| A |
|
| after treatment |
Kidoguchi, Yoshiyuki |
| Amagasaki canal |
Kozuki, Yasunori |
| Artificial Society |
Okushima, Masashi |
| asymptotic analysis |
Ohyama, Yousuke |
| axial flow fan |
Shigemitsu, Toru |
| B |
|
| Backward erosion piping |
Horikoshi, Kauzuki |
| Basin water management |
TAMURA, Takao |
| Bearing capacity |
Ueno, Katsutoshi |
| bicrystal |
Okada, Tatsuya |
| Biomechanics |
SATO, Katsuya |
| boundary layer |
Ichimiya, Masashi |
| broadleaf tree |
TAMURA, Takao |
| Bus System |
Okushima, Masashi |
| C |
|
| capacitance |
Ueno, Katsutoshi |
| Cathode and anode materials for Li ion rechargeable batteries |
Nakamura, Koichi |
| cell |
SATO, Katsuya |
| centrifugal pump |
Shigemitsu, Toru |
| coastal environment |
TAMURA, Takao / Yamanaka, Ryoichi |
| combustion |
Kidoguchi, Yoshiyuki / Nada, Yuzuru |
| computational fluid dynamics |
Kidoguchi, Yoshiyuki |
| computer vision |
Ukida, Hiroyuki |
| concrete-block wall |
Kozuki, Yasunori |
| conductor |
|
| ≫ ionic conductor |
|
| ≫ superionic conductor |
Nakamura, Koichi |
| Congestion Pricing |
Okushima, Masashi |
| conifer |
TAMURA, Takao |
| control |
Miwa, Masafumi / Nakata, Narutoshi |
| Control Engineering |
Takaiwa, Masahiro |
| cooperation |
TAMURA, Takao |
| crystal plasticity |
Okada, Tatsuya |
| crystallographic defect |
Okada, Tatsuya |
| cutting force |
Mizobuchi, Akira |
| D |
|
| diamond |
Okada, Tatsuya |
| diesel engine |
Kidoguchi, Yoshiyuki |
| diffusion |
|
| ≫ ionic diffusion |
Nakamura, Koichi |
| Disaster Information |
Nakata, Narutoshi |
| Disaster prevention map |
TAMURA, Takao |
| Discrete equations |
Ohyama, Yousuke |
| district improvement plan for disaster mitigation |
WATANABE, Kojiro |
| E |
|
| earthquake |
Jiang, Jing-Cai |
| ecosystem in coastal zone |
Kozuki, Yasunori |
| education for disaster prevention |
Kozuki, Yasunori |
| elastic wave |
Watanabe, Takeshi |
| Electrical conductivity measurement |
Nakamura, Koichi |
| Emmission |
Kidoguchi, Yoshiyuki |
| energy saving |
TAMURA, Takao |
| environment-considered urban planning |
WATANABE, Kojiro |
| Environmental education |
Kozuki, Yasunori |
| environmental protection |
TAMURA, Takao |
| epitaxial film |
Okada, Tatsuya |
| Evacuation assistance map |
TAMURA, Takao |
| evaporation |
TAMURA, Takao |
| F |
|
| Fishery |
TAMURA, Takao |
| flood |
TAMURA, Takao |
| flow rate |
TAMURA, Takao |
| flow-induced vibration |
Noda, Minoru |
| forest |
TAMURA, Takao |
| forest devastation |
TAMURA, Takao |
| forest-river-sea |
TAMURA, Takao |
| Fuzzy-Neuro Model |
Okushima, Masashi |
| G |
|
| Genetic Algorithm |
Okushima, Masashi |
| geographic information system |
WATANABE, Kojiro |
| geosensing |
Ueno, Katsutoshi |
| Geotechnical centrifuge |
Ueno, Katsutoshi |
| global warming |
TAMURA, Takao |
| Green curtain |
TAMURA, Takao |
| H |
|
| H-Q curve |
TAMURA, Takao |
| hazard map |
TAMURA, Takao |
| heat island |
TAMURA, Takao |
| heat treatment |
Hisazawa, Hiromu |
| heavy rain |
TAMURA, Takao |
| hydrogen |
Kidoguchi, Yoshiyuki |
| Hypoxia |
Kozuki, Yasunori |
| I |
|
| image processing |
Hisazawa, Hiromu / Ukida, Hiroyuki |
| impact-echo method |
Watanabe, Takeshi |
| Information Technology for Engineering Applications |
Nakata, Narutoshi |
| Infrared thermography |
Ishikawa, Masashi |
| intermittent cutting |
Mizobuchi, Akira |
| Internal erosion |
Horikoshi, Kauzuki |
| internal flow |
Shigemitsu, Toru |
| ion |
|
| ≫ ionic conductor |
|
| ≫ superionic conductor |
Nakamura, Koichi |
| ≫ ionic diffusion |
Nakamura, Koichi |
| ionic conductor |
|
| ≫ superionic conductor |
Nakamura, Koichi |
| ionic diffusion |
Nakamura, Koichi |
| J |
|
| jet |
Ichimiya, Masashi |
| K |
| L |
|
| Latent Thermal Energy Storage |
Kusano, Koji |
| Levee |
Horikoshi, Kauzuki |
| Li transition metal oxide |
Nakamura, Koichi |
| Li+ ion conductor |
Nakamura, Koichi |
| Li+ ion diffusion |
Nakamura, Koichi |
| M |
|
| Machine Learning |
Okushima, Masashi |
| maintenance |
Watanabe, Takeshi |
| mathematical modeling |
TAMURA, Takao |
| mechanical engineering |
