yobo体育app

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• 微波视觉与人工智能
• 智能图像处理
• 微波器件建模、设计和应用
• 电磁数据分析与计算电磁学

• 国际期刊《IEEE ACCESS》副编辑，2019年-2022年
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• 中国电子学会电磁散射与逆散射专业委员会专家组成员
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• 中国电子学会电磁兼容专业委员会专家组成员

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• 国际期刊《Applied Computational Electromagnetics Society Journal Express》 副主编，2015-至今
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• 国际期刊《International Journal of Antennas and Propagation》客座编辑，2018

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• IEEE Trans. on Antennas and Propagation, IEEE Trans. Geoscience and Remote Sensing,  Progress In Electromagnetics Research, Journal of Computational Physics，Journal of the Optical Society of America等期刊审稿人

• 2020----国家自然科学基金委优青项目
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• 2019----复旦大学卓越2025人才计划

• 2015----复旦大学卓学人才计划

• 2016, 2018----复旦大学院长奖

• 2016, 2018----中国电子学会电磁散射与逆散射会议优秀论文奖

• 2018, 2019----中国电子学会电磁兼容会议优秀论文奖

• 2018, 2019----IEEE ICCEM国际会议优秀论文奖 

• 2009----香港城市大学Peter Ho会议奖

• 2010----中国科学技术大学博士生求是奖

教育经历

• 9/2005至7/2010   中国科学技术大学                 博士

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• 9/2006至8/2010   香港城市大学                        博士 （与中国科大联合培养）

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工作经历

• 7/2014至8/2014   美国伊利诺伊大学香槟分校     访问副教授
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• 9/2012至5/2013   美国伊利诺伊大学香槟分校     访问学者

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• 9/2010至2/2014   香港大学                                博士后研究员

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• 本科必修课程：电磁场与微波技术（大二上学期）
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专著章节：

1. Y. M. Wu and W. C. Chew, High frequency techniques for antennas, Book Chapter in: Numerical Modeling in Antenna Engineering: Handbook of Antenna Technologies, Springer-Verlag, DOI: 10.1007/978-981-4560-75-7, Online ISBN 978-981-4560-75-7,Springer Singapore, Springer Nature Singapore Pte Ltd., 2016.

SCI期刊论文：

 1.  Xue, Zhi Yang; Wu, Yu Mao*; Chew, Weng Cho; Jin, Ya Qiu; Amir Boag; The Multilevel Fast Physical Optics Method for Calculating High Frequency Scattered Fields, Progress In Electromagnetics Research, 2020, 169:1-154. 

2.  A. W. Wu, Y. M. Wu*, Y. Q. Jin, Y. R. Wang and Z. H. Guo, L(1/2) Regularization for ISAR Imaging and Target Enhancement of Complex Image,  IEEE Transactions on Geoscience and Remote Sensing, doi: 10.1109/TGRS.2020.3040277.

3. Zhang, Nan; Wu, Yu Mao* ; Jin, Ya-Qiu; Multilevel second order physical optics method for calculating the high frequency scattered fields, IEEE Antennas and Wireless Propagation Letters. 

4. Huang, Si-Lu; Song, Wei; Wang, Yi-Zhuo; Wu, Yu Mao; Pan, Xiao-Min; Sheng, Xin-Qing; Efficient and accurate electromagnetic angular sweeping of rough surfaces by MPI parallel randomized Low-rank decomposition, IEEE Journal Of Selected Topics in Applied Earth Observations And Remote Sensing. 

5.  Zhang, Nan; Wu, Yu Mao* ; Hu, Jun; Jin, Ya-Qiu; The fast physical optics method on calculating the scattered fields from electrically large scatterers, IEEE Transactions on Antennas and Propagation, 2020, 68(3): 2267-2276. 

6.  An Wen Wu, Yu Mao Wu*, Ya Qiu Jin, Nan Zhang, Fast ISAR Imaging based on High Frequency Scattered Fields from Quadratic Patches , Applied Computational Electromagnetics Society Journal , 2019, vol.34, no.6: 882-889.

7.  Nan Zhang, Yu Mao Wu*, Ya Qiu Jin, Jun Hu, Hai-Jing Zhou, Yang Liu, The Two Dimensional Numerical Steepest Descent Path Method for Calculating the Physical Optics Scattered Fields from Different Quadratic Patches , IEEE Transactions on Antennas and Propagation , 2019, vol. 68, no.11, in press.  

8.  Nan Zhang, Yu Mao Wu*, Ya Qiu Jin, The fast solver for calculating the scattered fields from the multiscale scatterers, IEEE Journal on Multiscale and Multiphysics Computational Techniques , 2018, vol.3:303-311.

9. Y. M. Wu, K. W. Chen, J. Hu, H. J. Zhou, Y. Liu, J. Li, The new operator marching method on calculating the electromagnetic scattered fields from the periodic structures, Communications in Computational Physics，2020，22：1-20.

10．S. Yan, Y. M. Wu, H. Zhao, and H. Guo, Advanced modeling and simulation methods for multiphysics and multiscale problems, International Journal of Antennas and Propagation, Vol. 2017, Article ID 3051476, pp. 1-2, 2017.

11. Y. P. Chen, W. Sha, L. J. Jiang, M. Meng, Y. M. Wu, W. C. Chew, A unified Hamiltonian solution to Maxwell-Schrodinger equqtions for modeling electromagnetic field-particle interaction, Computer Physics Communications, 2017.6, 215: 63~70

12. Y. M. Wu, W. C. Chew, Y. Q. Jin, T. J. Cui, L. J. Jiang, An efficient numerical contour deformation method for calculating electromagnetic scattered fields from 3-D convex scatterers, Progress in Electromagnetic Research,Vol.158,pp. 109-119, 2017.

