Initial Operating Capability Task Force (IOCTF)

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Transcript Initial Operating Capability Task Force (IOCTF) 

GEOSS Task AR-09-01b
Architecture Implementation Pilot
AIP Phase 4, (AIP-4)
AIP Task Team
February 2011
GEO Task AR-09-01b
Architecture Implementation Pilot
• Develop and pilot new process and
infrastructure components for GCI and the
broader GEOSS architecture
• Demonstrate and document results to inform
GEOSS Development Baseline progress
“fostering interoperability arrangements
and common practices for GEOSS”
AIP-4 Call for Participation
• CFP Main Body
• AIP Evolutionary Development Process
• GEOSS Services Architecture
DRAFT Schedule and Priorities
GEOSS AIP Phase 4 (AIP-4)
• SBAs: Increasing implementation of GEOSS with CoPs
• Data: Foster access to EO Priority Observations
consistent with Data-CORE and Interoperability
Arrangements.
• GCI: Utilize the agreed components baseline
Call for Participation
March 2011
Kickoff Workshop in US
May/June 2011
Plenary
November 2011
Demonstrations
2011
SBAs supported by GCI and Data Servers
Communities of Practice
Water
CoP
Toolkit
Energy
...
GCI
GEOSS CORE-Priority EO Parameter Access Services
Data
sharing
Data
Harmonization
Data Server
deployment
...
AIP-4 Scope - draft
• Communities of Practice: SBA Integrators,
CoP Toolkit
• GCI selected components as baseline
• Data Servers:
– Foster access to UIC Priority Observations
consistent with Data-CORE and
Interoperability Arrangements
• Technology development
– Semantics and ontologies for mediation
– Data harmonization: quality, schemas
– Data Sharing: DSTF, User identity
AIP-4 Call for Participation
• CFP Main Body
• AIP Evolutionary Development Process
• GEOSS Services Architecture
A process, elaboration of GEOSS Architecture
SBA Tasks,
UIC, CBC,
STC
requirements
User
Needs,
Scenarios
Design,
Develop,
Deploy
support
ADC activities
including:
Architecture
Implementation
Pilot (AIP)
Task AR-09-01b
Operational
Capability
GEOSS
Common
Infrastructure (GCI)
Task AR-09-01a
Consider:
persistent Role of Task Forces
implementation
Role of CoPs
Other ADC tasks: DIAS
AIP Evolutionary Development Phases has
piloted the GEOSS 10 Year Plan Architecture
• AIP-1
– Kickoff: June 2007
– Result: "Core" Architecture defined most of the
GCI IOC – Architecture Workshop
• AIP-2
– Kickoff: September 2008
– Result: SBA implementations of common crosscutting architecture
• AIP-3
– Kickoff: March 2010
– Result: Enabled data sharing and network building
in GEOSS SBA communities
AIP Development Approach
Participation
AR-09-01b Architecture Implementation Pilot
Evolutionary Development Process
Concept
Development
Participation
Call for
Participation
Updates for each step
Architecture
Documentation
Continuous interaction
with external activities
Participation
Kick-off
Workshop
Participation
Development
Activities
Baseline
Operational Baseline and Lessons Learned for next evolutionary spiral
Participation
Persistent
Operations
(AR-09-01a)
AIP coordinates with other GEO Tasks
• DI-09-02: Multi-Risk Management
• DI-06-09: Use of Satellites for Risk
Management
• WA-06-02: Droughts, Floods and
Water Management
• WA-06-07: Water Resource
Management
• BI-07-01: BON
• EN-07-02 - Energy Enviro. Impact
• HE-09-01: Info Systems for Health
• HE-09-02: Monitoring and
Prediction for Health
AG-
Agriculture Task
• US-09-01: User Engagement
• DA-06-01: Data Sharing
Principles
• DA-09-01: Data
Management
• DA-09-02: Data Integration
and Analysis
• DA-09-03: Global Data Sets
• AR-09-02: Interoperable
Systems for GEOSS
• AR-09-04: Dissemination
and Distribution Networks
Community of Interest/Practices and AIP
Communities of Practices in AIP-4:
-Integrated Global Water Cycle Obs.
-Energy
-Air Quality
-Biodiversity
-Global Agricultural Monitoring?
-Geohazards?
Community of Interest:
Birds of a feather, discussion group
Community of Practice:
Chartered to meet
SBA/CoP
Decision Support
Integrator
needs
CoP Science
Community
Service Providers:
Data, Observation,
Mediation, Processing
GCI
SBA/CoP Integrator
-Lead AIP CoP WG
-Liaison from AIP to CoP
-Expert in SBA science and
geoinformatics
-Lead application of GEOSS
architecture to CoP
CoPs supported by AIP
• Objective: Work with CoPs to increase network building and
data sharing
• Role of the SBA Integrator
– Builds network through Community Portal, using CoP toolkit
and other information and services to meet the needs of the
community
– Build on the best practices and interoperability
arrangements.