SATO, Katsuya |
| Mechanical milling |
Nakamura, Koichi |
| Mechanotransduction |
SATO, Katsuya |
| mechatronics |
Miwa, Masafumi |
| MEMS |
SATO, Katsuya |
| micromachine |
Miwa, Masafumi |
| microstructure control |
Hisazawa, Hiromu |
| mitigation |
Kozuki, Yasunori / Yamanaka, Ryoichi |
| moisture content |
Ueno, Katsutoshi |
| motion control |
Takaiwa, Masahiro |
| Multi-Agent Simulation |
Okushima, Masashi |
| multi-tiered forest |
TAMURA, Takao |
| Multiphase Flow |
Kusano, Koji |
| N |
|
| natural disaster |
TAMURA, Takao |
| Na+ ion conductor |
Nakamura, Koichi |
| Na+ ion diffusion |
Nakamura, Koichi |
| Ni-based superalloys |
Hisazawa, Hiromu |
| nitride semiconductor |
|
| ≫ nitride semiconductor films |
Kusaka, Kazuya |
| nitride semiconductor films |
Kusaka, Kazuya |
| non-destructive testing |
Ishikawa, Masashi / Watanabe, Takeshi |
| nuclear magnetic resonance |
Nakamura, Koichi |
| Numerical Analysis |
Kusano, Koji |
| Nutritive salt |
TAMURA, Takao |
| O |
| P |
|
| The Painleve equations |
Ohyama, Yousuke |
| permittivity |
Ueno, Katsutoshi |
| photocatalyst |
Yonekura, Daisuke |
| pipe flow |
Ichimiya, Masashi |
| planning support system |
WATANABE, Kojiro |
| Pneumatic Driving System |
Takaiwa, Masahiro |
| Q |
|
| quantitative evaluation |
TAMURA, Takao |
| R |
|
| Rainwater |
TAMURA, Takao |
| recrystallization |
Okada, Tatsuya |
| Red tide |
TAMURA, Takao |
| reduction |
TAMURA, Takao |
| regional disaster management |
TAMURA, Takao |
| relaminarization |
Ichimiya, Masashi |
| residential environment |
TAMURA, Takao |
| residual stress |
Kusaka, Kazuya / Yonekura, Daisuke |
| Robot System |
Takaiwa, Masahiro |
| Route Navigation |
Okushima, Masashi |
| runoff analysis |
TAMURA, Takao |
| runoff model |
TAMURA, Takao |
| S |
|
| sawing |
Mizobuchi, Akira |
| Seismological Network |
Nakata, Narutoshi |
| SEM/EBSD |
Okada, Tatsuya |
| shape reconstruction |
Ukida, Hiroyuki |
| SiC |
Okada, Tatsuya |
| simulation |
Takeuchi, Toshiki |
| single crystal |
Okada, Tatsuya |
| small or medium-sized rivers |
TAMURA, Takao |
| small-sized fluid machinery |
Shigemitsu, Toru |
| Solid/Liquid Phase Change Heat Transfer |
Kusano, Koji |
| solute runoff |
TAMURA, Takao |
| sputtering |
Kusaka, Kazuya / Yonekura, Daisuke |
| storage capacity |
TAMURA, Takao |
| Structural Analysis and Simulation |
Nakata, Narutoshi |
| superionic conductor |
Nakamura, Koichi |
| surface roughness |
Mizobuchi, Akira |
| T |
|
| tensioning method |
Mizobuchi, Akira |
| texture control |
Okada, Tatsuya |
| thin film |
Yonekura, Daisuke |
| tipped saw |
Mizobuchi, Akira |
| Toll of Expressway |
Okushima, Masashi |
| tool life |
Mizobuchi, Akira |
| tool temperature |
Mizobuchi, Akira |
| tool wear |
Mizobuchi, Akira |
| town-watching |
TAMURA, Takao |
| Traffic Control |
Okushima, Masashi |
| Traffic Flow |
Okushima, Masashi |
| Traffic Safety Measure |
Okushima, Masashi |
| transfer performance |
Shigemitsu, Toru |
| transition |
Ichimiya, Masashi |
| transmission electron microscopy |
Hisazawa, Hiromu / Okada, Tatsuya |
| transparent conducting oxide |
Yonekura, Daisuke |
| transparent conducting oxides (→ transparent conducting oxide) |
| transport planning |
Hyodo, Satoshi |
| transportation engineering |
Hyodo, Satoshi |
| Travel Behaviour Analisys |
Okushima, Masashi |
| tricrystal |
Okada, Tatsuya |
| Tridentiger obscurus |
Kozuki, Yasunori |
| turbulence |
Ichimiya, Masashi |
| turbulence effects |
Noda, Minoru |
| turbulent flow (→ turbulence) |
| U |
|
| ultra-precision cutting |
Mizobuchi, Akira |
| Ultrasonic method |
Nakamura, Koichi / Watanabe, Takeshi |
| ultrasound |
Yonekura, Daisuke |
| urban planning |
WATANABE, Kojiro |
| Urban Planning for Asian Developing Countries |
WATANABE, Kojiro |
| V |
| W |
|
| Water resource |
TAMURA, Takao |
| watershed |
TAMURA, Takao |
| welding |
Yonekura, Daisuke |
| Wind Application |
Noda, Minoru |
| wind disaster |
Noda, Minoru |
| wind properties estimation |
Noda, Minoru |
| workshop |
TAMURA, Takao |
| X |
|
| X-ray diffraction |
Kusaka, Kazuya |
| YZ |