Secretariat of  MWE 2008 c/o Real Communications Corp. 3F Shin-Matsudo S Building 1-409,  Shin-Matsudo, Matsudo-City.  270-0034 Japan TEL. 047-309-3616  FAX. 047-309-3617 E-mail : mweapmc@io.ocn.ne.jp

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@ MWE 2008 Organizing Committee.
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University Exhibition 11

Tokyo Institute of Technology, MATSUZAWA and OKADA Labs.
2-12-1-S3-27 Ookayama, Meguro-ku, Tokyo 152-8552, JAPAN
TEL : +81(3)5734-2258  FAX : +81(3)5734-3764  E-mail : okada@ssc.pe.titech.ac.jp
Name of Contact : Graduate School of Science and Engineering,
                                Dept. of Physical Electronics, Matsuzawa and Okada Lab.
Title
* ADC and DAC for multi-Gbps wireless communication using 60GHz
* mmW RF front-end circuits using CMOS process
* wireless bio-sensing circuits
Highlight
We will demonstrate ADC, DAC, VCO, PA, LNA, etc for aiming to realize multi-Gbps wireless
communication utilizing 60GHz carrier frequency, which are implemented by 90nm and
65nm CMOS chips.

University Exhibition 12

Toyohashi University of Technology, WIRELESS NETWORKS Lab.
1-1 Hibarigaoka, Tenpaku-cho, Toyohashi, Aichi 441-8580, JAPAN
TEL : +81(532)44-6780  FAX : +81(532)44-6743  E-mail : toya@ics.tut.ac.jp
Name of Contact : Faculty of Engineering,
                                Dept. of Information and Computer Sciences, Wireless Networks Lab.
Title
* Demonstration of Secret Key Generator of Two Nodes Both Loaded with
   3-element ESPAR Antenna
Highlight
Features and principles of Secret Key Generator of Two Nodes Both Loaded with 3-element
ESPAR Antenna are demonstrated. By using this method, unconditionally secure key
agreement is possible.

University Exhibition 13

Tokyo University of Science, KOSHIJI Lab.
2641 Yamazaki, Noda, Chiba 278-8510, JAPAN
TEL : +81(4)7122-9531  FAX : +81(4)7123-7354  E-mail : koshiji@ee.noda.tus.ac.jp
Name of Contact : Science and Technology,
                                Electrical Engineering, Koshiji Lab.
Title
* Design and development of antennas
* Microwave signal processing and imaging techniques
* EMC for Electronic Eequipments
* Metamaterial applications
Highlight
Engineering models and characteristic estimations of invented antennas such as UWB are exhibited. Moreover, we present researches on microwave signal processing and high-resolution imaging techniques used for car radars or microwave CT (Computed Tomography) equipments, measurement and analysis of electromagnetic compatibility for Electronic Equipments and metamaterial applications.

University Exhibition 14

Kyoto University, HASHIMOTO, OMURA, YAMAKAWA Lab.
Gokasho, Uji, Kyoto 611-0011, JAPAN
TEL : +81(774)38-3880  FAX : +81(774)38-8463  E-mail : mitani@rish.kyoto-u.ac.jp
Name of Contact : Research Institute for Sustainable Humanosphere (RISH),
                                Hashimoto, Omura, Yamakawa Lab.
Title
* Research and Development of Microwave Power Transmission
Highlight
Our laboratories work on "Microwave Power Transmission (MPT)" technology, which is
expected to be applied to "Solar Power Station / Satellite" and "Ubiquitous Power Source".
Recent researches and developments on MPT are presented.

University Exhibition 15

Tokyo Institute of Technology, ANDO and HIROKAWA Lab.
2-12-1-S3-19 O-okayama, Meguro-ku, Tokyo 152-8552, JAPAN
TEL : +81(3)5734-2563  FAX : +81(3)5734-2901  E-mail : hira@antenna.ee.titech.ac.jp
Name of Contact : Graduate School of Science and Engineering,
                                Dept. of Electrical and Electronic Engineering, Ando and Hirokawa Lab.
Title
* Tokyo Tech Ookayama Campus Millimeter-Wave Model Network
* Millimeter-wave antennas
Highlight
We exhibit millimeter-wave single layer slotted waveguide arrays for fixed wireless access
(FWA) system and parallel plate post-wall waveguide slot antennas. Tokyo Tech O-okayama
Campus Millimeter-Wave Model Network using 25GHz wireless terminal is also exhibited
in panel.

