VMO Team & CommunityDatasets and Services
ArchitectureTimeline
The Virtual MagnetosphericObservatory
VMO
Jan Merka1
1University of Maryland Baltimore County, GEST, MD ([email protected])
The Evolving Heliophysics Data Environment: VxO Kickoff
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
The VMO Team
Jan Merka UMBC PIJeremy Faden Cottagesystems PAPCOHoma Karimabadi SciberQuest Inc. Data miningGuan Le NASA/GSFC ST-5Jonathan Niehof Boston University SCATHAWilliam Paterson Hampton University Geotail CPITim Quinn Univ. of California Berkeley THEMISAaron Roberts NASA/GSFC ViSBARDDavid Sibeck NASA/GSFC Science LeadEric Kihn NOAA/NGDC GOESDaniel Morrison JHU/APL VITMOTom Narock L-3 Com. GSI MiddlewareWilliam Peterson University of Colorado Polar TIMASAdam Szabo NASA/GSFC VHO
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Science Focus
The initial data sets and VMO design will facilitateData discovery
What kind of data is available (e.g., spacecraft, instrument)?Smart content search
Complex queries to quickly find subsets of dataMultispacecraft correlative studies
Dayside magnetospheric interactionsSubstormsMagnetic reconnection
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Science Focus
The initial data sets and VMO design will facilitateData discovery
What kind of data is available (e.g., spacecraft, instrument)?Smart content search
Complex queries to quickly find subsets of dataMultispacecraft correlative studies
Dayside magnetospheric interactionsSubstormsMagnetic reconnection
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Science Focus
The initial data sets and VMO design will facilitateData discovery
What kind of data is available (e.g., spacecraft, instrument)?Smart content search
Complex queries to quickly find subsets of dataMultispacecraft correlative studies
Dayside magnetospheric interactionsSubstormsMagnetic reconnection
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Science Focus
The initial data sets and VMO design will facilitateData discovery
What kind of data is available (e.g., spacecraft, instrument)?Smart content search
Complex queries to quickly find subsets of dataMultispacecraft correlative studies
Dayside magnetospheric interactionsSubstormsMagnetic reconnection
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Community Involvement and Feedback I
VMO’s MissionHelp the community to find and use magnetospheric data.
Thus, a wide consensus and acceptance is crutial for VMO success.To ensure community participation the following measures will betaken:
VMO user interface and APIFeedback on usability and featuresCollect usage/access statistics
VMO designReuse successful features and components of current VxOsClosely collaborate with other VxOs
To be continued...
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Community Involvement and Feedback I
VMO’s MissionHelp the community to find and use magnetospheric data.
Thus, a wide consensus and acceptance is crutial for VMO success.To ensure community participation the following measures will betaken:
VMO user interface and APIFeedback on usability and featuresCollect usage/access statistics
VMO designReuse successful features and components of current VxOsClosely collaborate with other VxOs
To be continued...
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Community Involvement and Feedback I
VMO’s MissionHelp the community to find and use magnetospheric data.
Thus, a wide consensus and acceptance is crutial for VMO success.To ensure community participation the following measures will betaken:
VMO user interface and APIFeedback on usability and featuresCollect usage/access statistics
VMO designReuse successful features and components of current VxOsClosely collaborate with other VxOs
To be continued...
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Community Involvement and Feedback II
Continued...
Standard data description (metadata)SPASE+ terms (collaborate with the SPASE group)Broad data provider participation
Add-on servicesMonitor which services are desiredAssist service providers with interfacing the VMOEncourage submission of new proposal to enhance VMO dataand service capabilities
Issue SPA newsletter announcementsAdvertise new servicesRequests for comments
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Community Involvement and Feedback II
Continued...
Standard data description (metadata)SPASE+ terms (collaborate with the SPASE group)Broad data provider participation
Add-on servicesMonitor which services are desiredAssist service providers with interfacing the VMOEncourage submission of new proposal to enhance VMO dataand service capabilities
Issue SPA newsletter announcementsAdvertise new servicesRequests for comments
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Community Involvement and Feedback II
Continued...
