Linking Earth Observations to Societal Benefits: The Data Management Connection Vice Admiral Conrad C. Lautenbacher, Jr., U.S. Navy (Ret.) Under Secretary of Commerce for Oceans & Atmosphere Earth Science Information Partnership January 5 2006
Dec 28, 2015
Linking Earth Observations to
Societal Benefits:The Data Management
Connection
Vice Admiral Conrad C. Lautenbacher, Jr., U.S. Navy (Ret.)
Under Secretary of Commerce for Oceans & Atmosphere
Earth Science Information PartnershipJanuary 5 2006
Linking Earth Observations to Societal Benefits: The Data Management Connection2
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NOAA Data Management: Current and Future Challenges
Global Earth Observations: Where Data Management Makes the Difference
Integrated Observations at Work: Drought Monitor
Effective Partnerships:How ESIP Can Help
NOAA Data Management
Linking Earth Observations to Societal Benefits: The Data Management Connection4
NOAA’s Mission & Vision
NOAA’s VisionAn informed society that uses a comprehensive understanding of the role of the oceans, coasts, and atmosphere in the global ecosystem to make the best social and economic decisions
NOAA’s MissionTo understand and predict changes in the Earth’s environment and conserve and manage coastal and marine resources to meet the Nation’s economic, social and environmental needs
Linking Earth Observations to Societal Benefits: The Data Management Connection5
NOAA’s climate data holdings benefit all sectors of the Nation’s economy
Weather and climate sensitive industries account for about 1/3 of the Nation’s Gross Domestic Product
Climate data access by user type vs. platform (FY05):
Earth (In-Situ) Platform
Commercial 90%Government
6%
Academia4%
Satellite Platform
Academia5%
Commercial 25%
Government70%
Radar Platform
Government32%
Commercial 20%
Academia48%
NOAA’s Data DisseminationCritical to Economic Benefits
Linking Earth Observations to Societal Benefits: The Data Management Connection6
NOAA’s Integrated Global Observation and Data Management Plan—2005
UpdateRefined and updated observing system baseline architecture
Performing gap analysis between observing requirements and observing capabilities
Begun investment analysis to determine efficient mix of observing systems to achieve requirements
Established NOAA-wide data standards group
Linking Earth Observations to Societal Benefits: The Data Management Connection7
Comprehensive Large Array-data Stewardship System
(CLASS)CLASS is a web-based data archive and distribution system for NOAA’s environmental data
It is an evolving system which will support additional “campaigns,” broader user base, new functionality as implementation continues for the next 10 years
CLASS will be the principal IT system supporting NOAA’s responsibility as an environmental data steward
CLASS concurrently supports both ongoing operations, and the implementation of new requirements/capabilities
Linking Earth Observations to Societal Benefits: The Data Management Connection8
Access to CLASS Information
Provide for archive & access to all NOAA data
Incorporate Open Architecture & Scientific Data Stewardship
Provide an interoperable framework compatible with GEO Integrated Data Environment model
Linking Earth Observations to Societal Benefits: The Data Management Connection9
NOAA Challenges in Data Management
Managing exponentially growing data volume
Appropriately describing metadata to ensure long-term utility
Providing data in formats that enable integration
Providing clear and easy discovery of, and access to, data and information products
Collecting data at risk to extend the environmental data record
Linking Earth Observations to Societal Benefits: The Data Management Connection10
Challenges NOAA Faces in Data Dissemination
Incompatible syntax and semantics among NOAA science disciplines
Naming standards Meteorology (WMO) named “Temperature/dry bulb temperature”Meteorology (air pollution) named “Boundary layer temperature”Oceanography named “Air Temperature”
Location standards: Lat/Lon can be degrees/minutes/seconds or degrees to tenths and hundredths
Latitude E/W, 0-180 positive and negative, or 0-360 running east or westZ used to designate elevation in both atmosphere and ocean but positive is up in the atmosphere and down in the ocean
Time standards (Greenwich, local standard, local daylight)
Data Formats (>50 formats used within NOAA)
GRIB, NetCDF, HDF and others used for gridded dataBUFR, NetCDF, and many others used for observations
Observing standards – Direction
Wind: the direction the wind is coming fromOcean Current: the direction the current is going to
Thousands exist. Data & Metadata standards are needed.
