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GOFC/GOLD and CEOS LVP Geostationary Fire Monitoring Workshop: Meeting Goals and Objectives EUMETSAT, Darmstadt, Germany 23 March 2004. Elaine M. Prins GOFC/GOLD Fire Implementation Team NOAA/NESDIS/ORA ASPT. Workshop Priorities.
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GOFC/GOLD and CEOS LVPGeostationary Fire Monitoring Workshop: Meeting Goals and ObjectivesEUMETSAT, Darmstadt, Germany 23 March 2004 Elaine M. Prins GOFC/GOLD Fire Implementation Team NOAA/NESDIS/ORA ASPT
Workshop Priorities • Address GOFC/GOLD Fire Objective:To develop an operational global geostationary fire network providing observations of active fires in near real time The diurnal cycle of fire activity means that polar orbiting satellite systems provide only a sample of the daily fire activity. In some regions the fires are short-lived, lasting no more than a couple of hours. In other systems fires will burn throughout the day. Geostationary systems providing frequent acquisitions give perhaps the best opportunity to detect active fires from space……… Developing an international network of geostationary satellites with standard products would provide an important advance for monitoring active fires.
Workshop Priorities – cont. • Applications of geostationary satellites for fire risk assessment and post-fire changes in surface characteristics including the use of albedo products • Accuracy Assessment: a vital and necessary component in the implementation of a global geostationary fire monitoring network • Report outlining the rationale, applications, validation and plans to implement a global geostationary fire monitoring system
Specific Workshop Goals and Objectives • Review current and future geostationary satellite sensors (GOES, MSG, MTSAT) and capabilities for active fire detection and pre- and post-fire monitoring applications • Identify global/regional user product requirements, specifications, and applications • Review algorithm development activities, product generation, and availability • Evaluate the feasibility of a coordinated near real-time global geostationary fire monitoring applications system • Develop timeline and list of participants involved in the implementation of a global geostationary monitoring system • Identify validation activities • Discuss ways to generate integrated polar and geostationary products for enhanced global monitoring.
Workshop Format: Plenary Sessions • Plenary Session 1- Rationale for a Global Geostationary Fire Product - Overview of Geostationary Systems for Fire Monitoring • Plenary Session 2- Algorithm Development- Applications and Requirements- Operational Geostationary Fire Monitoring Systems • Plenary Session 3- Validation Activities
Workshop Format – Discussion Sessions • Discussion Session 1: Global Geostationary Fire User NetworkWhat are the user requirements, specifications, applications for pre- and post-fire monitoring and active fire detection? Do current geostationary algorithms meet these needs? What are the priorities? • Discussion Session 2: Global Geostationary Fire Algorithm Development StatusWhat is the status of algorithm development for a global geostationary fire monitoring system? What is currently available? What research is needed? What are the priorities? • Discussion Session 3: Global Geostationary Fire Monitoring System RoadmapWhat is the feasibility of a coordinated near real-time global geostationary fire monitoring applications system? What is the timeline? Who are the participants involved in the implementation of a global geostationary fire monitoring system? Demonstration plan? What are the plans for operational multi-sensor data fusion? • Discussion Session 4: Validation Plans What validation activities need to be done? Can we tie into larger programs? What is available?