1-D and 2-D Semiconductors |
Koinkar, Pankaj M. |
3-dimensional image processing |
Kawata, Yoshiki |
3D display |
Suyama, Shiro |
A
|
|
Abelian variety |
Ohbuchi, Akira |
activated carbon |
Horikawa, Toshihide |
activation |
Horikawa, Toshihide |
adaptive control |
Ikeda, Kenji |
adaptive hypermedia |
Mitsuhara, Hiroyuki |
adsorption |
Horikawa, Toshihide / Katoh, Masahiro |
adsorption mechanism |
Horikawa, Toshihide |
adsorption separation |
Horikawa, Toshihide |
advanced motion control |
Yasuno, Takashi |
Aerial image processing |
Karungaru, Stephen Githinji |
after treatment |
Kidoguchi, Yoshiyuki |
alcohol |
Sugiyama, Shigeru |
alcohols (→ alcohol) |
algebraic curve theory |
Ohbuchi, Akira |
algorithm |
Hasunuma, Toru / Nakayama, Shin-ichi / Shimamoto, Takashi |
alkane |
Sugiyama, Shigeru |
AlN |
Nishino, Katsushi |
Amagasaki canal |
Kozuki, Yasunori |
Analog Test |
Hashizume, Masaki |
analysis |
Fukagai, Nobuyoshi |
anionic polymerization |
Hirano, Tomohiro |
anisotropic superconductivity |
Kawasaki, Yu |
Arc 3D |
Suyama, Shiro |
architecture |
Sano, Masahiko |
artificial intelligence |
Shishibori, Masami |
Artificial Society |
Okushima, Masashi |
asymmetric synthesis |
Arakawa, Yukihiro |
asymptotic analysis |
Ohyama, Yousuke |
Atomic vibration in crystal |
Murai, Kei-ichiro |
Audio fingerprint |
Kita, Kenji |
automatic abstracting |
Ren, Fuji |
Autonomous Distributed Control |
Kinoshita, Kazuhiko |
axial flow fan |
Shigemitsu, Toru |
B
|
|
Bamboo Fiber |
Takagi, Hitoshi |
Bearing capacity |
Ueno, Katsutoshi |
bicrystal |
Okada, Tatsuya |
bifurcation |
Murakami, Kouichi / Ueta, Tetsushi |
Biocompatible materials |
Yasuzawa, Mikito |
bioelectrics |
Shimomura, Naoyuki |
biomass |
Horikawa, Toshihide |
Biomechanics |
SATO, Katsuya |
Biosensor |
Yasuzawa, Mikito |
blood flow |
Akutagawa, Masatake |
boundary layer |
Ichimiya, Masashi |
brain information processing |
Uwate, Yoko |
Brill-Nöther theory |
Ohbuchi, Akira |
Bus System |
Okushima, Masashi |
C
|
|
CAD |
Shimamoto, Takashi |
capacitance |
Ueno, Katsutoshi |
carbon dioxide |
TAMURA, Takao |
carbon nanotube |
Horikawa, Toshihide |
carbonization |
Horikawa, Toshihide |
catalytic molecular transformation |
Imada, Yasushi |
Cathode and anode materials for Li ion rechargeable batteries |
Nakamura, Koichi |
cell |
SATO, Katsuya |
cellular neural networks |
Nishio, Yoshifumi |
centrifugal pump |
Shigemitsu, Toru |
CG/VRML |
Yamanaka, Hideo |
chaos |
Nishio, Yoshifumi / Ueta, Tetsushi / Uwate, Yoko |
≫ chaos control |
Ueta, Tetsushi |
chaos control |
Ueta, Tetsushi |
Character Recognition |
Karungaru, Stephen Githinji |
characterisation |
Horikawa, Toshihide |
chemical engineering |
Horikawa, Toshihide |
Chiral Glass Order |
Koyama, Kuniyuki |
Chromatography at Critical Adsorption Point |
Ute, Koichi |
circuit design (→ circuitry) |
circuitry |
Nishio, Yoshifumi |
class group |
Katayama, Shin-ichi |
coastal environment |
Nakano, Susumu / TAMURA, Takao / Yamanaka, Ryoichi |
code division multiple access |
