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ORCIDHao Huang 0002
Person information
- affiliation (PhD 2014): University of Southern California, Department of Electrical Engineering, Los Angeles, CA, USA
Other persons with the same name
- Hao Huang — disambiguation page
- Hao Huang 0001
![[0000-0002-3777-1488]](https://dblp.uni-trier.de/img/orcid-mark.12x12.png "0000-0002-3777-1488")
— Wuhan University, School of Computer Science, China - Hao Huang 0003 — New York University, Brooklyn, NY, USA
- Hao Huang 0004 — Southwest Jiaotong University, School of Transportation and Logistics, China
- Hao Huang 0005 — National University of Singapore (and 2 more)
- Hao Huang 0006 — Princeton University, Department of Electrical and Computer Engineering, Princeton, NJ, USA (and 1 more)
- Hao Huang 0007 — GE Global Research, San Ramon, CA, USA (and 1 more)
- Hao Huang 0008 — Nanjing University of Posts and Telecommunications, College of Telecommunications and Information Engineering, Nanjing, China
- Hao Huang 0009 — Xinjiang Univerity, School of Information Science and Engineering, Xinjiang Provincial Key Laboratory of Multilingual Information Technology, Urumqi, China (and 1 more)
- Hao Huang 0010 — Huazhong University of Science and Technology, School of Software Engineering, Wuhan, China (and 1 more)
- Hao Huang 0011 — Nanjing University, Department of Computer Science and Technology, State Key Laboratory for Novel Software Technology, Nanjing, China
- Hao Huang 0012 — Yuan Ze University, Department of Industrial Engineering and Management, Taoyuan, Taiwan (and 1 more)
- Hao Huang 0013 — Nanjing University, School of Atmospheric Sciences, Frontiers Science Center for Critical Earth Material Cycling, Key Laboratory for Mesoscale Severe Weather, Nanjing, China (and 1 more)
- Hao Huang 0014 — Technische Informationsbibliothek (TIB), Hannover, Germany
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2020 – today
- 2021
[j10]Yingning Wang, Yao Lu, Changjing Bao, Wenpu Geng, Yuxi Fang, Baiwei Mao, Zhi Wang, Yan-Ge Liu, Hao Huang, Yongxiong Ren, Zhongqi Pan, Yang Yue:
Hollow Ring-Core Photonic Crystal Fiber With >500 OAM Modes Over 360-nm Communications Bandwidth. IEEE Access 9: 66999-67005 (2021)- 2020
- [j9]Yiwen Zhang, Zhongqi Pan, Yang Yue, Yongxiong Ren, Guodong Xie, Zhi Wang, Hao Zhang, Tianxu Xu, Haoyuan Xu, Hao Huang, Changjing Bao:
Detecting Object Open Angle and Direction Using Machine Learning. IEEE Access 8: 12300-12306 (2020) - [j8]Yingning Wang, Changjing Bao, Wenpu Geng, Yao Lu, Yuxi Fang, Baiwei Mao, Yan-Ge Liu, Bo Liu, Hao Huang, Yongxiong Ren, Zhongqi Pan, Yang Yue:
Air-Core Ring Fiber With >1000 Radially Fundamental OAM Modes Across O, E, S, C, and L Bands. IEEE Access 8: 68280-68287 (2020) - [j7]Yingning Wang, Yuxi Fang, Wenpu Geng, Jicong Jiang, Zhi Wang, Hao Zhang, Changjing Bao, Hao Huang, Yongxiong Ren, Zhongqi Pan, Yang Yue:
Beyond Two-Octave Coherent OAM Supercontinuum Generation in Air-Core As2S3 Ring Fiber. IEEE Access 8: 96543-96549 (2020) - [j6]Si-Ao Li, Hao Huang, Zhongqi Pan, Runze Yin, Yingning Wang, Yuxi Fang, Yiwen Zhang, Changjing Bao, Yongxiong Ren, Zhaohui Li, Yang Yue:
Enabling Technology in High-Baud-Rate Coherent Optical Communication Systems. IEEE Access 8: 111318-111329 (2020) - [j5]Yingning Wang, Changjing Bao, Jicong Jiang, Yuxi Fang, Wenpu Geng, Zhi Wang, Weigang Zhang, Hao Huang, Yongxiong Ren, Zhongqi Pan, Yang Yue:
