第三屆IEEE MTT-S 國際無線會議(IWS 2015)將于2015年3月30日至4月1日在中國深圳舉行。IWS在中國每年舉行一次,以提供一個在微波電路,硬件,以及與現有的和新興的無線系統的物理層方面的RF系統的最新技術成果的展示和交流的國際論壇。 此外,為了應對在未來5G標準的大量無線流量,IWS 2015的研討重點是無線和光纖系統之間的銜接。IWS 2015 將由“并行會議”、“研討會”和“最新無線商業產品展示”三個組成部分。
技術講座
在2015年IWS技術程序委員會在中國深圳努力創造多元化,引人入勝的研討會!請注意:這是一個草案,并可能更改。
周二會議:
TU3A: 5G融合(2015年3月31日,星期二)
Room: Song 1Signal processing and Power Amplifier
Chair: Franklin Bien, UNIST
Co-Chair: Sai-Weng Sin (Terry), U. of Macau
Abstract: This session includes five papers presented the advances in the signal processing, data conversion, and power amplification.
TU-3-A-1: A Broadband Dual-Polarization Planar Printed Dipole fed by a Vertical Printed Balun
1300-1320
Y. Y. Chen, Y. H. Ge, G. G. Li, Huaqiao University, Xiamen, China
(136)
TU-3-A-2: A Wide Tuning 10 Ghz VCO and A High frequency Divider Design
1320-1340
X. Zhong1, G. Sun2, Z. Wang1, W. Wang2, 1Tsinghua University, Beijing, China, 2RF Microelectronics Corporation, Beijing, China
(243)
TU-3-A-3: Secure cooperative spectrum sensing based on energy efficiency under SSDF attack
1340-1400
L. Cao1,2, H. Zhao2, J. Zhang2, Y. Liu2, 1PLA University of Science and Technology, Nanjing, China, 2Nanjing Telecommunication Technology Institute, Nanjing, China
(260)
TU-3-A-4: A Spectrum Map Based Dynamic Spectrum Management Framework
1400-1420
J. Zhang, Y. Chen, H. Zhao, L. Cao, H. Wu, Nanjing Telecommunication Technology Institute, Nanjing, China
(263)
TU-3-A-5: Optimal Location of the Base Station Based on Measured Interference Power
1420-1440
S. Shao1, Q. Liang1, K. Deng2, Y. Tang1, 1University of Electronic Science and Technology of China, Chengdu, China, 2Yibin University, Yibin, China
(105)
TU3B: 過濾器和輸電線路(2015年3月31日,星期二)
Room: Song 3Miniaturized Bandpass Filters
Chair: Patrick Chiang, Oregon State
Co-Chair: Xiuyin Zhang, South China University of Technology
Abstract: This session presents new methods for miniaturized bandpass filters. Techniques such as implementations using substrate integrated waveguides (SIW), stub-loading, and novel resonator layout will be shown.
TU-3-B-1: Wideband Bandpass Filter Based on Substrate Integrated Waveguide (SIW) and Half-mode Substrate Integrated Waveguide (HMSIW) Cavities
1300-1320
R. Chen, S. Wong, Z. Guo, K. Wang, Q. Chu, South China University of Technology, Guangzhou, China
(130)
TU-3-B-2: A Novel Compact Ultra-Wideband Bandpass Filter Using Microstrip Stub-Loaded Triple-Mode Resonator Doublets
1320-1340
Y. Zhou, D. Qu, X. Zhong, J. Ye, K. Li, College of Communications Engineering, PLA UST, Nanjing, China
(157)
TU-3-B-3: Novel SIW Bandpass Filters Using Loaded Posts for Application in 5.8GHz WLAN System
1340-1400
K. Wang1, Z. Guo1, S. Wong1, Z. Chen1, L. Zhu2, R. Chen1, Q. Chu1, 1South China University of China, Guangzhou, China, 2University of Macau, Macau, China
(131)
TU-3-B-4: A Compact Quarter-Wavelength Stepped-Impedance Resonator Bandpass Filter with Source-load Coupling
1400-1420
J. Xu, W. Hong, Z. Chen, State Key Laboratory of Millimeter Waves, Nanjing, China
(163)
TU-3-B-5: Compact Cascade Quadruplet Bandpass Filter with Extend Rejection Bandwidth
1420-1440
J. Qiu, F. Chen, Q. Chu, Y. Wang, South China University of Technology, Guangzhou, China
(158)
TU3C: 天線(2015年3月31日,星期二)
Room: Yuan 1/2Metamaterial & Wideband Antennas
Chair: Juhua Liu, Sun Yat-sen University
Co-Chair:Hang Wong, City University
Abstract: Metamaterial antenna is class of antenna which use metamaterials to increase performance of miniaturized (electrically small) antenna systems. And Wideband antenna is one with approximately or exactly the same operating characteristics over a very wide passband.