Oie, Takahiro |
coding |
Song, Tian |
Coherent Detection |
Okamura, Yasuhiro |
Colloidal crystal |
Suzuki, Yoshihisa |
combustion |
Kidoguchi, Yoshiyuki / Nada, Yuzuru |
communication |
Oie, Takahiro |
Comparison Principle |
Ohnuma, Masaki |
competitiveness |
Uno, Takeshi |
complex systems |
Nishio, Yoshifumi |
Composites |
Takagi, Hitoshi |
computational complexity |
Nakayama, Shin-ichi |
computational electromagnetics |
Kawada, Masatake |
computational fluid dynamics |
Kidoguchi, Yoshiyuki |
Computational linguistics |
Kita, Kenji |
Computer administraion system |
Sano, Masahiko |
computer networks |
Oie, Takahiro |
Computer Supported Collaborative Learning |
Matsuura, Kenji |
computer vision |
Ukida, Hiroyuki |
Concerted evolution |
Matsuo, Yoshinori |
concrete-block wall |
Kozuki, Yasunori |
Conducting polymers |
Koinkar, Pankaj M. |
conductor |
|
≫ ionic conductor |
|
≫ superionic conductor |
Nakamura, Koichi |
Congestion Pricing |
Okushima, Masashi |
Construction Design |
Hashimoto, Chikanori |
Construction Machinery for Concrete |
Hashimoto, Chikanori |
contact analysis |
Oishi, Atsuya |
control |
Miwa, Masafumi / Nakata, Narutoshi |
≫ chaos control |
Ueta, Tetsushi |
≫ control theory |
Kubo, Tomohiro |
Control Engineering |
Takaiwa, Masahiro |
control theory |
Kubo, Tomohiro |
Corpus |
Kita, Kenji |
coupled oscillatory circuits |
Nishio, Yoshifumi |
crystal growth |
Yanagiya, Shin-ichiro |
crystal plasticity |
Okada, Tatsuya |
crystallographic defect |
Okada, Tatsuya |
Current Test |
Hashizume, Masaki |
cutting force |
Mizobuchi, Akira |
D
|
|
database |
Oie, Takahiro |
decentralized control |
Ikeda, Kenji |
deep learning |
KANG, XIN |
delay |
Murakami, Kouichi |
design automation |
Yotsuyanagi, Hiroyuki |
Design for Testability |
Hashizume, Masaki |
development |
Watanabe, Minoru |
DFD |
Suyama, Shiro |
Dialogue machine translation |
Ren, Fuji |
dialogue understanding |
Tanioka, Hiroki |
Dictionary Retrieval |
Fuketa, Masao / Morita, Kazuhiro |
dielectric microsphere |
Haraguchi, Masanobu |
diesel engine |
Kidoguchi, Yoshiyuki |
differential equation |
Fukagai, Nobuyoshi |
≫ partial differential equations |
Ohnuma, Masaki |
Differential Scanning Calorimeter |
Suzuki, Yoshihisa |
diffusion |
|
≫ ionic diffusion |
Nakamura, Koichi |
digital signal processing |
Fukumi, Minoru / Okamura, Yasuhiro |
diophantine equation |
Katayama, Shin-ichi |
Disaster Information |
Nakata, Narutoshi |
disaster management for business |
Nakano, Susumu |
Discrete equations |
Ohyama, Yousuke |
Discrete Vortex Simulation |
Nagao, Fumiaki |
distributed parameter systems |
Kubo, Tomohiro |
district improvement plan for disaster mitigation |
WATANABE, Kojiro |
Drosophila |
Matsuo, Yoshinori |
E
|
|
e-learning |
Matsuura, Kenji / Mitsuhara, Hiroyuki |
earthquake |
Jiang, Jing-Cai |
ecosystem in coastal zone |
Kozuki, Yasunori |
education for disaster prevention |
Kozuki, Yasunori |
elastic wave |
Watanabe, Takeshi |
electrical bioimpedance |
Akutagawa, Masatake |