Several examples:
Potential for no answer or the “wrong” answer to important societal issues
Integrated NOAA data management needed
Potential for no answer or the “wrong” answer to important societal issues
Integrated NOAA data management needed
Linking Earth Observations to Societal Benefits: The Data Management Connection11
Expected Data Growth
Linking Earth Observations to Societal Benefits: The Data Management Connection12
Global Earth Observation Integrated Data Environment
(GEO IDE)GOAL: A single system of systems (from the user perspective) that is used to access the data sets needed to address significant societal questions
NOAA will:Identify and address integration gaps in data management systems
Create interoperability across existing data management systems
With partners, develop and adopt data standards for formats and terminology
Integrate measurements, data, and products
Examine the need for future data management requirements
and will achieve:Cost avoidances in NOAA business through improved efficiency and reduced duplication
Reduced risks for US IEOS and GEOSS
NOAA will:Identify and address integration gaps in data management systems
Create interoperability across existing data management systems
With partners, develop and adopt data standards for formats and terminology
Integrate measurements, data, and products
Examine the need for future data management requirements
and will achieve:Cost avoidances in NOAA business through improved efficiency and reduced duplication
Reduced risks for US IEOS and GEOSS
Linking Earth Observations to Societal Benefits: The Data Management Connection13
Integration of data across disciplines Improved data stewardship
Increased efficiency Leverage industry and community
initiatives
Integration of data across disciplines Improved data stewardship
Increased efficiency Leverage industry and community
initiatives
Weather Climate Hydrology Oceanography Biology Geophysics
Standard procedures, protocols, metadata,
formats, terminology.Translators and middleware
GEO IDE Bridging the gaps between stove-pipe
systems
Global Earth Observations:
Where Data Management Makes the Difference
Linking Earth Observations to Societal Benefits: The Data Management Connection15
Global Earth Observation System of Systems
Integrated Observations & Data Management
Linking Earth Observations to Societal Benefits: The Data Management Connection16
Linking Earth Observations to Societal Benefits
Linking Earth Observations to Societal Benefits: The Data Management Connection17
GEO Moves Forward:Working Towards Implementation
Received approval for formal GEO organization and 10-year implementation plan
Held GEO-I in May 2005, and GEO-II in December 2005New GEO Secretariat Director, Jose Achache Agreed to 2006 Work Plan and adopted a budgetFormally created GEO Committees GEONETCast as tangible near term project to implement GEOSSUnited States announced intention to move GOES satellite to a position to help offset the lack of sounder data over South America
Integrated Observations at Work in
the United States: The Drought Monitor
Linking Earth Observations to Societal Benefits: The Data Management Connection19
USGS Streamflow
CPC Daily Soil Model
Satellite Veg Health
30-day Precip. USDA Soil Ratings
Palmer Drought Index
Drought Monitor Inputs
Linking Earth Observations to Societal Benefits: The Data Management Connection20
Map Analysis Differences Due to Late Station Reporting
LESS SEVERE
MORE SEVERE
National Integrated Drought Information System (NIDIS):
Importance to NationDrought severity can be significantly under or over-estimated due to inadequate drought observations; affects Disaster Declaration, Mitigation Strategies & Prediction
Annual direct losses to the US due to drought are $6-8 billion (FEMA)
Early emphasis: real-time updates (Cooperative Observer Network data, wells, reservoirs) & integrated information via NIDIS drought portal
Linking Earth Observations to Societal Benefits: The Data Management Connection21
National Integrated Drought Information System (NIDIS)
NIDIS:Integrated National Drought Monitoring & Forecasting SystemMulti-agency collaborationFacilitates information exchange between local, state and federal agenciesProactive, Not Passive, Drought Response
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Effective Partnerships— How
ESIP Can Help
Linking Earth Observations to Societal Benefits: The Data Management Connection23
Cross-walk of ESIP “Clusters” to GEO/USGEO Activities
ESIP “Cluster”
USGEO Societal Benefit Area
USGEO Near-Term-Opportunity
Inte
gra
ted D
ata
Man
ag
em
ent
Air Quality Human HealthAir Quality Assessment and Forecasting System
Coastal Management
OceansSea Level Observing
System
Disaster Management
Disasters Improved Observations for Disaster Warnings
Ecological Forecasting
Ecological ForecastsGlobal Land Observation
System
Public Health Human HealthAir Quality Assessment and Forecasting System
Water Management
Water ResourcesNational Integrated Drought Information
System
Linking Earth Observations to Societal Benefits: The Data Management Connection24
How can ESIP help?
Work with USGEO to advance efforts on the Near-Term-Opportunities
Continue to promote USGEO and GEO efforts and bring in stakeholders (academia, industry, scientific community, etc.)
Provide us with user feedback and input
Questions?