TU-3-C-1: A Fractal Ultra-wideband Loop-Dipole Composite Antenna
1300-1320
J. Shi, Z. Ma, W. Lu, H. Zhu, Nanjing University of Posts &Telecommunications, Nanjing, China
(108)
TU-3-C-2: Conceptual Design of a Triple-Band Complementary Antenna Using Fractional-order Dipole Modes
1320-1340
C. Ying, J. B. Long, L. W. Jun, Z. H. Bo, Nanjing University of Posts & Telecommunications, Nanjing, China
(125)
TU-3-C-3: A new metamaterial-based UWB MIMO antenna
1340-1400
F. Wang, Z. Duan, T. Tang, M. Huang, Z. Wang, Y. Gong, University of Electronic Science and Technology of China, Chengdu, China
(189)
TU-3-C-4: A Compact Wideband Planar Quasi-Yagi Antennna
1400-1420
W. Zhang, K. Tam, Universtiy of Macau, Macao, China
(244)
TU-3-C-5: A Low-Profile and Wideband Monopolar Circular Via-Loaded Patch Antenna Coupled with Via-Loaded Ring
1420-1440
B. Wen1,2, J. Liu1,2, W. Zhou1,2, Y. Long1,2, 1Sun Yat-sen University, Guangzhou, China, 2SYSU-CMU Shunde International Joint Research Institute, Shunde, China
(268)
TU3D: 毫米波系統(2015年3月31日,星期二)
Room:Yuan 3/4Wideband mmWave Components & Antennas
Chair: Rui Ma, Mitsubishi Electric
Co-Chair: Nathalie Deltimple, IMS Bordeaux
Abstract: Several mmWave components including 77-GHz waveform generator, V-band PA and wideband antennas design and measurement techniques are reported in this session.
TU-3-D-1: Wideband Millimeter-Wave SIW Cavity Backed Patch Antenna Fed by Substrate Integrated Coaxial Line
1300-1320
T. Zhang1, Y. Zhang1, W. Hong1, K. Wu2,1, 1Southeast University, NanJing, China, 2Poly-Grames Research Center, Montreal, China
(142)
TU-3-D-2: A 77 GHz Waveform Generator with MFSK Modulation for Automotive Radar Applications
1320-1340
Q. N. Nguyen1, H. Yoo1, F. Bien1, M. Park2, Y. Kim2, 1Ulsan National Institute of Science and Technology, Ulju, Republic of Korea, 2Comotech Corp., Bulgu, Republic of Korea
(180)
TU-3-D-3: V-Band High Gain SiGe Power Amplifier with Wideband ESD Protection
1340-1400
K. Wang1,2, K. Ma2, K. Yeo2, 1University of Washington, Seattle, United States, 2Nanyang Technological University, Singapore, Singapore
(219)
TU-3-D-4: Fabrication and Experimental Validation of High Gain Lens Antenna for 71-86GHz Band
1400-1420
M. Al-Nuaimi, W. Hong, State Key Laboratory of Millimeter waves, Nanjing, China
(222)
TU-3-D-5: Random-Access Packet Broadcasting for Heterogeneous Traffics in Optical CDMA Network
1420-1440
M. Liu, T. Wang, C. Chiang, T. Liao, D. Chen, J. Wang, National Ilan University, Yilan, Taiwan
(139)
TU3E: 特別會議:大規模天線系統中的5G實用蜂窩網絡(2015年3月31日,星期二)
Room: Tang 2/3Devices
Chair: Nathalie Deltimple, IMS Bordeaux
Abstract: This session is a set of invited papers discussing some of the latest developments in devices with a focus on rectifiers, amplifiers, and phase shifters for applications in energy harvesting, cellular communications, and mmWave.
TU-3-E-1: Improved Compact, Wideband, Low-dispersion,Metamaterial-based MEMS Phase Shifters
1300-1325
V. Gholizadeh1, Y. NIng1, X. Luo1, C. Palego1, J. C. Hwang1, C. L. Goldsmith2, 1Lehigh University, Bethlehem, United States, 2MEMtronics Corporation, Richardson, United States
(343)
TU-3-E-2: Integrated Doherty RF CMOS Power Amplifier design for Average Efficiency Enhancement
1325-1350
N. Deltimple1, M. L. Carneiro1,2, E. Kerherve1, P. H. Carvalho2, D. Belot3, 1University of Bordeaux, Talence, France, 2University of Brasília, Brasilia, Brazil, 3STMicroelectronics, Crolles, France
(345)
TU-3-E-3: High-Efficiency Rectifier with Extended Input Power Range Based on Two Parallel Sub-Rectifying Circuits
1350-1415
X. Zhang, Q. Lin, South China University of Technology, Guangzhou, China
(346)
TU-3-E-4: A Review and Design of the On-Chip Rectifiers for RF Energy Harvesting
1415-1440
H. Dai1, Y. Lu1, M. Law1, S. Sin1, S. U1,2, R. P. Martins1,3, 1University of Macau, Macao, Macau, 2Synopsys Macau Ltd., Macau, Macau, 3Universidade de Lisboa, Lisboa, Portugal
(349)
TU4A: 功率放大器(2015年3月31日,星期二)
Room: Song 1PA Linearization and Signal Processing
Chair: Nathalie Deltimple, IMS Bordeaux
Co-Chair: Rui Ma, Mitsubishi Electric
Abstract: PA Linearization techniques like digital pre-distortion and post-distortion are presented in this session. PA modeling will be discussed, using Volterra series and compressed sampling. This session will also deal with a system dedicated to acoustic communication.
