王世伟
男，香港人，2017年10月加盟深圳大学，任信息工程学院全职教授，硕导和博导。香港科技大学电子工程本科学士学位，新加坡南洋理工大学硕士和博士学位，博士毕业后被聘为新加坡科技研究家资讯通信研究院研究员，曾任华南理工大学副教授、教授、博导。教育部新世纪优秀人才支持计划入选者，2018年获深圳高层次人才孔雀C类人才，IEEE高级会员。
个人详情
统计至2021年3月，王世伟发表学术论文超过200余篇，其中IEEE期刊论文超过80篇，谷歌引用超过2000次，获授权发明专利超过60项，美国专利一项。主持国家自然科学基金项目和省市级项目多项。主要研究领域：微波电路与天线。
联系邮箱：
wsw@szu.edu.cn
最新资料请参考个人网页：
http://wongsaiwai.icoc.vc
王世伟指导的毕业生第一份工作去向：
2021：中兴、小米
2020：华为、中兴、OPPO、Vivo
2019：华为、悉尼科技大学读博（导师：杨扬）
2018：华为
2017：华为、港城大读博（导师：黄衡）
2016：中兴、澳门大学读博（导师：祝雷）
2015：华为、蒙特利尔理工大学读博（导师：吴柯）
部分代表性论文：
[1] S.-W. Wong, J.Y. Lin, Y. Yang, Z. C. Guo, L. Zhu, and Q. X. Chu, “Microwave Waveguide Components Based on Multiple-Mode Resonators”, IEEE Microwave Magazine, 2020
[2] R.S. Chen, L. Zhu, J.Y. Lin,S.-W. Wong, Y. Yang, Y. Li, L. Zhang, and Y. He, “ High-isolation in-band full-duplex cavity-backed slot antennas in a single resonant cavity”, IEEE Transactions on Antennas and Propagation, 2020
[3] R.S. Chen, L. Zhu, S.W. Wong, J.Y. Lin, Y. Li, L. Zhang, Y. He,“S-Band Full-Metal Circularly-Polarized Cavity-Backed Slot Antenna with Wide Bandwidth and Wide Beamwidth”IEEE Transactions on Antennas and Propagation, 2021
[4] R.-S. Chen, L. Zhu, S.W. Wong, X-Z. Yu, Y. Li, W. He, L. Zhang, and Y. He, "Novel Reconfigurable Full-Metal Cavity-Backed Slot Antennas Using Movable Metal Posts,"IEEE Transactions on Antennas and Propagation, 2021
[5] R.S. Chen, L. Zhu, J.Y. Lin, S.W. Wong, Y. Yang, Y. Li, L. Zhang, Y. He, and L. Zhu, “Reconfigurable Cavity Bandpass Filters Using Fluid Dielectric”IEEE Transactions on Industrial Electronics, 2020.
[6] J.-Y Lin, S.W. Wong, Y. Yang, L. Zhu, and Y. He, "Three-Way Multiple-mode Cavity Filtering Crossover for Narrowband and Broadband Applications" IEEE Transactions on Microwave Theory and Techniques, 2019.
[7] J.-Y Lin, S.W. Wong, Y.-M. Wu, L. Zhu, Y. Yang, and Y. He, "A New Concept and Approach for Integration of Three-State Cavity Diplexer Based on Triple-Mode Resonators" IEEE Transactions on Microwave Theory and Techniques, 2018.
[8] S.W. Wong, B.L. Zheng, J.-Y Lin, Z.C. Zhang, Y. Yang, L. Zhu, and Y. He, "Design of Three-State Diplexer Using a Planar Triple-mode Resonator”IEEE Transactions on Microwave Theory and Techniques, 2018.
[9] J.Y. Lin, S.W. Wong, L. Zhu, Y. Yang, X. Zhu, and Y. He "A Dual-Functional Triple-Mode Cavity Resonator with the Integration of Filters and Antennas" IEEE Transactions on Antennas and Propagation, 2018.
[10] J.Y. Lin, S.W. Wong, L. Zhu, and Q.X. Chu, “Design of Miniaturized Triplexers via Sharing a Single Triple-Mode Cavity Resonator”, IEEE Transactions on Microwave Theory and Techniques 2017.
[11] S.W. Wong, G.H. Sun, L. Zhu, and Q.X. Chu, "Broadband Dual-Polarization and Stable-Beamwidth Slot Antenna Fed by U-Shape Microstrip Line", IEEE Transactions on Antennas and Propagation. 2017.
