Tropical cyclone (TC) intensity forecasts issued by the Regional Specialized Meteorological Centre (RSMC) Tokyo - Typhoon Center are systematically compiled to analyze the long-term behavior of errors and to explore the potential for improvement in the forecast accuracy using a statistical correction approach. In this study, a dataset is constructed from annual statistics and every single forecast listed on annual reports on the activities of the RSMC Tokyo. This study found that (1) the accuracy of annual mean forecast has not improved over 26 years and that (2) forecast errors tend to be larger in the rapidly developing TCs. Further analysis reveals that recent forecast output (2008−2014) contains biases associated with the magnitude of t...
Ground-controlled flights, the ELDORA radar, and high-resolution modeling document the historic hurr...
[[abstract]]The weighted analog intensity prediction technique for western North Pacific (WAIP) trop...
Abstract This study investigates interagency discrepancies among best‐track estimates of tropical cy...
Understanding and forecasting tropical cyclone (TC) intensity change continues to be a paramount cha...
The skill of tropical cyclone intensity forecasts has improved slowly since such forecasts became ro...
Center operational tropical cyclone intensity forecasts for the three major northern hemisphere trop...
This dissertation aims to improve tropical cyclone (TC) intensity forecasts by exploring the connect...
The tropical west Pacific Ocean and the Philippines are often affected by tropical cyclones (TCs), w...
[[abstract]]The accuracy of the western North Pacific tropical cyclone intensity forecast guidance p...
The primary objective of this research is the development of a statistical model that will provide t...
Although tropical cyclone (TC) track forecast errors (TFEs) of operational warning centres have subs...
Tropical cyclone (TC) activity for the last three decades shows strong discrepancies, deduced from d...
As part of ongoing efforts to improve tropical cyclone (TC) intensity forecast capability, two tasks...
Tropical cyclones (TCs) are one of the most impactful natural hazards to people’s life and economy, ...
[[abstract]]Our weighted-analog intensity (WANI) technique for predicting western North Pacific trop...
Ground-controlled flights, the ELDORA radar, and high-resolution modeling document the historic hurr...
[[abstract]]The weighted analog intensity prediction technique for western North Pacific (WAIP) trop...
Abstract This study investigates interagency discrepancies among best‐track estimates of tropical cy...
Understanding and forecasting tropical cyclone (TC) intensity change continues to be a paramount cha...
The skill of tropical cyclone intensity forecasts has improved slowly since such forecasts became ro...
Center operational tropical cyclone intensity forecasts for the three major northern hemisphere trop...
This dissertation aims to improve tropical cyclone (TC) intensity forecasts by exploring the connect...
The tropical west Pacific Ocean and the Philippines are often affected by tropical cyclones (TCs), w...
[[abstract]]The accuracy of the western North Pacific tropical cyclone intensity forecast guidance p...
The primary objective of this research is the development of a statistical model that will provide t...
Although tropical cyclone (TC) track forecast errors (TFEs) of operational warning centres have subs...
Tropical cyclone (TC) activity for the last three decades shows strong discrepancies, deduced from d...
As part of ongoing efforts to improve tropical cyclone (TC) intensity forecast capability, two tasks...
Tropical cyclones (TCs) are one of the most impactful natural hazards to people’s life and economy, ...
[[abstract]]Our weighted-analog intensity (WANI) technique for predicting western North Pacific trop...
Ground-controlled flights, the ELDORA radar, and high-resolution modeling document the historic hurr...
[[abstract]]The weighted analog intensity prediction technique for western North Pacific (WAIP) trop...
Abstract This study investigates interagency discrepancies among best‐track estimates of tropical cy...