University Exhibition 16

The University of Tokyo, HIROSE Lab.
7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, JAPAN
TEL : +81(3)5841-7494  FAX : +81(3)5841-7494  E-mail : ahirose@eis.t.u-tokyo.ac.jp
Name of Contact : Graduate School of Engineering,
                                Electrical Engineering and Information Systems, Hirose Lab.
Title
* Array antenna system for quick and highspatial-resolution landmine
   visualization
Highlight
We have developed a novel plastic landmine visualization system based on a complex-valued neural network. Their system should capture reflection phase and amplitude with a wide frequency bandwidth, a high spatial resolution, and a quick scanning ability. We present a prototype system that satisfies the requirements.

University Exhibition 17

Tohoku University, MIZUNO Lab. and SAWAYA Lab.
2-1-1 Katahira, Aoba-ku, Sendai, Miyagi 980-8577, JAPAN
TEL : +81(22)217-5515  FAX : +81(22)217-5517  E-mail : koji@riec.tohoku.ac.jp
Name of Contact : Research Institute of Electrical Communication,
                                Dept. of Electrical and Communication Engineering, Mizuno Lab. & Sawaya Lab.
Title
* Demonstration of passive millimeter-wave imaging elements.
* PC display of searching a man through flame with passive millimeter-wave
   imaging technologies.
Highlight
Passive millimeter-wave imaging technologies have applications in many areas such as imaging through flame and plywood, contraband detection, and also in nondestructive measurement of fruit maturity. In our booth wideband imaging elements for imaging arrays, and PC displays made using imaging arrays will be shown.

University Exhibition 18

Kyushu University, YOSHIDA and KANAYA Lab.
744 Motooka, Fukuoka, Fukuoka 819-0395, JAPAN
TEL : +81(92)802-3746  FAX : +81(92)802-3720  E-mail : kanaya@ed.kyushu-u.ac.jp
Name of Contact : Graduate School of Information Science and Electrical Engineering,
                                Dept. of Electronics, Yoshida and Kanaya Lab.
Title
* Development of RF-CMOS Front-End with TML based matching circuit
* Development of Electrically Small Antenna
Highlight
One-chip RF front-end, which is composed of LNA, down conversion mixer (DCM), voltage-controlled oscillator (VCO) and (impedance and noise) matching circuits for WLAN applications are presented. And electrically small antennas (ESA) with coplanar waveguide (CPW) matching circuit are presented.

University Exhibition 19

Ehime University / Fukuoka Institute of Technology / Kyushu Sangyo University,
MATSUNAGA Lab. / MATSUNAGA Lab. / MATSUOKA Lab.
3 Bunkyo-cho, Matsuyama, Ehime 790-8577, JAPAN
TEL : +81(89)927-9783  FAX : +81(89)927-9783  E-mail : mmayumi@dpc.ehime-u.ac.jp
Name of Contact : * Graduate School of Science and Engineering,
                                Dept. of Electrical and Electronic Engineering and Computer Science, Matsunaga Lab.
                                * Faculty of Information Engineering,
                                Dept. of Information and Communication Engineering, Matsunaga Lab.
                                * Faculty of Engineering,
                                Dept. of Electrical Engineering and Information Technology, Matsuoka Lab.
Title
* Some suggested ways to analyze the electromagnetic waves propagating
   inside the buildings which have some complex structures.
* Planar spiral antennae which radiate circular polarized fields in almost all
   directions and planar λ/100 to λ/1000 antennae which have good
   return-loss characteristics and radiate far fields.
* Low loss guided-waves constructing arranged by multilayered multi-strip lines.
Highlight
We always make challenge to invent new technologies. We are sure that you can enjoy our suggestions about the easy and efficient way for analysing electromagnetic waves propagating inside complex structures.

University Exhibition 20

Saitama University, Electrical Physics Lab.
255 Shimo-okubo, Sakura-ku, Saitama-shi, Saitama 338-8570, JAPAN
TEL : +81(48)858-3752  FAX : +81(48)857-2529  E-mail : ma@ees.saitama-u.ac.jp
Name of Contact : Graduate School of Science and Engineering,
                                Dept. of Electrical and Electronic Systems, Electrical Physics Lab.
Title
* Development of miniaturized high performance planar filters.
* Microwave and millimeter wave measurements of low-loss dielectrics materials
Highlight
Exibition of miniaruried high performance planar filters and demonstration of microwave measurements of dielectric plates with a network analyzer and software developed at our laboratory.
  1. Miniatureized high performance planar filters.
  2. Measurements of low-loss dielectrics in microwave and millimeter wave regions.