1 / 15

EGSO A Virtual Observatory for solar and heliospheric physics

EGSO A Virtual Observatory for solar and heliospheric physics. Rob Bentley (UCL/MSSL), Isabelle Scholl (ISU) and the EGSO Team Super Computing 2004 Pittsburgh, 7-12 November 2004 http://www.egso.org. EGSO – European Grid of Solar Observations.

loyal
Download Presentation

EGSO A Virtual Observatory for solar and heliospheric physics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. EGSOA Virtual Observatory for solar and heliospheric physics Rob Bentley (UCL/MSSL), Isabelle Scholl (ISU) and the EGSO Team Super Computing 2004 Pittsburgh, 7-12 November 2004 http://www.egso.org

  2. EGSO – European Grid of Solar Observations • EGSO is a Grid test-bed related to a particular application • Addresses the generic problem of linking a distributed heterogeneous data set, and serving a scattered user community • Designed to improve access to solar data for the solar physics and other communities by establishing a virtual observatory • Funded under the Information Society Technologies (IST) thematic priority of the EC’s Fifth Framework Program (FP5) • Objectives include: • Building enhanced search capability for solar data • Support of user community scattered around the world • Provide enhanced access to data archives and observatories around the world • Where possible, provide ability to process data at source

  3. The Solar Virtual Observatory family Partners and collaborators provide expertise in solar physics and IT UKUniversity College London: UCL-MSSL (PI) & UCL-CS, Rutherford Appleton Laboratory, University of Bradford France Institut d’Astrophysique Spatiale (Orsay), Obs. de Paris-Meudon, International Space Univ. (Strasbourg) Italy Istituto Nazionale di Astrofisica, Politecnico di Torino INAf includes Obs. of Turin, Trieste, Florence and Naples SwitzerlandUniversity of Applied Sciences (Aargau) USSolar Data Analysis Center at NASA-GSFC (Greenbelt, MD), National Solar Observatory (Tuscon, AZ) SDAC and NSO are also part of the US VSO Belgium Royal Observatory of Belgium NetherlandsESA-ESTEC – Solar Group US VSO: Stanford University, Montana State University CoSEC: Lockheed-Martin VSPO: LEP at NASA-GSFC (Lab. Extraterrestrial Physics)

  4. 16JAN03 31JAN03 Heliosphere 2x106 K Corona 8x104 K Chromosphere-TR 6x103 K Photosphere Surface Magnetic Field Use of solar observations • The appearance of the Sun changes dramatically with wavelength • Emissions originate from different layers in the atmosphere and different physical phenomena • For a complete picture we need to use as wide a range of observations as possible • Mixture of multi-wavelength observations from space- and ground-based platforms • Identifying observations that match some User search criteria and then retrieving them are major problems

  5. Linking solar data into a wider context • Increasing desire to use solar data in study problems that span communities • Space weather • heliosphere, magnetosphere, ionosphere… • Climate physics • Planetary physics • Astrophysics • Need to find ways of tying the data from different communities together • Single data model covering all solar system not practical • Intersecting data models in a general pool should be possible

  6. Space Weather affects human activities • Electrical power distribution • Long-line telephone communications • Pipeline operations • Geophysical exploration • Navigation • HF radio Communications • High-altitude flights • Satellite operations • Space Shuttle and Space Station activities

  7. The Generic Query • Identify suitable observations (many serendipitous) • Want to access as many different types of data as are available • Identification should be possible without accessing the data • Data volumes are increasing rapidly - SDO will produce 2 TB/day • User only wants to know if data addressing a problem exists • Locate the data • Data scattered, with differing means of access (some proprietary) • Large and small data providers, with varying resources • Process the data • Involves extraction and calibration of a subset of raw data • Often only need a subset of each data set • Return results to the User • Compare results from different instruments • SolarSoft (IDL) provides a standard platform for analysis EGSO is placing a lot of emphasis on the first item!

