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Haogang Wang

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  [1] Haogang Wang, Leung Tsang, Shaowu Huang, “Loss and back-coupling effects on subwavelengthimaging of three-dimensional superlens,” OPTICS LETTERS, Vol. 37, No. 12, June 15, 2262-2264, (2012)
  [2] Shaowu Huang, Haogang Wang, Kung-Hau Ding, Leung Tsang, Subwavelength imaging enhancement through a three-dimensional plasmon superlens with rough surface, Optics Letters, vol. 37, no. 8, pp. 1295-1297, Apr. 2012.
  [3] Kongpeng Liu, Haogang Wang, Min Zhou, Faxin Yu, “A novel coherent combining procedure in ultra wide-band rake receivers with the pulses position modulation and repetition coding,” IEEE ICCT2012, 9-11 Nov., 2012, Chengdu. (The best paper award.)
  [4] X. H. Yu, L. Wang, H. G. wang, X. D. Wu, Y. H. Shang, “A novel multiport matching method for maximum capacity of an indoor MIMO system,” PIER 130, pp. 67-84, 2012.
  [5] Haogang Wang, J. Q. Bagley, L. Tsang, S. Huang, K.-H. Ding, and A. Ishimaru, “Image enhancement for flat and rough film plasmon superlenses by adding loss,” J.    Opt. Soc. Am. B, 28, 2499-2509 (2011).
  [6] Da Qin Liu, Huan Li, Hao Gang Wang, and Yang Du, “Multi-GPOF Method in the Calculation of the Rectangular Waveguide Layered Green’s Functions,” IEEE Antennas and Wireless Propag. letters, Vol. 9, pp. 1143-1147, 2010.
  [7] H.-G. Wang, L. Wang, H. Li, H.-B. Song, K. Hong, “Design and numerical analyses of an indoor 3–5 GHz UWB-MIMO array,” IET Microwaves, Antennas & Propagation,Vol.4, pp. 1517-1524, 2010.
  [8] H. G. Wang, L. Wang, H. Li, H. B. Song, and K. Hong, “A Novel Numerical Model for Simulating Three Dimensional MIMO Channels with Complex Antenna Arrays,” IEEE Transactions on Antennas and Propagation, Vol. 57, no. 8, August, pp. 2439-2451, 2009.
  [9] H. B. Song, H. G. Wang, K. Hong, and L. Wang, “A Novel Source Localization Scheme Based on Unitary ESPRIT and City Electronic Maps in Urban Environments,” PIER 94, pp. 243-262, 2009.
  [10] H. Li and H. G. Wang, “An improvement of the Ge-Esselle’s method for the evaluation of the Green’s functions in the shielded multilayered structures,” PIER 88, pp. 149-161, 2008.
  [11] H. G. Wang, P. Zhao, “Combining Multilevel Green’s Function Interpolation Method with volume loop bases for inductance extraction problems,” Progress In Electromagnetics Research, PIER 80, 225-239, 2008.
  [12] H. G. Wang and C. H. Chan, “The implementation of multilevel Green’s function interpolation method for full-wave electromagnetic problems,” IEEE Trans. Antennas Propag., vol. 55, no. 5, pp. 1348-1358, May 2007.
  [13] Hao Gang Wang, Chi Hou Chan, “Numerical Study of the Green’s Function Approximation Using Radial Basis Function Interpolation,” PIERS 2007, Beijing, China, 2007.
  [14] Zhao Peng, Zhang Jie, Chen Kangsheng, Wang Haogang, a new library search method for extracting VLSI capacitances, Chinese Journal of Semiconductors,,vol. 28, no. 11, pp. 1794-1802, 2007.
  [15] L. Li, H. G. Wang, C. H. Chan, “An improved multilevel Green’s function interpolation method with adaptive phase compensation,” IEEE Trans. Antennas and Propag., Vol. 56, No. 5, pp. 1381-1393, May 2008.
  [16] Z. P. Nie, H. G. Wang, J. Wang, “A combined field solution with single operator for electromagnetic scattering from conductive targets with open cavities,” IEEE Trans. Antennas and Propag., Vol. 56, No. 5. pp. 1734-1741, June 2008.
  [17] Yan Shi, Hao Gang Wang, Long Li, and Chi Hou Chan, “Multilevel Green’s function interpolation method for scattering from composite metallic and dielectric objects,” J. Opt. Soc. Am. A/Vol. 25, No. 10. pp. 2535-2548, October 2008
  [18] P. Zhao and H. G. Wang, “Resistances and inductances extraction using surface integral equation with the acceleration of multilevel Green’s function interpolation method,” PIER 83, 43-54, 2008.
