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[4]W. Hong, S. W. He, H. M. Wang, G. Q. Yang, et al (Invited Paper), “An Overview of China Millimeter-Wave Multiple Gigabit Wireless Local Area Network System,” IEICE Trans. Commun. Vol.E101-B, pp.262-276, Feb. 2018.
[5]W. Hong, Z. H. Jiang, C. Yu, J. Y. Zhou, P. Chen, Z. Q. Yu, H. Zhang, B. Q. Yang, X. D. Pang, M. Jiang, Y. J. Cheng, Mustafa, Y. Zhang, J. X. Chen, and S. W. He (Invited Paper), “Multibeam Antenna Technology for 5G Wireless Communications,” IEEE Trans. on AP, vol.65, no.12, pp.6231-6249, 2017.
[6]J. Xu, W. Hong, H. Zhang, Y. R. Yu, G. L. Wang, and Z. H. Jiang, “An Array Antenna for Both Long- and Medium-Range 77 GHz Automotive Radar Applications,” IEEE Trans. on AP, vol.65, no.12, pp.7207-7216, 2017.
[7]B. Q. Yang, Z. Q. Yu, Y. Y. Dong, J. Y. Zhou, and W. Hong, “Compact Tapered Slot Antenna Array for 5G Millimeter-Wave Massive MIMO Systems,” IEEE Trans. on AP, vol.65, no.12, pp.6721-6727, 2017.
[8]Q. Wu, J. X. Yin, C. Yu, H. M. Wang, and W. Hong, “Millimeter-Wave Planar Broadband Circularly Polarized Antenna Array Using Stacked Curl Elements,” IEEE Trans. on AP, vol.65, no.12, pp.7052-7062, 2017.
[9]Q. Wu, J. Hirokawa, J. X. Yin, C. Yu, H. M. Wang, and W. Hong, “Low-Profile Millimeter-Wave SIW Cavity-Backed Dual-Band Circularly Polarized Antenna,” IEEE Trans. on AP, vol.65, no.12, pp.7310-7315, 2017.
[10]F. C. Ren, W. Hong, K. Wu, D. Yu, and Y. T. Wan, “Polarization-Adjustable Planar Array Antenna with SIW-Fed High-Order-Mode Microstrip Patch,” IEEE Trans. on AP, vol.65, no.11, pp.6167-6172, 2017.
[11]W. B. Kong, H. X. Zhou, K. L. Zheng, X. Mu, and W. Hong, “FFT-Based Method with Near-Matrix Compression,” IEEE Trans. on AP, vol.65, no.11, pp. 5975-5983, 2017.
[12]S. W. He, J. H. Wang, Y. M. Huang, B. Ottersten, and W. Hong, “Codebook-Based Hybrid Precoding for Millimeter Wave Multiuser Systems,” IEEE Trans. on Signal Processing, vol.65, no.20, pp.5289-5304, 2017.
[13]J. Xu, W. Hong, H. Zhang, Y. R. Yu, and Z. H. Jiang, “A Q-Band Low-Profile Dual Circularly Polarized Array Antenna Incorporating Linearly Polarized Substrate Integrated Waveguide Fed Patch Arrays,” IEEE Trans. on AP, vol.65, no.10, pp.5200-5210, 2017.
[14]Z. Chen, M. Wang, J. X. Chen, W. F. Liang, P. P. Yan, J. F. Zhai, and W. Hong, “Linear CMOS LC-VCO Based on Triple-Coupled Inductors and Its Application to 40-GHz Phase-Locked Loop,” IEEE Trans. on MTT, vol.65, no.8, pp.2977-2989, 2017.
[15]P. Chu, W. Hong, M. G. Tuo, K. L. Zheng, W. W. Yang, F. Xu, K. Wu, “Dual-Mode Substrate Integrated Waveguide Filter With Flexible Response,” IEEE Trans. on MTT, vol.65, no.3, pp.824-830, 2017.
[16]K. K. Fan, Z. C. Hao, Q. Yuan, and W. Hong, “Development of a High Gain 325–500 GHz Antenna Using Quasi-Planar Reflectors,” IEEE Trans. on AP, vol.65, no.7, pp.3384-3391, 2017.