  8. The EGSO Search Engine EGSO is improving the quality and availability of metadata • Enhanced cataloguing describes the data more fully • Standardized versions of observing catalogues (UOC)tie together the heterogeneous data sets • Search Registry, an abstraction of entries in the UOC, enables narrowing of the search in initial stages • New types of catalogue allow searches on events, features and phenomena, not just date & time, pointing, etc… • Solar Event Catalogue (SEC) - derived from published lists • Solar Feature Catalogue (SFC) - generated by feature recognition • Ancillary data used to assist the User in the search • QLK Server provides Phone book access to images, etc. • DSO Server gives Yellow Page information on instruments Similar hierarchical cataloguing techniques are required in other Grid projects handling diverse data sets

  9. SR • Time coverages • instrument • observing date start • observing date end • observing parameter name • observing parameter value • data source DSO Built from • Database of solar observations • instrument • observatory • EGSO available? • observing location • observing interval • description …. UOC Manually Built • Solar Observations • date start • date end • wavelengths • coordinates • ….many more relevant characteristics needed for searches Data Archives SEC/SFC QKL • Event/Feature Catalogs • catalog name • event name • observing date • description …. Built from Catalogue relationships Objective of the improved metadata, etc. is to be able to pose questions like: Identify events when a filament eruption occurred within 30° of the north-west limb and there were good observations in H, EUV and soft X-rays

  10. Results ARCHIVES EGSO GRID Cat. Provider GUI Consumer Broker Provider GUI Consumer Broker Provider GUI API • Architecture defined in terms of three roles: • Consumer, BrokerandProvider Special Providers After R. Linsolas, IAS Simplified Architecture Consumer supports GUI and API access Archive access can be by FTP, HTTP, Web Services, cgi-bin… through adaptor modules Brokers manage the metadata and decides and allocates resources SEC, SFC, UOC, DSO, QLK, CoSEC

  11. The UOC and Search Registry • Unified Observing Catalogue (UOC) • Unified form of observing catalogues that tie together the heterogeneous data, leaving the data unchanged • Increase interoperability by using “standard” coordinate formats • Self describing, with dependencies on ancillary data or proprietary software removed (and with any errors corrected) • Standards defined for future data sets (e.g. STEREO, ILWS, Solar-B) • Search Registry is an abstraction of entries in the UOC • It reduces interactions with Providers without data matching the search • The Registry allows the Broker to identify instruments that: • have data properties matching the search - Static SR • probably have observations during search time interval - Dynamic SR • Static Search Registry is able to support access to different types of data from solar and heliospheric observations • Describes instrument capabilities & observing objectives • First step in search - later steps handled br dSR and within other VOs • EGSO sSR includes instruments on Ulysses, ACE, Cassini, SDO, STEREO… The logic behind the UOC addresses a universal problem - it allows the observations to be described in more interoperable way Similarities in the way we use data means that the static Search Registry can be used to tie solar and heliospheric data together. Planetary data could easily be added…

  12. Locating the data • Data could be located anywhere in the world • User only needs to know observations exist, not where located • System should isolate the user from the intricacies of access • System should be able to optimize use of sources • Choice of source - most capable, closest, least used, etc. • Handles replicated data and aggregated sources • Must respect any use policies and ensure data integrity • Burden on data providers minimized to encourage participation • In EGSO, data sources are interfaced by the Provider Role • Broker uses Data Registry to formulate requests to data sources • Which instrument data sets are hosted by each data archive • Which data archives interfaced to each Provider Role • Provider Role uses adaptor modules to manage access protocols • Standardizes way data source interface appears to the system and simplifies addition of new data sources • Also allows access to data “hosted” by other VOs

  13. Query Work Flow • User specifies query through the GUI or API • Static Search Registry narrows the search, based on the criteria specified in the query • Identifies instruments that make the desired type of observations • Search can includes solar, heliospheric, etc… instruments • Dynamic Search Registry determines (at some granularity) which were actually observing • Includes pointing, observatory location… • List of instruments identified as possibly having data returned to the User who refines selection • Data Registry used to locate archive holding the instrument data and make data request • List of files returned that can be retrieved directly, used to generate data products, etc. • Convert to processed products if required

  14. Summary • EGSO has become a principal player in the virtual observatories covering solar and heliospheric physics • Already able to exchange of information and resources between the solar VO projects • Approaches of the solar VOs very complementary • Links into the space plasma VOs developing rapidly • The layered approach to metadata greatly simplifies interoperability with other VOs • Similar techniques applicable to similar Data Grid • Demonstration of capabilities at the EGSO stand http://www.egso.org

More Related