| 3-dimensional image processing |
Kawata, Yoshiki |
| A |
|
| adaptive control |
Ikeda, Kenji |
| adaptive hypermedia |
Mitsuhara, Hiroyuki |
| advanced motion control |
Yasuno, Takashi |
| Aerial image processing |
Karungaru, Stephen Githinji |
| algorithm |
Shimamoto, Takashi |
| AlN |
Nishino, Katsushi |
| anisotropic superconductivity |
Kawasaki, Yu |
| architecture |
Sano, Masahiko |
| artificial intelligence |
KANG, XIN / Shishibori, Masami |
| Autonomous Distributed Control |
Kinoshita, Kazuhiko |
| B |
|
| bifurcation |
Ueta, Tetsushi |
| bioelectrics |
Shimomura, Naoyuki |
| blood flow |
Akutagawa, Masatake |
| brain information processing |
Uwate, Yoko |
| C |
|
| CAD |
Shimamoto, Takashi |
| Causal Machine Learning |
KANG, XIN |
| cellular neural networks |
Nishio, Yoshifumi |
| chaos |
Nishio, Yoshifumi / Ueta, Tetsushi / Uwate, Yoko |
| ≫ chaos control |
Ueta, Tetsushi |
| ≫ chaotic phenomena |
YANG, Haichuan |
| chaos control |
Ueta, Tetsushi |
| chaotic phenomena |
YANG, Haichuan |
| Character Recognition |
Karungaru, Stephen Githinji |
| circuit design (→ circuitry) |
| circuitry |
Nishio, Yoshifumi |
| code division multiple access |
Oie, Takahiro |
| coding |
Song, Tian |
| Cognitive Dual Process Imitative Neuro-Symbolic AI |
KANG, XIN |
| cognitive psychology |
KANG, XIN |
| communication |
Oie, Takahiro |
| complex systems |
Nishio, Yoshifumi / YANG, Haichuan |
| computational electromagnetics |
Kawada, Masatake |
| Computer administraion system |
Sano, Masahiko |
| computer networks |
Oie, Takahiro |
| Computer Supported Collaborative Learning |
Matsuura, Kenji |
| control |
|
| ≫ chaos control |
Ueta, Tetsushi |
| ≫ control theory |
Kubo, Tomohiro |
| control theory |
Kubo, Tomohiro |
| coupled oscillatory circuits |
Nishio, Yoshifumi |
| crystal growth |
Yanagiya, Shin-ichiro |
| D |
|
| data processing |
YANG, Haichuan |
| database |
Oie, Takahiro |
| decentralized control |
Ikeda, Kenji |
| deep learning |
KANG, XIN |
| Depression Detection Assistant AI |
KANG, XIN |
| design automation |
Yotsuyanagi, Hiroyuki |
| Dictionary Retrieval |
Fuketa, Masao / Morita, Kazuhiro |
| dielectric microsphere |
Haraguchi, Masanobu |
| digital signal processing |
Fukumi, Minoru |
| distributed parameter systems |
Kubo, Tomohiro |
| E |
|
| e-learning |
Matsuura, Kenji / Mitsuhara, Hiroyuki |
| electrical bioimpedance |
Akutagawa, Masatake |
| electroencephalogram |
Ito, Shin-ichi |
| embedded system |
Sano, Masahiko |
| Emotion Recognition |
KANG, XIN / Matsumoto, Kazuyuki |
| energy conversion |
YANG, Haichuan |
| English Composition Support |
Matsumoto, Kazuyuki |
| entertainment computing |
Mitsuhara, Hiroyuki |
| evolutionary computation |
YANG, Haichuan |
| evolutionary image processing |
Ito, Momoyo |
| Evolutionary Systems |
Fukumi, Minoru |
| experimental psychology |
Ito, Shin-ichi |
| F |
|
| Face Detection, Recognition |
Karungaru, Stephen Githinji |
| fault tolerant computing |
Yotsuyanagi, Hiroyuki |
| femtosecond laser processing/modification |
