To exhibit
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Exhibitor |
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ICMMT 2016
MWIE 2016
Organization |
2016 Interational Conference on Microwave and Millimeter Wave Technology(ICMMT 2016)
2016 Microwave Wireless Industry Exhibition in China (MWIE2016)
Sponsored by:
Chinese Institute of Electronics(CIE)
Co-sponsored by:
Microwave Society of CIE
Beijing Institute of Technology
IEEE Beijing Chapter
Science and Technology on Electronic Test & Measurement Laboratory
Xi'an HengDa Microwave Technology Development Company
Technically co-sponsored by:
IEEE Nanjing Chapter
Tsinghua University
Southeast University
Beijing University of Posts and Telecommunications
Kingradio Technology [Shenzhen] Co.Ltd.
Collaborating Journals:
Journal of Microwaves£¨China£©
Microwave Journal£¨USA£©
MwrfChina
Rfeda
General Chair:
Prof. Zheng-He Feng, Tsinghua University
General Co-chairs:
Prof. Wei Hong, Southeast University
Prof. Jun-Fa Mao, Shanghai Jiaotong University
Organizing Committee Chair:
Prof. Xin Lv, Beijing Institute of Technology
Organizing Committee Co-Chairs:
Prof. Pu-Kun Liu, Peking University
Prof. Jun-Hong Wang, Beijing Jiaotong University
Prof. Hai-Yong Wang, 50th Institute, CETC
ISC Chair:
Prof. Ke Wu, University of Montreal
Technical Program Committee Chair:
Prof. Yuan-An Liu, Beijing University of Posts and Telecommunications
Technical Program Committee Co-Chairs:
Prof. Xin-Qing Sheng, Beijing Institute of Technology
Prof. Bing-Zhong Wang, University of Electronic Science and Technology of China
Prof. Ming-Yao Xia, Peking University
Prof. Xiao-Wei Zhu, Southeast University
Publication Co-Chairs:
Prof. Fan Yang, Tsinghua University
Prof. Houjun Sun, Beijing Institute of Technology
Dr. Zhe Song, Southeast University
Industrial Exhibition Chair:
Mr. Zi-Lun Wei, KingRadio Tech. Co. Ltd.
Secretaries:
Xi Yang, Beijing Institute of Technology
Yao Lu, Nanjing Maitekang Conference Service Co. Ltd.
Website:
Chao Guo, Nanjing Maitekang Conference Service Co. Ltd.
Guangqi Yang, Southeast University
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| 2016 Interational Conference on Microwave and Millimeter Wave Technology (ICMMT2016)
2016 Microwave Wireless Industry Exhibition in China (MWIE2016) Schedule |
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| "2016 Interational Conference on Microwave and Millimeter Wave Technology (ICMMT2016)""2016 Microwave Wireless Industry Exhibition in China (MWIE2016)" will be held in Beijing International Convention Center on June 5-8, 2016(Registration and booth decration date:June 5). |
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| 1. Exhibition Time: |
| June 6, 09:00¡«17:00£» |
| June 7, 09:00¡«17:00£» |
| June 8, 09:00¡«12:00£» |
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| 2. Opening ceremony and theme reports: |
| June 6,2016 |
| Theme reports: |
| 1. 9:30 - 10:20 |
| Millimeter-wave Identification, Sensing and Tracking (MIST) Systems forFuture Internet of Things and Smart Environment |
Ke Wu, FIEEE, FCAE, FRSC
NSERC-Huawei Industrial Research Chair in Future Wireless Technologies
Canada Research Chair in RF and Millimeter-Wave Engineering Poly-Grames Research Center
Department of Electrical Engineering Center for Radiofrequency Electronics Research (CREER) of Quebec Ecole Polytechnique (University of Montreal), Canada |
| Abstract of the talk |
| Emerging millimeter-wave Identification, Sensing and Tracking (MIST) technology is set out to exploit the smaller structure size and the larger available bandwidths in order to alleviate the limitations of low-frequency RFID. The successful development of MIST into markets is strategically critical for future smart living and better life in terms of green environment, efficient
energy and secure information. In this work, the state-of-art of innovative techniques, which allow propelling the MIST technology in the front line of future innovative wireless systems will be presented. Two recent developments in our group will be highlighted with hardware demonstrations. Interestingly, the MIST concept is fully compatible with upcoming and future wireless requirements and architectures such as 5G technologies. The great potentials and exciting prospects of MIST systems as well as their technological challenges will be discussed. |
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| 2¡¢10:20¡«11:10 |
| Subsurface Electromagnetic Field Exploration Technology: Wave Equation OR Diffusion Equation |
Fang Guangyou
The Key Lab of Electromagnetic Radiation & Sensing Technology (EMRST)
Institute of Electronics, Chinese Academy of Sciences (IECAS) |
| Abstract of the talk |
| Ground penetrating radar (GPR) and geophysical electromagnetic exploration technology(such as MT, AMT and TEM methods) come from modern electromagnetic theory. Maxwell¡¯s equations are the foundation stone of the modern electromagnetic field theory. For subsurface target detection, according to different loss media and frequency, from Maxwell¡¯s equations, one can get wave equation and diffusion equation, respectively. The hardware framework and data explanation procedure are different for GPR and different geophysical exploration systems. In this presentation,the principle of different electromagnetic exploration methods will be stated and discussed. The technical development progress and system applications will be presented. |
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| 3¡¢11:10 ¨C 12:00 |
| Review of High frequency vacuum electron devices and applications |
Jinjun Feng
Beijing Vacuum Electronics Research institute, Vacuum Electronics National Lab, Beijing, China |
| Abstract of the talk |
| Microwave vacuum electronic can deliver high power in high frequencies up to terahertz and have wide application in high data-rate communication, weather radar, thermal nuclear fusion and Dynamic Nuclear Polarization (DNP) nuclear magnetic resonance (NMR) etc. In this paper, the state-of-arts of vacuum devices including travelling wave tubes, klystrons, backward wave
oscillator, clinotrons, and gyrotrons at W-band and higher frequencies are reviewed as well as their applications. As the frequencies go up, the structure dimensions becomes too small to be fabricated by traditional machining and the advances MEMS technologies including UV LIGA and DRIE have to be employed, so the use of micro-fabrication for the manufacturing of slow wave structure will also be described together with the new material and novel structures. Novel folded waveguide structures and vane-loaded waveguide structures are widely studied for the manufacturingly compatibility with MEMS; for the folded waveguide slow wave structures, the idea of full use of the dispersion for different type devices such as band-edge oscillator (BO) for power and over mode amplifier for power and mitigating the fabrication difficulties is introduced. |
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