Output
Realizing World-level Science and Technology through:1. Innovation of education program
2. Industry and Society-focused problem solving
3. Exchange of researchers among international research institutes
4. Leading industry 4.0 for smart marine city infrastructure and disaster mitigation
Securing International Competency in the fields:
1. Disaster mitigation technology
2. Marine city infrastructure
3. Natural and built environment
4. Relevant education and research capabilities
Detailed output:
2020 Sep to 2021 Mar |
|
Title | DOI |
Application of deep neural network to capture groundwater potential zone in mountainous terrain, Nepal Himalaya | |
Rainfall-induced shallow landslide susceptibility mapping at two adjacent catchments using advanced machine learning algorithms | |
Deflection limit for a Maglev railway guideway considering ride comfort | |
Time-domain earthquake response analysis of rectangular liquid storage tank considering fluid-structure-soil interaction | |
Two perspectives for increasing of artificial reef wake region | |
Monitoring of corroded and loosened bolts in steel structures via deep learning and Hough transforms | |
Estimation of seabed settlement during initial installation of a box-type artificial reef considering different seabed soil compositions and incident angles | |
Effects of particle size and pyrolysis of oyster shell on change of coastal benthic environment | |
Monitoring technique using a vision-based single-camera system for reinforced soil retaining wall | |
Vibration monitoring and condition assessment of gravity-based coastal structures | |
Piezoelectric-based hoop-type interface for impedance monitoring of local strand breakage in prestressed multi-strand anchorage | click |
Piezoelectric sensor-embedded smart rock for damage monitoring in a prestressed anchorage zone | click |
An artificial neural network model to predict debris-flow volumes caused by extreme rainfall in the cintral region of South Korea | |
Measurement and prediction of the initial settlement of cube-type artificial reefs caused by free-fall installation using a laboratory-scale experiment, regression analysis, and numerical collision analysis |