  [19] H. G. Wang and P. Zhao, “Inductance extraction in ICs using MultiLevel Green’s Function Interpolation Method with volume loop bases,” PIERS 2008 in Cambridge, 2008, Cambridge, MA, USA. (Oral presentation.)
  [20] Y. Shi, H. G. Wang, L. Li, C. H. Chan, “Multilevel Green’s Function Interpolation Method Using Novel Partitioning Techniques for Modeling Composite Metallic and Dielectric Objects,” PIERS 2008 in Cambridge, 2008, Cambridge, MA, USA. (Oral presentation.)
  [21] H. G. Wang, C. H. Chan, L. Tsang, and V. Jandhyala, “On sampling algorithms in multilevel QR factorization method for magnetoquasitatic analysis of integrated circuits over multilayered lossy substrates,” IEEE Trans. Comput.-Aided Des. Integr. Circuits Syst., vol. 25, no. 9, pp. 1777-1792, Sep. 2006.
  [22] H. G. Wang, C. H. Chan, L. Tsang and K. F. Chan, “Mixture effective permittivity simulations using IMLMQRF method on preconditioned EFIE,” Progress In Electromagnetics Research, Vol. 57, 285-310, 2006.
   [23] H. G. Wang, C. H. Chan, L. Tsang, “A new multilevel Green’s function interpolation method for large-scale low-frequency em simulations,” IEEE Trans. On Computer-Aided Design of Integrated Circuits and Systems, vol. 24, no. 9, pp1427-1443, Sept. 2005.
  [24] Haogang Wang and Chi Hou Chan, “Multilevel QR Factorization Scheme for Large-Scale Low-Frequency EM Problems,” Invited paper for ISAP2005, Seoul, 2005.
  [25] WANG Hao-gang, NIE Zai-ping, WANG Jun, "New Mixed-field Integral Equations for Electromagnetic Scattering Analysis of Cavity Conductor Targets," Acta Electronica Sinica, 2004.
  [26] Nie Zaiping, Wang Haogang, "Numerical Simulation of Electromagnetic Scattering from Conductive Targets with Cavity Electrically Large Size," Acta Physica Sinica, December 2003.
  [27] Xiao Dong Gong, Zai Ping Nie, Hao Gang Wang, “Fast and accurate solution of 3-D vector Electromagnetic scattering by FMM with higher order methods,” Chinese Journal of electronics, July, 2003.
  [28] Hao Gang Wang, Chi Hou Chan, Leung Tsang, Ka Fai Chan, “Simulations of Effective Permittivity of Mixtures Using an IMLMQRF Method on Preconditioned EFIE,” PIERS2004, Nanjing, China, 2004.
  [29] Hao Gang Wang, Chi Hou Chan, Leung Tsang, “A new multilevel Green's function interpolation method for large scale EM simulations in RF ICs,” Antennas and Propagation Society Symposium, 2004. IEEE, Vol. 2, pp. 1183-1186, June 2004.
  [30] Wang Hao Gang, Nie Zai Ping, Qin Yi, “Study of scattering from cavities,” Invited paper for 2002 Interim International Symposium On Antennas and Propagation, Japan, 2002.
  [31] Wang Haogang, Nie Zeping, Wang Jun, Numerical Simulation of Surface Parameter Quadratic Simulation with Integral Singular Reduced Order of Moments, Journal of Electronics and Information Technology,Vol. 24, No. 1, pp. 83-89, 2002.
  [32] WANG Hao-gang, NIE Zai-ping, WANG Jun Optimization Methods for Invariant Term in 3D Fast Multipole Methods.Journal of Electronics, Vol. 28, No. 9, pp. 103-106, 2000.
  [33]Singularity Analysis of 3D Vector Scattering Integral Equations. Journal of Electronics, vol. 27, No. 12, pp. 68-71, 1999. [34] Wang Haogang, Nie Zeping, An Efficient Algorithm for Solving Single Station RCS - Fundamental Excitation. Journal of Electronics,vol. 27, No. 9, pp. 28-31, 1999.
  [35] Wang Hao Gang, Nie Zai Ping, “Study of the Partially Open Cavity’s Resonant Character,” 2000 5th International Symposium on Antennas, Propagation and EM Theory Proceedings, pp. 341-346, 2000.

  [36] Wang Hao Gang, Nie Zai Ping, Wang Jun, “A new technique for scattering by the electrical large body with an open cavity - generalized CFIE,” IEEE Antennas and Propagation Society International Symposium, pp. 722-725, 8-13 July 2001.





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