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Hello!

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Title: PowerPoint Presentation Author: AKK Last modified by: Vo Created Date: 7/12/2003 7:05:12 AM Document presentation format: On-screen Show Company – PowerPoint PPT presentation

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Title: Hello!


1
Hello!
2
International Virtual Observatory Alliance
Ajit Kembhavi, IUCAA,
Pune
3
Data Storage and Retrieval
The Astronomer Vermeer 1632-1675
The Library of Alexandria 3rd
Century BC
4
Star Positions
5
Stars in the Milky Way
6
The Hertzsprung-Russell Diagram
7
The Data Avalanche
  • An increasing number of telescopes and large
    area detectors are producing immense amounts of
    data through imaging and spectroscopic surveys.
  • Terabytes of data are now available, and
    Petabytes will soon be available from frequent
    all sky imaging.
  • Vast databases are also being produced through
    simulations.

8
Wavelength Coverage
  • The data spans the electromagnetic spectrum from
    the radio to the gamma-ray region.
  • Obtaining, analysing and interpreting the data in
    different wavebands involves highly specialised
    instruments and techniques.
  • The astronomer needs new tools for using this
    wealth of data in multiwavelength studies.

9
Virtual Observatories
  • Manage vast data resources and provide these
    on-line to astronomers and other users.
  • Provide tools for data analysis, visualization
    and mining.
  • Develop interoperability concepts to make
    different databases seamless.
  • Empower astronomers by providing sophisticated
    query and computational tools, and computing
    grids for producing new science.

10
VO Schema
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Interactions
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15
The Alliance
Members of the IVOA
16
IVOA Technology Initiatives
  • The IVOA has identified six major
    technical initiatives to fulfill the scientific
    goal of the VO concept.

IVOA-LISTS
17
  • REGISTRIES These collect metadata about about
    data resources and information services into a
    queryable database. The registry is distributed.
    A variety of industry standards are being
    investigated.
  • DATA MODELS This initiative aims to define the
    common elements of astronomical data structures
    and to provide a framework to describe their
    relationships.
  • UNIFORM CONTENT DESCRIPTORS These will provide
    the common language for for metadata definitions
    for the VO.

18
  • DATA ACCESS LAYER This provides a standardized
    access mechanisms to distributed data objects.
    Initial prototypes are a Cone Search Protocol and
    a simple Image Access Protocol.
  • VO QUERY LANGUAGE This will provide a standard
    query language which will go beyond the
    limitations of SQL.
  • VOTable This is an XML mark-up standard or
    astronomical tables.

19
VOTable
  • This is a new data exchange standard produced
    through efforts led by Francois Ochsenbien of
    CDS, Strasbourg and Roy Williams of Caltech.
  • VOTable is in XML format. Physical quantities
    come with sophisticated semantic information.

20
VOTable
  • The format enables computers to easily parse the
    information and communicate it to other
    computers.
  • Federation and joining of information become
    possible and Grid computing is easier.
  • VOTable parsers have been developed in Perl, Java
    and C.
  • Enhancements and extensions are being considered.

21
VOTable Data
  • The data part in a VOTable may be represented
    using one of three different formats
  • FITS VOTable can be used either to encapsulate
    FITS files, or to re-encode the metadata.
  • BINARY Supported for efficiency and ease of
    programming, no FITS library is required, and the
    streaming paradigm is supported.
  • TABLEDATA Pure XML format for small tables.

22
Science Initiatives
  • Many IVOA projects have active Science Working
    Groups consisting of astronomers from a broad
    cross-section of the community representing all
    wavelengths.
  • The focus here is to develop a clear perception
    of the scientific requirements of a VO.
  • Projects within the working groups will develop
    new capabilities for VO based analysis.
  • This will enable the community to create new
    research programs and to publish their data and
    research in a more pervasive and scientifically
    useful manner.

23
Caltech, Fermilab, JHU, NASA/HEARC, Microsoft,
NCSA/UIUC, NOAO, NRAO, Raytheon ITS, SDSC/UCSD,
SAO/CXC, STScI, UPenn, UPitts/CMU, UWis, USC,
USNO, USRA, CVO
  • NVO-People

24
Registry and DIS
25
Terapix
Jodrell Bank
26
AVO Prototype Demo Astrogrid Astronomy Catalogue
Extractor AVO AladinSED VO-IndiaVOPlot
27
CVO Collaborations
  • There are three major projects at the CVO
    involving collaborations with other VO.
  • CVO is collaborating with the German
    Astrophysical VO to incorporate ROSAT X-ray data
    and catalogues into the CVO system.
  • CVO is collaborating with the Australian VO.to
    incorporate 2Qz and 2DF galaxy spectra into the
    CVO database.
  • CVO is an associate member of NVO and is have put
    in place some components of the NVO galaxy
    morphology demo.

28
Australian VO Collaborations
  • The distributed volume renderer (dvr) software,
    is a tool for rendering large volumetric data
    sets using the combined memory and processing
    resources of Beowulf like clusters.
  • A collaboration between the Melbourne site of
    Aus-VO and AstroGrid aims to develop the existing
    dvr software into a grid-based volume rendering
    service.
  • Users will be able to select FITS-format cubes
    from a number of "Data Centres",have the data
    transferred to a chosen rendering cluster, and
    then proceed to visualise the volume of data
    remotely (See Demo).

29
Virtual Observatory - India
Persistent Systems
IUCAA
30
VO-India Projects
  • VOTable Parser in C Streaming data
  • Web based FITS browser
  • Visualizer for VIZIER
  • Statistical packages for VIZIER and beyond
  • GALics data bases
  • Data mirror sites
  • Scientific data mining
  • Applications beyond astronomy

31
The VOPLOT Collaboration
32
The VOPlot Collaboration
  • The idea for VOPlot was developed through a
    discussion between VO-I and CDS.
  • VOPlot was developed by PSPL and IUCAA and was
    integrated into Vizier with the help of CDS.
  • It was then decided to integrate VOPlot with
    Aladin, an interface was agreed on, and the
    integration is now complete.
  • The collaboration was carried through a few short
    visits, phone calls and E-mail.
  • Main persons Sonali Kale et al (PSPL), Pierre
    Fernique and Francois Ochsenbien. (CDS).

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