Tropical Storm Flossie imagery in July 2013 from Suomi NPP’s VIIRS Day-Night band revealing that the storm shifted more to the north, sparing the big island of Hawaii from a direct hit, but bringing the islands of Oahu, Molokai and Maui into a tropical storm warning area.
Credit: NOAA
The ability to use satellites to locate a storm that could evolve into a severe storm or hurricane will likely become more accurate for this year's Atlantic hurricane season beginning June 1.
By then, the National Oceanic and Atmospheric Administration's (NOAA), weather forecasters will be able to further improve the use of sensors aboard the NASA-NOAA Suomi National Polar-orbiting Partnership satellite (Suomi NPP).
U.S. Polar Environmental satellites such as Suomi NPP provide complete global coverage twice daily, while NOAA/NASA Geostationary Operational Environmental Satellites offer imagery over a fixed area.
To improve the ability to better find and track hurricanes, NOAA scientists are finding ways to incorporate data from Suomi NPP's Visible Infrared Imaging Radiometer Suite, VIIRS sensor, that allows observations of Earth's atmosphere and surface during nighttime hours and offers enhanced capability to see through clouds.
VIIRS provides many advances over previous operational imagers and advances compared to its research predecessor, the Moderate Resolution Imaging Spectroradiometers (MODIS) currently operating on NASA's Aqua and Terra satellites.
It is these advances in polar imagery that will give forecasters a new tool to improve their predictions.
Similarly, the radar on board the NASA/Japan Aerospace Exploration Agency Tropical Rainfall Measuring Mission (TRMM) satellite has the capability to see through and distinguish between precipitating cumulus and the cirrus clouds which TRMM's infrared sensor also detects.
The next-generation of these sensors is set to launch from Japan next month aboard the Global Precipitation Measurement (GPM) satellite.
The information to track storms comes from satellites surface stations, weather balloons, radar and aircraft.
Most current satellites provide important information during day and night, although observations in the visible part of the spectrum are limited at night.
That is where VIIRS has an advantage. The VIIRS day-night band is sensitive enough to provide storm information even under limited moonlight conditions, a major advancement for storm analysis.
The Advanced Technology Microwave Sounder (ATMS) sensor aboard Suomi NPP also provides temperature and water vapour measurements with greater accuracy than similar microwave instruments onboard earlier satellites.
In relatively clear areas away from the storm center and in the eye of intense storms, the Cross-track Infrared Sensor (CrIS), also on Suomi NPP, enhances ATMS temperature and moisture information by providing measurements with even greater vertical and horizontal resolution.
Installation of the CrIS instrument. Credit: Ball Aerospace
Credit: NOAA
The ability to use satellites to locate a storm that could evolve into a severe storm or hurricane will likely become more accurate for this year's Atlantic hurricane season beginning June 1.
By then, the National Oceanic and Atmospheric Administration's (NOAA), weather forecasters will be able to further improve the use of sensors aboard the NASA-NOAA Suomi National Polar-orbiting Partnership satellite (Suomi NPP).
U.S. Polar Environmental satellites such as Suomi NPP provide complete global coverage twice daily, while NOAA/NASA Geostationary Operational Environmental Satellites offer imagery over a fixed area.
To improve the ability to better find and track hurricanes, NOAA scientists are finding ways to incorporate data from Suomi NPP's Visible Infrared Imaging Radiometer Suite, VIIRS sensor, that allows observations of Earth's atmosphere and surface during nighttime hours and offers enhanced capability to see through clouds.
VIIRS provides many advances over previous operational imagers and advances compared to its research predecessor, the Moderate Resolution Imaging Spectroradiometers (MODIS) currently operating on NASA's Aqua and Terra satellites.
It is these advances in polar imagery that will give forecasters a new tool to improve their predictions.
The next-generation of these sensors is set to launch from Japan next month aboard the Global Precipitation Measurement (GPM) satellite.
The information to track storms comes from satellites surface stations, weather balloons, radar and aircraft.
Most current satellites provide important information during day and night, although observations in the visible part of the spectrum are limited at night.
That is where VIIRS has an advantage. The VIIRS day-night band is sensitive enough to provide storm information even under limited moonlight conditions, a major advancement for storm analysis.
The Advanced Technology Microwave Sounder (ATMS) sensor aboard Suomi NPP also provides temperature and water vapour measurements with greater accuracy than similar microwave instruments onboard earlier satellites.
In relatively clear areas away from the storm center and in the eye of intense storms, the Cross-track Infrared Sensor (CrIS), also on Suomi NPP, enhances ATMS temperature and moisture information by providing measurements with even greater vertical and horizontal resolution.
Installation of the CrIS instrument. Credit: Ball Aerospace
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