Transcript SEAMONSTER Interim Review AIST-05

NASA Use Cases for the
Earth Observation Sensor Web
Karen Moe
NASA Earth Science Technology Office
http://esto.nasa.gov/sensorwebmeeting/
WGISS-26
Boulder, CO, USA
24 September 2008
Sensor Webs are …
• Distributed Earth observation systems
• Comprised of
– Satellite and in situ sensors
– Data systems
– Models
• Dynamically configured to produce
products on demand
• By using emerging web technologies
page 2
Why Sensor Webs for Earth Science
• Enable eScience for Earth Observation
– Improve science products
– Improve science operations
– Enable collaboration
– Save operational costs
page 3
GEOSS Architecture
Earth Observation Sensor Web
End Users
Global Earth Observation System of Systems (GEOSS)
Sensor Web Use Case Assignments
Model
Sys Mgmt. Smart
Middleware Middleware Sensors
Decadal
Survey
Science
Category
DESdynI
HyspIRI
SMAP
Solid earth
Land use
Water
Application
Forecasts
Rapid
response
Sensor
cal/val
Workflow
Agents
Autonomy
Sensor Web Data
feature
assimilation
NASA ESTO Sensor Web Meeting April 2008 - 41 Use Cases
page 5
Sensor Web Use Themes
Autonomous
Data Production
Earth System
Models
• Oceans
• Ice
• Land
• Atmosphere
• Solid Earth
• Biosphere
Predictions
Data assimilation
Forecasting
Reduce model
uncertainty
Societal
Benefits
High Performance
Computing,
Communication,
& Visualization
DA
Standards &
TA
Interoperability
Earth Observation
Systems
Decision Support
Assessments
Decision Support
Systems
Policy
Decisions
Management
Decisions
Observations
• Remotely-sensed
• In situ
Ongoing feedback to optimize value and reduce gaps
End Users
GEOSS Architecture
Autonomous
Sensor Operations
Rapid response
Autonomous tasking
Cal / Val
Sensor management
Data downlink
User
Support
Workflow generation
Access to sensors
Campaign / mission
design
Earth Observation Sensor Web Uses
• Improve science products
– Rapidly respond to events
• Autonomous sensor tasking
• Sensor management
• Sensor data networking strategies
– Enable cross mission, multi-sensor products
• Autonomous data assimilation
• Workflow generation
– Reduce model uncertainty via targeted data inputs
– Provide timely calibration/validation of sensor data
page 7
Earth Observation Sensor Web Uses
• Improve science operations
– Plan sensor flight paths for unmanned air & surface
vehicles
• Autonomous sensor management
• Workflow generation
– Design field campaigns
– Simulate mission designs (ala OSSE, the Observation
System Simulation Experiment)
page 8
Earth Observation Sensor Web Uses
• Enable collaboration and save operational costs
– Leverage multi-agency, international assets, eg. US
GEO, GEOSS/CEOS
– Reuse infrastructure enabling collaboration in totally
different domains such as fires and floods
– Reduce staff via automation
page 9
Technical Challenges
• Sensor hardware, software and network
architecture
– Power management, communications in constrained
environments
– Intelligent agents, autonomy
• Service Oriented Architecture (SOA) challenges
– Standards maturity and cross-standards
interoperability
– Extending SOA to space
– Service orchestration
– Data provenance and quality in dynamically
configured sensor webs
– Security
page 10
Acknowledgements
• ESTO Advanced Information Systems Technology Sensor Web
technical report team: Steve Smith, Glen Prescott, and Marge Cole
of NASA/ESTO, Rob Sherwood/JPL, Phil Paulsen/GRC, Vicki
Oxenham/GSFC, and April Gillam, Brad Hartman and Thomas Eden
of Aerospace Corporation
• The participants of the 35 NASA AIST sensor web projects who are
developing and demonstrating sensor web capabilities to the Earth
science community
page 11