NASA Agency Report Kathy Fontaine WGISS-23 Hanoi, Vietnam May 25, 2007.

Slides:



Advertisements
Similar presentations
NATIONAL AERONAUTICS AND SPACE ADMINISTRATION 1 NASA Earth Science Data Systems (ESDS) Software Reuse Working Group CEOS WIGSS-22 Annapolis, MD September.
Advertisements

Stocker - Page 1Evolution Measurement Based System-IGARSS 2006 Aug 1, 2006 Evolution of a Measurement-Based Data Processing System for Precipitation Erich.
Earth Science Data System Working Groups A Community Approach Kathy Fontaine NASA WGISS-22 Annapolis, MD September 13, 2006.
Global Change Master Directory (GCMD) Strategic Plan Wyn Cudlip BNSC/QinetiQ Presentation to IDN Task Team, WGISS25.
AR – Issues for Attention Tactical and Strategic Guidance documents – what is the agreed approval/ publication process? –Strategic Guidance will.
The GEOSS Science and Technology Stakeholder Network: A spin-off of the EGIDA Project Hans-Peter Plag, Ian McCallum, Steffen Fritz, Shelley Jules-Plag,
The e-Framework Bill Olivier Director Development, Systems and Technology JISC.
Abstract To provide efficient and effective access to enterprise information that meets stakeholder needs and supports mission success, NASA is implementing.
The NASA Shared Services Center (NSSC) November 2007 National Aeronautics and Space Administration
WS Technology Infusion Roadmap Idea Scrap book July 5005 DSWG – Infusion – Web Services.
Product Quality and Documentation – Recent Developments H. K. Ramapriyan Assistant Project Manager ESDIS Project, Code 423, NASA GFSC
BEDI -Big Earth Data Initiative
Digital Earth Communities GEOSS Interoperability for Weather Ocean and Water GEOSS Common Infrastructure Evolution Roberto Cossu ESA
Goals of Title II, Part D of No Child Left Behind The primary goal of this part of NCLB is to improve student academic achievement through the use of technology.
Joint CASC/CCI Workshop Report Strategic and Tactical Recommendations EDUCAUSE Campus Cyberinfrastructure Working Group Coalition for Academic Scientific.
NASA Earth Science Data Preservation Content Specification H. K. (Rama) Ramapriyan John Moses 10 th ESDSWG Meeting – November 2, 2011 Newport News, VA.
Risk & Novelty Collaboration & Engagement Efficiency & Effectiveness Transferability & Scalability ▪Led government as first agency to implement enterprise-wide,
BENEFITS OF SUCCESSFUL IT MODERNIZATION
NASA COMMON METADATA REPOSITORY (CMR) Update and Near Term Plans – CEOS WGISS 37 1 Andrew Mitchell Earth Science Data and Information Systems (ESDIS) National.
Architecture and Data Management Strategy (Action Plan) Ivan 1 DeLoatch, USGS, ADC Co-chair Alessandro Annoni, EC, ADC Co-chair Jay Pearlman, IEEE, ADC.
Enterprise Architecture. 2 Agenda What is Enterprise Architecture (EA)? Roles in EA? Why is EA Important? Tangible Benefits from EA? What Do We Need to.
May 17, Capabilities Description of a Rapid Prototyping Capability for Earth-Sun System Sciences RPC Project Team Mississippi State University.
1 WRF Development Test Center A NOAA Perspective WRF ExOB Meeting U.S. Naval Observatory, Washington, D.C. 28 April 2006 Fred Toepfer NOAA Environmental.
Enterprise Architecture The Arkansas Approach. Key Areas What is enterprise architecture? Why is it important? How you can participate Current status.
Enterprise Architecture
05 December, 2002HDF & HDF-EOS Workshop VI1 SEEDS Standards Process Richard Ullman SEEDS Standards Formulation Team Lead
The Digital Library for Earth System Education: A Community Resource
Updates from EOSDIS -- as they relate to LANCE Kevin Murphy LANCE UWG, 23rd September
1 OPeNDAP/ECHO Demo Integrating and Chaining services September, 2006 CEOS WGISS 22 Annapolis, MD.
Sharing Research Data Globally Alan Blatecky National Science Foundation Board on Research Data and Information.
EPA EA Program Results Analysis February 29, 2008.
National Aeronautics and Space Administration International Engagement & Partnerships: Building on the Past, Boldly Collaborating for the Future Goddard.
NMP EO-1 TECHNOLOGY WORKSHOP Section 2 Meeting Objectives.
SEEDS Technology Infusion Study Second SEEDS Public Workshop Plenary Overview.
CHECKPOINTS OF THE PROCESS Three sequences of project checkpoints are used to synchronize stakeholder expectations throughout the lifecycle: 1)Major milestones,
1 1 ECHO Extended Services WGISS – 23 Hanoi, Vietnam May 15, 2007.
Enterprise Architecture, Enterprise Data Management, and Data Standardization Efforts at the U.S. Department of Education May 2006 Joe Rose, Chief Architect.
SEEDS Technology Infusion Study ESIP Federation SEEDS Cluster Group Meeting: SEEDS Capability Vision Development ESTO & SEEDS - Karen Moe SEEDS - David.
