• Welcome to the User Workshop and Training on Fire Monitoring

    An online event through interactive data discovery and user practices on state-of-the-art operational datasets for detection of fire, related emissions and impacts

    Jointly organized by EUMETSAT, CAMS-ECMWFAC SAFLSA SAF

    with support from Copernicus

      Data Discovery Week 
              11-15 May - Daily webinars with experts on datasets with interactive handling (open access).

      Data Discovery Resources
              A collection of videos and presentations of datasets designed for the training workshop, but open to all.     

              18-19 May - A two day workshop on practical workflows and user needs (for registered participants only).

  • 7 Copernicus Sentinel-3 Near Real Time (NRT) FRP

    In addition to its core marine and continental objectives, the Copernicus Sea and Land Surface Temperature Radiometer (SLSTR), onboard the Sentinel-3 A and B satellites, detects and monitors the immediate threats of any 'burning' events over an area size of 1 km2. Commonly gathered under the term of hotspots, these are not only fires over continents, but also flames from persistent land and ocean gas flares, and active erupting volcanoes.

    The Copernicus Sentinel-3 (S3) Near Real Time (NRT) FRP product, implemented by EUMETSAT, monitors in a short time the location and associated threat (i.e. total radiative power) of all land and ocean hotspots detectable on our planet. It is applicable to agricultural burning, wildfires, deforestation, tropical peatland fires, industrial gas flares, and volcanoes, all emit radiative signatures with a high seasonal and geographical variability.

    Sentinel-3 A SLSTR - NRT FRP MWIR [MW] - 05.12.2019 (night-time)

    The EUMETSAT deployment is based on the NRT FRP v2.0 processor. The current version of the NRT S3 FRP product is considered as 'preliminary operational'. It is mainly applicable during nighttime. EUMETSAT is responsible for the generation and quality of the Sentinel-3 NRT FRP product, as well as its long-term validation and improvements, acting on behalf of the European Commission (EC).

    The spectral wavelength at which the heating signal is maximal depends on the hot-spot temperature. Indeed, vegetation fire signals peak in the Medium Wave InfraRed (MWIR), between 3 and 5 µm, while hotter bodies, like industrial gas flares, may exhibit a higher signal in the ShortWave InfraRed (SWIR), between 1.5 and 2.3 µm. Consequently, two FRP techniques are employed: one based on the Medium Wave InfraRed (MWIR) channels, at 3.7 um, one based on the Short Wave InfraRed (SWIR).

    Sentinel-3 A SLSTR - NRT FRP SWIR [MW] - 26.04.2020 (night-time) - Industry gas flares in Persian Gulf

    One of the key users of this product is the Copernicus Atmosphere Monitoring Service (CAMS), who is responsible for tracking the intensity and emissions of wildfires around the world. EUMETSAT and CAMS have a long-standing cooperation, with EUMETSAT having developed an operational Copernicus data stream to CAMS and providing its satellite data and products in order for them to provide accurate and timely air-quality forecasts across the globe.

    CAMS will assimilate the Sentinel-3 NRT FRP product, into their own air quality-forecasting model, the data from which gets broadcast via Euronews and CNN International, in order to clearly show society at large how air quality might impact people’s day-to-day lives, so that they can make decisions on their exposure to pollution more easily. CAMS, implemented by the European Centre for Medium-Range Weather Forecasts (ECMWF) on behalf of the European Commission, will use its Global Fire Assimilation System (GFAS) to assimilate the NRT Copernicus S3 FRP product, in addition to currently assimilated satellite FRP products, in order to provide global biomass burning smoke emissions in a timely and effective manner. Currently, GFAS assimilates FRP from MODIS space-borne sensors, from both Terra (morning) and Aqua (afternoon) satellites. Both have been operated beyond their nominal lifetime. Hence, GFAS is currently under preparation to be able to ingest the NRT S3 FRP product soon. In the future, NRT S3 FRP, combined with GFAS, will likely be the only source of global information for fires and hotspots in the early morning and evening.


    6 Eumetsat LSA-SAF