13. Y. M. Wu, Weng Cho Chew, Ya-Qiu Jin, Li Jun Jiang, Hongxia Ye, and Wei E. I. Sha,  A frequency independent method for computing thephysical optics based electromagnetic fields scattered from a hyperbolic surface, IEEE Transactions on Antennas and Propagation, Vol. 64, No. 4, pp. 1546-1552, 2016.

14. Y. M. Wu, S. J. Teng, Frequency-independent approach to calculate physical optics radiations with the quadratic concave phase variations, Journal of Computational Physics, Vol. 324, pp. 44-61, 2016. 

15. Y. M. Wu and W. C. Chew, The modern high frequency techniques for solving electromagnetic scattering problems, Progress In Electromagnetics Research, Invited paper, Vol. 156, pp. 63-82, 2016. 

16. Y. M. Wu and Y. Y. Lu, Efficient Operator Marching Method for Analyzing Crossed Arrays of Cylinders, Communications in Computational Physics, vol. 18, no. 5, pp. 1461-1481, 2015. 

17. Y. M. Wu, L. J. Jiang, W. C. Chew, and Y. Q. Jin, The contour deformation method for calculating the high frequency scattered field by the Fock current on the surface of the 3-D convex cylinder,  IEEE Transactions on Antennas and Propagation, vol. 63, no. 5, pp. 2180-2190, 2015.  

18. Y. M. Wu, L. Jiang, and W. C. Chew, Computing highly oscillatory physical optics integral on the polygonal domain by an efficient numerical steepest descent path method, Journal of Computational Physics, 236 (2013), pp. 408--425.  

19. Y. M. Wu, L. Jiang, and W. C. Chew, The numerical steepest descent path method for calculating physical optics integrals on smooth conducting quadratic surfaces, IEEE Transactions on Antennas and Propagation, 61 (2013), pp. 4183--4193.  

20. Y. M. Wu, L. Jiang, and W. C. Chew, An efficient method for computing highly oscillatory physical optics integral, Progress In Electromagnetics Research, 127 (2012), pp. 211--257. 

21. Y. M. Wu and Y. Y. Lu, Boundary integral equation Neumann-to-Dirichlet map method for conical diffraction, Journal of the Optical Society of America A, 28 (2011), pp. 1191--1196. 

22. Y. M. Wu and Y. Y. Lu, Analyzing diffraction gratings by a boundary integral equation Neumann-to-Dirichlet map method, Journal of the Optical Society of America A, 26 (2009), pp. 2444--2451. 

23. Y. M. Wu and Y. Y. Lu, Dirichlet-to-Neumann map method for analyzing crossed arrays of circular cylinders, Journal of the Optical Society of America B, 26 (2009), pp. 1984--1993. 

24. Y. M. Wu and Y. Y. Lu, Dirichlet-to-Neumann map method for analyzing periodic arrays of cylinders with oblique incident waves, Journal of the Optical Society of America B, 26 (2009), pp. 1442--1449. 

25. Y. M. Wu and Y. Y. Lu, Dirichlet-to-Neumann map method for analyzing interpenetrating　cylinder arrays in a triangular lattice, Journal of the Optical Society of America B, 25 (2008), pp. 1466--1473. 

26. Y. M. Wu and Y. Y. Lu, New operator marching method for analyzing crossed arrays of circular cylinders, AIP Conf. Proc. Theoretical and Computational Nanophontonis (TACONA-PHOTONICS 2009), pp. 87 -89. DOI：10.1063/1.3253945. 

27. Yongpin P. Chen, Wei E.I. Sha, Li Jun Jiang, Min Meng, Y. M. Wu, Weng Cho Chew, “A unified hamiltonian solution to Maxwell-Schrödinger equations for modeling electromagnetic field-particle interaction,” Elsevier, Computer Physics Communications, 2017, vol.215, pp. 63-70 

28. Z. -H. Ma, W. C. Chew, Y. M. Wu, and L. J. Jiang, A new multilevel method for electrostatic problems through hierarchical loop basis,Computer Physics Communications, vol. 189, pp. 99-105, 2015. 

29. C. L. Cao, Y. Zhou, X. C. Zhang, Y. M. Wu, P. W. T. Pong, Simulation of spin-torque diode microwave detectors, The European Physical Journal (EPJAP), vol. 69, no. 1, 10603p1-p4, 2015. 

30. Qi I. Dai, W. C. Chew, L. J. Jiang, and Y. M. Wu, Differential forms motivated discretizations of electromagnetic differential and integral equations, IEEE Antennas and Wireless Propagation Letters, vol. 13, pp. 1223--1226, 2014. 

31. L. Yuan and Y. M. Wu*, An efficient mode reduction technique for modeling of waveguide gratings, Progress In Electromagnetics Research, vol. 40, pp. 1--8, 2014. (*Corresponding author) 

32. J. Z. Huang, W. C. Chew, Y. M. Wu, and L. Jiang, Methods for fast evaluation of self-energy matrices in tight-binding modeling of electron transport systems, Journal of Applied Physics, 112 (2012), pp. 1-7. 

33. Wei E. I. Sha, W. C. H. Choy, Y. M. Wu, and W. C. Chew, Optical and electrical study of organic solar cells with a 2D grating anode, Optics Express, 20 (2012), pp. 2572-2580.