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NOAA Meteorological Assimilation Data Ingest System (MADIS) Current Operational Status and Future Plans

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Monday, 5 January 2015
Greg Pratt, NOAA/ESRL/GSD, Boulder, CO; and L. Benjamin, T. Kent, G. Padmanabhan, L. K. Cheatwood, M. Vrencur, T. McClung, S. Pritchett, L. J. Cano, S. Jacobs, C. Shelton, D. Saunders, and P. Jones

NOAA Meteorological Assimilation Data Ingest System (MADIS) Current Operational Status and Future Plans

Greg Pratt, Leon A. Benjamin*, Gopa Padmanabhan*, Tom Kent+, and Leigh Cheatwood+, Michael Vrencur^ NOAA Research-Earth System Research Laboratory/Global Systems Division

Timothy W. McClung. Steven Pritchett NOAA National Weather Service Office of Science and Technology

Luis Cano, Scott Jacobs, Cameron Shelton NOAA National Weather Service/National Centers for Environmental Prediction

Drew Saunders, Philip Jones NOAA National Environmental Satellite, Data, and Information Service/National Climate Data Center

*[In collaboration with the Cooperative Institute for Research in Environmental Sciences (CIRES)] +[In collaboration with the Cooperative Institute for Research in the Atmosphere (CIRA)] ^[In collaboration with Ace Info Solutions, Inc]

The Meteorological Assimilation Data Ingest System (MADIS), developed by The National Oceanic and Atmospheric Administration's (NOAA) Office of Atmospheric Research (OAR) and the National Weather Service (NWS), extends NOAA's observational networks by collecting, integrating, Quality Controlling (QC), and distributing observations from NOAA and non-NOAA organizations. MADIS leverages partnerships with international agencies; federal, state, and local agencies (e.g. state Departments of Transportation); universities; volunteer networks; and the private sector (e.g. airlines, railroads) to integrate observations from their stations with those of NOAA to provide a finer density, higher frequency observational database for use by the greater meteorological community. MADIS is collecting over 60,000 surface stations as well as upper-air datasets including satellite, wind profiler, radiometer, and automated commercial aircraft observations. MADIS adds value by applying QC techniques to the observations to assess data validity and by simplifying access to the data. Access is simplified by providing easy to use interfaces to MADIS distribution services and applying standards to the underlying data sets that comprise MADIS. MADIS can also restrict access to data based on provider needs, which allows NOAA to use the data for research and operations without impacting the provider's business model.

MADIS started as a research project in 2001 funded by both OAR and NWS. As MADIS grew the services it provided to NWS operations also grew and in 2007 the NWS and OAR started the transition effort of moving MADIS to operations at NWS. In 2010 Initial Operating Capability (IOC) was achieved at NWS. MADIS is currently running operationally at the NWS' National Centers of Environmental Prediction (NCEP) Central Operations (NCO) as part of NOAA's Integrated Dissemination Program (IDP) with MADIS data archive being provided by National Environmental Satellite, Data, and Information Service (NESDIS) National Climate Data Center (NCDC). Now that MADIS is fully operational within the NWS, MADIS efforts will focus on being a quick and efficient conduit for adding and improving NOAA's observational infrastructure.

This poster presentation will provide information on the current capabilities of MADIS and scheduled improvements to operational MADIS.

Presenting author:

Leon Benjamin NOAA/OAR/ESRL/GSD - Mail Code: R/GSD4 325 Broadway Boulder, CO 80303 voice 303-497-6031 fax 303-497-3096 email leon.a.benjamin@noaa.gov

Conference: 31st Conference on Environmental Information Processing Technologies

Requested presentation format: Poster