Electrical conductivity measurement |
Nakamura, Koichi |
electroencephalogram |
Ito, Shin-ichi |
electron device |
Ao, Jin-Ping |
electrorheology |
Minagawa, Keiji |
Electrosynthesis |
Yasuzawa, Mikito |
embedded system |
Sano, Masahiko |
Emmission |
Kidoguchi, Yoshiyuki |
Emotion Recognition |
Matsumoto, Kazuyuki |
energy saving |
TAMURA, Takao |
English Composition Support |
Matsumoto, Kazuyuki |
entertainment computing |
Mitsuhara, Hiroyuki |
environment-considered urban planning |
WATANABE, Kojiro |
Environmental education |
Kozuki, Yasunori |
environmental protection |
TAMURA, Takao |
Environmentally Friendly Molecular Transformation |
Imada, Yasushi |
enzyme catalysis |
Hirata, Akira |
epitaxial film |
Okada, Tatsuya |
ER fluid |
Minagawa, Keiji |
EST |
Makabe, Kazuhiro W. |
evolutionary algorithm |
Uno, Takeshi |
evolutionary image processing |
Ito, Momoyo |
Evolutionary Systems |
Fukumi, Minoru |
experimental psychology |
Ito, Shin-ichi |
F
|
|
Face Detection, Recognition |
Karungaru, Stephen Githinji |
facility location |
Uno, Takeshi |
Fault tolerance |
Hasunuma, Toru |
fault tolerant computing |
Yotsuyanagi, Hiroyuki |
femtosecond laser processing/modification |
Tomita, Takuro |
Field electron Emission |
Koinkar, Pankaj M. |
finite element analysis |
Oishi, Atsuya |
finite element method (→ finite element analysis) |
Fishery |
TAMURA, Takao |
flavin |
Arakawa, Yukihiro |
flood |
TAMURA, Takao |
flood flow |
TAMURA, Takao |
forest |
TAMURA, Takao |
forest-river-sea |
TAMURA, Takao |
FPGA |
Sano, Masahiko |
frequency hopped spread spectrum communication |
Oie, Takahiro |
frequency synthesizer |
Oie, Takahiro |
Fresh Concrete |
Hashimoto, Chikanori |
functional polymer |
Arakawa, Yukihiro |
fuzzy |
Uno, Takeshi |
Fuzzy-Neuro Model |
Okushima, Masashi |
G
|
|
GA |
Shimomura, Naoyuki |
GC contents |
Matsuo, Yoshinori |
Gene family |
Matsuo, Yoshinori |
Genetic Algorithm |
Okushima, Masashi / Shimamoto, Takashi / Uno, Takeshi |
Genetic Algorithms |
Karungaru, Stephen Githinji |
genome |
Makabe, Kazuhiro W. |
genome editing |
Watanabe, Minoru |
geographic information system |
WATANABE, Kojiro |
Geological features of landslide |
Nishiyama, Ken-ichi |
geological structure |
Aoya, Mutsuki |
geosensing |
Ueno, Katsutoshi |
Geotechnical centrifuge |
Ueno, Katsutoshi |
GIS |
Kawaguchi, Yoichi / Shimomura, Naoyuki |
global warming |
TAMURA, Takao |
Goya |
TAMURA, Takao |
graph |
Hasunuma, Toru |
≫ graph theory |
Nakayama, Shin-ichi |
graph theory |
Nakayama, Shin-ichi |
graphene |
Horikawa, Toshihide / Nagase, Masao |
graphite |
Horikawa, Toshihide |
green chemistry |
Minagawa, Keiji |
Green Composites |
Takagi, Hitoshi |
Green curtain |
TAMURA, Takao |
Green Optical Communications |
Okamura, Yasuhiro |
H
|
|
H-Q curve |
TAMURA, Takao |
H.264 |
Song, Tian |
Hamming space search |
Kita, Kenji |
heat island |
TAMURA, Takao |
heat treatment |
Hisazawa, Hiromu |
heavy-fermion compound |
Kawasaki, Yu |
heavy-fermion system |
Magishi, Ko-ichi |
high pressure |