Tomita, Takuro |
| Field electron Emission |
Koinkar, Pankaj |
| financial engineering |
KANG, XIN |
| FPGA |
Sano, Masahiko |
| frequency hopped spread spectrum communication |
Oie, Takahiro |
| frequency synthesizer |
Oie, Takahiro |
| G |
|
| GA |
Shimomura, Naoyuki |
| genetic algorithm |
Shimamoto, Takashi / YANG, Haichuan |
| Genetic Algorithms |
Karungaru, Stephen Githinji |
| GIS |
Shimomura, Naoyuki |
| graphene |
Nagase, Masao |
| H |
|
| H.264 |
Song, Tian |
| heavy-fermion compound |
Kawasaki, Yu |
| human interface |
Nishimura, Ryota |
| human sensing |
Fukumi, Minoru |
| I |
|
| image processing |
Terada, Kenji |
| Image Understanding |
Fukumi, Minoru |
| Individual Characteristics |
Ito, Shin-ichi |
| information retrieval system |
Shishibori, Masami |
| Information Security Management System |
Ueta, Tetsushi |
| information sharing |
Mitsuhara, Hiroyuki |
| Information Visualization |
Ito, Shin-ichi |
| insulation diagnosis |
Kawada, Masatake |
| intelligent control |
Yasuno, Takashi |
| Intelligent Systems |
Fukumi, Minoru |
| interactive interface |
Nishimura, Ryota |
| Internet |
Oie, Takahiro / Sano, Masahiko |
| Iwasawa theory for algebraic number fields |
Sumida-Takahashi, Hiroki |
| J |
|
| jaw motion (→ jaw movement) |
| jaw movement |
Akutagawa, Masatake |
| K |
|
| Knowledge Acqisition |
Fukumi, Minoru |
| L |
|
| Large Language Models |
KANG, XIN |
| Laser ablation |
Koinkar, Pankaj |
| layout design |
Shimamoto, Takashi |
| LED (→ light emitting diode) |
| lifelong learning |
Matsuura, Kenji |
| light emitting diode |
Akutagawa, Masatake |
| light localization |
Haraguchi, Masanobu |
| Linear Quadratic Regulator |
Kubo, Tomohiro |
| linear system |
Kubo, Tomohiro |
| Liquid exfoliation |
Koinkar, Pankaj |
| localized plasmon |
Haraguchi, Masanobu |
| low power design |
Song, Tian |
| LSI |
Shimamoto, Takashi |
| M |
|
| machine learning |
YANG, Haichuan / Yasuno, Takashi |
| magnetic measurement |
Akutagawa, Masatake |
| medical imaging |
Ito, Momoyo / Kawata, Yoshiki |
| microscope |
Yanagiya, Shin-ichiro |
| Mobile Network |
Kinoshita, Kazuhiko |
| MRI |
Akutagawa, Masatake |
| multimedia |
Shishibori, Masami |
| multimodal interaction |
Nishimura, Ryota |
| Multimodal Machine Learning |
KANG, XIN |
| N |
|
| nano |
Yanagiya, Shin-ichiro |
| nanometrology |
Nagase, Masao |
| nanophotonics |
Haraguchi, Masanobu |
| nanosecond pulsed power |
Shimomura, Naoyuki |
| nanostructure |
Nagase, Masao / Okamoto, Toshihiro / Takashima, Yuusuke |
| Natural Language Analysis |
Fuketa, Masao |
| natural language processing |
Morita, Kazuhiro |
| network architecture |
Kinoshita, Kazuhiko |
| network management |
Oie, Takahiro |
| neural network |
Akutagawa, Masatake / Fukumi, Minoru / Katayama, Takafumi / Shimamoto, Takashi |
| Neural Networks |
Karungaru, Stephen Githinji |
| neurodynamics |
Nishio, Yoshifumi |
| neuron model |
YANG, Haichuan |
| nitrogen oxide: NOx |
Shimomura, Naoyuki |
| non-Fermi liquid |
Kawasaki, Yu |
| nonlinear circuits |
Nishio, Yoshifumi |
