the Nonunifirm
Time-Domain Algorithm,” IEEE Transactions on Microwave Theory and Techniques, Vol.
47, no.3, pp.353-356, 1999.
[13] Wenhua Yu and Raj Mittra, “An improved method for reconstruction of lossy
dielectric objects,” Microwave And Optical Technology Letters, vol. 15, no. 5,
pp. 282-288, August 1997.
[12] Wenhua Yu and Raj Mittra, “A new nonlinear optimization technique for
reconstructing dielectric scatterers with possible high contrasts,” Microwave
And Optical Technology Letters, vol. 14, no.5, pp. 268-271, April 1997.
[11] Wenhua Yu, Zhongqiu Peng, and Shizhi Li, “An Improved Method on Time-Domain Born
Iteration,” Journal of Applied Sciences (in Chinese), vol.15, no.3, pp.299-304,
1997.
[10] Anyong Qing, Wenhua Yu, Zhiji Mao, and L. Ren, “An Improved 21/2 Dimensional FDTD
Method - Algorithm and Applications,” Journal of Microwaves (in Chinese), vol.13,
no.1, 1997, pp. 65-72.
[9] Wenhua Yu, Zhongqiu Peng and Lang Jen, “A fast convergent method in Electromagnetic
inverse scattering,” IEEE Transactions on Antennas and Propagation, Vol. 44, no.11,
pp.1929-1932, 1996.
[8] Anyong Qing, Wenhua Yu, and Zhiji Mao, “The effective method of FDTD dealing with
complex two-dimensional media,” Journal of Radio Science (in Chinese), vol.11,
no.1, pp. 21-26, 1996.
[7] Wenhua Yu, Zhongqiu Peng, and Lang Jen, “Nonlinear Time-Domain Optimization of
Two-Dimensional Lossless Dielectric Inhomogeneity Profile Reconstruction,”
Journal of Applied Sciences (in Chinese), vol.14, no.2, pp.141-148, 1996.
[6] Wenhua Yu, Zhongqiu Peng and Lang Jen, “The time-domain Born iterative method for
two-dimensional inhomogeneous lossy dielectric,” Journal of Microwaves (in Chinese),
vol.11, no.12, 1995.
[5] Wenhua Yu, Zhongqiu Peng and Lang Jen, “The FDTD modeling of subsurface radar,”
Journal of Applied Sciences (in Chinese), vol.13, no.4, 1995, pp.491-494.
[4] Wenhua Yu, Zhongqiu Peng and Lang Jen, “The improvement of the Born iterative
method,” Journal of Radio Science (in Chinese), vol.10, no.4, 1995.
[3] Wenhua Yu, Zhongqiu Peng and Lang Jen, “The new method of computing the transient
response of dielectric square cylinder," Journal of Southwest Jiaotong University
(In English), vol.3, no.2 1995.
[2] Wenhua Yu, Zhongqiu Peng and Lang Jen, “The new method improving transmitting
boundary condition,” Journal of Southwest Jiaotong University (In English), vol.29,
no.5 1994.
[1] Wenhua Yu, Zhongqiu Peng and Lang Jen, “The minimum sampling data in inverse
scattering,” Journal of Southwest Jiaotong University (In English), vol.2, no.1,
1994.
PUBLISHED
PAPERS ON SYMPOSIUMS
[40] Wenhua Yu, Qiu Chu, Yongquan Lu, Jintao Wang, Wenbin Xu, "Hardware Acceleration Techniques
for the FDTD Method," International Electromagnetic theory, July 26-28, Ottawa, ON, Canada.
[39] Y. Lu, R. Lu, Wenhua Yu, et al, “Parallelization Efficiency of an FDTD Code on a
High Performance Cluster under Different Arrangements of Memory Allocation for Material
Distribution,” IEEE International Symposium on Antennas and Propagation, ,Honolulu, HW,2007.
[38] N.T Huang, R. Mittra, and Wenhua Yu,“Investigation of the Vivaldi Array for Square Kilometer
Array (SKA) Application Using the Parallelized FDTD Code GEMS on the LOFAR BlueGene/L
Supercomputer,” IEEE International Symposium on Antennas and Propagation,Honolulu, HW,2007.
[37] T. Q. Ho, Wenhua Yu, et al, “Coupling Between Planar Microstrip Patches in
an Array Environment,” IEEE International Symposium on Antennas and Propagation,
Honolulu, HW, 2007.
[36] T. Q. Ho, Wenhua Yu, et al, “Impact of Mounting on UHF LOS Antenna System,”
IEEE International Symposium on Antennas and Propagation, Honolulu, HW, 2007.
[35] M. R. Hashemi, R. Mittra and Wenhua Yu, “Massively Parallel Conformal FDTD on a BlueGene
Supercomputer,” Electrical Performance of Electronic Packaging, EPEP 2005.