• CoP Toolkit
– Community Portals and Application Clients for DSS needs
– Community Catalogues
– Priority Data Servers for SBA
EC FP7 Projects Participating in AIP
• Current in AIP-3
–
–
–
–
–
–
–
–
EnerGEO,
EO2Heaven,
EuroGEOSS,
GENESIS,
GIGAS,
GIS4EU,
SAFER,
UncertWEB
• New contributions
possible:
– ISTIMES - DM
– DEWFORA- Drought
– ENDORSE: "Energy
Services for GMES"
- www.endorsefp7.eu
– GeoViQua
– GLOWASIS - Water
– (Current GCI call)
AIP-4 Call for Participation
• CFP Main Body
• AIP Evolutionary Development Process
• GEOSS Services Architecture
Architecture Viewpoints
Community Objectives
Business aspects: purpose,
scope and policies
What for? Why? Who? When?
Enterprise
Viewpoint
Abstract/Best Practices
Information
sources
Information
and
Viewpoint
models
What is it about?
Computational
Viewpoint
Types of services and
protocols
How does each bit
work?
Implementation/Development
Engineering
Viewpoint
Technology
Viewpoint
Solution types:
distribution infrastructure
How do the components work
together?
Implementation system:
hardware, software, distribution
With what?
Viewpoints in “Reference Model - Open Distributed Processing (RM-ODP)” ISO/IEC 10746
SBAs for AIP-4
• Established
• New in AIP-4
– Disaster
Management
– Energy
– Health: Air Quality
– Water Drought
– Arctic SDI
– Biodiversity and
Climate Change
– Agriculture
• Maybe in AIP-4
– Climate (Liping
NOAA)
– Weather (FP7)
One page for each SBA needed in the following pages
GEOSS SoA Enterprise Viewpoint
Disaster Management (Arnaud, GIS-FCU)
GEOSS SoA Enterprise Viewpoint
Energy
•
•
•
•
•
•
•
•
AIP-2 and AIP-3 have established the GGI capacity to disseminate Energy and Environment related Web
Services using existing standard (OGC).
The on-going FP7 MACC project has established Quality and Uncertainties, as key parameters to be part of
any data set for Energy and/or Environment
Focus for AIP-4 will be made on:
– Providing end-user with Quality and Uncertainties parameters for any relevant data set at Metadata
level for Search & Discovery purpose and at Web Service level for end-user full information
presentation
– Selecting the suitable development framework for building Graphical User Interface that has the
capacity to trigger remote Web Services (WMS, WFS and WPS) in operational services such as SoDa
Support will be needed from existing initiative such as QA4EO to help Energy Web Services providers to
properly build Metadata taking into account the Quality and the Uncertainties parameters associated to the
data sets. Metadata should latter be deployed on a GEOSS compliant Catalogue.
Collaboration with GEO Portal developers should be considered in order to ensure a proper and consistent
dissemination and presentation of Energy and Environment data sets on the GEO Portal
A persistent example addressing Quality and Uncertainty parameters should be deployed as a Web
Service, preferably exploited in an operational service such as SoDa. This Web Service should be able to
properly carry those parameters for end-user’s information.
Search, Find Bind mechanism must be addressed and demonstrated through the GEO Web Portal facilities.
Web-based applications using generic framework and triggering Energy and/or Environment related Web
Services must be realized. These Web-based applications must ensure that they properly display the
Quality and Uncertainties parameters attached to the geo-localized data. Collaboration with IT partners
offering existing frameworks is foreseen.
