Technical Program - Technical Sessions
- 11/06 (Thu) 08:30-10:10
- 11/06 (Thu) 10:30-12:10
- 11/06 (Thu) 13:30-15:30
- 11/06 (Thu) 15:50-17:30
TH1A Mobile and Wireless Communication System Technologies I
Room
Room A (Tachibana)
Date and Time
11/06 (Thu) 08:30-10:10
Chairs
Xiaoxing Yin, Southeast Univ., CHINA
Kazuo Tsubouchi, Tohoku Univ., JAPAN
Abstract
Radio communication technology including transceiver architecture, radio signal processing, and modelling of radio channels for estimating link budget are getting more and more important for land and satellite radio systems due to the variety of transmission modes, i. e. using frequencies, bandwidth, modulations, and modulation parameters. Superconductive RF filters are ones of the transceiver technologies. This session is organized to deal with these transceiver technologies and channel modelling.
Sessions
| 02 | 08:30 | High Temperature Superconducting Filters to Enable High Power Public Safety Mobile Broadband |
|---|---|---|
| A. Kerans, J. Mazierska, James Cook Univ., AUSTRALIA | ||
| 03 | 08:50 | Multifunctional Communication Transceiver with Distance Measurement Capability |
| L. Xie, X. Yin, L. Yang, C. Lu, H. Zhao, Southeast Univ., CHINA | ||
| 04 | 09:10 | SNR Enhancement by the Noise Elimination Technique for Decomposed OFDM Signals |
| Y. Shirato, M. Kotsuka, M. Muraguchi, Tokyo Univ. of Science, JAPAN | ||
| 05 | 09:30 | Development of Satellite-Terrestrial Multi-Mode VSAT Using Software Defined Radio Technology |
| S. Kameda¹, T. Okuguchi¹, S. Eguchi¹, N. Suematsu², ¹Tohoku Univ., JAPAN, ²ISB Corp., JAPAN |
TH1B Novel Low Noise Amplifiers And Related Technologies
Room
Room B (Hagi)
Date and Time
11/06 (Thu) 08:30-10:10
Chairs
Takuo Kashiwa, Furuno Electric Co., Ltd., JAPAN
Haruichi Kanaya, Kyushu Univ., JAPAN
Abstract
This session covers various low noise amplifiers and related technologies. The low noise amplifier technologies presented in the session involve design and measured results of wide band amplifiers, noise canceling technology using active balun, and sample and hold IC for direct sampling technologies. In this session, technologies presented here are also supported by various device technologies from CMOS to GaN.
Sessions
| 01 | 08:30 | Wideband Low Noise Receiver Front-End Module Using LTCC Triplexer |
|---|---|---|
| T. Kaho¹, Y. Yamaguchi¹, H. Shiba¹, S. Oshima², T. Nakagawa¹, ¹NTT Corp., JAPAN, ²Oyama National College of Tech., JAPAN | ||
| 02 | 08:50 | A Low Power, Wide Bandwidth K-Band Transformer Feedback Low Noise Amplifier with Current-Reused Topology |
| C.-I. Chien, Y.-C. Wang, K.-H. Chien, H.-K. Chiou, National Central Univ., TAIWAN | ||
| 03 | 09:10 | A Wideband GaN Low Noise Amplifier for a Frequency Sensing System |
| Y. Yamaguchi, T. Kaho, M. Kawashima, H. Shiba, T. Nakagawa, NTT Corp., JAPAN | ||
| 04 | 09:30 | A 20GHz Low Noise CMOS Active Balun Using Asymmetric Transformer |
| K. Tsutsumi, R. Inagaki, T. Nakai, R. Takeuchi, E. Taniguchi, Mitsubishi Electric Corp., JAPAN | ||
| 05 | 09:50 | A Series/Shunt Switching Type Sample and Hold CMOS IC for 1GHz-Band Direct RF Under Sampling Reception |
| T. Koizumi, M. Motoyoshi, D. Banda, O. Wada, S. Kameda, N. Suematsu, T. Takagi, K. Tsubouchi, Tohoku Univ., JAPAN |
TH1C Microwave Measurement and Material Characterization I
Room
Room C (Shirakashi 1)
Date and Time
11/06 (Thu) 08:30-10:10
Chairs
Andrea Ferrero, Keysight Technologies Inc., U.S.A.
Masahiro Horibe, NMIJ-AIST, JAPAN
Abstract
This session focuses on the measurement technique at microwave and millimeter-wave frequency for devices. Measurement techniques for vector network analysis, on-wafer noise figure and waveguides, etc.. In addition, characterization techniques for nano diamond materials as the leading edge materials will be presented.
Sessions
| 01 | 08:30 | Determination of the Complex Residual Errors of a Calibrated One-Port Vector Network Analyzer Using the Ripple Test |
|---|---|---|
| A.A. Savin¹, V.G. Guba², ¹TUSUR, RUSSIAN FEDERATION, ²NPK TAIR, RUSSIAN FEDERATION | ||
| 02 | 08:50 | Determining Scattering Matrix of a Three-Port Reciprocal Network from One-Port Measurements |
| Y.-C. Lin, T.-H. Chu, National Taiwan Univ., TAIWAN | ||
| 03 | 09:10 | Demonstration of On-Wafer Noise Figure Measurement of 300-GHz Amplifier MMIC Utilizing Microwave Photonic Noise Source |
| H.-J. Song, M. Yaita, NTT Corp., JAPAN | ||
| 04 | 09:30 | Wideband Transition Between Substrate Integrated Waveguide (SIW) and Rectangular Waveguide (RWG) Based on Bend Waveguide |
| T. Li, W. Dou, H. Meng, Southeast Univ., CHINA | ||
| 05 | 09:50 | Broadband Microwave Measurements of Nanodiamond |
| J.A. Cuenca, E. Thomas, S. Mandal, O. Williams, A. Porch, Cardiff Univ., U.K. |
TH1D Biomedical Applications and RFID Tag Antennas
Room
Room D (Shirakashi 2)
Date and Time
11/06 (Thu) 08:30-10:10
Chairs
Tomoaki Nagaoka, NICT, JAPAN
Mayumi Matsunaga, Ehime Univ., JAPAN
Abstract
This session includes the two different microwave topics, which are "Biological Effects and Medical Applications" and "RFID Systems and Devices." The first three presentations are about electromagnetic dosimetry and biomedical applications using microwave techniques. And the next two presentations are about compact and flexible antennas for RFID systems. The combination of these two different topics could bring you an innovative medical/biological applications and RFID system in the near future.
