上海大学通信与信息工程学院导师:马哲旺

发布时间:2021-10-09 编辑:考研派小莉 推荐访问:
上海大学通信与信息工程学院导师:马哲旺

上海大学通信与信息工程学院导师:马哲旺内容如下,更多考研资讯请关注我们网站的更新!敬请收藏本站,或下载我们的考研派APP和考研派微信公众号(里面有非常多的免费考研资源可以领取,有各种考研问题,也可直接加我们网站上的研究生学姐微信,全程免费答疑,助各位考研一臂之力,争取早日考上理想中的研究生院校。)

上海大学通信与信息工程学院导师:马哲旺 正文

  个人简介
  马哲旺,男,1964年7月生。1986年、89年分别获中国科学技术大学无线电电子学系学士和硕士学位。1991年获日本政府奖学金赴日留学,95年获日本国立电气通信大学博士学位。1997年任电气通信大学电气电子工程系副教授,98年后任日本国立埼玉大学工学部电气电子系统工程系副教授、教授。
  马哲旺教授多年来一直从事计算电磁学,微波毫米波电路特别是微波毫米波滤波器的研究与开发,以及微波毫米波介质材料和高温超导测量方法的研究。自1998年起担任美国IEEE Transactions on MTT 以及IEEE Microwave and Wireless Components Letters Editorial Board 委员以及Review Board委员、日本电子信息通信学会期刊IEICE Transactions on Electronics Review Board 委员, 日本电子信息通信学会微波专业委员会委员、日本微波仿真专业委员会委员。1998APMC(亚太地区微波国际会议)技术委员会委员,2002APMC Steering Committee委员。担任多项国际会议分会主席。在IEEE Transactions on MTT (美国)、IEICE Transactions on Electronics (日本),电子学报,电子科学学刊(中国)等国内外期刊以及IEEE MTT-S International Microwave Symposium (美国)、APMC(亚太地区微波会议)、EuMC(欧洲微波会议)等国际会议及其它国内外会议上发展论文100余篇。分担执笔专著一本。

  联系方式
  办公室:延长校区行健楼1112室
  通信地址:上海市延长路149号160信箱
  邮政编码:200072
  电话:021-56338124
  电子邮件:mazhewang@shu.edu.cn