| nonlinear dynamical system |
Ueta, Tetsushi |
| nonlinear optics |
Haraguchi, Masanobu / Okamoto, Toshihiro |
| nuclear magnetic resonance |
Kawasaki, Yu |
| numerical analysis of algebraic fields |
Sumida-Takahashi, Hiroki |
| numerical computation |
Ueta, Tetsushi |
| O |
|
| optical amplification |
Takada, Atsushi |
| optical device |
Naoi, Yoshiki / Takashima, Yuusuke |
| optical fiber |
Takada, Atsushi |
| optical mode |
Haraguchi, Masanobu |
| optical properties of solid |
Tomita, Takuro |
| optical property |
Haraguchi, Masanobu |
| optical transmission |
Takada, Atsushi |
| optics |
Yanagiya, Shin-ichiro |
| optimization |
KANG, XIN / Shimomura, Naoyuki / YANG, Haichuan |
| Outcome Management |
Matsumoto, Kazuyuki |
| ozone |
Shimomura, Naoyuki |
| P |
|
| particle swarm optimization |
YANG, Haichuan |
| phenomenon |
|
| ≫ chaotic phenomena |
YANG, Haichuan |
| Photocatalysis |
Koinkar, Pankaj |
| photonic band |
Haraguchi, Masanobu |
| photonic crystal |
Haraguchi, Masanobu |
| photonic device (→ optical device) |
| photovoltaic generation system |
Hojo, Masahide / YANG, Haichuan |
| Physical Skill |
Matsuura, Kenji |
| plasmonics |
Haraguchi, Masanobu |
| pole assignment |
Kubo, Tomohiro |
| power delivery |
Kawada, Masatake |
| power quality |
Hojo, Masahide |
| power system protection |
Hojo, Masahide |
| prediction |
YANG, Haichuan |
| pulsed power |
Shimomura, Naoyuki |
| Q |
| R |
|
| Radio Sensing Techniques |
Kawada, Masatake |
| robotics |
Yasuno, Takashi |
| Routing |
Kinoshita, Kazuhiko |
| Rule Generation |
Fukumi, Minoru |
| S |
|
| self-organizing map |
Nishio, Yoshifumi |
| semiconductor |
Kawakami, Retsuo |
| semiconductor device |
Nagase, Masao |
| Sensor |
Koinkar, Pankaj |
| signal and image processing |
Kawada, Masatake |
| signal processing |
|
| ≫ digital signal processing |
Fukumi, Minoru |
| silicon |
Nagase, Masao |
| SNS |
Matsuura, Kenji |
| speech recognition |
Nishimura, Ryota |
| spoken dialog system |
Nishimura, Ryota |
| Statistical Learning Algorithms |
Fukumi, Minoru |
| sterilization |
Akutagawa, Masatake |
| surface |
Yanagiya, Shin-ichiro |
| surface plasmon polariton |
Haraguchi, Masanobu |
| synchronization |
Oie, Takahiro |
| synchronization phenomena |
Nishio, Yoshifumi |
| systems with time-delay |
Kubo, Tomohiro |
| T |
|
| Test Technology |
Yotsuyanagi, Hiroyuki |
| theory |
|
| ≫ control theory |
Kubo, Tomohiro |
| Three-dimensional measurement |
Terada, Kenji |
| U |
|
| ubiquitous computing |
Mitsuhara, Hiroyuki |
| ultra wideband |
Oie, Takahiro |
| User administration |
Sano, Masahiko |
| V |
|
| Versatile Video Coding |
Katayama, Takafumi |
| VLSI |
Song, Tian / Yotsuyanagi, Hiroyuki |
| W |
|
| water treatment |
Shimomura, Naoyuki |
| web-based learning |
Mitsuhara, Hiroyuki |
| wide area measurement system for power system |
Hojo, Masahide |
| wind power generation system |
Hojo, Masahide / YANG, Haichuan |
| Wireless Multi-hop Network |
Kinoshita, Kazuhiko |
| World Wide Web |
Sano, Masahiko |
| XYZ |