Add to ORKGAn approach to the problem of deducing wind speed and pressure around tropical cyclones is presented. The technique, called the Surface Wind Inference from Microwave data (SWIM technique, uses satellites microwave sounder data to measure upper tropospheric temperature anomalies which may then be related to surface pressure anomalies through the hydrostatic and radiative transfer equations. Surface pressure gradients outside of the radius of maximum wind are estimated for the first time. Future instruments may be able to estimate central pressure with + or - 0/1 kPa accuracy
Data from 17 tropical cyclones during the 1974 through 1979 hurricane seasons are used to investigat...
The high-accurate wind field of a tropical cyclone boundary layer, which is essentially governed by ...
Accurate measurements of surface observations are necessary for development of numerical weather pre...
Satellite based Tropical Cyclone (TC) intensity estimates are critical for TC warning centers and gl...
As described by hydrostatic equation, the drop of central surface pressure of tropical cyclone is re...
Radial profiles of mean 1000 mb to 250 mb temperature from the Nimbus 6 scanning microwave spectrome...
Includes bibliographical references.Estimating tropical cyclone (TC) intensity and structure is beco...
Although many dynamical and statistical prediction schemes are available to forecasters, tropical cy...
A regression technique was developed to forecast 24 hour changes of the maximum winds for weak (maxi...
Combined microwave brightness temperature measurements from recent L- and dual C-band satellite radi...
In the absence of wind speed data from aircraft reconnaissance of tropical cyclones (TCs), analysts ...
Data collected on special hurricane days by the VISSR Atmospheric Sounder (VAS) instrument flown on ...
Satellites with microwave remote sensing capabilities can be utilized to study atmospheric phenomena...
Horizontal winds at 850 hPa from tropical cyclones retrieved using the nonlinear balance equation, w...
The first Advanced Microwave Sounding Unit temperature sounder (AMSU-A) was launched on the NOAA-15 ...
Data from 17 tropical cyclones during the 1974 through 1979 hurricane seasons are used to investigat...
The high-accurate wind field of a tropical cyclone boundary layer, which is essentially governed by ...
Accurate measurements of surface observations are necessary for development of numerical weather pre...
Satellite based Tropical Cyclone (TC) intensity estimates are critical for TC warning centers and gl...
As described by hydrostatic equation, the drop of central surface pressure of tropical cyclone is re...
Radial profiles of mean 1000 mb to 250 mb temperature from the Nimbus 6 scanning microwave spectrome...
Includes bibliographical references.Estimating tropical cyclone (TC) intensity and structure is beco...
Although many dynamical and statistical prediction schemes are available to forecasters, tropical cy...
A regression technique was developed to forecast 24 hour changes of the maximum winds for weak (maxi...
Combined microwave brightness temperature measurements from recent L- and dual C-band satellite radi...
In the absence of wind speed data from aircraft reconnaissance of tropical cyclones (TCs), analysts ...
Data collected on special hurricane days by the VISSR Atmospheric Sounder (VAS) instrument flown on ...
Satellites with microwave remote sensing capabilities can be utilized to study atmospheric phenomena...
Horizontal winds at 850 hPa from tropical cyclones retrieved using the nonlinear balance equation, w...
The first Advanced Microwave Sounding Unit temperature sounder (AMSU-A) was launched on the NOAA-15 ...
Data from 17 tropical cyclones during the 1974 through 1979 hurricane seasons are used to investigat...
The high-accurate wind field of a tropical cyclone boundary layer, which is essentially governed by ...
Accurate measurements of surface observations are necessary for development of numerical weather pre...