Okamura, Hidekazu |
High pressure science |
Suzuki, Yoshihisa |
high temperature superconductor |
Magishi, Ko-ichi |
highway bridge |
Inoue, Takafumi |
human interface |
Nishimura, Ryota |
human sensing |
Fukumi, Minoru |
hydrogen |
Kidoguchi, Yoshiyuki / Shimoda, Naohiro |
hydrogen production process |
Katoh, Masahiro |
Hydrological cycle |
TAMURA, Takao |
hyperbolicity |
Moriyasu, Kazumine |
Hypoxia |
Kozuki, Yasunori |
I
|
|
image processing |
Hisazawa, Hiromu / Suzuki, Hidenobu / Terada, Kenji / Ukida, Hiroyuki |
Image retrieval |
Kita, Kenji |
Image Understanding |
Fukumi, Minoru |
impact-echo method |
Watanabe, Takeshi |
in vivo measurement |
Yasuzawa, Mikito |
Individual Characteristics |
Ito, Shin-ichi |
Information retrieval |
Kita, Kenji / Ren, Fuji / Tanioka, Hiroki |
information retrieval system |
Shishibori, Masami |
information security |
Tanioka, Hiroki |
Information Security Management System |
Ueta, Tetsushi |
information sharing |
Mitsuhara, Hiroyuki / Tanioka, Hiroki |
Information Technology for Engineering Applications |
Nakata, Narutoshi |
Information Visualization |
Ito, Shin-ichi |
infrared spectroscopy |
Katoh, Masahiro / Okamura, Hidekazu |
Infrared thermography |
Ishikawa, Masashi |
insulation diagnosis |
Kawada, Masatake |
intelligent control |
Yasuno, Takashi |
Intelligent Systems |
Fukumi, Minoru |
interactive interface |
Nishimura, Ryota |
Interconnection networks |
Hasunuma, Toru |
intermittent cutting |
Mizobuchi, Akira |
internal flow |
Shigemitsu, Toru |
Internet |
Oie, Takahiro / Sano, Masahiko |
inverse problem |
Oishi, Atsuya |
ion |
|
≫ ionic conductor |
|
≫ superionic conductor |
Nakamura, Koichi |
≫ ionic diffusion |
Nakamura, Koichi |
ionic conductor |
|
≫ superionic conductor |
Nakamura, Koichi |
ionic diffusion |
Nakamura, Koichi |
ITS |
Yamanaka, Hideo |
Iwasawa theory for algebraic number fields |
Sumida-Takahashi, Hiroki |
J
|
|
Jacobian variety |
Ohbuchi, Akira |
jaw motion (→ jaw movement) |
jaw movement |
Akutagawa, Masatake |
jet |
Ichimiya, Masashi |
K
|
|
Knowledge Acqisition |
Fukumi, Minoru |
knowledge engineering |
Ren, Fuji |
L
|
|
landslide |
Jiang, Jing-Cai |
Landslides |
Jiang, Jing-Cai |
Laser ablation in Liquid |
Koinkar, Pankaj M. |
Latent semantic indexing |
Kita, Kenji |
Latent Thermal Energy Storage |
Kusano, Koji |
layout design |
Shimamoto, Takashi |
LC-NMR |
Ute, Koichi |
Lead Open Test |
Hashizume, Masaki |
LED (→ light emitting diode) |
Li transition metal oxide |
Nakamura, Koichi |
lifelong learning |
Matsuura, Kenji |
light emitting diode |
Akutagawa, Masatake |
light localization |
Haraguchi, Masanobu |
Linear Quadratic Regulator |
Kubo, Tomohiro |
linear system |
Kubo, Tomohiro |
Li+ ion conductor |
Nakamura, Koichi |
Li+ ion diffusion |
Nakamura, Koichi |
Local Terrain |
Nagao, Fumiaki |
localized plasmon |
Haraguchi, Masanobu |
Logic Circuit |
Hashizume, Masaki |
low power design |
Song, Tian |
LSI |
Shimamoto, Takashi |
M
|
|
Machine Learning |
Okushima, Masashi / Tanioka, Hiroki |
