Collaborative Researches in 2025 FY
Specific Research Theme
Research Field ・Number | Representative Researcher | Title of Research | |
---|---|---|---|
Name | Affiliation | ||
Wind-Hazard Mitigation・Wind-Resistant Construction field ・ID:25252001 |
Sabareesh Geetha Rajasekharan | BITS-Pilani, Hyderabad Campus, India | Determination of effect of size of building on surface pressures acting on a building model subjected to tornado-like flow |
Wind-Hazard Mitigation・Wind-Resistant Construction field ・ID:25252002 |
Nakul Gupta | National Institute of Construction Management and Research(NICMAR) | Predicting Tornado vortex induced pressure coefficients and wind profile on structural projections in low rise buildings using convolutional neural networks |
Wind-Hazard Mitigation・Wind-Resistant Construction field ・ID:25252003 |
Rajesh Goyal | National Institute of Construction Management and Research(NICMAR) | Impact of Tornado vortex induced aerodynamic loads and wind profile on structural projections in low rise buildings |
Wind-Hazard Mitigation・Wind-Resistant Construction field ・ID:25252004 |
Maciej Dutkiewicz | Bydgoszcz University of Science and Technology | Aerodynamic Interference Effects of Wind on Adjacent High-Rise Buildings: Machine Learning Models based on Wind Tunnel Data |
Wind-Hazard Mitigation・Wind-Resistant Construction field ・ID:25252005 |
Hiroshi Yamauchi | Meteorological Research Institute | Evaluation of DIs, DODs and wind speeds for Japanese Enhanced Fujita Scale |
Wind-Hazard Mitigation・Wind-Resistant Construction field ・ID:25252006 |
Jingxue Wang | Beijing Forestry University, School of Soil and Water Conservation | Aerodynamic characteristics of an aeroelastic model tree based on wind tunnel test |
Wind-Hazard Mitigation・Wind-Resistant Construction field ・ID:25252007 |
Hisashi Kurihashi | Japan Inflatable Products Safety Association | Wind speed that causes damage to large slider-type inflatable playground equipment |
Indoor Environment field ・ID:25252008 |
Yichen YU | The Hong Kong Polytechnic University | Impact of Turbulent Airflow on Clothing Thermal and Evaporative Resistance |
Indoor Environment field ・ID:25252009 |
Xiujie LI | The Hong Kong Polytechnic University | Dynamics Study on Dental Aerosolization Procedure and Respiratory Cough Generator Using Particle Image Velocimetry and Numerical Simulations |
Indoor Environment field ・ID:25252010 |
Shinya Morikami | National Institute of Technology Toyota College | Study on Improving Natural Ventilation Performance Using Wind Catch Sails |
Indoor Environment field ・ID:25252011 |
Weirong ZHANG | Beijing University of Technology | Study on the Pollutant Exposure Reduction and Environmental Disturbance Resistance of the Neck-Side Ventilation System |
Indoor Environment field ・ID:25252012 |
Napoleon Agasang Enteria | Mindanao State University | Optimizing Wing Wall Configurations for Enhanced Cross Ventilation in High-Density Apartment Buildings |
Outdoor Environment field ・ID:25252013 |
Mohd Faizal Mohamad | Universiti Teknologi MARA | Investigation of the wind environment in an intervening area at podium level under various wind directions and corner modifications |
Outdoor Environment field ・ID:25252014 |
Wang Zheng | Hebei University of Technology | Prediction of urban climate and proposal of thermal environment improvement countermeasures for East Asian coastal megacities under global warming |
Outdoor Environment field ・ID:25252015 |
Jianhan Yu | Southwest Jiaotong University | Study on the Influence of Upstream Exposure and Local Morphology on Urban Pedestrian Level Wind Environment |
Cross-disciplinary field ・ID:25252016 |
Sudha Radhika | BITS-Pilani Hyderabad Campus | Design and Development of a Platform Independent GUI for Predicting the Wind Speed of Tornado-borne debris from the Onsite Captured Video |
General Research Theme
Research Field・Number | Representative Researcher | Title of Research | |
---|---|---|---|
Name | Affiliation | Cross-disciplinary field ・ID:25253001 |
Tsubasa Ohkaze | Institute of Science Tokyo | Estimation of brain regions related to sensation of wind pleasantness based on machine learning |