Reference to MACC project: http://www.gmes-atmosphere.eu/documents/deliverables/r-rad/D_R-RAD_2.1_1.RAD.MACC.v1.0.pdf
Health: Air Quality (Stefan/NGC,
EO2Heaven)
• Durban Scenario
GEOSS SoA Enterprise Viewpoint
Water - Drought (Will Pozzi)
• Global Drought
Monitor
• Satellite monitoring Liping
GEOSS SoA Enterprise Viewpoint
GEOSS
Architecture Implementation Pilot, Phase 4,
GEO Water Tasks
Will Pozzi and George Percivall
GEO Task WA-06-02b, Impacts of Drought, Co-POC and
NASA WaterNet Project Manager, and Open Geospatial
Consortium, GEO Task AR-09-01b Task POC
Presentation before the 2010 GEO Drought Response
Initiative, Winnipeg, CA, 10 May 2010
www.ogcnetwork.net/AIP
Proposed Decision Making Services in the Final GEO Water
Societal Benefit Area Workplan (discussed within IGWCO and
Doug Cripe)
Global
Drought
Monitoring
and Early
Warning
Service
courtesy of Justin Sheffield, Princeton, African Drought Monitor
Proposed Decision Making Services in the Final GEO Water
Societal Benefit Area Workplan (discussed within IGWCO and
Doug Cripe)
Cryosphere
Monitoring
Service
Architecture courtesy of USA NOAA National Office of Hydrology Remote Sensing Center
(NOHRSC)
Drought Early Warning requires assembly within an
information system (GEOSS) the uses of water, so
that drought vulnerability can be assessed or
included
Agricultural use,
cooling water for
power generation,
domestic use,
environmental flow
requirement for
ecosystems
Soil Moisture in the European Union Europe Drought Observatory: agricultural impact
(http://edo.jrc.ec.europa.eu/php/index.php?action=view&id=19)
Agriculture (Liping Di)
• Crop condition
monitoring
• USDA, China,
• CoP
• Will – irrigation
water
GEOSS SoA Enterprise Viewpoint
Arctic SDI (Doug N, EEA?)
GEOSS SoA Enterprise Viewpoint
Biodiversity and Climate Change (Mattia,
CNR and USGS)
GEOSS SoA Enterprise Viewpoint
Climate and Weather
• WMO Information
System (WIS)
• NESDIS: Martin
• CEOS?
• GOOS - Liping
GEOSS SoA Enterprise Viewpoint
GEOSS Information framework
GEOSS SoA Information Viewpoint
Data Harmonization in AIP-4 (Herve updates)
• Uncertainty – GeoViqua, UncertWeb
• QA4EO - CEOS
• Data Schemas – INSPIRE
– Test Facility for validating schemas
GEOSS SoA Information Viewpoint
Components deploy Services
GEOSS Common
Infrastructure
Main GEO
Web Site
Registered Community Resources
Client Tier
Community
Portals
GEO
Web Portal
Registries
Client
Applications
Components
& Services
Standards and
Interoperability
Best Practices
Wiki
Mediation Tier
GEOSS
Clearinghouse
User
Requirements
Community
Catalogues
Mediation
Servers
Alert
Servers
Workflow
Management
Processing
Servers
Test
Facility
Access Tier
GEONETCast
Product Access
Servers
Sensor Web
Servers
GEOSS SoA Engineering Viewpoint
Model Access
Servers
Component Development in AIP-4
• GCI usage and enhancement
– New: Ontology Registry, URR
• Community Portals
– CEOS portals for Virtual Constellations and CWIC
– CBC connection
• Data Servers
– Data Sharing
– Geoss data CORE
GEOSS SoA Engineering Viewpoint
CoP web presence: Community Portals
• IGWCO not on Community Portal
– Watercycleforum.com
• Nadine
GEOSS SoA Engineering Viewpoint
Deployment of Priority data services
• Deploying a data service
– See AIP-2 video
• Metadata for adding into GCI
– Confirm visibility (browse, access) in GWP
• Data Sharing: CORE, user registration/identity
– Metadata about data sharing
• Data harmonization: schemas, quality.
• Used by many CoPs
GEOSS SoA Engineering Viewpoint
Make priority data fully available as services
Sbageotask.larc.nasa.gov
US-09-01a
Critical Earth
Observation
Priorities
Highest Ranked
EO Parameters
Compare
the 2 lists
DSTF
GEOSS
Data-CORE
Roadmap
Priority EO
Parameters
available as
CORE
No cost
recovery in
AIP-4
Datasets tagged
as CORE
(Pledge List)
CORE = full and open with no restrictions.
No data reuse conditions. There may be
cost and attribution requirements.
GEOSS
CORE-Priority EO
Parameter Access
Services
AIP-4
Access
Services Pilot
DIAS connection to
this emphasis?
GTHN – Global
terrestrial Hydro
Network
Data Sharing (Steve Browdy)
• Working with the DSTF,
• User Management
– User identity
– User registration
• Data Access Conditions:
– Data-CORE, Non-Commercial Use, other
• let a user know when she/he is leaving the GEO site
and entering another.
Semantic Mediation (Cristiano, Nagai)
•Coordination with GEO task AR-09-01d on
semantic mediation issues
•Support to the optimization and extension of the
GI-DAC service broker
•Integration and harmonization of thematic thesauri
with reference ones:
•Water Ontology from AIP-3
•Drought Vocabulary from EuroGEOSS
•More contributions are welcome…
References
• GEO
– earthobservations.org
• GEO Architecture Implementation Pilot
– www.ogcnetwork.net/AIpilot
• GEOSS registries and SIF
– geossregistries.info
Nadine Alameh
George Percivall
[email protected]
[email protected]