[34] Raj Mittra, Tao Su, Wenhua Yu and Reza Hashemi, “Interconnect Modeling on the IBM Blue Gene/L
using the Parallelized Maxwell Solver PFDTD,” The IBM Austin Center for Advanced Studies 6th Annual
Austin CAS Conference, Feb. 2005.
[33] Xiaoling Yan, Wenhua Yu and Raj Mittra, “Conformal FDTD Pacakge Development Based on ACIS and HOOPS,”
Asian and Pacific Microwave Conference, Suzhou, 2005.
[32] Wenhua Yu, Tao Su, and Raj Mittra, “A novel separable backward-central Finite Difference
Time Domain (FDTD) method,” IEEE International Symposium on Antennas and Propagation,
Washington DC, 2005.
[31] Wenhua Yu, Tao Su, Neng-Tien Huang, and Raj Mittra, “An improved approach to predict far
field for infinite planar structure in FDTD simulations,” IEEE International Symposium
on Antennas and Propagation, Washington DC, 2005.
[30] Wenhua Yu, Yongjun Liu, Tao Su, Neng-Tien Huang And Raj Mittra, “A Robust Parallel
Conformal FDTD Algorithm and Its Application to Electrically Large Antenna Array
Simulation,” IEEE International Symposium on Antennas and Propagation, Monteral, CA, 2004.
[29] Tao Su, Neng-Tien Huang Yongjun Liu, Wenhua Yu And Raj Mittra, “Investigation of Instability
Characteristics Arising in the FDTD Simulation of Electrically Large Antenna Arrays,”
IEEE International Symposium on Antennas and Propagation, Monteral,CA, 2004.
[28] J.F. Ma, Wenhua Yu, T. Su and R. Mittra, FDTD Simulation of Scattering from Objects
of Double Negative Material,” IEEE International Symposium on Antennas and Propagation,
Monteral, CA, 2004
[27] K. Du, N. Farahat, H. Abdel-Raoul, T. Su, W. Yu, R. Mittra, Simulation of Circular
Patch Antenna on a Sphere Using the Conformal Finite Difference Time Domain (CFDTD)
Algorithm, IEEE International Symposium on Antennas and Propagation
and USNC/URSI National Radio Science Meeting, Columbus, OH, June, 2003.
[26] L. Ma, W. Yu, H. E. Abd El-Raouf, Electromagnetic Modeling of Objects with Curved
Edges and Surfaces using the Conformal FDTD, IEEE International Symposium on Antennas
and Propagation and USNC/URSI National Radio Science Meeting, Columbus, OH, June, 2003.
[25] M. Marrone, R. Mittra, W. Yu, A Novel Approach To Deriving a Stable Hybridized FDTD
Algorithm using the Cell Method, IEEE International Symposium on Antennas
and Propagation and USNC/URSI National Radio Science Meeting, Columbus, OH, June, 2003.
[24] R. Mittra, M. Marrone, W. Yu, A LOOK AT the CAUSE of INSTABILITY PROBLEMS in FDTD
HYBRIDIZATION SCHEMES--AND a PROPOSED REMEDY, IEEE International Symposium on Antennas
and Propagation and USNC/URSI National Radio Science Meeting, Columbus, OH, June, 2003.
[23] Hany E. Abd El-Raouf, Wenhua Yu and Raj Mittra “Application of Z-Transformation to
Modeling Lumped-load in FDTD,” IEEE International Symposium on Antennas and Propagation
and USNC/URSI National Radio Science Meeting, San Antonio, TX, June 16-21, 2002.
[22] Wenhua Yu, Junho Yeo and Raj mittram “Application of Non-Uniform and Conformal FDTD
Techniques to the Analysis of a class of Planar Antennas,” IEEE International Symposium
on Antennas and Propagation and USNC/URSI National Radio Science Meeting, San Antonio, TX,
June 16-21, 2002.
[21] Wenhua Yu, Nader Farahat and Raj Mittra, “Application of FDTD Method to Conformal
Patch Antennas,” IEEE International Symposium on Antennas and Propagation and
USNC/URSI National Radio Science Meeting, Boston, MA, July 16-21, 2001.
[20] Nader Farahat, Wenhua Yu, and Raj Mittra, “Cross-Shaped Dielectric Resonator
Antenna Analysis Using the Conformal Finite Difference Time Domain (CFDTD) Method,”
IEEE International Symposium on Antennas and Propagation and USNC/URSI National
Radio Science Meeting, Boston, MA, July 2001.
[19] Felipe Catedra, Wenhua Yu, Nader Farahat and Raj Mittra, “ALPENA VERSATILE FDTD
TOOL FOR ANALIZING MICROSTRIP PCB CIRCUITS,” IEEE International Symposium on
Antennas and Propagation and USNC/URSI National Radio Science Meeting,
Salt Boston, MA, July, 2001.
[18] R. Mittra, Wenhua Yu and T. Q. Ho, "A Conformal Finite Difference Time Domain (CFDTD)
Algorithm For the Modeling of Arbitrary-shaped Antennas and Scatterers," The 2001
Electromagnetic Code Consortium (EMCC) Annual Meeting and the Multidisciplinary
University Research Initiative (MURI) Review, Kauai, Hawaii, 28th May-1 Jun 2001.