machine translation |
Ren, Fuji |
Machine-Aided English Writing |
Ren, Fuji |
magnetic measurement |
Akutagawa, Masatake |
maintenance |
Watanabe, Takeshi |
Mass Spectrometry |
Ute, Koichi |
mathematical modeling |
TAMURA, Takao |
mechanical engineering |
SATO, Katsuya |
Mechanical milling |
Nakamura, Koichi |
Mechanism of adaptive evolution |
Matsuo, Yoshinori |
Mechanotransduction |
SATO, Katsuya |
mechatronics |
Miwa, Masafumi |
medical imaging |
Ito, Momoyo / Kawata, Yoshiki |
medical infomatics |
Tanioka, Hiroki |
Memory Test |
Hashizume, Masaki |
MEMS |
SATO, Katsuya |
Mesoporous silica |
Sugiyama, Shigeru |
metal oxynitrides |
Moriga, Toshihiro |
metal-insulator transition |
Magishi, Ko-ichi |
metamorphic rocks |
Aoya, Mutsuki |
methodology |
Miyoshi, Norikazu |
micromachine |
Miwa, Masafumi |
Microreactor |
Sugiyama, Shigeru |
microscope |
Yanagiya, Shin-ichiro |
microstructure control |
Hisazawa, Hiromu |
mitigation |
Kozuki, Yasunori / Yamanaka, Ryoichi |
Mobile Network |
Kinoshita, Kazuhiko |
modal analysis |
Hino, Junichi |
moisture content |
Ueno, Katsutoshi |
Molecular Design of Polymer Materials |
Ute, Koichi |
molecular sieving carbon |
Horikawa, Toshihide |
Monocular movement parallax |
Suyama, Shiro |
monolithic integrated circuit |
Ao, Jin-Ping |
morphogenesis |
Watanabe, Minoru |
motion control |
Takaiwa, Masahiro |
MRI |
Akutagawa, Masatake |
Multi-Agent Simulation |
Okushima, Masashi |
Multi-level modulated optical signals |
Okamura, Yasuhiro |
Multidimensional search |
Kita, Kenji |
multimedia |
Shishibori, Masami |
multimodal interaction |
Nishimura, Ryota |
multiobjective programming |
Uno, Takeshi |
Multiphase Flow |
Kusano, Koji |
Music retrieval |
Kita, Kenji |
N
|
|
nano |
Yanagiya, Shin-ichiro |
Nanomaterials |
Koinkar, Pankaj M. |
nanometrology |
Nagase, Masao |
nanophotonics |
Haraguchi, Masanobu |
nanosecond pulsed power |
Shimomura, Naoyuki |
nanostructure |
Nagase, Masao / Okamoto, Toshihiro / Takashima, Yuusuke |
natural disaster |
TAMURA, Takao |
Natural Language Analysis |
Fuketa, Masao |
Natural language processing |
KANG, XIN / Kita, Kenji / Morita, Kazuhiro / Ren, Fuji |
Na+ ion conductor |
Nakamura, Koichi |
Na+ ion diffusion |
Nakamura, Koichi |
network |
Hasunuma, Toru |
network architecture |
Kinoshita, Kazuhiko |
network management |
Oie, Takahiro |
neural network |
Akutagawa, Masatake / Fukumi, Minoru / KANG, XIN / Katayama, Takafumi / Shimamoto, Takashi |
Neural Networks |
Karungaru, Stephen Githinji |
neurodynamics |
Nishio, Yoshifumi |
new synthesis |
Miyoshi, Norikazu |
Ni-based superalloys |
Hisazawa, Hiromu |
nitride semiconductor films |
Kusaka, Kazuya |
nitrogen oxide: NOx |
Shimomura, Naoyuki |
NMR (→ nuclear magnetic resonance) |
non-destructive testing |
Ishikawa, Masashi / Watanabe, Takeshi |
non-Fermi liquid |
Kawasaki, Yu |
nonlinear |
Fukagai, Nobuyoshi / Murakami, Kouichi |
nonlinear circuits |
Nishio, Yoshifumi |
nonlinear dynamical system |
Ueta, Tetsushi |
nonlinear optics |
