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Transcript of GEOSS Architecture Implementation Pilot Water Information Services with GEOSS Interoperability...
GEOSS Architecture Implementation Pilot
Water Information Services with GEOSS Interoperability Arrangements
George PercivallOpen Geospatial Consortium
Task lead AR-09-01B
April 2011 ISRSE Sydney
OperationalCapability
OperationalCapability
UserNeeds,
Scenarios
UserNeeds,
Scenarios
Design, Develop,Deploy
Design, Develop,Deploy
ADC activities including:
ArchitectureImplementation
Pilot (AIP)Task AR-09-01b
GEOSS CommonInfrastructure (GCI)Task AR-09-01a
support
persistentimplementation
requirements
SBA Tasks,UIC, CBC, STC
A process, elaboration of GEOSS Architecture
GEOSS Interoperability ArrangementsGEOSS Interoperability Arrangements- From the GEOSS 10 Year Plan Reference Document - - From the GEOSS 10 Year Plan Reference Document -
• Interoperability through open interfaces– Interoperability specifications agreed to among contributing
systems– Access to data and information through service interfaces
• Open standards and intellectual property rights– GEOSS adopting standards; agreed upon by consensus,
preference to formal international standards– GEOSS will not require commercial or proprietary standards– Multiple software implementations compliant with the open
standards should exist– Goal is that at least one of the implementations should be
available to all implementers "royalty-free"
GEO Task AR-09-01bArchitecture Implementation Pilot
“fostering interoperability arrangements and common practices for GEOSS”
Water Ontology
Global Drought Monitor Portal
EDO Drought Index
AIP-3 Results - February 2011
• Informatics Areas– Engineering Use
Cases– Data Harmonization– Data Sharing
– Semantics
• SBAs Areas– Energy– Disaster Management– E-Habitat– Arctic SDI– Air Quality
– Water - Drought
AIP Architecture Elements
• Components – Manageable units hardware, software, networks
• Services– Methods for components to interact using GEOSS
Interoperability Arrangements • Use Cases
– Describe what can be done with Services, e.g., Discovery, Access, Workflow, etc.
• Scenarios – Meet SBA User needs;
accomplished with Use Cases
GEOSSClearinghouse
GEO Web Portal
GEOSS Common Infrastructure
Components & Services
Standards andInteroperability
Best PracticesWiki
User Requirements
Registries
Main GEOWeb Site Registered Community Resources
Community Portals
Client Applications
Client Tier
Mediation Tier
CommunityCatalogues
AlertServers
WorkflowManagement
ProcessingServers
Test Facility
SearchBrokers
Access Tier
GEONETCastAccess Brokers
Sensor Web
ModelWeb
Long Term Archives
Components Interact thru Services
AIP Use Cases
Drought Scenario and Use Cases (simplified)
Reference: “Global Drought Monitoring Service through the GEOSS Architecture”, Drought and Water Working Group, Engineering Report, GEO AIP-3, February 2011
European Drought Observatory use of EuroGEOSS
Contact: Stefano Nativi
Semantics applied to Water in GEOSSGEO Tasks: Semantics, DIAS, AIP
• Ontology Engineering• Integration of independent thesauri that are sharing
the same data format, SKOS • Integrate more general ontologies created with
primitives in schema languages (e.g. SWEET)• AIP-3 development of an ontology of water-related
terms, based on CUAHSI ontology – using the CMap2 visual tool. – OWL ontology for grounding broker's search
Land Surface Module of the Water Ontology
Semantic Enabled Search Use Case
• GI-DAC broker implemented Semantic Search UC– Leverages GENESIS vocabulary service for
generating multiple, multilingual queries to be issued to remote catalogs.
• Multi-lingual searching: Language-dependent search patterns against language-neutral URIs.
• “Advanced search” allows user to navigate thesauri, define a set of terms and queries to catalogs.
Architecture for semantic augmentation
Advanced search with the GI-DAC brokerArabian search string is (”climate“) "مناخ"found in the definitions of six terms from GEMET.
DIAS Ontology Browser in GEO URR prototype
GEOSS AIP Phase 4 (AIP-4)
Activity #1: Access to Priority EO Data Sources1a. Thesaurus for EO Observation Parameters
1b. "EO Priority Data Sources” list
1c. Getting EO Data Online
Activity #2: Clients and Mediated Access Enablers2a. Coordination with GCI
2b. Coordination of Enabler Components
2c. Integration and Usability Testing of Enablers Components
AIP-4 CFP responses requested by 6 May 2011Supporting ADC “Sprint to Plenary”
http://www.earthobservations.org/geoss_call_aip.shtml
Water Information Services with GEOSS Interoperability Arrangements
• GEOSS bold vision endorsed 5 years ago
• Architecture vision now realized for several societal applications
• Get involved: GEOSS ADC, SIF, AIP, CoPs
www.ogcnetwork.net/geoss/aip-3/
References
• GEO – earthobservations.org
• GEO Architecture Implementation Pilot– www.ogcnetwork.net/AIpilot
• GEOSS registries and SIF– geossregistries.info
George [email protected]