[12] S.W. Wong, Z.C. Zhang, S.F. Feng, L. Zhu, F.C. Chen, and Q.X. Chu, "Triple-Mode Dielectric Resonator Diplexer for Base Station Applications" IEEE Transactions on Microwave Theory and Techniques, 2015.
[13] S.W. Wong, S.F. Feng, L. Zhu, and Q.X. Chu, "Triple- and Quadruple-mode wideband bandpass filter using simple perturbation in single metal cavity", IEEE Transactions on Microwave Theory and Techniques, 2015.
[14] S.W. Wong, T.G Huang, C.S. Mao, Z.N. Chen, and Q.X. Chu, “Planar filtering ultra-wideband(UWB) antenna with shorting pins,” IEEE Transactions on Antennas and Propagation, 2013.
[15] S.W. Wong, J.Y. Lin, Y. Yang, H. Zhu, R.S. Chen, L. Zhu, and Y. He, “Cavity Balanced and Unbalanced Diplexer Based on Triple-mode Resonator”IEEE Transactions on Industrial Electronics, 2020
[16] J.-Y. Lin, Y. Yang, S.W. Wong, R.-S. Chen, Y. Li, L. Zhang, Y. He, and L. Zhu, “Cavity Filtering Magic-T and Its Integrations Into Balanced-to-Unbalanced Power Divider and Duplexing Power Divider”IEEE Transactions on Microwave Theory and Techniques, 2019.
[17] Z.C. Zhang, S.W. Wong, J.Y. Lin, H.W. Liu, L. Zhu, and Y. He, "Design of Multistate Diplexers on Uniform- and Stepped-Impedance Stub-Loaded Resonators" IEEE Transactions on Microwave Theory and Techniques, 2019.
[18] Y.M. Wu, S.W. Wong, H. Wong, and F.C. Chen, "A Design of Bandwidth-Enhanced Cavity-Backed Slot Filtenna Using Resonance Windows" IEEE Transactions on Antennas and Propagation, 2019.
[19] R.-S Chen, L. Zhu, S.W. Wong, X.-Z. Yu, Y. Li, W. He, L. Zhang, and Y. He, "Low-Sidelobe Cavity-Backed Slot Antenna Array with Simplified Feeding Structure for Vehicular Communication," IEEE Transactions on Vehicular Technology, 2021
[20] S.Y. Zhou, S.W. Wong, J.Y. Lin, L. Zhu, Y. He, and Z.H. Tu, "Four-Way Spoof Surface Plasmon Polaritons Splitter/Combiner", IEEE Microwave and Wireless Components letters, 2019.
[21] Y.M. Wu, S.W. Wong, J.Y. Lin, L. Zhu, Y. He, and F.C. Chen " A Circularly-Polarized Cavity-Backed Slot Antenna with Enhanced Radiation Gain " IEEE Antenna Wireless and Propagation Letters, 2018.
[22] S.W. Wong, F. Deng, J.-Y. Lin, Y.-M Wu, L. Zhu, and Q.-X. Chu, "An Independently Four-Channel Cavity Diplexer with 1.1-2.8 GHz Tunable Range" IEEE Microwave and Wireless Components letters, 2017.
[23] S.F. Feng, S.W. Wong, L. Zhu, and Q.X. Chu, "A Triple-mode Wideband Bandpass Filter Using Single Rectangular Waveguide Cavity" IEEE Microwave and Wireless Components letters, 2017.
[24] S.W. Wong, S.F. Feng, L. Zhu, and Q.X. Chu, "A quintuple-mode wideband bandpass filter on single metallic cavity with perturbation cylinders", IEEE Microwave and Wireless Components letters, 2016.
[25] G.H. Sun, S.W. Wong, L. Zhu, and Q.X. Chu, "A Compact Printed Filtering Antenna with Good Suppression of Upper Harmonic Band" IEEE Antennas Wireless and Propagation Letters, 2016.
[26] S.W. Wong, Q.K. Huang, G.H. Sun, L. Zhu and Q.X. Chu, "Multiple-mode Wideband Dual-Polarized Antenna for Long Term Evolution (LTE) application" IEEE Antennas Wireless and Propagation Letters, 2016.
[27] B. Liu, Y. He, S.W. Wong, Y. Li, “Multifunctional Vortex Beam Generation by a Dynamic Reflective Metasurface”, Acdvaned Optical Materials, 2021.
[28] H. Zhu, Y.Yang, X. Zhu, Y. Sun, S.W. Wong, "Miniaturized Resonator and Bandpass Filter for Silicon-Based Monolithic Microwave and Millimeter-Wave Integrated Circuits" IEEE Transactions on Circuits and Systems I, 2018.
