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Key Results from GALEON

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Title: GALEON Phase 1 Reports, Phase 2 Plans Author: Ben Domenico Last modified by: unidata Created Date: 3/3/2006 5:27:42 PM Document presentation format – PowerPoint PPT presentation

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Title: Key Results from GALEON


1
Key Results from GALEON
  • John Caron
  • Ben Dominico
  • UCAR/Unidata

2
Background
  • Open GIS Consortium (OGC)
  • Industry/government consortium for creating
    interoperable standards for GIS
  • Commercial, not open source
  • Web Coverage Service (WCS)
  • Client-server protocol for coverage data
    (satellite data seems to be their main use case)
  • XML over HTTP / SOAP
  • Specification version 1.0 (1.1 almost ready)
  • GALEON OGC interoperability experiment for WCS
    clients and servers

3
GALEON Objectives
  • Determine suitability of WCS interface for
    serving model data to GIS community (4D vs 2D)
  • Examine possibility of extending WCS to add
    netCDF to current blessed encodings
  • GeoTIFF (TIFF with geospatial tags)
  • HDF-EOS (HDF4 plus NASA metadata)
  • DTED (NIMA/DOD digital elevation)
  • NITF (NIMA/DOD images)
  • GML (OGC XML data encoding)
  • Experiment with GML (Geography Markup Language)
    dialects and netCDF files
  • Make recommendations to WCS 1.1 spec

4
Active Participants
  • Unidata/UCAR (Ben Domenico, John Caron)
  • U of Florence and IMAA-CNR (Stefano Nativi,
    Lorenzo Bigagli)
  • International University Bremen (Peter Baumann)
  • George Mason University (Liping DI, Wenli Yang)
  • CadCorp (Martin Daly, Frank Warmerdam (GDAL))
  • Research Systems International UK Ltd (David
    Burridge, Norman Barker) (IDL)
  • NCDC, National Climatic Data Center (Glenn
    Rutledge, Dan Swank)
  • NERC Natural Environment Research
    Council/British Atmospheric Data Center (Dominic
    Lowe, Andrew Woolf)
  • Washington University St. Louis (Stefan Falke,
    Rudolf B. Husar)
  • Providing Specialized Expertise
  • Interactive Instruments (Clemens Portele)
  • NASA Geospatial Interoperability Office (John
    Evans)

5
TDS GALEON Development
  • Process WCS GET requests (not SOAP)
  • Generate WCS XML documents
  • Map bounding boxes to index ranges
  • No regridding, no reprojection, want raw data
  • Create GeoTIFF images
  • Greyscale min/max -gt 1..255
  • DataSample Floating point (optional for readers)
  • No standards for missing data, time/vertical
  • Only implemented a few projections
  • Create subsetted netCDF/CF files
  • OPeNDAP WCS service
  • http//motherlode.ucar.edu8080/thredds/wcs?datase
    tdodsURL

6
NERC DataGrid Development
  • Created prototype WCS server (with TPAC)
  • Reads from various backend providers
  • Currently OPeNDAP
  • DataExtractor tool (NDG), GADS (Univ Reading),
    CSML (NDG)
  • Serves subsetted NetCDF/CF
  • Recommendations to clarify WCS
  • Investigate CSML as potential format, referencing
    netCDF through xlink or gmlFile.

7
Other WCS/netCDF Servers
  • Univ Florence (Nativi et al)
  • Also experiment with NcML-GML
  • Intl Univ Bremen (Baumann et al)
  • Import netCDF data into PostgreSQL database
  • Aggregate multiple files into a single database
    object
  • Rasdaman maps raster data to relational tuples,
    SQL variant queries.
  • Wash Univ St Louis (Husar et al)
  • Also tried to serve collection of irregularly
    located points
  • George Mason University (Liping DI et al)

8
WCS/NetCDF clients
  • DataFed (Wash Univ St Louis)
  • George Mason University
  • SIS/GDAL, CadCorp (Martin Daly, Frank Warmerdam
    (GDAL))
  • IDL, Research Systems International
  • Non-WCS
  • ESRI (local NetCDF/CF files) ArcGIS 9.2

9
Accomplishments
  • Recommendation for NetCDF as a WCS encoding (1.0)
  • Recommendations for changes to WCS 1.1
    specification
  • Peter Baumann
  • Andrew Wolfe
  • Stefano Nativi
  • Develop netCDF application profile (1.1)
  • Investigation of GML applications profiles for
    explicit netCDF semantics (ncML-GML, CSML)

10
Plans for Phase 2
  • For continued experimentation with WCS
    implementation, use GALEON OGCnetwork
  • Additional client implementations
  • New datasets
  • For WCS and GML specifications, continue as OGC
    GALEON Interoperability Experiment
  • Collaborate closely with
  • OGC GEOSS Services Network (GSN)
  • GMLJP2 (GML JPEG2000)

11
CF-netCDF WCS 1.1 Profile
  • Brief Description
  • Documentation
  • Standard names
  • Units
  • Coordinate types
  • Coordinate systems
  • Grid mappings
  • Time coordinate(s)
  • Code for Implementing netCDF Interface
  • Support
  • CF-netCDF and Coverage (ISO 19123) Data Model
    Mapping
  • Limitations
  • Compliance Testing

12
Changes Proposed in WCS 1.1
  • WCS encoding profiles instead of fixed list of
    encoding formats
  • Multiple variables or parameters or fields
    in a coverage (e.g., pressure, temperature, etc.)
  • Coverages with 3 spatial dimensions
  • Coverages with multiple time dimensions (e.g.
    forecast time in model output)
  • Non-spatial height dimension, (e.g.,
    atmospheric pressure, ocean density)
  • Irregularly-spaced grids
  • Are collections of point observations and
    trajectories coverages or features?

13
Summary
  • A handful of clients and servers have
    demonstrated feasibility
  • Commercial vendors are actively participating
    (RSI, ESRI, CADCORP)
  • GEOSS demonstrations involve WMS clients getting
    data from GALEON WCS servers
  • Finished netCDF profile is key other profiles
    are needed (e.g., OPeNDAP, HDF-EOS, GeoTIFF)
  • Most WCS limitations are being addressed in 1.1
  • With proposed changes, WCS should be viable for
    model datasets
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