Sessions
| 01 | 08:30 | Radar and Conventional Occupancy Sensors Performance Comparison |
|---|---|---|
| E. Yavari, A. Lee, K. Pang, N.A. McCabe, O. Boric-Lubecke, Univ. of Hawaii, U.S.A. | ||
| 02 | 08:50 | Development of Biological Tissue Coagulation Device Composed of Helical Radiation Element by Microwave Energy |
| Y. Tezuka, Y. Endo, K. Saito, K. Ito, Chiba Univ., JAPAN | ||
| 03 | 09:10 | Fast and Accurate Computational Electromagnetic Modeling of Non-Invasive Brain Stimulation |
| I. Laakso, A. Hirata, Nagoya Inst. of Tech., JAPAN | ||
| 04 | 09:30 | A Compact UHF RFID Tag Antenna Using Split-Ring-Resonator-Loaded Short Dipole |
| T.-H. Cheng, C.-H. Chiang, D.-W. Kung, S.-Y. Chen, National Taiwan Univ., TAIWAN | ||
| 05 | 09:50 | Studies on a Polyester Fabric Substrate of the Feed Line to a Flexible Slot Antenna |
| K. Fujiwara, H. Shimasaki, K. Morimoto, N. Kuwahara, Kyoto Inst. of Tech., JAPAN |
TH1E Millimeter-Wave and Terahertz Antennas
Room
Room E (Meeting Room 1)
Date and Time
11/06 (Thu) 08:30-10:10
Chairs
Yuichi Kimura, Saitama Univ., JAPAN
Naoki Honma, Iwate Univ., JAPAN
Abstract
This session focuses upon recent progress of millimeter-wave and Terahertz antenna technologies for emerging mm-wave and THz applications.
Sessions
| 01 | 08:30 | A Low-cost High Gain Substrate Integrated Waveguide Fed Patch Antenna Array for 60-GHz Applications |
|---|---|---|
| Y. Li, K.-M. Luk, City Univ. of Hong Kong, HONG KONG | ||
| 02 | 08:50 | A Circularly Polarized Antenna Array with Integrated Calibration Probes |
| B. Rohrdantz, A. Stark, E. Hawamdah, A.F. Jacob, Tech. Univ. Hamburg-Harburg, GERMANY | ||
| 03 | 09:10 | Fast Analysis of THz Double-Reflector Antenna Based on Point Matching Method and Gaussian Beam Tracing |
| H. Wang¹, Z. Lu¹, J. Yu¹, X. Chen², X. Liu¹, Y. Yao¹, ¹BUPT, CHINA, ²Queen Mary Univ. of London, U.K. | ||
| 04 | 09:30 | A Novel Graphene-Based Artificial Magnetic Conductor Antenna in Terahertz Band |
| B.-H. Gan, L. Zhou, L. Lin, W.-Y. Yin, J.-F. Mao, Shanghai Jiao Tong Univ., CHINA | ||
| 05 | 09:50 | Investigation of a Membrane Supported D-Band Antenna with a 3D Printed Polyamide Lens |
| A.-C. Bunea¹², D. Neculoiu¹², A. Avram¹, C. Rusch³, ¹IMT, ROMANIA, ²Politehnica Univ. of Bucharest, ROMANIA, ³KIT, GERMANY |
TH1F : Special Session (Invited) Japanese Industrial Session
Room
Room F (Meeting Room 2)
Date and Time
11/06 (Thu) 08:30-10:50
Chairs
Koji Yamanaka, Mitsubishi Electric Corp., JAPAN
Ken Takei, Hitachi Ltd., JAPAN
Abstract
In this session, researches and developments in Japanese microwave industries are given.
Examples of active and passive microwave components employed in wireless communication systems and satellite communication
systems will be shown in the session.
Sessions
| 01 | 08:30 | Compact and Lightweight Satellite Earth Stations for Rapid Link Provisioning |
|---|---|---|
| T. Hirose, NTT Corp., JAPAN | ||
| 02 | 08:50 | A New Tunable RF Front-End for Advanced 4G Handsets |
| T. Wada, H. Obiya, T. Ogami, R. Nakajima, H. Hayafuji, M. Tani, M. Koshino, M. Kawashima, N. Nakajima, Murata Manufacturing Co., Ltd., JAPAN | ||
| 03 | 09:10 | Computer Assisted Design to Develop Functional Device and Modules for Wireless Systems |
| K. Takei, M. Ohnishi, Hitachi, Ltd., JAPAN | ||
| 04 | 09:30 | Development of Wireless Communication Technologies for Future Multi-Gigabit Data Transmission |
| A. Honda, Z. Li, L. Zhou, K. Kasai, Y. Ohashi, Fujitsu Laboratories Ltd., JAPAN | ||
| 05 | 09:50 | Near-Field RFID Sensor-Sheets to Detect Objects and Persons with No RFID Tags Attached |
| W. Hattori, H. Fukuda, K. Takahashi, R. Kawai, Y. Takahashi, H. Miyano, NEC Corp., JAPAN |
TH2A : Special Session (Invited) EuMA Special Session
Room
Room A (Tachibana)
Date and Time
11/06 (Thu) 10:30-12:10
Chairs
Wolfgang Heinrich, FBH, GERMANY
Atsushi Sanada, Yamaguchi Univ., JAPAN
Abstract
The EuMA Special Session introduces recent European activities in evolutionary microwave research and development, including carbon based ballistic RF electronics, the class-S power amplifier, and detailed study of the instability mechanism in power amplifiers.