[29] M. Li, Y. Yang, X. Zhu, K. D. Xu, and S.W. Wong, "Microwave On-Chip Bandpass Filter Based on Hybrid Coupling Technique" IEEE Transactions on Electronics Device, 2018.
[30] Z.C. Guo, L. Zhu, and S.W. Wong, "Synthesis of Transversal Bandpass Filters on Stacked Rectangular H-plane Waveguide Cavities", IEEE Transactions on Microwave Theory and Techniques, 2019.
[31] L. Zhang, K. Wu, S.W. Wong, Y. He, P. Chu, W. Li, K.X. Wang, and S. Gao, "Wideband High-Efficiency Circularly Polarized SIW-Fed S-Dipole Array for Millimeter-Wave Applications", IEEE Transactions on Antennas and Propagation, 2020
[32] L. Zhang, Y. Sun, Y. He, S.W. Wong, C. Mao, L. Ge, and S. Gao, “A Quad-Polarization Reconfiguration Antenna with Suppression Cross Polarization Based on Characteristic Mode Theory”, IEEE Transactions on Antennas and Propagation, 2020
[33] L. Zhang, N. Luo, Y. Sun, Y. He, S.W. Wong, P. Chu, C. Mao, and S. Gao, “A Single-Turn Stacked Spiral Antenna with Ultrawide Bandwidth Compact Size”, IEEE Transactions on Antennas and Propagation, 2020
[34] Y. Li, S.W. Wong, S. Wang, J.-Y. Lin, B. Liu, L. Zhu, Y. He, “Frequency Selective Surface with Quasi-Elliptic Bandpass Response Using Radiation Null of Patch Antenna”IEEE Antenna Wireless and Propagation Letters, 2020
[35] Z.C. Guo, L. Zhu, and S.W. Wong, “Modular Synthesis of Waveguide Bandpass Filters Using Dual-mode Resonators”, IEEE Transactions on Microwave Theory and Techniques, 2020
[36] X. Fang, Y.C. Li, Q. Xue, D.S. Wu, and S.W. Wong, “Dual-Mode Filtering Baluns Based on Hybrid Cavity-Microstrip Structures”, IEEE Transactions on Microwave Theory and Techniques, 2020
[37] F. Lin, S.W. Wong, and Q.X. Chu, “Compact Design of Planar Continuously Tunable Crossover With Two-Section Coupled Lines,” IEEE Transactions on Microwave Theory and Techniques, 2014.
[38] F. Lin, Q.X. Chu and S.W. Wong, “Dual-band planar crossover with two-section branch-line structure,” IEEE Transactions on Microwave Theory and Techniques, 2013.
[39] S.W. Wong and L. Zhu, “Quadruple-mode UWB bandpass filter with improved out-of-band rejection,” IEEE Microwave and Wireless Component Letters, 2009.
[40] S.W. Wong and L. Zhu, “Ultra-wideband power divider with good in-band splitting and isolation performances” IEEE Microwave and Wireless Component Letters, 2008.
[41]S S.W. Wong and L. Zhu, “Implementation of compact UWB bandpass filter with a notch-band” IEEE Microwave and Wireless Component Letters,2008.
[42] S.W. Wong and L. Zhu, “EBG-Embedded multiple-mode resonator for UWB bandpass filter with improved upper-stopband performance” IEEE Microwave and Wireless Component Letters, 2007.
[43] S.W. Wong, K. Wang, Z.N. Chen, and Q.X. Chu, “Design of Millimeter-Wave Bandpass Filter Using Electric Coupling of Substrate Integrated Waveguide (SIW),” IEEE Microwave and Wireless Components Letters, 2014.
[44] W.W. Liao, Q.F. Zhang, Y.F. Chen, S.W. Wong and C. Caloz, "Compact reflection-type phaser using quarter-wavelength transmission line resonator", IEEE Microwave and Wireless Components Letters, 2015.
[45] R.S. Chen, S.W. Wong, L. Zhu, and Q.X. Chu, “Wideband Bandpass Filter Using U-Slotted Substrate Integrated Waveguide (SIW) Cavities,” IEEE Microwave and Wireless Components Letters, 2015.
[46] R.S. Chen, L. Zhu, J.Y. Lin, S.W. Wong, Y. Yang, Y. Li, L. Zhang, and Y. He “High Efficiency and Wideband Dual-Resonance Full-Metal Cavity-Backed Slot Antenna Array,IEEE Antenna Wireless and Propagation Letters, 2020.