Two-Octave Supercontinuum Generation of High-Order OAM Modes in Air-Core As₂S₃ Ring Fiber. IEEE Access 8: 114135-114142 (2020) - [j4]Wenpu Geng, Changjing Bao, Yuxi Fang, Yingning Wang, Yiqiao Li, Zhi Wang, Yan-Ge Liu, Hao Huang, Yongxiong Ren, Zhongqi Pan, Yang Yue:
1.6-Octave Coherent OAM Supercontinuum Generation in As2S3 Photonic Crystal Fiber. IEEE Access 8: 168177-168185 (2020) - [j3]Yuxi Fang, Changjing Bao, Zhi Wang, Yange Liu, Lin Zhang, Si-Ao Li, Yiwen Zhang, Hao Huang, Yongxiong Ren, Zhongqi Pan, Yang Yue:
Octave-Spanning Dispersive Slot Waveguide Based Chip-Level Ultrashort Pulse Stretcher. IEEE Access 8: 172086-172095 (2020) - [j2]Yuxi Fang, Changjing Bao, Zhonghan Wang, Yange Liu, Lin Zhang, Hao Huang, Yongxiong Ren, Zhongqi Pan, Yang Yue:
Polarization Beam Splitter Based on Si3N4/SiO2 Horizontal Slot Waveguides for On-Chip High-Power Applications. Sensors 20(10): 2862 (2020)
2010 – 2019
- 2017
- [j1]Yongxiong Ren, Long Li, Guodong Xie, Yan Yan, Yinwen Cao, Hao Huang, Nisar Ahmed, Zhe Zhao, Peicheng Liao, Chongfu Zhang, Giuseppe Caire, Andreas F. Molisch, Moshe Tur, Alan E. Willner:
Line-of-Sight Millimeter-Wave Communications Using Orbital Angular Momentum Multiplexing Combined With Conventional Spatial Multiplexing. IEEE Trans. Wirel. Commun. 16(5): 3151-3161 (2017) - 2015
- [c16]Yan Yan, Long Li, Guodong Xie, Changjing Bao, Peicheng Liao, Hao Huang, Yongxiong Ren, Nisar Ahmed, Zhe Zhao, Martin P. J. Lavery, Nima Ashrafi, Solyman Ashrafi, Shilpa Talwar, Soji Sajuyigbe, Moshe Tur, Andreas F. Molisch, Alan E. Willner:
Experimental measurements of multipath-induced intra- and inter-channel crosstalk effects in a millimeter-wave communications link using orbital-angular-momentum multiplexing. ICC 2015: 1370-1375 - [c15]Zhe Zhao, Yongxiong Ren, Guodong Xie, Yan Yan, Long Li, Hao Huang, Changjing Bao, Nisar Ahmed, Martin P. J. Lavery, Chongfu Zhang, Nima Ashrafi, Solyman Ashrafi, Shilpa Talwar, Soji Sajuyigbe, Moshe Tur, Andreas F. Molisch, Alan E. Willner:
Experimental demonstration of 16-Gbit/s millimeter-wave communications link using thin metamaterial plates to generate data-carrying orbital-angular-momentum beams. ICC 2015: 1392-1397 - [c14]Long Li, Guodong Xie, Yongxiong Ren, Nisar Ahmed, Hao Huang, Zhe Zhao, Peicheng Liao, Martin P. J. Lavery, Yan Yan, Changjing Bao, Zhe Wang, Nima Ashrafi, Solyman Ashrafi, Moshe Tur, Alan E. Willner:
Performance enhancement of an orbital-angular-momentum-based free-space optical communication link through beam divergence controlling. OFC 2015: 1-3 - [c13]Yongxiong Ren, Zhe Wang, Peicheng Liao, Long Li, Guodong Xie, Hao Huang, Zhe Zhao, Yan Yan, Nisar Ahmed, Martin P. J. Lavery, Nima Ashrafi, Solyman Ashrafi, Roger D. Linquist, Moshe Tur, Ivan B. Djordjevic, Mark A. Neifeld, Alan E. Willner:
400-Gbit/s free-space optical communications link over 120-meter using multiplexing of 4 collocated orbital-angular-momentum beams. OFC 2015: 1-3 - 2014
- [c12]Nisar Ahmed, Martin P. J. Lavery, Hao Huang, Guodong Xie, Yongxiong Ren, Yan Yan, Alan E. Willner:
Experimental demonstration of obstruction-tolerant free-space transmission of two 50-Gbaud QPSK data channels using Bessel beams carrying orbital angular momentum. ECOC 2014: 1-3 - [c11]Martin P. J. Lavery, Giovanni Milione, Thien An Nguyen, Hao Huang, Guodong Xie, D. A. Nolan, Robert R. Alfano, Alan E. Willner:
Space division multiplexing in a basis of vector modes. ECOC 2014: 1-3 - [c10]Guodong Xie, Long Li, Yongxiong Ren, Hao Huang, Yan Yan, Nisar Ahmed, Zhe Zhao, Martin P. J. Lavery, Nima Ashrafi, Solyman Ashrafi, Moshe Tur, Andreas F. Molisch, Alan E. Willner:
Performance metrics and design parameters for an FSO communications link based on multiplexing of multiple orbital-angular-momentum beams. GLOBECOM Workshops 2014: 481-486 - [c9]Yongxiong Ren, Long Li, Guodong Xie, Yan Yan, Yinwen Cao, Hao Huang, Nisar Ahmed, Martin P. J. Lavery, Zhe Zhao, Chongfu Zhang, Moshe Tur, Miles J. Padgett, Giuseppe Caire, Andreas F. Molisch, Alan E. Willner:
Experimental demonstration of 16 Gbit/s millimeter-wave communications using MIMO processing of 2 OAM modes on each of two transmitter/receiver antenna apertures. GLOBECOM 2014: 3821-3826 - [c8]Yan Yan, Guodong Xie, Hao Huang, Martin P. J. Lavery, Nisar Ahmed, Changjing Bao, Yongxiong Ren, Andreas F. Molisch, Moshe Tur, Miles J. Padgett, Alan E. Willner:
Demonstration of 8-mode 32-Gbit/s millimeter-wave free-space communication link using 4 orbital-angular-momentum modes on 2 polarizations. ICC 2014: 4850-4855 - [c7]Giovanni Milione, Hao Huang, Martin P. J. Lavery, Thien An Nguyen, Guodong Xie, Yinwen Cao, Moshe Willner, Moshe Tur, Sam Dolinar, Robert R. Alfano, Miles J. Padgett, Alan E. Willner:
Orbital-angular-momentum mode (de)multiplexer: A single optical element for MIMO-based and non-MIMO-based multimode fiber systems. OFC 2014: 1-3 - [c6]Guodong Xie, Yongxiong Ren, Hao Huang, Martin P. J. Lavery, Nisar Ahmed, Yan Yan, Changjing Bao, Long Li, Zhe Zhao, Yinwen Cao, Moshe Willner, Miles J. Padgett, Moshe Tur, Samuel J. Dolinar Jr., Robert W. Boyd, Jeffrey H. Shapiro, Alan E. Willner:
Experiment turbulence compensation of 50-Gbaud/s orbital-angular-momentum QPSK signals using intensity-only based SPGD algorithm. OFC 2014: 1-3 - [i1]Guodong Xie, Long Li, Yongxiong Ren, Hao Huang, Yan Yan, Nisar Ahmed, Zhe Zhao, Martin P. J. Lavery, Nima Ashrafi, Solyman Ashrafi, Moshe Tur, Andreas F. Molisch, Alan E. Willner:
Performance Metrics and Design Parameters for a Free-space Communication Link Based on Multiplexing of Multiple Orbital-Angular-Momentum Beams. CoRR abs/1408.6744 (2014) - 2013
- [c5]Guodong Xie, Yongxiong Ren, Hao Huang, Yan Yan, Changjing Bao, Nisar Ahmed, Moshe Willner, Martin P. J. Lavery, Miles J. Padgett, Alan E. Willner:
Analysis of aperture size for partially receiving and de-multiplexing 100-Gbit/s optical orbital angular momentum channels over free-space link. GLOBECOM Workshops 2013: 1116-1120 - [c4]Hao Huang, Guodong Xie, Yan Yan, Nisar Ahmed, Yongxiong Ren, Yang Yue, Dvora Rogawski, Moshe Tur, Baris I. Erkmen, Kevin M. Birnbaum, Samuel Dolinar, Martin P. J. Lavery, Miles J. Padgett, Alan E. Willner:
100 Tbit/s free-space data link using orbital angular momentum mode division multiplexing combined with wavelength division multiplexing. OFC/NFOEC 2013: 1-3 - [c3]Hao Huang, Yang Yue, Yan Yan, Nisar Ahmed, Yongxiong Ren, Alan E. Willner:
Orbital-angular-momentum-based reconfigurable and "lossless" optical add/drop multiplexing of multiple 100-Gbit/s channels. OFC/NFOEC 2013: 1-3 - [c2]Yang Yue, Nisar Ahmed, Hao Huang, Yan Yan, Yongxiong Ren, Dvora Rogawski, Alan E. Willner:
Reconfigurable orbital-angular-momentum-based switching among multiple 100-Gbit/s data channels. OFC/NFOEC 2013: 1-3 - [c1]Yang Yue, Nenad Bozinovic, Yongxiong Ren, Hao Huang, Moshe Tur, Poul Kristensen, Siddharth Ramachandran, Alan E. Willner:
1.6-Tbit/s muxing, transmission and demuxing through 1.1-km of vortex fiber carrying 2 OAM beams each with 10 wavelength channels. OFC/NFOEC 2013: 1-3
Coauthor Index
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