Sessions
| 01 | 10:30 | Carbon Based Ballistic RF Electronics |
|---|---|---|
| F. Coccetti¹, D. Mencarelli², L. Pierantoni², ¹CNRS-LAAS, France, ²UNIVPM, ITALY | ||
| 02 | 11:00 | The Microwave Class-S Power Amplifier: Progress towards the Digital Transmitter |
| W. Heinrich, A. Wentzel, FBH, GERMANY | ||
| 03 | 11:30 | Detailed Investigation of Fundamental Instability Mechanisms in Power Amplifiers |
| A. Suárez, F. Ramírez, Univ. of Cantabria, SPAIN |
TH2B Antennas and Propagation Technologies for MIMO Communications
Room
Room B (Hagi)
Date and Time
11/06 (Thu) 10:30-12:10
Chairs
Naoki Honma, Iwate Univ., JAPAN
Kazunari Kihira, Mitsubishi Electric Corp., JAPAN
Abstract
In this session, the latest technologies related to antennas and propagation for MIMO communications are presented. The papers can be categorized into two fields. One is the design of antennas with excellent MIMO performance, and the other is improvement of the MIMO channel capacity with the help of the antennas and their feeding technique. They will take important roles in MIMO since antennas and propagation technologies can improve communication performance using not only coding but also microwave techniques. These technologies will become a critical part in current and future MIMO communications.
Sessions
| 01 | 10:30 | Bidirectional Matching Technique for Tx and Rx Ports in Short-Range MIMO |
|---|---|---|
| K. Murata¹, N. Honma², K. Nishimori³, H. Morishita¹, ¹National Defense Academy, JAPAN, ²Iwate Univ., JAPAN, 3Niigata Univ., JAPAN | ||
| 02 | 10:50 | Compact MIMO/Diversity Antenna for Portable and Mobile UWB Terminals |
| C.H. See¹³, N.T. Ali², A. Atojoko³, N.M. Jan³, R.A. Abd-Alhameed³, O. Maki³, E. Elkazmi³4, N.J. McEwan³, ¹Univ. of Bolton, U.K., ²Khalifa Univ., UAE, ³Univ. of Bradford, U.K., 4Bani-Walid Univ., LIBYA | ||
| 03 | 11:10 | Manipulating MIMO Propagation Environment Using Tunable Passive Repeater |
| N. Honma, Y. Takahashi, Y. Tsunekawa, Iwate Univ., JAPAN | ||
| 04 | 11:30 | Dual-frequency MIMO Antennas with Reduced Mutual Coupling |
| L. Yi, Y. Yu, Chongqing Univ., CHINA | ||
| 05 | 11:50 | Miniaturized 6-Port MIMO Antenna Using T-Shaped Planar Inverted-F Antennas and Capacitor-Loaded Notch Antennas |
| K. Takahashi¹, N. Honma², K. Murata³, Y. Tsunekawa¹, ¹Iwate Univ., JAPAN, ²National Defense Academy, JAPAN |
TH2C Microwave Measurement and Material Characterization II
Room
Room C (Shirakashi 1)
Date and Time
11/06 (Thu) 10:30-12:10
Chairs
Michael Janezic, NIST, U.S.A.
Masahiro Horibe, NMIJ-AIST, JAPAN
Abstract
This session focuses on the measurement technique at microwave and millimeter-wave frequency for materials. Measurement techniques for complex permittivity and permeability and their frequency dependence will be presented.
Sessions
| 01 | 10:30 | Evaluation of Frequency-Dependent Permeability by Harmonic Resonance Cavity Perturbation Method |
|---|---|---|
| T. Miura¹, K. Tahara², M. Horibe³, ¹The Mueller Consultant, JAPAN, ¹Kanto Electronics Application and Development Inc., JAPAN, ¹AIST, JAPAN | ||
| 02 | 10:50 | Frequency Dependence Measurement of Complex Permittivity for C-, A- and R-Plane Sapphire Substrates from 30 to 50GHz Band |
| A. Ebata, T. Shimizu, Y. Kogami, Utsunomiya Univ., JAPAN | ||
| 04 | 11:10 | Dielectric Properties of Palmyrah Palm Juice at Microwave Frequencies |
| R. Kanahna¹, P. Keowsawat², S. Promwong¹, C. Phongcharoenpanich¹, ¹KMITL, THAILAND, ²Phetchaburi Rajabhat Univ., THAILAND | ||
| 05 | 11:30 | Discussions on Measurement Accuracy of Complex Relative Permittivity Using a Balanced-Type Circular Disk Resonator Method |
| J. Nakatsutsumi¹, Y. Kobayashi², Z.-W. Ma², ¹Saitama Univ., JAPAN, ²SUMTEC, Inc., JAPAN |
TH2D : Special Session (Invited) Small-Scale Communication and Sensing Systems
Room
Room D (Shirakashi 2)
Date and Time
11/06 (Thu) 10:30-12:10
Chairs
Yifan Chen, SUSTC, CHINA
Tadashi Nakano, Osaka Univ., JAPAN
Abstract
This Special Session is devoted to the principles, design, modeling, and analysis of communication and sensing systems for small-scale applications. This includes, but not limited to: molecular, mm-Wave, THz, optical, micro/nanorobotic and other physical, chemical and biological techniques; as well as novel communication and sensing techniques at small length scales. The following topics will be addressed: antennas and propagation; channel and system modeling; system architecture and protocol design; information-, communication- or network-theoretic analysis; implementations and laboratory experiments; biological, medical or industrial applications, etc.
