Presented by Zhenlong LI

1. Earth Information Exchange PortletsSharing the geospatial resources for Earth science and applications in aninteroperable fashion Presented by Zhenlong LI Zhenlong LI, Chaowei Yang, Wenwen LI, Jing LI, Qungying Huang, Xiaotang Zhou Joint Center for Intelligent Spatial Computing GMU, NASA, ESIP AAG 2008

2. Overview • Introduction • Architecture • Key technologies • Functionalities • Characteristics and future development • References

3. Problems in Earth Science Data Sharing and Accessing • Large amount of data • Poorly catalogued • Widely dispersed

4. So, what do we need? • For Users: Fast access and acquisition of Earth Science Data • For Professionals: Data integration and sharing Applications integration and sharing Efficient spatial data management • For Decision Makers: Models and accurate Predictions for future decision making. How to achieve this?

5. Earth Information Exchange--EIE • A joint effort among the NASA, ESIP, and GMU. • Standards-based, web-services enabled Spatial Web Portal. • Sharing data, products, services and knowledge.

6. Objectives • Reuse developed components with minimum effort. • Reduce cost and extend return. • Leverage and sharing current resources • NASA ESG, ESIP EIE, GMU Computing, UAH NOESIS, Rob’s SWEET, etc.

7. Overview • Introduction • Architecture • Key technologies • Functionalities • Characteristics and future development • References

8. Sptatial Web Portal Architecture Phil Yang, 2007

9. EIE Client GUI Portlet Window Portlet Fragment(content encoded)

10. Overview • Introduction • Architecture • Key technologies • Functionalities • Characteristics and future development • References

11. Key Technologies • JSR168/268 • Standards for communication between portal and portlet containers • CSW, Z39.50 • client server protocol for searching and retrieving information from remote computer databases. • Spatial Web Services • OGC WMS,WFS,WCS … • Ontology and Semantic Search • Liferay Portal

12. Overview • Introduction • Architecture • Key technologies • Functionalities • Characteristics and future development • References

13. General Functions of EIE • Sharing data, Products and Services • Interoperable Mapping Client • Semantic Search • Time Enabled WMS Viewer • Support GEOSS and other applications: Air Quality, Water Management, Health, Disaster, Energy Management, Climate, Weather, Ecosystems, Agriculture, Biodiversity, Education

14. EIE Portalhttp://eie.cos.gmu.edu

15. Air Quality cluster

16. Sharable and Interoperable Portlet--Mapping Client

17. Sharable and Interoperable Portlet--Semantic Search

18. Sharable and Interoperable Portlet--Time Enabled WMS Viewer

19. Overview • Introduction • Architecture • Key technologies • Functionalities • Characteristics and future development • References

20. Characteristics of EIE • Provide efficient and integral access to earth information. • Flexible and extensible architecture. • The utilization of ontology and semantic search for domain interoperability and knowledge.

21. Future Development • Mature semantic search by working with application domain experts. • Quality of Services integrated. • 3D&4D visualization. • Evolve it as an infrastructure for sharing earth information to • Support the NSDI and GSDI • Support GEOSS Applications through developed and additional portlets

22. Related information • EIE: http://eie.cos.gmu.edu/ • ESG: http://esg.gsfc.nasa.gov/ • NOESIS: http://noesis.itsc.uah.edu/ • ESIP: http://www.esipfed.org/ • GIO: http://gio.gsfc.nasa.gov/ • Liferay: http://www.liferay.com/ • CISC: http://www.cisc.gmu.edu/

23. References • Phil Yang, John Evans, Marge Cole, Steve Marley, Nadine Alameh, and Myra Bambacus, 2007.The Emerging Concepts and Applications of the Spatial Web Portal. • Liferay Portal http://www.liferay.com • JSR168http://developers.sun.com/portalserver/reference/techart/jsr16 8/pb_whitepaper.pdf • Z39.50 http://en.wikipedia.org/wiki/Z39.50

24. Thank you for your time. Questions?