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The Future of Weather Observation is Coming Soon! GOES-R

Anonym Tuesday, October 25, 2016

If all goes according to plan, next month the GOES-R weather satellite will be launching and the next generation of weather forecasting, solar activity monitoring, and lightening detection will be here. This advanced satellite will change how quickly and accurately we are able to monitor and predict hazardous weather and help give those in harm’s way the time needed to prepare and evacuate. The GOES-R satellite will include:

Advanced Baseline Imager (ABI) – an advanced imager that has 3 times more channels, 4 times better resolution , and 5 times faster than before. All of this leads to better observation of severe storms, fire, smoke, aerosols, and volcanic ash.

Geostationary Lightening Mapper - The lightning mapper will allow mapping of lightning strikes on ground, as well as lightning in the atmosphere. Researchers have found that an increase in lightning activity may be a sign of tornadoes forming, thus providing the data to detect tornadoes faster.

Space Weather Observation - GOES-R will work with NOAA instruments to gather information on radiation hazards from sun that can interfere with communication and navigation systems, damage satellites, threaten power utilities.

Harris Corporation has been supporting NOAA with some aspects on the GOES-R Satellite construction and will be providing the Ground System Support, as well as the 16.4 Meter triband antenna needed to stay in touch with it.

Now what does this have to do with ENVI? Once GOES-R is operational and collecting data, ENVI will be working to support the Harris Weather groups WXconnect systems for data validation and visualization, supporting the ABI data directly in ENVI, as well as working with NOAA to help continue to create advanced products in the future. It is an exciting time for NOAA with this milestone launch and an exciting time to be working with ENVI to get to work the advanced data that will be coming down!

Below are the baseline products, as well as some future products that can be expected.

BASELINE PRODUCTS	FUTURE PRODUCTS
Advanced Baseline Imager (ABI)	Absorbed Shortwave Radiation: Surface
Aerosol Detection (Including Smoke and Dust)	Aerosol Particle Size
Aerosol Optical Depth (AOD)	Aircraft Icing Threat
Clear Sky Masks	Cloud Ice Water Path
Cloud and Moisture Imagery	Cloud Layers/Heights
Cloud Optical Depth	Cloud Liquid Water
Cloud Particle Size Distribution	Cloud Type
Cloud Top Height	Convective Initiation
Cloud Top Phase	Currents
Cloud Top Pressure	Currents: Offshore
Cloud Top Temperature	Downward Longwave Radiation: Surface
Derived Motion Winds	Enhanced "V" / Overshooting Top Detection
Derived Stability Indices	Flood/Standing Water
Downward Shortwave Radiation: Surface	Ice Cover
Fire/Hot Spot Characterization	Low Cloud and Fog
Hurricane Intensity Estimation	Ozone Total
Land Surface Temperature (Skin)	Probability of Rainfall
Legacy Vertical Moisture Profile	Rainfall Potential
Legacy Vertical Temperature Profile	Sea and Lake Ice: Age
Radiances	Sea and Lake Ice: Concentration
Rainfall Rate / QPE	Sea and Lake Ice: Motion
Reflected Shortwave Radiation: TOA	Snow Depth (Over Plains)
Sea Surface Temperature (Skin)	SO2 Detection
Snow Cover	Surface Albedo
Total Precipitable Water	Surface Emissivity
Volcanic Ash: Detection and Height	Tropopause Folding Turbulence Prediction
Geostationary Lightning Mapper (GLM)	Upward Longwave Radiation: Surface
Lightning Detection: Events, Groups & Flashes	Upward Longwave Radiation: TOA
Space Environment In-Situ Suite (SEISS)	Vegetation Fraction: Green
Energetic Heavy Ions	Vegetation Index
Magnetospheric Electrons & Protons: Low Energy	Visibility
Magnetospheric Electrons & Protons: Med & High Energy
Solar & Galactic Protons
Magnetometer (MAG)
Geomagnetic Field
Extreme Ultraviolet and X-ray Irradiance Suite (EXIS)
Solar Flux: EUV
Solar Flux: X-ray Irradiance
Solar Ultraviolet Imager (SUVI)
Solar EUV Imagery

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