Sessions
| 01 | 10:30 | Mobile Bionanosensor Networks Through Molecular Communication |
|---|---|---|
| T. Nakano, T. Hara, Y. Okaie, T. Obuchi, S. Nishio, Osaka Univ., JAPAN | ||
| 02 | 10:50 | A Touch-Communication Model of Targeted Drug Delivery |
| Y. Chen¹, P. Kosmas², P.S. Anwar¹, L. Huang¹, ¹SUSTC, CHINA, ²King's College London, U.K. | ||
| 03 | 11:10 | Body-Centric Nano-Networks: EM Channel Characterisation in Water at the Terahertz Band |
| K. Yang¹, Q.H. Abbasi², K. Qaraqe², A. Alomainy¹, Y. Hao¹, ¹Queen Mary Univ. of London, U.K., ²Texas A&M Univ. at Qatar, QATAR | ||
| 04 | 11:30 | Small-Scale Optical Communication with Tunable Reflectarrays |
| L. Zou, M. Cryan, M. Klemm, Univ. of Bristol, U.K. | ||
| 05 | 11:50 | Incident-Insensitive Frequency Selective Surface Using Degradable Material for Bio-Medical Applications |
| J. Zhao, Q. Zhang, R. Wang, Y. Chen, SUSTC, CHINA |
TH2E : Special Session (Invited) National ICT R&D Projects in JAPAN
Room
Room E (Meeting Room 1)
Date and Time
11/06 (Thu) 10:30-12:10
Chairs
Yasushi Sakanaka, Tohoku Univ., JAPAN
Noriharu Suematsu, Tohoku univ., JAPAN
Abstract
This focused session introduces recent wireless information communication technology (ICT) R&D projects supported by the ministry of internal affairs and communication (MIC) of Japanese government. IC chip level noise reduction technology for highly integrated RFIC for cellular phones, millimeter-wave radar/compact range communication technologies and multi-mode Software Defined Radio (SDR) Very Small Aperture Terminal (VSAT) system/devices are reviewed.
Sessions
| 01 | 10:30 | IC Chip Level Low Noise Technology for High Speed and High Quality Telecommunication Systems |
|---|---|---|
| M. Yamaguchi¹, S. Tanaka¹, Y. Endo¹, M. Nagata², H. Matsui³, M. Iwanami4, K. Tsukamoto4, ¹Tohoku Univ., JAPAN, ²Kobe Univ., JAPAN, ³Renesas Electronics Co., JAPAN, 4NEC Corp., JAPAN | ||
| 02 | 10:55 | 60GHz Band Compact Range Communication with a Large Array Base Station |
| M. Ando, M. Zhang, J. Hirokawa, Tokyo Inst. of Tech., JAPAN | ||
| 03 | 11:20 | 79GHz-Band Millimeter-Wave Radar High Precision and Wide Field of View Technologies |
| K. Miyamoto, Y. Nakagawa, Panasonic Corp., JAPAN | ||
| 04 | 11:45 | Multi-Mode Portable VSAT for Disaster-Resilient Wireless Networks |
| N. Suematsu¹, S. Kameda¹, H. Oguma², M. Sasanuma³, S. Eguchi4, K. Kuroda5, ¹Tohoku Univ., JAPAN, ²Toyama National College of Tech., JAPAN, ³SKY Perfect JSAT Corp., JAPAN, 4ISB Corp., JAPAN, 5Cyber Creative Inst., JAPAN |
TH2F : Special Session (Invited) Advanced Microwave Tecnologies in East Asia
Room
Room F (Meeting Room 2)
Date and Time
11/06 (Thu) 10:30-12:10
Chairs
Zhewang Ma, Saitama Univ., JAPAN
Yo Yamaguchi, NTT Corp., JAPAN
Abstract
In this session, advanced microwave papers from JAPAN and China in which the APMC 2014 and APMC 2015 will be held are presented. The first paper investigates digital predistortion compensation technologies for base stations. The second paper proposes GaN devices in infrastructure systems. The third paper demonstrates an energy-efficient concurrent dual-band transmitter. The fourth paper present low cost THz components.
Sessions
| 01 | 10:30 | Base Station Digital Predistortion Compensating for Frequency-Dependent IMD Components |
|---|---|---|
| Y. Suzuki, J. Ohkawara, S. Mizuta, S. Narahashi, NTT DOCOMO, Inc., JAPAN | ||
| 02 | 10:50 | Mitsubishi Electric's GaN Devices Employed in Infrastructure Systems |
| K. Yamanaka, Mitsubishi Electric Corp., JAPAN | ||
| 03 | 11:10 | Energy-Efficient Concurrent Dual-Band Transmitter for Multistandard Wireless Communications |
| W. Chen, X. Chen, S. Zhang, Z. Feng, Tsinghua Univ., CHINA | ||
| 04 | 11:40 | Research Advances in Low Cost THz Passive and Active Components |
| Z. Hao, D. Hou, J. Chen, W. Hong, Southeast Univ., CHINA |
TH3A Mobile and Wireless Communication System Technologies II
Room
Room A (Tachibana)
Date and Time
11/06 (Thu) 13:30-15:30
Chairs
Makoto Taromaru, Fukuoka Univ., JAPAN
Jianing Zhao, Southeast Univ., CHINA
Abstract
Radio communication technologies, especially for land mobile including cellular and wireless LAN systems, have been evolving for these decades, and new protocols or radio access technologies are now being discussed toward 5G cellular/WLAN systems. This session is organized to deal with those system technologies such as MIMO, adaptive array antenna, channel coding, and PHY/MAC protocol.
