Kyoto,
Japan
| 1 | Tetsuya Takemi - Representation of the Evolution and Intensity of Typhoon Haiyan (2013) in Numerical Simulations at O(1 km) Resolutions for the Assessment of Typhoon Hazards |
| 2 | Yosuke Yamashiki - Continental Oceanic Mutual Interaction - Material Circulation from Land to Ocean During Typhoon |
| 3 | Tomohiro Yasuda - Uncertainty of Worst Case Storm Surge Considering Climate Change - Case Study of Ise Bay |
| 4 | Yuichiro Oku - Assessment of Heavy Rainfall-induced Disaster Potential Based on an Ensemble Simulation of Typhoon Talas (2011) |
| 5 | I.I. Lin - ‘Category-6’ typhoon Haiyan, Ocean Subsurface Warming, and Ocean Coupling Potential Intensity Index” |
| 6 | Joe Cione - Optimizing Observing Systems and Sampling Strategies to Better Evaluate and Improve Model Physical Processes |
| 7 | Jun Yoshino - Intensity Hindcasts on the 2004 Pacific Typhoons Using a High-Resolution Tropical Cyclone Model |
| 8 | Sunmin Kim - Flood and Inundation Estimation Caused by the Largest Class Typhoon |
| 9 | Tommy Moore - Pacific Island GOOS Report |
| 10 | Chakkrit Reamruk/Viriya Laung-Aram - Thailand National Report |
| 11 | Lee Jacklick - Marshall Islands National Report |
| 12 | Sania El Kadi - Palau National Report |
| 13 | Etienne Charpentier - The Barometer Drifter, A Cost Effective Technology For Providing Sea Level Pressure Observations, and Addressing Multiple Requirements |
| 14 | Scott Glenn - U.S. Integrated Ocean Observing System (IOOS) Responds to Hurricanes Irene and Sandy |
| 15 | Ruo-Shan Tseng - Response of Ocean-mixed Layer Current to Typhoons of Different Intensities in the Northwestern Pacific from Drifter Data |
| 16 | David Meldrum - Submarine Communications Cables for Climate Change Monitoring and Disaster Warning: a Joint ITU/WMO/IOC Initiative |
| 17 | Varlamov Sergey - Regional Ocean Modeling with JCOPE System: Simulation of Ocean Response on Typhoons and Other Extreme Atmospheric Events and Role of Ocean Buoys Information |
| 18 | Terng Chuen Teyr - Features of Wind Waves and Swell Derived from the Deep-Water Buoy Deployed at the Western North Pacific Ocean During Typhoon Season |
| 19 | Luca Centurioni - Targeted in-situ Tropical Cyclone Observations from Air-deployed Drifters |
| 20 | Dake Chen - Update: China 973 Project on Ocean-Typhoon Interaction |
| 21 | Etienne Charpentier - WIGOS Implementation |
| 22 | Sid Thurston - WMO/IOC Partnerships for New GEOSS Applications (PANGEA) |
| 23 | Weidong Yu- Cyclones Modulated by Monsoon Over Bay of Bengal |
| 24 | Shuhei Masuda - Role of an Ocean State Estimation in Better Understanding the Processes and Mechanisms of Typhoon-Ocean Interaction |
| 25 | Yoshi Miyamoto - Developing an Analytical Model for the Maximum Potential Intensity of Tropical Cyclones Incorporating the Effects of Ocean Mixing |
| 26 | Nobuhito Mori - Parameterization of Coupled Atmospheric-Ocean-Wave Model for Typhoon Simulation |