Center operational tropical cyclone intensity forecasts for the three major northern hemisphere tropical cyclone basins (Atlantic, eastern North Pacific, and western North Pacific) for the past two decades are examined for long-term trends. Results show that there has been some marginal improve-ment in the mean absolute error at 24 and 48 h for the Atlantic and at 72 h for the east and west Pacific. A new metric that measures the percent variance of the observed intensity changes that is reduced by the forecast (variance reduction, VR) is defined to help account for inter-annual variability in forecast difficulty. Results show that there have been significant improvements in the VR of the official forecasts in the Atlantic, and some margina...
[[abstract]]Our weighted-analog intensity (WANI) technique for predicting western North Pacific trop...
Tropical cyclone (TC) intensity forecasts issued by the Regional Specialized Meteorological Centre (...
[[abstract]]A situation-dependent intensity and intensity spread prediction technique for the Atlant...
Modifications to the Atlantic and east Pacific versions of the operational Statistical Hurricane Int...
The skill of tropical cyclone intensity forecasts has improved slowly since such forecasts became ro...
[[abstract]]The accuracy of the western North Pacific tropical cyclone intensity forecast guidance p...
The relative independence of the tropical cyclone track forecasts produced by regional and global nu...
Understanding and forecasting tropical cyclone (TC) intensity change continues to be a paramount cha...
The primary objective of this research is the development of a statistical model that will provide 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...
The practical predictability of tropical cyclone (TC) intensity in terms of mean absolute forecast e...
Climatology Project rainfall data together with historical storm track records to examine the trend ...
Retrospective predictions of multiyear NorthAtlanticOcean hurricane frequency are explored by applyi...
A multiple regression scheme with tropical cyclone intensity change as the dependent variable has be...
[[abstract]]Our weighted-analog intensity (WANI) technique for predicting western North Pacific trop...
Tropical cyclone (TC) intensity forecasts issued by the Regional Specialized Meteorological Centre (...
[[abstract]]A situation-dependent intensity and intensity spread prediction technique for the Atlant...
Modifications to the Atlantic and east Pacific versions of the operational Statistical Hurricane Int...
The skill of tropical cyclone intensity forecasts has improved slowly since such forecasts became ro...
[[abstract]]The accuracy of the western North Pacific tropical cyclone intensity forecast guidance p...
The relative independence of the tropical cyclone track forecasts produced by regional and global nu...
Understanding and forecasting tropical cyclone (TC) intensity change continues to be a paramount cha...
The primary objective of this research is the development of a statistical model that will provide 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...
The practical predictability of tropical cyclone (TC) intensity in terms of mean absolute forecast e...
Climatology Project rainfall data together with historical storm track records to examine the trend ...
Retrospective predictions of multiyear NorthAtlanticOcean hurricane frequency are explored by applyi...
A multiple regression scheme with tropical cyclone intensity change as the dependent variable has be...
[[abstract]]Our weighted-analog intensity (WANI) technique for predicting western North Pacific trop...
Tropical cyclone (TC) intensity forecasts issued by the Regional Specialized Meteorological Centre (...
[[abstract]]A situation-dependent intensity and intensity spread prediction technique for the Atlant...