Sessions
| 01 | 13:30 |
Extended Dependable Air: Heterogeneous Wireless Network for Surface, Space and Sea (Invited) |
|---|---|---|
| K. Tsubouchi, Tohoku Univ., JAPAN | ||
| 02 | 14:10 | Blind Adaptive Arrays with Subcarrier Transmission Power Assignment for Spectrum Superposing |
| K. Maruta, J. Mashino, T. Sugiyama, NTT Corp., JAPAN | ||
| 03 | 14:30 | Centralized Control of Carrier Sense Threshold and Channel Bandwidth in High-Density WLANs |
| T. Nakahira, K. Ishihara, Y. Asai, Y. Takatori, R. Kudo, M. Mizoguchi, NTT Corp., JAPAN | ||
| 04 | 14:50 | Cooperative Back-Off Control Scheme for Point-to-Point Simultaneous Transmission Using Capture Effect |
| M. Iwabuchi, A. Kishida, T. Shintaku, T. Onizawa, T. Sakata, NTT Corp., JAPAN | ||
| 05 | 15:10 | Experimental Evaluation of a Grouping Method Employing Network Allocation Vector Based on IEEE802.11 Wireless LAN |
| T. Shintaku, A. Kishida, M. Iwabuchi, T. Onizawa, T. Sakata, NTT Corp., JAPAN |
TH3B Millimeter-Wave High Power Transmitter and Switch Based on GaN and CMOS
Room
Room B (Hagi)
Date and Time
11/06 (Thu) 13:30-15:30
Chairs
Tomoya Kaneko, NEC Corp., JAPAN
Kazuya Yamamoto, Mitsubishi Electric Corp., JAPAN
Abstract
This session covers new high-power circuits based on GaN and CMOS processes. The first paper concerns GaAs and GaN FET based solid-state millimeter-wave power amplfiers, demonstrating 30 W at 94 GHz. The second paper introduces a new W-band GaN HEMT model which includes drain-source voltage dependence on output capacitance. The third paper presents an X-band GaN HEMT power amplifier featuring a record output power of 310 W. The fourth is an SP4T GaN HEMT switch operating up to 12 GHz for use in automated test equipment. The fifth and last papers are K-band power amplifiers fabricated using a CMOS or BiCMOS process.
Sessions
| 01 | 13:30 | High Power Solid-State Power Amplifiers for Airborne and Space Applications in Remote Sensing and Communications |
|---|---|---|
| M. Koker, E. Watkins, N. Deo, QuinStar Technology, inc., U.S.A. | ||
| 02 | 13:50 | Millimeter-Wave GaN HEMT model with VDS dependence of CDS for power amplifier applications |
| K. Joshin, S. Ozaki, T. Ohki, N. Okamoto, Y. Niida, K. Makiyama, Fujitsu Ltd., Fujitsu Laboratories Ltd., JAPAN | ||
| 03 | 14:10 | A 65V Operation High Power X-Band GaN HEMT Amplifier |
| K. Kikuchi, M. Nishihara, H. Yamamoto, S. Mizuno, F. Yamaki, T. Yamamoto, Sumitomo Electric Device Innovations, Inc., JAPAN | ||
| 04 | 14:30 | A 10MHz-12GHz Low-Distortion High-Speed SP4T Switch Using GaN HEMTs with Oxynitride TaON Passivation |
| S. Koyama, M. Onishi, M. Kimishima, Advantest Laboratories Ltd., JAPAN | ||
| 05 | 14:50 | A K-Band CMOS Power Amplifier with FET-Type Adaptive-Bias Circuit |
| T.-C. Tsai, K.-Y. Kao, K.-Y. Lin, National Taiwan Univ., TAIWAN | ||
| 06 | 15:10 | Design of a K-Band Power Amplifier for High Gain, Output Power and Efficiency on 0.18-um SiGe BiCMOS Process |
| K. Kim, C. Nguyen, Texas A&M Univ., U.S.A. |
TH3C : Special Session (Invited) Advances in Far-Field Wireless Power Transfer Systems
Room
Room C (Shirakashi 1)
Date and Time
11/06 (Thu) 13:30-15:30
Chairs
Naoki Shinohara, Kyoto Univ., JAPAN
Apostolos Georgiadis, CTTC, SPAIN
Abstract
State-of-the-art performance and novel challenges associated with wireless power transfer systems will be presented, including rectenna optimization and signal design for WPT.
Sessions
| 01 | 13:30 | Optimal Signal Selection and Rectenna Design Challenges for Electromagnetic Energy Harvesting and Wireless Power Transfer |
|---|---|---|
| A. Georgiadis, A. Collado, K. Niotaki, CTTC, SPAIN | ||
| 02 | 14:10 | Development of Rectenna with High Impedance and High Q Antenna |
| N. Shinohara, Y. Zhou, Kyoto Univ., JAPAN | ||
| 03 | 14:30 | Analysis of Rectifier RF-DC Power Conversion Behavior with QPSK and 16QAM Input Signals for WiCoPT System |
| H. Sakaki¹, T. Kuwahara¹, S. Yoshida², S. Kawasaki², K. Nishikawa¹², ¹Kagoshima Univ., JAPAN, ²JAXA, JAPAN | ||
| 04 | 14:50 | The Impact of Multi-Sine Tone Separation on RF-DC Efficiency |
| A. Boaventura¹, N.B. Carvalho¹, A. Georgiadis², ¹Universidade de Aveiro, PORTUGAL, ²CTTC, SPAIN | ||
| 05 | 15:10 | C- / K-band Amplifier Circuits for Wireless Communication and Power Transmission |
| N. Hasegawa¹², S. Yoshida², S. Kawasaki², N. Shinohara¹, ¹Kyoto Univ., JAPAN, ²JAXA, JAPAN |
TH3D Antennas for Mobile Communications
Room
Room D (Shirakashi 2)
Date and Time
11/06 (Thu) 13:30-15:30
Chairs
Masayuki Nakano, KDDI Lab., JAPAN
Toru Fukasawa, Mitsubishi Electric Corp., JAPAN
Abstract
In this session, antenna technologies for mobile communications are focused. The first paper investigates design of zeroth-order resonant antennas. The second paper demonstrates a linearly-polarized antenna with electronically steerable angle of orientation. The third paper discusses a low SAR antenna design. The fourth paper presents a novel grid array antenna for mobile communication. The fifth paper proposes a new feeding circuit for a wide-band double loop antenna.