Haraguchi, Masanobu / Okamoto, Toshihiro |
nonuniform hyperbolicity |
Moriyasu, Kazumine |
nuclear magnetic resonance |
Hisada, Akihiko / Kawasaki, Yu / Magishi, Ko-ichi / Nakamura, Koichi / Saito, Takahito |
Numerical Analysis |
Kusano, Koji |
numerical analysis of algebraic fields |
Sumida-Takahashi, Hiroki |
numerical computation |
Ueta, Tetsushi |
Nutritive salt |
TAMURA, Takao |
O
|
|
optical amplification |
Takada, Atsushi |
Optical Code Division Multiplexing |
Okamura, Yasuhiro |
optical device |
Naoi, Yoshiki / Takashima, Yuusuke |
optical fiber |
Takada, Atsushi |
optical mode |
Haraguchi, Masanobu |
optical properties of solid |
Okamura, Hidekazu / Tomita, Takuro |
optical property |
Haraguchi, Masanobu |
Optical signal processing |
Okamura, Yasuhiro |
optical transmission |
Takada, Atsushi |
optics |
Yanagiya, Shin-ichiro |
optimization |
Shimomura, Naoyuki / Uno, Takeshi |
organic chemistry |
Miyoshi, Norikazu |
Organocatalysis |
Imada, Yasushi |
organocatalysts |
Arakawa, Yukihiro |
Outcome Management |
Matsumoto, Kazuyuki |
oxidation |
Imada, Yasushi |
ozone |
Shimomura, Naoyuki |
P
|
|
The Painleve equations |
Ohyama, Yousuke |
parallel computing |
Oishi, Atsuya |
partial differential equations |
Ohnuma, Masaki |
particle swarm optimization |
Uno, Takeshi |
pattern recognition |
Suzuki, Hidenobu |
Pd membrane |
Katoh, Masahiro |
permittivity |
Ueno, Katsutoshi |
petrology |
Aoya, Mutsuki |
Phase-sensitive optical amplification |
Okamura, Yasuhiro |
Phosphors |
Moriga, Toshihiro |
photocatalyst |
Yonekura, Daisuke |
photonic band |
Haraguchi, Masanobu |
photonic crystal |
Haraguchi, Masanobu |
photonic device (→ optical device) |
photovoltaic generation system |
Hojo, Masahide |
Physical Skill |
Matsuura, Kenji |
pipe flow |
Ichimiya, Masashi |
planning support system |
WATANABE, Kojiro |
plasmonics |
Haraguchi, Masanobu |
Pneumatic Driving System |
Takaiwa, Masahiro |
pole assignment |
Kubo, Tomohiro |
polymer materials |
Minagawa, Keiji |
polymerization |
|
≫ anionic polymerization |
Hirano, Tomohiro |
≫ radical polymerization |
Hirano, Tomohiro / Niwa, Miki |
porous materials |
Horikawa, Toshihide |
power quality |
Hojo, Masahide |
power system protection |
Hojo, Masahide |
Precision Polymerization |
Ute, Koichi |
Processes of rock weathering |
Nishiyama, Ken-ichi |
protein |
Hirata, Akira |
Protein crystallization |
Suzuki, Yoshihisa |
Pulsed Field Gradient NMR Spectroscopy |
Ute, Koichi |
pulsed power |
Shimomura, Naoyuki |
Q
|
|
quantitative evaluation |
TAMURA, Takao |
quantum spin system |
Magishi, Ko-ichi |
Quaternary system in Southwest Japan |
Nishiyama, Ken-ichi |
R
|
|
radical polymerization |
Hirano, Tomohiro / Niwa, Miki |
Radio Sensing Techniques |
Kawada, Masatake |
reaction engineering |
Shimoda, Naohiro |
Recovery of phosphorus |
Sugiyama, Shigeru |
recrystallization |
Okada, Tatsuya |
Recycle |
Takagi, Hitoshi |
Red tide |
TAMURA, Takao |
regional disaster management |
Nakano, Susumu / TAMURA, Takao |
relaminarization |
Ichimiya, Masashi |
