E. Solano, R. Gutiérrez, B. Montesinos, C. Morales, J. García, L. Sanz LAEFF-INTA. P.O. Box 50727, 28080 Madrid (Spain) Development of a multi-mission.

Slides:

Advertisements

Similar presentations

European Space Astronomy Centre (ESAC) Villafranca del Castillo, MADRID (SPAIN) Jesús Salgado SLAP Implementations Sep 2006, Moscow, Russia Simple Line.

Advertisements

September 13, 2004NVO Summer School1 VO Protocols Overview Tom McGlynn NASA/GSFC T HE US N ATIONAL V IRTUAL O BSERVATORY.

September 13, 2004NVO Summer School1 VO Protocols Overview Tom McGlynn NASA/GSFC T HE US N ATIONAL V IRTUAL O BSERVATORY.

Remote Visualisation System (RVS) By: Anil Chandra.

CASDA Virtual Observatory CSIRO ASTRONOMY AND SPACE SCIENCE Arkadi Kosmynin 11 March 2014.

ESO-ESA Existing Activities Archives, Virtual Observatories and the Grid.

MAST-VizieR/NED cross correlation tutorial 1. Introduction Figure 1: Screenshot of the MAST VizieR Catalog Search Form. or enter here as object class:

JISC MIRAGE 2011: Repository Enrichment from Archiving to Creation Dr. Xiaohhong (Sharon) Gao Middlesex University London NW4 4BT Repository.

Updated SkyMouse and Suggestions to VO Service Developers HuaPing SUN, Chenzhou CUI China-VO National Astronomical Observatory of China.

A Smart On-line Astronomical Information Collector Chenzhou CUI, Huaping SUN China-VO National Astronomical Observatory of China.

Presentation Outline  Project Aims  Introduction of Digital Video Library  Introduction of Our Work  Considerations and Approach  Design and Implementation.

Long-Term Preservation of Astronomical Research Results Robert Hanisch US National Virtual Observatory Space Telescope Science Institute Baltimore, MD.

Presentation Outline  Project Aims  Introduction of Digital Video Library  Introduction of Our Work  Considerations and Approach  Design and Implementation.

ADASS, London Sep 23-26, 2007 VOExplorer : Visualising Data Discovery in the Virtual Observatory Jonathan Tedds University of Leicester/AstroGrid/ EuroVO.

Leicester Database & Archive Service J. D. Law-Green, J. P. Osborne, R. S. Warwick X-Ray & Observational Astronomy Group, University of Leicester What.

BinX and Astronomy Bob Mann Institute for Astronomy and National e-Science Centre.

Aus-VO: Progress in the Australian Virtual Observatory Tara Murphy Australia Telescope National Facility.

Commissioning the NOAO Data Management System Howard H. Lanning, Rob Seaman, Chris Smith (National Optical Astronomy Observatory, Data Products Program)

GAUDI Ground-based Asteroseismology Uniform Database Interface E. Solano Bases de données en spectroscopie stellaire. Paris.

Virtual Observatory --Architecture and Specifications Chenzhou Cui Chinese Virtual Observatory (China-VO) National Astronomical Observatory of China.

The Japanese Virtual Observatory (JVO) Yuji Shirasaki National Astronomical Observatory of Japan.

E. Solano Centro de Astrobiología (INTA-CSIC) I.P. Observatorio Virtual Español El Observatorio Virtual: una infraestructura básica para la investigación.

July 16, 2004P. Padovani, NEON Archive School Science with Multi- Archival Data Paolo Padovani (ST-ECF/ESO) Astrophysical Virtual Observatory Science Manager.

Dec 2, 2014 MAST Data Discovery Portal Tom Donaldson Tony Rogers.

E. Solano¹, N. Lodieu², M. Aberasturi¹, M.R. Zapatero-Osorio¹, E. Martín¹ 1.- Centro de Astrobiología (INTA-CSIC), Madrid, Spain 2.- Instituto de Astrofísica.

Functions and Demo of Astrogrid 1.1 China-VO Haijun Tian.