Sessions
| 01 | 13:30 |
Design of Zeroth-Order Resonant Antennas for Mobile Applications (Invited) |
|---|---|---|
| G. Kim, B. Lee, Kyung Hee Univ., REPUBLIC of KOREA | ||
| 02 | 14:10 | A Compact, Linearly-Polarized Antenna Design with Electronically Steerable Angle of Orientation |
| L.-P. Cai, M.-C.J. Chik, K.-K.M. Cheng, The Chinese Univ. of Hong Kong, HONG KONG | ||
| 03 | 14:30 | A Low SAR WWAN Antenna Design for Tablet Application |
| S.-C. Lai, C.-M. Yang, C.-M. Jiang, C.-L. Tang, Auden Techno Corp., TAIWAN | ||
| 04 | 14:50 | Millimeter-Wave Microstrip Bent line Grid Array Antenna for 5G Mobile Communication Networks |
| S. Hakimi, S.K.A. Rahim, UTM, MALAYSIA | ||
| 05 | 15:10 | Wide-Band Double Loop Antenna Fed by Modified Single Strip Line |
| S. Kuroda¹, R. Suga¹, T. Uwano², O. Hashimoto¹, ¹Aoyama Gakuin Univ., JAPAN, ²Office Uwano, JAPAN |
TH3E : Special Session (Invited) Millimeter-Wave Communication and Radar Systems
Room
Room E (Meeting Room 1)
Date and Time
11/06 (Thu) 13:30-15:30
Chairs
Minoru Fujishima. Hiroshima Univ., JAPAN
Kenjiro Nishikawa, Kagoshima Univ., JAPAN
Abstract
Millimeter-wave communication and radar systems session focuses on two emerging applications of high-speed communication and radar systems using advanced millimeter-wave CMOS circuits. This session opens with presentations for advanced high-speed communication with 60 GHz band. Next two presentations will discuss short-range radar systems recently allocated with 79 GHz band.
Sessions
| 01 | 13:30 | 60GHz Wireless Technologies for WiGig/IEEE 802.11ad Multi-Gigabit Systems |
|---|---|---|
| T. Urushihara, H. Takahashi, M. Kobayashi, H. Motozuka, M. Irie, N. Shirakata, K. Takinami, Panasonic Corp., JAPAN | ||
| 02 | 14:00 | All-in-One 6GHz CMOS Transceiver for Proximity Wireless Communication |
| T. Mitomo, Toshiba Corp., JAPAN | ||
| 03 | 14:30 | Study on Interference between FMCW and Spread Spectrum Radar |
| K. Shirakawa, Y. Ohashi, Fujitsu Laboratories Ltd., JAPAN | ||
| 04 | 15:00 | 79GHz CMOS Power Amplifier Considering Time- and Temperature-Degradation Model |
| T. Yoshida, K. Takano, C.Y. Li, K. Katayama, S. Amakawa, M. Fujishima, Hiroshima Univ., JAPAN |
TH3F : Special Session (Invited) Recent R&D Topics in East Asia
Room
Room F (Meeting Room 2)
Date and Time
11/06 (Thu) 13:30-15:30
Chairs
Wenhua Chen, Tsinghua Univ., CHINA
Wei Hong, Southeast Univ., CHINA
Abstract
This session introduces recent R&D topics of outstanding universities in East Asia, National Taiwan University, Southeast University, University of Electronic Science and Technology of China (UESTC), and Korea Advanced Institute of Science and Technology (KAIST).
Sessions
| 01 | 13:30 | Recent Progress of Advanced Microwave and System-in-Package Integration Technologies at National Taiwan University |
|---|---|---|
| H. Wang, T.-L. Wu, P. Hsu, R.-B. Wu, K.-Y. Lin, T.-W. Huang, National Taiwan Univ., TAIWAN | ||
| 02 | 14:00 | Research Activities in the State Key Laboratory of Millimeter Waves |
| W. Hong, Southeast Univ., CHINA | ||
| 03 | 14:30 | Researches on Time-Reversed Electromagnetics at UESTC |
| B.-Z. Wang, Y. Chen, D. Zhao, UESTC, CHINA | ||
| 04 | 15:00 | Millimeter Wave Integrated Circuit Researches in KAIST |
| J. Oh, C.W. Byeon, S. Lee, S. Kong, C.S. Park, S. Hong, KAIST, REPUBLIC of KOREA |
TH4A : Special Session (Invited) Resilient ICT Session for Disaster Relief
Room
Room A (Tachibana)
Date and Time
11/06 (Thu) 15:50-17:30
Chairs
Hiromitsu Wakana, NICT, JAPAN
Takashi Hirose, NTT Corp., JAPAN
Abstract
The Great East Japan Earthquake of March 11, 2011 caused severe disruption of telecommunication networks, and the failure of information gathering and delivery systems. This session will provide several perspectives on the challenges for disaster relief by resilient information and communications technologies.