Standard data description (metadata)SPASE+ terms (collaborate with the SPASE group)Broad data provider participation
Add-on servicesMonitor which services are desiredAssist service providers with interfacing the VMOEncourage submission of new proposal to enhance VMO dataand service capabilities
Issue SPA newsletter announcementsAdvertise new servicesRequests for comments
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Feedback Methods
Annual meetings at conferences (especially at AGU)Directly contacting any VMO team memberOn-line at http://vmo.nasa.gov
E-mailComment submission through a web interface
Statistical information about the VMO usagehttp://vmo.nasa.gov/awstats/awstats.pl?config=vmo
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Usage Information Example
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Usage Information Example
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
TeamScience CommunityCommunity Involvement
Usage Information Example
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
DatasetsServices
Initial VMO DatasetsMission Data Type (Instrument) Data Set Location CoverageAMPTE/CCE Magnetic field NASA/GSFC, JHU/APL 1984–1988
Energetic particles (MEPA) JHU/APLAMPTE/IRM Magnetic field, Plasma KP NASA/GSFC 1984–1986AMPTE/UKS Magnetic field, Plasma KP NASA/GSFC 1984–1985GOES 5–12 Magnetic field NOAA/NGDC 1983–nowGeotail Magnetic field CDAWeb 1992–now
Plasma key parameters (CPI) Hampton UniversityEnergetic particles (EPIC) JHU/APL
IMP 8 Magnetic field NASA/GSFC 1973–2000Plasma key parameters 1973–now
ISEE-1/2 Magnetic field NASA/GSFC 1983–1987Energetic particles (WAPS) JHU/APL
Polar Magnetic field, Plasma par. (TIMAS) CDAWeb 1996–nowPrognoz-10 Magnetic field, Ion flux NASA/GSFC 1985SCATHA Magnetic field, Plasma parameters Boston University 1979–1986ST-5 Magnetic field NASA/GSFC 2006THEMIS Magnetic & electric fields UC Berkeley [2006–. . . ]
Plasma parametersWIND Magnetic field (MFI), Plasma KP (SWE) NASA/GSFC 1995–now
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
DatasetsServices
Services
DefinitionA service is a web or local application that uses VMO’s API.
Core servicesLocate and deliver data pointers from a set of data sourcesbased on user provided query.
Added value servicesModular, community-need driven, interact with VMO’s APIWe focus on defining the API and to provide example services:
Data Mining to achieve smarter search capabilityPAPCO for data visualization and analysisViSBARD for 3-D data display along spacecraft orbitsSoftware Library to provide data handling tools to thecommunity and/or to facilitate community development ofsoftware tools
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
DatasetsServices
Services
DefinitionA service is a web or local application that uses VMO’s API.
Core servicesLocate and deliver data pointers from a set of data sourcesbased on user provided query.
Added value servicesModular, community-need driven, interact with VMO’s APIWe focus on defining the API and to provide example services:
Data Mining to achieve smarter search capabilityPAPCO for data visualization and analysisViSBARD for 3-D data display along spacecraft orbitsSoftware Library to provide data handling tools to thecommunity and/or to facilitate community development ofsoftware tools
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
DatasetsServices
Services
DefinitionA service is a web or local application that uses VMO’s API.
Core servicesLocate and deliver data pointers from a set of data sourcesbased on user provided query.
Added value servicesModular, community-need driven, interact with VMO’s APIWe focus on defining the API and to provide example services:
Data Mining to achieve smarter search capabilityPAPCO for data visualization and analysisViSBARD for 3-D data display along spacecraft orbitsSoftware Library to provide data handling tools to thecommunity and/or to facilitate community development ofsoftware tools
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
The VMO EnvironmentData Model
Architecture of the VMO Environment
Main components:1 VMO Middleware2 Data products3 Services4 Other VxOs
Key technologies:SOAP, WSDL, XML, rsync
Data model:SPASE+
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
The VMO EnvironmentData Model
Architecture of the VMO Environment
Main components:1 VMO Middleware2 Data products3 Services4 Other VxOs
Key technologies:SOAP, WSDL, XML, rsync
Data model:SPASE+
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
The VMO EnvironmentData Model
Architecture of the VMO Environment
Main components:1 VMO Middleware2 Data products3 Services4 Other VxOs
Key technologies:SOAP, WSDL, XML, rsync
Data model:SPASE+
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
The VMO EnvironmentData Model
SPASE+ Data Model
SPASE+ will be based on the SPASE data modelhttp://www.igpp.ucla.edu/spase
Developed by a broad consortium of space physics communitymembersAlready used by other VxOs (e.g., VSO, VHO)However, not detailed enough for VMO needs
Develop SPASE+ in coordination with other VxOs and theSPASE committee (A. Roberts is a member of both the VMOteam and SPASE committee)SPASE+ extensions will be submitted to the SPASEconsortium for a possible inclusion in the next version of theSPASE model
J. Merka The VMO (http://vmo.nasa.gov)
VMO Team & CommunityDatasets and Services
ArchitectureTimeline
Project Timeline
J. Merka The VMO (http://vmo.nasa.gov)