residual stress |
Kusaka, Kazuya / Yonekura, Daisuke |
RNA |
Hirata, Akira |
RNAi |
Watanabe, Minoru |
Robot System |
Takaiwa, Masahiro |
robotics |
Yasuno, Takashi |
Route Navigation |
Okushima, Masashi |
Routing |
Kinoshita, Kazuhiko |
Rule Generation |
Fukumi, Minoru |
runoff model |
TAMURA, Takao |
S
|
|
sawing |
Mizobuchi, Akira |
Seismic slope stability |
Jiang, Jing-Cai |
Seismological Network |
Nakata, Narutoshi |
self-organizing map |
Nishio, Yoshifumi |
SEM/EBSD |
Okada, Tatsuya |
semiconductor |
Ao, Jin-Ping / Kawakami, Retsuo |
semiconductor device |
Nagase, Masao |
sentience computer |
Ren, Fuji |
separation |
Horikawa, Toshihide |
Shape Memory Alloys |
Takagi, Hitoshi |
shape reconstruction |
Ukida, Hiroyuki |
SiC |
Okada, Tatsuya |
signal and image processing |
Kawada, Masatake |
signal processing |
|
≫ digital signal processing |
Fukumi, Minoru / Okamura, Yasuhiro |
signal transduction |
Watanabe, Minoru |
silicon |
Nagase, Masao |
simulation |
Takeuchi, Toshiki |
single crystal |
Okada, Tatsuya |
small-sized fluid machinery |
Shigemitsu, Toru |
SNS |
Matsuura, Kenji |
Solid/Liquid Phase Change Heat Transfer |
Kusano, Koji |
solute runoff |
TAMURA, Takao |
sonochemistry (→ green chemistry) |
SPE electrolysis |
Yasuzawa, Mikito |
special linear system |
Ohbuchi, Akira |
spectroscopy |
|
≫ X-ray spectroscopy |
Moriga, Toshihiro |
speech recognition |
Nishimura, Ryota |
spoken dialog system |
Nishimura, Ryota |
sports |
Tanioka, Hiroki |
sputtering |
Kusaka, Kazuya / Yonekura, Daisuke |
Statistical Learning Algorithms |
Fukumi, Minoru |
stereoregular polymer |
Hirano, Tomohiro |
Stereoselective Reaction |
Imada, Yasushi |
sterilization |
Akutagawa, Masatake |
stochastic programming |
Uno, Takeshi |
Strength parameters |
Jiang, Jing-Cai |
strong comparison principle |
Ohnuma, Masaki |
strong maximum principle |
Ohnuma, Masaki |
Strongly Correlated Electron System |
Koyama, Kuniyuki |
strongly correlated electron systems |
Okamura, Hidekazu |
Structural Analysis and Simulation |
Nakata, Narutoshi |
Supercirtical Fluid Chromatography |
Ute, Koichi |
Superconducting Ceramics |
Koyama, Kuniyuki |
superconductivity |
Hisada, Akihiko |
superconductor |
Saito, Takahito |
superionic conductor |
Nakamura, Koichi |
superionic conductors |
Moriga, Toshihiro |
surface |
Yanagiya, Shin-ichiro |
surface plasmon polariton |
Haraguchi, Masanobu |
surface roughness |
Mizobuchi, Akira |
synchronization |
Oie, Takahiro |
synchronization phenomena |
Nishio, Yoshifumi |
synchrotron radiation |
Okamura, Hidekazu |
systems with time-delay |
Kubo, Tomohiro |
T
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tabu search |
Uno, Takeshi |
TDM |
Yamanaka, Hideo |
tectonics |
Aoya, Mutsuki |
tensioning method |
Mizobuchi, Akira |
Test Technology |
Yotsuyanagi, Hiroyuki |
text mining |
Tanioka, Hiroki |
texture control |
Okada, Tatsuya |
theory |
|
≫ control theory |
Kubo, Tomohiro |
≫ graph theory |
Nakayama, Shin-ichi |
Thermal Analysis |
Ute, Koichi |
thin film |