  主要学术期刊及国际会议论文
  [1] Zhewang Ma, Eikichi Yamashita, and Shanjia Xu, “Modal Analysis of Open Groove Guide with Arbitrary Groove Profile,” IEEE Microwave and Guided Wave Letts., vol.2, pp. 364-366, Sept. 1992.
  [2] Zhewang Ma and Eikichi Yamashita, “A New Method for the Characterization of Groove-Guide Leaky-Wave Antenna with an Asymmetrically Located Metal Strip,” IEEE Microwave and Guided Wave Letts., vol.2, pp. 489-491, Dec. 1992.
  [3] Zhewang Ma, Eikichi Yamashita, and Shanjia Xu, “Hybrid-Mode Analysis of Planar Transmission Lines with Arbitrary Metallization Cross Section,” IEEE Trans. Microwave Theory Tech., vol. MTT-41, pp. 491-497, Mar. 1993.
  [4] Zhewang Ma and Eikichi Yamashita, “Wave Leakage From Groove NRD Structures,” IEEE Microwave and Guided Wave Letts., vol.3, pp. 170-172, June 1993.
  [5] Zhewang Ma, Eikichi Yamashita, and Shanjia Xu, “Transverse Scattering Matrix Formulation for a Class of Waveguide Eigenvalue Problems,” IEEE Trans. Microwave Theory Tech., vol. MTT-41, pp. 1044-1051, June/July 1993.
  [6] Zhewang Ma and Eikichi Yamashita, “Space Wave Leakage from Higher Order Modes on Various Planar Transmission Line Structures,” IEEE MTT-S Int. Microwave Symp. Dig., San Diego, Cal., pp. 1033-1036, May 1994.
  [7] Zhewang Ma and Eikichi Yamashita, “Leakage Characteristics of Groove Guide Having a Conductor Strip,” IEEE Trans. Microwave Theory Tech., vol. MTT-42, pp. 1925-1931, Oct. 1994.
  [8] Zhewang Ma and Eikichi Yamashita, “Efficient Fullwave Analysis of a Waveguide T-junction with an Inductive Post,” 1994 Asia-Pacific Microwave Conference Proceedings, pp. 259-262, Dec. 1994.
  [9] Zhewang Ma and Eikichi Yamashita, “Port Reflection Coefficient Method for Solving Multi-Port Microwave Network Problems,” IEEE Trans. Microwave Theory Tech., vol. 43, pp. 331-337, Feb. 1995.
  [10] Zhewang Ma, Takahide Ishikawa, and Eikichi Yamashita, “An Efficient Analysis Approach for Inset Dielectric Guide (IDG) Structures and Its Variations,” IEEE Microwave and Guided Wave Letts., vol.5, pp. 117-118, Apr. 1995.
  [11] Zhewang Ma and Eikichi Yamashita, “Efficient Analysis of a Waveguide Π-junction with an Inductive Post,” IEEE MTT-S Int. Microwave Symp. Dig., pp. 761-764, May 1995.
  [12] Zhewang Ma and Eikichi Yamashita, “Efficient Fullwave Analysis of a Waveguide T-junction with an Inductive Post,” IEICE Trans. Electron.,vol. E78-C, pp. 1117-1124, Aug. 1995.
  [13] Zhewang Ma, Akira Miyata, and Eikichi Yamashita, “Modal Analysis of Microstrip-Loaded Inset Dielectric Guides,” 1995 Asia-Pacific Microwave Conference Proceedings, pp. 237-240, Oct. 1995.
  [14] Zhewang Ma and Eikichi Yamashita, “Efficient Characterization of Complex H-plane Waveguide p-junction and Cross Junctions,” IEICE Trans. Electron.,vol. E79-C, pp. 444-452, Mar. 1996.
  [15] Zhewang Ma, Akira Miyata, and Eikichi Yamashita, “Analysis of Compensated Structures in Planar Transmission Lines Using the FDTD Method Incorporating Triangular Subcells,” IEEE MTT-S Int. Microwave Symp. Dig., pp. 1015-1018, June 1996.
  [16] Zhewang Ma and Eikichi Yamashita, “Comparative Studies of Discontinuities in Single and Double Layered Conductor-Backed Coplanar Waveguides,” IEEE MTT-S Int. Microwave Symp. Dig., pp. 1803-1806, June 1996.
  [17] Zhewang Ma, Akira Miyata, and Eikichi Yamashita, “Comparative Studies of Three Types of Coplanar Waveguide Structures for Millimeter Wave Applications,” 26th European Microwave Conference Proceedings, pp. 986-990, Sept. 1996.
  [18] Zhewang Ma, Taku Yamane, and Eikichi Yamashita, “Analysis and Design of Mitered H-Plane Bends in Rectangular Waveguides by Combining the Mode-Matching and Port Reflection Coefficient Methods,” Electronics and Communications in Japan, Part 2, Vol. 80, No. 5, pp. 1-7, 1997.
  [19] Zhewang Ma, Taku Yamane, and Eikichi Yamashita, “Analysis and Design of H-Plane Waveguide Bends with Compact Size, Wide-Band and Low Return Loss Characteristics,” IEEE MTT-S Int. Microwave Symp. Dig., pp. 417-420, June 1997.
  [20] Zhewang Ma and Eikichi Yamashita, “FDTD Investigation of Higher Order Mode Leakage from Three Dimensional Microstrip Line Structures,” IEEE MTT-S Int. Microwave Symp. Dig., pp. 1631-1634, June 1997.
  [21] Zhewang Ma, Taku Yamane, and Eikichi Yamashita, “Studies on the Characterization and Optimal Design of E-Plane Waveguide Bends,” IEICE Trans. Electron., vol. E80-C, pp. 1395-1401, Nov. 1997.