TU-4-A-1: High Efficiency Doherty Transmitter with Antenna Active Load Modulation
1530-1550
W. Chen1, S. Jia1, D. Schreurs 2, 1 Tsinghua University, Beijing, China, 2University of Leuven, Leuven, Belgium
(112)
TU-4-A-2: A Chaotic Spread Spectrum System for Underwater Acoustic Communication
1550-1610
H. Ren, Q. Kong, C. Bai, Xi'an University of Technology, Xi'an, China
(168)
TU-4-A-3: A Novel Digital Post-distortion and Detection Technique for RF Power Amplifiers in Cognitive Radio Systems
1610-1630
M. Ben Mabrouk, G. Ferré, E. Grivel, N. Deltimple, IMS laboratory, Talence, France
(197)
TU-4-A-4: A Comparative Study of Wideband and Dual-Band Digital Predistortion Architectures
1630-1650
A. Abdelhafiz1, M. Younes1, A. Kwan1, O. Hammi2, F. Ghannouchi1, N. Boulejfen3,1, 1iRadio Lab, University of Calgary, Calgary, Canada, 2King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia, 3Institut Supérieure des Sciences Appliquées et de Technologie, Kairouan, Tunisia
(290)
TU-4-A-5: Behavioral Modeling of Envelope Tracking Power Amplifier using Volterra Series Model and Compressed Sampling
1650-1710
M. O. Khalifa1, A. Abdelhafiz2, A. Kwan2, F. M. Ghannouchi2, O. Hammi1, 1KFUPM, Dhahran, Saudi Arabia, 2University of Calgary, Calgary, Canada
(291)
TU4B: 過濾器和輸電線路(2015年3月31日,星期二)
Room: Song 3Passive Structures
Chair: Xiuyin Zhang, South China University of Technology
Co-Chair: Patrick Chiang, Oregon State
Abstract: This session presents passive structures including power dividers, couplers, and filters covering over 1 GHz to 6 GHz. Technologies to be discussed include bulk acoustic resonators (BAR), hairpin resonators, slot resonators, stepped impedance resonators (SIR), and tuning methods.
TU-4-B-1: Low Insertion Loss Bandpass Filter with Controllable Transmission Zeros Using Stepped Impedance Resonator
1530-1550
Y. Wang, Q. Chu, F. Chen, J. Qiu, South China University of Technology, Guangzhou, China
(165)
TU-4-B-2: Wideband Balanced Bandpass Filter Using Slot Resonators and Back-to-Back Structure
1550-1610
Q. Chu, L. Qiu, South China University of Technology, Guangzhou, China
(175)
TU-4-B-3: An Equal-Split Wilkinson Power Divider with Tri-Band and Harmonic Suppression
1610-1630
Y. Lv, D. Shen, W. Ren, J. He, J. Zeng, Yunnan University, Kunming, China
(278)
TU-4-B-4: Filtering Rat-Race Coupler With Transmission Zeros Using Compact Miniaturized Hairpin Resonators
1630-1650
T. Lin1, J. Wu1, J. Kuo2, 1National Chiao Tung University, Hsinchu, Taiwan, 2Chang Gung University, Taoyuan, Taiwan
(188)
TU-4-B-5: A Comprehensive Study of Material and Structural Designs of Bulk Acoustic Resonator (BAR) Filters for Wireless Applications
1650-1710
J. J. Pao1, W. Kyi1, M. L. Riaziat1, Y. Huo2, 1OEpic Semiconductors Inc., Sunnyvale, United States, 2Stanford University, Stanford, United States
(191)
TU4C: 天線(2015年3月31日,星期二)
Room: Yuan 1/2Active & Smart Antennas
Chair: Juhua Liu, Sun Yat-sen University
Co-Chair: Hang Wong, City University
Abstract: An active antenna is an antenna that contains active electronic components. This allows the construction of antennas of limited size and / or wide frequency range. And smart antenna is antenna arrays with smart signal processing algorithms used to identify spatial signal signature, such as the direction of arrival (DOA) of the signal, and use it to calculate beamforming vectors, to track and locate the antenna beam on the mobile/target.