[17]W. Q. Cao, B. N. Zhang, J. Jin, W. Zhong, W. Hong, “Microstrip Antenna with Electrically Large Property Based on Metamaterial Inclusions,” IEEE Trans. on AP, vol.65, no.6, pp.2899-2905, 2017.
[18]J. Hu, Z. C. Hao, W. Hong, “Design of a Wideband Quad-Polarization Reconfigurable Patch Antenna Array Using a Stacked Structure,” IEEE Trans. on AP, vol.65, no.6, pp. 3014-3023, 2017.
[19]H. X. Zhou, G. Y. Zhu, W. B. Kong, and W. Hong, “An Upgraded ACA Algorithm in Complex Field and Its Statistical Analysis,” IEEE Trans. on AP, vol.65, no.5, pp.2734-2739, 2017.
[20]M. Jiang, Z. N. Chen, Y. Zhang, W. Hong, and X. B. Yuan, “Metamaterial-Based Thin Planar Lens Antenna for Spatial Beamforming and Multibeam Massive MIMO,” IEEE Trans. on AP, vol.65, no.2, pp.464-472, 2017.
[21]G. Xu, X. G. Xia, and W. Hong, “Nonambiguous SAR Image Formation of Maritime Targets Using Weighted Sparse Approach,” IEEE Trans. on Geoscience and Remote Sensing, vol., pp, iss.99, pp.1-12, 2017.
[22]J. B. Li, Z. W. Xu, W. Hong, Q. J. Gu, “A Cartesian Error Feedback Architecture,” IEEE Trans. on Circuits and Systems I: Regular Papers, vol., pp, no.99, pp.1-10, 2017.
[23]Z. W. Miao, Z. C. Hao, G. Q. Luo, L. Gao, J. Wang, X. Wang, W. Hong, “140 GHz High Gain LTCC-Integrated Transmit-Array Antenna Using a Wideband SIW Aperture-Coupling Phase Delay Structure,” IEEE Trans. on AP, vol.pp, no.99, pp.1-10, 2017.
[24]J. F. Zhai, Y. Li, C. Yu, L. Zhang, J. Y. Zhou, and W. Hong, “A Band-Limited Canonical Piecewise-Linear Function-Based Behavioral Model for Wideband Power Amplifiers,” IEEE MWCL, vol.27, no.11, pp.1022-1024, 2017.
[25]F. C. Ren, W. Hong, and K. Wu, “Three-Dimensional SIW-Driven Microstrip Antenna for Wideband Linear and Circular Polarization Applications,” IEEE AWPL, vol.16, pp.2400-2403, 2017.
[26]Y. Zhang, Z. L. Xue, and W. Hong, “Planar Substrate-Integrated Endfire Antenna With Wide Beamwidth for Q-Band Applications,” IEEE AWPL, vol.16, pp.1990-1993, 2017
[27]Z. C. Hao, J. Wang, Q. Yuan, and W. Hong, “Development of a Low-Cost THz Metallic Lens Antenna,” IEEE AWPL, vol.16, pp.1751-1754, 2017.
[28]J. X. Yin, Q. Wu, C. Yu, H. M. Wang, and W. Hong, “Low-Sidelobe-Level Series-Fed Microstrip Antenna Array of Unequal Interelement Spacing,” IEEE AWPL, vol.16, pp.1695-1698, 2017.
[29]J. Xu, W. Hong, H. Zhang, H. J. Tang, “Compact Bandpass Filter With Multiple Coupling Paths in Limited Space for Ku-Band Application,” IEEE MWCL, vol.27, no.3, pp.251-253, 2017.
[30]T. V. Duong, W. Hong, V. H. Tran, T. A. Vu, W. C. Huang, and P. N. Choubey, “An Alternative Technique to Minimize the Phase Noise of X-band Oscillators Using Improved Group Delay SIW Filters,” IEEE MWCL, vol.27, no.2, pp.153-155, 2017.
[31]H. Q. Tao, W. Hong, and X. M. Yu, “A Compact 60W X-Band GaN HEMT Power Amplifier MMIC,” IEEE MWCL, vol.27, no.1, pp.73-75, 2017.
[32]X. Y. Xia, Q. Wu, H. M. Wang, C. Yu, and W. Hong, “Wideband Millimeter-Wave Microstrip Reflectarray Using Dual-Resonance Unit Cells,” IEEE AWPL, vol.16, pp.4-7, 2017.