[47] R.S. Chen, L. Zhu, J.Y. Lin, S.W. Wong, Y. Yang, and Y. He, “Miniaturized Full-Metal Dual-Band Filter Using Dual-Mode Circular Spiral Resonators”, IEEE Microwave and Wireless Components letters, June 2020.
[48] J.H. Guo, S.W. Wong, J.Y. Lin, Y. Li, L. Zhang, Z.M. Xie, Y. He, and L. Zhu, “A Continuously Tunable Bandpass Filter Using Distilled Water Based on Multiple-Mode Resonator” IEEE Microwave and Wireless Components letters, 2020
[49] F.-C. Chen, J.-M. Qiu, S.W. Wong, and Q.X. Chu, "Dual-band coaxial cavity bandpass filter with helical feeding structure and mixed coupling", IEEE Microwave and Wireless Components Letters, 2015.
[50] B.Y. Liu, H Giddens, Y. Li, Y. He, S.W. Wong, and Y. Hao, “Design and experimental demonstration of Doppler cloak from spatiotemporally modulated metamaterials based on rotational Doppler effect”, Optics Express, 2020
[51] C. Luo, S.-W. Wong, J.Y. Lin, Y. Yang, Y. Li, X.Z. Yu, L.P. Feng, Z.H. Tu, and L. Zhu, “Quasi-Reflectionless Microstrip Bandpass Filters Using Bandstop Filter for Out-of-Band Improvement”IEEE Transactions on Circuits and Systems II, in press, early access, Oct. 2019
[52] Z.-C. Guo, L. Zhu, and S.-W. Wong, "A Quantitative Approach for Direct Synthesis of Bandpass Filters Composed of Transversal Resonators" IEEE Transactions on Circuits and Systems II, 2019.
[53] S.-Y Zhou, J.-Y. Lin, S.-W. Wong, F. Deng, L. Zhu, Y. Yang, Y. He, and Z.-H. Tu, "Spoof surface plasmon polaritons power divider with large isolation" Scientific Report, 2018.
[54] F. Lin, Q. -X. Chu and S.-W. Wong, “Design of Dual-band Filtering Quadrature Coupler Using lamda/2 and lamda/4 Resonators,” IEEE Microwave and Wireless Components Letters, 2012.
[55] Z.-C. Guo, S.-W. Wong, and L. Zhu, and,“Triple-Passband Cavity Filters with High Selectivity under Operation of Triple Modes”IEEE Transactions on Components, Packaging and Manufacturing Technology, 2019.
[56] B.L. Zheng, S.-W. Wong, L. Zhu, and Y. He, “Broadband Duplex-Filtenna Based on Low Profile Metallic Cavity Packaging”, IEEE Transactions on Components, Packaging and Manufacturing Technology, 2018.
[57] S.-W. Wong, G.H. Sun, L. Zhu, Z.N. Chen, and Q.X. Chu, “Integration of wireless coil and Bluetooth antenna for high charging and radiation efficiencies”, IEEE Transactions on Components, Packaging and Manufacturing Technology, 2018.
[58] S.-W. Wong, R.S. Chen, J.Y. Lin, L. Zhu, and Q.X. Chu, "Substrate integrated waveguide quasi-elliptic filter using slot coupling and microstrip-line cross-coupled structure", IEEE Transactions on Components, Packaging and Manufacturing Technology, 2016.
[59] Z.C. Zhang, Q.X. Chu, S.-W. Wong, S.F. Feng, L. Zhu, Q.T. Huang, and F.C. Chen, "Triple-Mode Dielectric-loaded Cylindrical Cavity Diplexer Using Novel Packaging Technique for LTE Base Station Applications" IEEE Transactions on Components, Packaging and Manufacturing Technology, 2016.
[60] K. Wang, S.-W. Wong, G.H. Sun, Z.N. Chen, L. Zhu, and Q.X. Chu, "Synthesis method for substrate integrated waveguide (SIW) bandpass filter with even-order Chebyshev response.", IEEE Transactions on Components, Packaging and Manufacturing Technology, 2016.
[61] S.-W. Wong, R.S. Chen, K. Wang, Z.N. Chen, Q.X. Chu, "U-shape Slots Structure on Substrate Integrated Waveguide (SIW) for 40 GHz Bandpass Filter Using LTCC Technology", IEEE Transactions on Components, Packaging and Manufacturing Technology, 2015.
[62] S.-W. Wong, K. Wang, Z.N. Chen, and Q.X. Chu, “Electric coupling structure of substrate integrated waveguide (SIW) for the application of 140-GHz bandpass filter on LTCC,” IEEE Transactions on Components, Packaging and Manufacturing Technology, 2014.