![]() ![]() Cloud over WAs southwest & TAS in onshore winds is triggering the odd shower. Cloud over western SA & eastern WA with a trough is bringing some showers. The product is obtained using the GLM Lightning Cluster-Filter Algorithm. Cloud over southeast QLD, northeast NSW & the Top End as moist easterlies feed troughs is causing showers & isolated storms. The baseline product from GLM is the Lightning Detection: Events, Groups and Flashes dataset ( ) Lightning radar is a tool that helps you determine where a lightning strike occurred, and can also alert you to a potential storm. GOES-16 instruments are now operating and data are available from NOAA CLASS ( GLM data are described at: This allows GLM to provide observation measurements between 52 degrees North and South latitude. In November 2017, GOES-16 (formerly GOES-R) was positioned in the GOES-EAST location centered over 75 degrees West longitude over the Western Hemisphere. Please reload the page or try again later. Wundermap Map time: Mon 11:38:08 GMT-0700 (Pacific Daylight Time) Layers Save Pref Share Settings Legend Sensor Network Weather Stations Temperature / Wind Temperature DewPoint /. Please reload the page or try again later Spark/Lightning Alerts Map TOP STORIES Failed to load Something went wrong loading the data. ![]() The product to order has the family name: GOES-R Series GLM L2+ Data Product (GRGLMPROD). Lightning Strike Map in Dallas, TX - Tracker & Radar WeatherBug Severe Storm Risk Lightning Strike Map in Dallas, TX Failed to load Something went wrong loading the data. GLM data are now available at NOAA CLASS. GLM products contain lightning events, groups and flashes. The sudden increase in flash rate that has been found to be related to storm severity can now be detected for the measurement region. Disseminating lightning information in near real time, on a continuous basis with other observable data, such as radar returns, cloud images, and other meteorological variables provides invaluable data to aid weather forecasters in detecting severe storms in time to give advance warning to the public. Scientists can now study the electrosphere over dimensions ranging from the Earth's radius all the way down to individual thunderstorms. The use of a geospatial orbit provides increased severe storm warning lead time, earlier indication of impending lightning strikes to the ground, and total lightning detection with nearly uniform spatial coverage of approximately 10 km. GLM began operation in March 2017 after a dedicated satellite and instrument spin-up period. GOES-16 (formerly GOES-R) was launched in November 2016. GLM detects all forms of lightning during both day and night, continuously, with a high spatial resolution and detection efficiency. This orbital position allows for GLM to measure a dedicated region that includes the United States with continuous views capable of providing lightning detection at a rate never before obtained from space. The Geostationary Lightning Mapper (GLM) is a satellite-borne single channel, near-infrared optical transient detector that has been placed on the GOES-16 satellite in a geostationary orbit. Geostationary Lightning Mapper (GLM) Space Research and Observations ![]()
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