Sessions
| 01 | 15:50 | An Attempt to Disaster Resilient Wireless Network |
|---|---|---|
| H. Kumagai, K. Hamaguchi, Y. Owada, Y. Nemoto, NICT, JAPAN | ||
| 02 | 16:10 | STBC Decode-and-Forward OFDM Relay for Unmmaned Aircraft System |
| F. Adachi, H. Miyazaki, Tohoku Univ., JAPAN | ||
| 03 | 16:30 | Movable and Deployable ICT Resource Unit for Instant Delivery of Local ICT Services |
| T. Sakano, S. Kotabe, T. Komukai, A. Takahara, NTT Network Innovation Lab., JAPAN. | ||
| 04 | 16:50 | Technical Challenges of Information Communication in Disaster Areas with Delay Tolerant Networking Technologies |
| A. Tanaka, NEC Corp., JAPAN | ||
| 05 | 17:10 | Autonomous Deployment Algorithm for Resilient Mobile Mesh Networks |
| K. Hattori¹, N. Tatebe², T. Kagawa¹, Y. Owada¹, K. Hamaguchi¹, ¹NICT, JAPAN, ²The Univ. of Electro-Communications, JAPAN |
TH4B GaAs- and Si-Based Power Amplifiers
Room
Room B (Hagi)
Date and Time
11/06 (Thu) 15:50-17:30
Chairs
Kazutaka Inoue, Sumitomo Electric Industries, Ltd., JAPAN
Yasuhiro Nakasha, Fujitsu Laboratories Ltd., JAPAN
Abstract
This session focuses on MMIC power amplifiers using GaAs and/or CMOS technologies. The first topic is an invited paper reviewing design techniques for CMOS mm-wave power amplifiers and integrated transmitters. The second paper introduces a new concept, hybrid power amplifier module using GaAs-HBT and Si-CMOS technologies for handset applications. The third paper describes a high-efficiency GaAs BiFET power amplifier module for use in handset and data-card applications. The last paper reports on a 28-nm CMOS power amplifier which can deliver an output power as high as 31.2 dBm at 1.75 GHz.
Sessions
| 01 | 15:50 |
CMOS-Based Power Amplifiers and Transmitters for Mm-Wave Applications (Invited) |
|---|---|---|
| P. Asbeck, J. Buckwalter, G. Rebeiz, UCSD, U.S.A. | ||
| 02 | 16:30 | A Two-Power-Mode Si-CMOS/GaAs-HBT Hybrid Power Amplifier Module for 0.9-GHz-Band W-CDMA Handsets Applications |
| K. Kato, T. Matsuzuka, M. Miyashita, K. Yamamoto, Y. Takahashi, S. Yamabe, K. Maeda, F. Kitabayashi, Y. Sasaki, M. Hirobe, S. Shinjo, K. Horiguchi, T. Sumino, S. Suzuki, H. Katayama, T. Shimura, H. Seki, Mitsubishi Electric Corp., JAPAN | ||
| 03 | 16:50 | A Dual-Gain-Mode High Efficiency Power Amplifier for W-CDMA Data Communications |
| K. Mukai, S. Shinjo, K. Yamanaka, M. Miyashita, K. Yamamoto, Mitsubishi Electric Corp., JAPAN | ||
| 04 | 17:10 | A Linear Watt-Level Power Amplifier Implemented in 28nm Standard CMOS Technology |
| P. Ossmann¹, J. Fuhrmann²³, K. Dufrêne³, H. Pretl³, A. Springer¹, ¹Johannes Kepler Univ. Linz, AUSTRIA, ²FAU, GERMANY, ³DMCE GmbH & Co KG, AUSTRIA |
TH4C : Special Session (Invited) Near Field and Grid Solutions for Wireless Power Transfer
Room
Room C (Shirakashi 1)
Date and Time
11/06 (Thu) 15:50-17:30
Chairs
Apostolos Georgiadis, CTTC, SPAIN
Naoki Shinohara, Kyoto Univ., JAPAN
Abstract
This session focuses on novel applications and near field circuits and systems for wireless power transfer.
Sessions
| 01 | 15:50 | Cancellation Mechanism of Electromagnetic Leakage for Wireless Power Transmission System Based on Magnetic Resonant Coupling |
|---|---|---|
| Y. Narusue, Y. Kawahara, T. Asami, The Univ. of Tokyo, JAPAN | ||
| 02 | 16:10 | A Multi-Coil Wireless Power Transfer System Utilizing Dynamic Matching for In-Vivo and Biomedical Applications |
| J. Bito, B.S. Cook, M.M. Tentzeris, Georgia Inst. of Tech., U.S.A. | ||
| 03 | 16:30 | Wireless Power Transfer System Using Sheet-Like Waveguide |
| H. Arai, N. Yoneyama, Yokohama National Univ., JAPAN | ||
| 04 | 16:50 | Design Considerations of Wireless Power Transfer Applications to Electric Vehicle Charging in Efficiency and Misalignment |
| I.-S. Suh, J.-D. Kim, KAIST, REPUBLIC of KOREA | ||
| 05 | 17:10 | Wireless Grid to realize Battery-Less Sensor Networks in Indoor Environments |
| G. Matsushita¹, D. Maehara², Y. Kuki¹, K. Sakaguchi¹, S. Sampei¹, K. Araki², ¹Osaka Univ., JAPAN, ²Tokyo Inst. of Tech., JAPAN |
TH4D Couplers and Power Dividers II
Room
Room D (Shirakashi 2)
Date and Time
11/06 (Thu) 15:50-17:30
Chairs
Kim Eccleston, Univ. of Canterbury, NEW ZEALAND
Hidenori Yukawa, Mitsubishi Electric Corp., JAPAN
Abstract
In this oral session, five papers concerning 5.8-GHz reconfigurable power dividers for wireless power transfer, miniaturized forward-wave directional couplers with open stubs and patterned ground structures, ring-resonator branch-line couplers, high-isolation SIW multi-way power dividers, and out-of phase filtering power dividers using SIW cavity will be presented with measurements and simulations.