[17] Wenhua Yu, R. Mittra, and Nader Farahat, “A General-Purpose Finite Difference Time
Domain Solver for EM Simulation of Arbitrary PEC and Dielectric Objects without the
Staircasing Approximation,” International Conference on Electromagnetics in
Advanced Applications (ICEAA 2001, Invited Paper), Torino, ITALY, 2001.
[16] Wenhua Yu, Raj Mittra, Dean Arakaki, and Douglas H. Werner, “A Conformal Finite-
Difference Time-Domain Algorithm for Modeling Perfectly Conducting Objects,” The
16th Annual Review of Progress in Applied Computational Electromagnetics,
pp. 944-910, Monterey, CA, 2000.
[15] Wenhua Yu, and Raj Mittra, “A conformal FDTD software package for modeling RF
antennas and microstrip circuit components,” IEEE International Symposium on
Antennas and Propagation and USNC/URSI National Radio Science Meeting, p. 204,
Salt Lake City, Utah, July 16-21, 2000.
[14] Wenhua Yu, and Raj Mittra, “A Novel Conformal FDTD Approach for Modeling monolithic
Microwave Integrated Circuits (MMIC),” IEEE International Symposium on Antennas and
Propagation and USNC/URSI National Radio Science Meeting, pp. 244-247, Salt Lake
City, Utah, July 16-21, 2000.
[13] R. Mittra, Wenhua Yu and Jifu Ma, “Some Recent Advances in the Finite difference
Time Domain (FDTD) Method,” International Conference on Electromagnetics in
Advanced Applications (ICEAA99,invited paper), pp. 661-664, Torino, ITALY, 1999.
[12] Dean Arkaraki, Wenhua Yu and Raj Mittra, “An efficient finite difference
time-domain (FDTD) technique for modeling a reflector antenna system with partial
circular symmetry,” IEEE Antennas and Propagation Society Symposium, pp. 2344-2347,
Orlando, 1999.
[11] Wenhua Yu, Supriyo Dey and Raj Mittra, “Modeling of Periodic Structures Using the
Finite Difference Time Domain (FDTD),” IEEE Antennas and Propagation Society
Symposium, 594-597, Orlando, 1999.
[10] V. Veremey, J. Ma, Wenhua Yu, R. Mittra, “Electromagnetic sounding of cavities in
layered lossy media,” IEEE USRI International Symposium, p. 338, Orlando, 1999.
[9] Wenhua Yu, Raj Mittra and Douglas H. Werner, “FDTD Modeling of an Artificially-
Synthesized Absorbing Medium,” IEEE Antennas and Propagation Society Symposium,
pp. 1962-1965, Orlando, 1999.
[8] Raj Mittra, Ji-Fu Ma and Wenhua Yu, “Identifying Buried Objects Using the Neutral
Network Approach,” IEEE Antennas and Propagation Society Symposium, pp. 2696-2599,
Orlando, 1999.
[7] Wenhua Yu, Raj Mittra, “A new higher-order subgridding method for Finite Difference
Time Domain (FDTD) Algorithm,” IEEE Antennas and Propagation Society Symposium,
pp. 608-612, Atlanta, 1998.
[6] Wenhua Yu, Raj Mittra, “Finite-Difference Time-Domain method for electrically
largestructure with partial circular-symmetry,” IEEE Antennas and Propagation
Society Symposium, pp. 512-515, Atlanta, 1998.
[5] Wenhua Yu and Shizhi Li, “FDTD method solving Green�s Function in complex media,”
PIERS, Hong Kong, 1997.
[4] Wenhua Yu and Shizhi Li, “A fast convergent method in electromagnetic inverse
scattering,” International Electromagnetic Conference, Beijing, 1996.
[3] Anyong Qin and Wenhua Yu, “The non-uniform mesh method of dimensional FDTD method,”
International Computational Electromagnetic Conference, Beijing, 1994.
[2] Wenhua Yu, Zhongqiu Peng and Lang Jen, “An effective method of computing the pulse
influence on communication lines,” Prograss In Electromagnetics Research
Symposium (PIERS), Noordwijk, The Netherlads, 1994.
[1] Wenhua Yu, Zhongqiu Peng and Lang Jen, “The new method of improving subsurface
radar modeling,” International Computational Electromagnetics, Beijing, 1994.
SUBMITTED
PAPERS
[1] Laiqing Ma, Wenhua Yu and Raj Mittra, “A Novel Approach to Simulate Inductor in FDTD Methods,”
IEEE Wireless and Component Letters.
[2] Laiqing Ma, Wenhua Yu, Xiaoling Yang, Tao Su and Raj Mittra, “An Effective Extraction Technique
for S-Parameter Calculation in FDTD Methods,” IEEE Transactions on MTT.