GENIUS kick-off - November 2013 GENIUS kick-off meeting WP400 – Tools for data exploitation X. Luri.

F. Toussaint (WDCC, Hamburg) / / 1 CERA : Data Structure and User Interface Frank Toussaint Michael Lautenschlager World Data Center for Climate.

How to Adapt existing Archives to VO: the ISO and XMM-Newton cases Research and Scientific Support Department Science Operations.

JVO JVO Portal Japanese Virtual Observatory (JVO) Prototype 2 Masahiro Tanaka, Yuji Shirasaki, Satoshi Honda, Yoshihiko Mizumoto, Masatoshi Ohishi (NAOJ),

Summary of distributed tools of potential use for JRA3 Dugan Witherick HPC Programmer for the Miracle Consortium University College.

Astronomical Spectroscopy and the Virtual Observatory ESAC, March 2007 VO tools and cross-calibration Pedro García-Lario European Space Astronomy.

F. Genova, Berlin 7, Paris, 2 December 2009 The astronomical information network.

July 16, 2004P. Padovani, NEON Archive School Science with multi-wavelength Archival Data Paolo Padovani (ESO) Virtual Observatory Systems Department &

European Space Astronomy Centre (ESAC) Villafranca del Castillo, MADRID (SPAIN) Jesús Salgado Spectroscopic lines in the VO context Mar 2007, ESAC, Madrid,

Strasbourg astronomical Data Centre (DS) Françoise GENOVA.

ESAVO/European Space Astronomy Centre (ESAC) Villafranca del Castillo, MADRID (SPAIN) Isa Barbarisi Beijing, May 2007 VOSpec new functionalities.

Making FITS available in.NET and its Applications Vivek Haridas 1, Tamas Budavari 1, William O'Mullane 1, Alex Szalay 1, Alberto Conti 2, Bill Pence 3,

Federation and Fusion of astronomical information Daniel Egret & Françoise Genova, CDS, Strasbourg Standards and tools for the Virtual Observatories.

1 Computing Challenges for the Square Kilometre Array Mathai Joseph & Harrick Vin Tata Research Development & Design Centre Pune, India CHEP Mumbai 16.

European Space Astronomy Centre (ESAC) Villafranca del Castillo, MADRID (SPAIN) Pedro OSUNA ESAC ADT Team VO-tech Cambridge 2004 VOSpec: A Tool to Handle.

Common Archive Observation Model (CAOM) What is it and why does JWST care?

Nov Common Archive Observation Model What is CAOM and why should MAST use it? Brian McLean.

Solar and space physics datasets within a Virtual Observatory: the AstroGrid experience Silvia Dalla * and Nicholas A Walton  * School of Physics & Astronomy,

European Space Astronomy Centre (ESAC) Villafranca del Castillo, MADRID (SPAIN) Applications May 2006, Victoria, Canada VOQuest A tool.

EURO-VO Structure Data Centre Alliance (DCA) A collaborative and operational network of European data centres who, by the uptake of new VO technologies.

您身边的天文 Chenzhou CUI China-VO National Astronomical Observatory of China.

Determination of stellar fundamental parameters using Artificial Intelligence techniques. Luis M. Sarro. Dpto. Inteligencia Artificial, UNED / Spanish.

Sharing scientific data: astronomy as a case study for a change in paradigm Présenté par Françoise Genova.

German Astrophysical Virtual Observatory Overview and Results So Far W. Voges, G. Lemson, H.-M. Adorf.

Nov MAST Data Discovery Portal Tom Donaldson The new website for accessing MAST data.

SVO: The Spanish Virtual Observatory Enrique Solano, LAEFF / SVO Partner’s VO Project  Census of Spanish Data Centres Partner.

AstroGrid NAM 2001 Andy Lawrence Cambridge NAM 2001 Andy Lawrence Cambridge Belfast Cambridge Edinburgh Jodrell Leicester MSSL.

F. Genova, VO as a Data Grid, 2003/06/301 Interoperability of astronomy data bases Françoise Genova, CDS.

WP8 – Assessment of emerging technologies EuroVO-AIDA – First periodic review – 24 April 2009 Françoise Genova, Project Coordinator WP8 Assessment of emerging.