Yonekura, Daisuke |
Three-dimensional measurement |
Terada, Kenji |
tipped saw |
Mizobuchi, Akira |
Toll of Expressway |
Okushima, Masashi |
tool life |
Mizobuchi, Akira |
tool temperature |
Mizobuchi, Akira |
tool wear |
Mizobuchi, Akira |
Traffic Control |
Okushima, Masashi |
Traffic Flow |
Okushima, Masashi |
Traffic Safety Measure |
Okushima, Masashi |
transcription |
Hirata, Akira |
transcription factor |
Watanabe, Minoru |
Transcriptional Regulation |
Watanabe, Minoru |
transfer performance |
Shigemitsu, Toru |
transition |
Ichimiya, Masashi |
Transition Metal Catalyst |
Imada, Yasushi |
transmission electron microscopy |
Hisazawa, Hiromu / Okada, Tatsuya |
transparent conducting oxide |
Moriga, Toshihiro / Yonekura, Daisuke |
transparent conducting oxides (→ transparent conducting oxide) |
Travel Behaviour Analisys |
Okushima, Masashi |
Tridentiger obscurus |
Kozuki, Yasunori |
turbulence |
Ichimiya, Masashi |
turbulent flow (→ turbulence) |
U
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ubiquitous computing |
Mitsuhara, Hiroyuki |
ultra wideband |
Oie, Takahiro |
ultra-precision cutting |
Mizobuchi, Akira |
Ultrasonic method |
Nakamura, Koichi / Watanabe, Takeshi |
ultrasound |
Yonekura, Daisuke |
unit group |
Katayama, Shin-ichi |
Unused resources |
Sugiyama, Shigeru |
urban planning |
WATANABE, Kojiro |
Urban Planning for Asian Developing Countries |
WATANABE, Kojiro |
User administration |
Sano, Masahiko |
V
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|
Varifocal |
Suyama, Shiro |
Versatile Video Coding |
Katayama, Takafumi |
vibration analysis |
Hino, Junichi |
vibration control |
Hino, Junichi |
viscosity solutions |
Ohnuma, Masaki |
Visual fatigue |
Suyama, Shiro |
Visualization Technique |
Hashimoto, Chikanori |
VLSI |
Song, Tian / Yotsuyanagi, Hiroyuki |
W
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|
Water purification |
Yasuzawa, Mikito |
Water resource |
TAMURA, Takao |
water treatment |
Shimomura, Naoyuki |
water vapor adsorption |
Horikawa, Toshihide |
watershed |
TAMURA, Takao |
web-based learning |
Mitsuhara, Hiroyuki |
welding |
Yonekura, Daisuke |
wide area measurement system for power system |
Hojo, Masahide |
Wind Environment |
Nagao, Fumiaki |
Wind Induced Vibrations for Structures |
Nagao, Fumiaki |
wind power generation system |
Hojo, Masahide |
Wind Resistant Design |
Nagao, Fumiaki |
Wireless Multi-hop Network |
Kinoshita, Kazuhiko |
World Wide Web |
Sano, Masahiko |
X
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|
X-ray |
|
≫ X-ray spectroscopy |
Moriga, Toshihiro |
X-ray absorption fine structure (XAFS) |
Murai, Kei-ichiro |
X-ray crystallography |
Murai, Kei-ichiro |
X-ray diffraction |
Kusaka, Kazuya |
X-ray diffractometry |
Moriga, Toshihiro |
X-ray Single Cryrstal Determination |
Ute, Koichi |
X-ray spectroscopy |
Moriga, Toshihiro |
XAFS |
Yamamoto, Takashi |
Xenopus laevis |
Watanabe, Minoru |
Y |
Z
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|
zeolite |
Katoh, Masahiro |