Sessions
| 01 | 15:50 | A 5.8-GHz Reconfigurable Power Divider for Wireless Power Transfer |
|---|---|---|
| Y. Ohta, R. Ishikawa, K. Honjo, The Univ. of Electro-Communications, JAPAN | ||
| 02 | 16:10 | Miniaturization Technique for Forward-Wave Directional Couplers by Using Open Stubs and Patterned Ground Structures |
| S.-K. Hsu, C.-C. Tseng, T.-L. Wu, National Taiwan Univ., TAIWAN | ||
| 03 | 16:30 | Ring-Resonator Branch-line Coupler With Unequal Power Division |
| E.D. Lin, Y.-H. Pang, H.-C. Huang, National Univ. of Kaohsiung, TAIWAN | ||
| 04 | 16:50 | New Multi-Way SIW Power Dividers with High Isolation |
| Z. Liu, G. Xiao, Shanghai Jiao Tong Univ., CHINA | ||
| 05 | 17:10 | Out-of-Phase Filtering Power Divider Using Rectangular SIW Cavity |
| X. Zhang, H. Wang, C. Yu, Q. Wu, W. Hong, Southeast Univ., CHINA |
TH4E : Special Session (Invited) Outstanding Asian Young Researchers
Room
Room E (Meeting Room 1)
Date and Time
11/06 (Thu) 15:50-17:30
Chairs
Kenji Itoh, Kanazawa Inst. of Tech., JAPAN
Monai Krairiksh, KMITL, THAILAND
Abstract
In this session, five young researches presents their papers. The first paper demonstrates a 60-GHz sub-sampling PLL. The second paper investigates metasurface on microstrip-fed antennas. The third paper discusses about a multiband antenna with frequency selective fractional surface reflector. The fourth paper proposes effective beam forming of phased array antenna. The fifth paper will be presented by a winner of the IEEE MTT-S Japan Young Engineer Award.
Sessions
| 01 | 15:50 | A 60-GHz Sub-Sampling PLL Using A Dual-Step-Mixing ILFD |
|---|---|---|
| T. Siriburanon, T. Ueno, K. Kimura, S. Kondo, W. Deng, K. Okada, A. Matsuzawa, Tokyo Inst. of Tech., JAPAN | ||
| 02 | 16:10 | Investigation of Metasurface Using Fishnet and Closed Ring Structures on Microstrip-Fed Slot Antenna |
| T. Hongnara, S. Chaimool, P. Akkaraekthalin, KMUTNB, THAILAND | ||
| 03 | 16:30 | Gain Enhancement for Multiband Antenna with Frequency Selective Fractal Surface Reflector |
| C. Ratnaratorn, C. Mahatthanajatuphat, P. Akkaraekthalin, KMUTNB, THAILAND | ||
| 04 | 16:50 | Effective Beam Forming of Phased Array Antenna for Efficient Microwave Power Transmission |
| T. Matsumuro, Y. Ishikawa, T. Ishikawa, N. Shinohara, Kyoto Univ., JAPAN | ||
| 05 | 17:10 | Presentation by the 2014 IEEE MTT-S Japan Young Engineering Award (Michiyuki Uenohara Memorial Award) Winer |
TH4F Broadband and Multiband Antennas III
Room
Room F (Meeting Room 2)
Date and Time
11/06 (Thu) 15:50-17:30
Chairs
Makoto Higaki, Toshiba Corp., JAPAN
Qiang Chen, Tohoku Univ., JAPAN
Abstract
In the session, wideband and dual band waveguide antennas are presented. Waveguide or waveguide cavity improved with several feed points, ring slot and Z-shaped slot are discussed. Wideband planar horn and compact aperture antennas are also introduced for UWB and K/Ka band applications.
Sessions
| 01 | 15:50 | Radiation Enhanced Broadband Planar TEM Horn Antenna |
|---|---|---|
| Y. Li, X. Yin, H. Zhao, L. Wang, M. Yang, Southeast Univ., CHINA | ||
| 02 | 16:10 | Waveguide Edge-Shunt Slot Array Antenna with Z-shaped Slot Partially Overlapping the Waveguide Wall |
| H. Watanabe, T. Ohba, S. Yamaguchi, N. Nakamoto, T. Takahashi, M. Otsuka, H. Miyashita, Mitsubishi Electric Corp., JAPAN | ||
| 03 | 16:30 | An X-Band Dual-Mode Antenna Using Substrate Integrated Waveguide Cavity for Simultaneous Satellite and Terrestrial Links |
| C.-T.M. Wu¹², T. Itoh¹, ¹UCLA, U.S.A., ²Wayne State Univ., U.S.A. | ||
| 04 | 16:50 | Dual Polarized Open-Ended Waveguide with Polarization-Independent Parasitic Elements |
| T. Maruyama¹, A. Hirota¹, H. Matsumura², T. Takahashi¹, T. Takahashi¹, M. Otsuka¹, H. Miyashita¹, ¹Mitsubishi Electric Corp., JAPAN, ²Mitsubishi Electric Engineering Company Ltd., JAPAN | ||
| 05 | 17:10 | Compact Circularly Polarized K/Ka Band Co-Aperture Antenna Design |
| Y. Li, P. Yang, J. Ouyang, F. Yang, UESTC, CHINA |