  [22] Zhewang Ma and Eikichi Yamashita, “Performance of the Modified Berenger PML Absorbing Boundary Condition for Evanescent Waves in Three-Dimensional Structures,” 1997 Asia-Pacific Microwave Conference Proceedings, pp. 273-276, Dec. 1997.
  [23] Zhewang Ma and Yoshio Kobayashi, “Performance of the Modified PML Absorbing Boundary Condition for Propagating and Evanescent Waves in Three-Dimensional Structures,” IEICE Trans. Electron., vol. E81-C, pp. 1892-1897, Dec. 1998.
  [24] Zhewang Ma and Yoshio Kobayashi, “FDTD Characterization of Planar Resonators with Applications to the Design of Small-Sized Filters,” 1998 Asia-Pacific Microwave Conference Proceedings, pp. 173-176, Dec. 1998.
  [25] Zhewang Ma and Yoshio Kobayashi, “Analysis of Dielectric Resonators Using the FDTD Method Combined with the Pade Interpolation Technique,” 1999 Asia-Pacific Microwave Conference Proceedings, pp. 401-404, Dec. 1999.
  [26] Zhewang Ma and Yoshio Kobayashi, “Analysis of Axially Cascaded Dielectric Resonators Using the Mode-Matching Method Combined with the Generalized Scattering Matrix Technique,” 1999 Asia-Pacific Microwave Conference Proceedings, pp. 848-851, Dec. 1999.
  [27] Zhewang Ma, Yoshio Takiguchi, Hideyuki Suzuki, and Yoshio Kobayashi, “Design of Two Types of Millimeter Wave Filters Using Coplanar Waveguide Structures,” 2000 Asia-Pacific Microwave Conference Proceedings, pp. 516-519, Dec. 2000.
  [28] Zhewang Ma and Yoshio Kobayashi, “Analysis of Dielectric Resonators Using the FDTD Method Combined with the Pade Interpolation Technique,” IEICE Trans. Electron., vol. E84-C, pp. 973-976, July. 2001.
  [29] Zhewang Ma and Yoshio Kobayashi, “Theory for the Design of a Filter Having One Cross Coupling Path to Realize Poles of Attenuation in Its Stopband,” 2001 Asia-Pacific Microwave Conference Proceedings, pp. 519-522, Dec. 2001.
  [30] Zhewang Ma and Yoshio Kobayashi, “Measurement of the Unloaded Q-Factor of a Transmission-Type Microwave Resonator Having Two Coupled Modes,” 2001 Asia-Pacific Microwave Conference Proceedings, pp. 1235-1238, Dec. 2001.
  [31] Hideyuki Suzuki, Zhewang Ma, Yoshio Kobayashi, Kei Satoh, Shoichi Narahashi, and Toshio Nojima, “A Low-Loss 5GHz Bandpass Filter Using HTS Quarter-Wavelength Coplanar Waveguide Resonators,” IEICE Trans. Electron., vol. E85-C, pp. 714-719, Mar. 2002.
  [32] Zhewang Ma, Hideyuki Suzuki, Yoshio Kobayashi, Kei Satoh, Shoichi Narahashi, and Toshio Nojima, “A Low-Loss 5GHz Bandpass Filter Using HTS Coplanar Waveguide Quarter-Wavelength Resonators,” IEEE MTT-S Int. Microwave Symp. Dig., pp. 1967-1970, June 2002.
  [33] Zhewang Ma and Yoshio Kobayashi, “Error Analysis of the Unloaded Q-Factors of a Transmission-Type Resonator Measured by the Insertion Loss Method and the Return Loss Method,”  IEEE MTT-S Int. Microwave Symp. Dig., pp. 1661-1664,, June 2002.
  [34] Zhewang Ma, Erito Sakurai, Kaneo Nomiyama, and Yoshio Kobayashi, “Design and Measurement of a Miniaturized High Temperature Superconductor Microstrip Spiral Resonator Filter,” 2002 Asia-Pacific Microwave Conference Proceedings, pp.211-214, Nov., 2002.
  [35] Takashi Shimizu, Zhewang Ma and Yoshio Kobayashi, “Design of a Grooved Circular Cavity for Separating Degenerate TE and TM Modes in Dielectric Substrate Measurements,” 2002 Asia-Pacific Microwave Conference Proceedings, pp. 1019-1022, Nov., 2002.
  [36] Zhewang Ma, Hideyuki Suzuki, and Yoshio Kobayashi, “Design and Diagnosis of a 5GHz 10-pole HTS Bandpass Filter Using CPW Quarter-Wavelength Resonators,” IEICE Trans. Electron., vol. E86-C, pp. 144-149, Feb. 2003.
  [37] Zhewang Ma and Yoshio Kobayashi, “On the Error of the Unloaded Q-Factor of a Transmission-Type Resonator Measured by the Insertion Loss Method and the Return Loss Method,” IEICE Trans. Electron., vol. E86-C, Aug. 2003.
  [38] Zhewang Ma, Toshiyuki Asano, and Yoshio Kobayashi, “Theory for the Design of a Filter Having One Cross coupling Path to Realize Transmission Zeros,” IEICE Trans. Electron., vol. E86-C, Aug. 2003.
  [39] Takashi Shimizu, Zhewang Ma, and Yoshio Kobayashi, “Design of a Grooved Circular Cavity for Dielectric Substrate Measurements in Millimeter Wave Region,” IEICE Trans. Electron., vol. E86-C, Aug. 2003.
 

以上老师的信息来源于学校网站,如有更新或错误,请联系我们进行更新或删除,联系方式

添加上海大学学姐微信,或微信搜索公众号“考研派小站”,关注[考研派小站]微信公众号,在考研派小站微信号输入[上海大学考研分数线、上海大学报录比、上海大学考研群、上海大学学姐微信、上海大学考研真题、上海大学专业目录、上海大学排名、上海大学保研、上海大学公众号、上海大学研究生招生)]即可在手机上查看相对应上海大学考研信息或资源

上海大学考研公众号 考研派小站公众号
上海大学

本文来源:http://www.okaoyan.com/shanghaidaxue/daoshi_492778.html

推荐阅读