TU-4-C-1: Sparse minimum mean square error (MMSE) blind beamformer
1530-1550
H. Peng1,1, N. Al-Dhahir2,2, 1Zhengzhou Institute of Information Science and Technology, Zhengzhou, China, 2University of Texas at Dallas, Richardson, United States
(122)
TU-4-C-2: Ultra-broad-band MIMO array with steerable spotlight beams
1550-1610
S. Foo, W. Tong, Huawei Technologies Canada, Ottawa, Canada
(149)
TU-4-C-3: A Novel Focusing Lens Conical Horn Antenna Loaded with Dielectric
1610-1630
D. Wu1,2, Z. Feng1, X. Zhuang1, 1Tsinghua University, Beijing, China, 2Chongqing Communication Institute, Chongqing, China
(181)
TU-4-C-4: Competition Differential Evolution Strategy for Low Cross Polarization Synthesis of Conformal Array Antenna
1630-1650
R. Li, L. Xu, Z. Y. Yin, W. X. Shi, Xidian University, Xi'an, China
(206)
TU-4-C-5: Design and Implementation of a Wideband 8x8 Butler Matrix for AWS and PCS 1900 MHz Beamforming Networks
1650-1710
R. D. Cerna , M. A. Yarlequé, Pontificia Universidad Católica del Perú, Lima, Peru
(334)
TU4D: 毫米波系統(2015年3月31日,星期二)
Room: Yuan 3/4Millimeter Wave Components & Antennas
Chair: Terry Lai, City University
Co-Chair: Liang Wu, HKUST
Abstract: The exploration of millimeter wave (mm-wave) frequency spectrum for future broadband cellular communication networks is necessary. Designs of mm-wave components & antennas are essential for wireless communication system operated in the mm-wave band.
TU-4-D-1: Hardware Implementation of the Space-Time Radio Interferometric Positioning System
1530-1550
M. Shinotsuka, L. Cheng, X. Ma, G. Chang, G. Zhou, Georgia Institute of Technology, Atlanta, United States
(182)
TU-4-D-2: 75-110 GHz Integrated Active Sextupler Module
1550-1610
Z. Chen, B. Yu, Y. Zhou, F. Wan, J. Ge, Nanjing University of Information Science & Technology, Nanjing, China
(251)
TU-4-D-3: Double-Layer Waveguide-Fed High Gain Antenna Array in the 60 GHz band
1610-1630
Y. Zhao, K. Luk, City University of Hong Kong, Hong Kong, Hong Kong
(276)
TU-4-D-4: A Compact Passive Retrodirective Antenna Array with SIW Phase Shifters Integrated
1630-1650
H. Zhou, W. Hong, L. Tian, L. Cheng, Southeast University, Nanjing, China
(305)
TU4E: 特別會議:高緊湊型,寬帶,低色散,超材料為基礎的MEMS移相器(2015年3月31日,星期二)
Room: Tang 2/3Communications
Chair: Corbett Rowell, Nazarbayev University
Abstract: This session is a set of invited papers on different communication technologies in cellular, broadcasting, sub-THz, and optical communications.
TU-4-E-1: Power-efficient CMOS Integrated Circuit for sub-THz Massive MIMO Wireless Communication
1530-1555
N. Li1,2, H. Yu1, Y. Liang1, X. Li2, 1Nanyang Technological University, Singapore, Singapore, 2Beijing University of Posts and Telecommunications, Beijing, China
(344)
TU-4-E-2: Practical Large Scale Antenna Systems for 5G Cellular Networks
1555-1620
C. Rowell1, S. Han2, 1Nazarbayev University, Astana, Kazakhstan, 2China Mobile Research Institute, Beijing, China
(150)
TU-4-E-3: Prospect of Large Scale 2D Transition Metal Dichalcogenides Nanophotonics for Optical Communications
1620-1645
Z. Ling1, R. Yang1, J. Chai2, S. Wang2, Y. Tong1, Q. Zhou1, X. Gong1, D. Chi2, K. Ang1, 1National University of Singapore, Singapore, Singapore, 2Institute of Materials Research and Engineering, Singapore, Singapore
(347)
TU-4-E-4: Design of Ku/Ka Band Down-Converter Front-End for Digital Broadcast Satellite Receivers
1645-1710
S. S. Hsu1, P. Wang1, P. Su1, M. Chou1, Y. Chang1,2, D. Chang2,1, 1National Tsing Hua University, Hsinchu, Taiwan, 2National Applied Research Laboratories, Hsinchu, Taiwan
(348)