Introduction to the VO ESAVO ESA/ESAC – Madrid, Spain.

European Space Astronomy Centre (ESAC) Villafranca del Castillo, MADRID (SPAIN) Pedro Osuna VOSpec Kyoto May 2005 VOSpec: A Tool to Handle VO-Compatible.

Publishing Combined Image & Spectral Data Packages Introduction to MEx M. Sierra, J.-C. Malapert, B. Rino VO ESO - Garching Virtual Observatory Info-Workshop.

Santi Thompson - Metadata Coordinator Annie Wu - Head, Metadata and Bibliographic Services 2013 TCDL Conference Austin, TX.

ESA Scientific Archives and Virtual Observatory Systems Science Archives and VO Team Research and Scientific Support Department.

February 12, 2002Tom McGlynn ADEC Interoperability Technical Working Group Report.

Introduction: AstroGrid increases scientific research possibilities by enabling access to distributed astronomical data and information resources. AstroGrid.

Archiving of solar data Luis Sanchez Solar and Heliospheric Archive Scientist Research and Scientific Support Department.

EuroVO-DCA Support to Data Centres from non-partner countries Enrique Solano INTA- Spanish VO EuroVO-DCA WP6 coordinator.

Moving towards the Virtual Observatory Paolo Padovani, ST-ECF/ESO

Planning Observations

A Virtual environment on

X-ray high resolution spectra in the VO: the case of XMM-Newton RGS

WISE and INSPIRE By Albrecht Wirthmann, GISCO, Eurostat

Presentation transcript:

E. Solano, R. Gutiérrez, B. Montesinos, C. Morales, J. García, L. Sanz LAEFF-INTA. P.O. Box 50727, Madrid (Spain) Development of a multi-mission Archive at LAEFF Astronomical archives have been built independently of each other and their remote interoperability is not easy and efficient. The simultaneous query to multiple databases is presently done, most of the times, slowly and painfully by hand as the databases are spread all over the globe with a variety of formats, access levels and policies. An uniform, multi-mission user interface to these heterogeneous data holdings is therefore an essential requirement for multi-wavelength astrophysical research. The main purpose of this project is the development of an interface that provides an easy and efficient access to astronomical databases. In a first phase, the system focuses on the integration of the UV data - INES( and EURD ( - with spectrophotometric catalogues and photometric measurements in the optical range. A further extension to other databases both of space and ground-based observatories is foreseen. In the long-term, the system is aimed at being incorporated to the VO federation, consolidating LAEFF as the reference centre for astronomical databases in Spain. In this poster, the main functionalities and contents of the system are described. Astronomical archives have been built independently of each other and their remote interoperability is not easy and efficient. The simultaneous query to multiple databases is presently done, most of the times, slowly and painfully by hand as the databases are spread all over the globe with a variety of formats, access levels and policies. An uniform, multi-mission user interface to these heterogeneous data holdings is therefore an essential requirement for multi-wavelength astrophysical research. The main purpose of this project is the development of an interface that provides an easy and efficient access to astronomical databases. In a first phase, the system focuses on the integration of the UV data - INES( and EURD ( - with spectrophotometric catalogues and photometric measurements in the optical range. A further extension to other databases both of space and ground-based observatories is foreseen. In the long-term, the system is aimed at being incorporated to the VO federation, consolidating LAEFF as the reference centre for astronomical databases in Spain. In this poster, the main functionalities and contents of the system are described. Basic information Query by: Object Name Coordinates List of Objects Date On-going and future enhancements Query by object type and/or physical parameters (magnitude, spectral type, redshift,...). Implementation of plotting facilities. Multiple retrieval. Imaging facilities. Development of tools for data evaluation and analysis. Educatonal and outreach activities. Future Access to other Archives Contacts with  MAST: (non-HST UV data)  GTC: OSIRIS/CANARICAM  IRSA  ESA: ISO Link to INES Data Server Name ResolverLink to SIMBAD FITS Header Display General Information IUE References with link to ADS