EOSDIS Status 9/29/2010 Dan Marinelli, NASA GSFC
EPA Enterprise Data Architecture Metadata Framework Assessment Kevin J. Kirby, Enterprise Data Architect EPA Enterprise Architecture Team
EOSDIS Status 10/16/2008 Dan Marinelli, Science Systems Development Office.
NA-MIC National Alliance for Medical Image Computing UCSD: Engineering Core 2 Portal and Grid Infrastructure.
NASA Use Cases for the Earth Observation Sensor Web Karen Moe NASA Earth Science Technology Office WGISS-26 Boulder,
EOSDIS User Registration System (URS) 1 GES DISC User Working Group May 10, 2011 GSFC, NASA.
March 2004 At A Glance NASA’s GSFC GMSEC architecture provides a scalable, extensible ground and flight system approach for future missions. Benefits Simplifies.
User Working Group 2013 Data Access Mechanisms – Status 12 March 2013
EGovOS Panel Discussion CIO Council Architecture & Infrastructure Committee Subcommittee Co-Chairs March 15, 2004.
Evolving toward a Coherent, Collaborative Framework for Earth Science Data, Tools and Services Christopher Lynnes, Kwo-Sen Kuo and Kevin Murphy Earth Science.
PoDAG XXI: SEEDS SEED: NSIDC Potential Interactions NSIDC DAAC should prepare an evaluation of their desired future roles in "core activities" and in mission.
MODEL-BASED SOFTWARE ARCHITECTURES.  Models of software are used in an increasing number of projects to handle the complexity of application domains.
Seeking SC Feedback on Draft Technology Strategy and Roadmap for EarthCube Draft of 3 November 2015 The Technology and Architecture Committee (TAC) Chairs:
Evolving a Legacy System Evolution of the Earth Observing Data and Information System M. Esfandiari 1, H. Ramapriyan 1, J. Behnke 1, E. Sofinowski 2 1.
1 NSIDC DAAC Product Workshop Overview Martha Maiden Program Executive for Data Systems NASA Headquarters NSIDC DAAC Product Workshop January 11-12, 2006.
1 Earth Science Technology Office The Earth Science (ES) Vision: An intelligent Web of Sensors IGARSS 2002 Paper 02_06_08:20 Eduardo Torres-Martinez –
Government-wide Performance Data Standards Discussion Document Performance and Personnel Management Dr. Jim Rolfes Program Director, Federal Performance.
Data Services Task Team WGISS-22 meeting Annapolis, the US, September 12th 2006 Shinobu Kawahito, JAXA/RESTEC.
MODIS Science Team Meeting Diane E. Wickland MODIS Program Scientist Office of Earth Science National Aeronautics and Space Administration July 13, 2004.
ESO and the CMR Life Cycle Process Winter ESIP, Jan 2015 ESDIS Standards Office (ESO) Yonsook Enloe Allan Doyle Helen Conover.
July 2003 At A Glance The GMSEC provides efficient and enabling GSFC mission services and products for the next decade. Benefits Establishes a Single Strategic.
CEOS Working Group on Information System and Services (WGISS) Data Access Infrastructure and Interoperability Standards Andrew Mitchell - NASA Goddard.
NATIONAL AERONAUTICS AND SPACE ADMINISTRATION ESDS Reuse Working Group Earth Science Data Systems Reuse Working Group Case Study: SHAirED Services for.
Reference Architecture for NASA’s Earth Science Data Systems Richard Ullman ES-DSWG-SPG Chair NASA/GSFC Code 586.
OneStop Project Update for WGISS
EOS ClearingHOuse Robin Pfister Code 423, NASA/GSFC
Advance Software Engineering
ESMF Governance Cecelia DeLuca NOAA CIRES / NESII April 7, 2017
FDA Objectives and Implementation Planning
Bird of Feather Session
NOAA OneStop and the Cloud
Presentation transcript:

NASA Agency Report Kathy Fontaine WGISS-23 Hanoi, Vietnam May 25, 2007

Organization Dr. S. Alan Stern – Associate Administrator for Science, Science Mission Directorate Dr. Michael Freilich – Director, Earth Science Division (ESD) Dr. Teresa Fryberger – Associate Director ESD, Applied Sciences Program

Programmatic Approach to Data Systems Core: all the hardware, software, physical infrastructure, and intellectual capital NASA recognizes as necessary for meeting its requirements for Earth science data system management. Core data system elements reflect NASAs responsibility for managing Earth science satellite mission data characterized by the continuity of research, ready access to and usability of data.

Programmatic Approach to Data Systems Community: those tools or capabilities developed and deployed largely outside NASAs core elements and are characterized by their evolvability and leading-edge innovation.

Core: ES Data System Architecture Technology Infusion (IT Currency, Standards, Reuse, Interoperability)

Community: Strategy To achieve the widest possible support for the diverse Earth Science communities, NASA data systems must adhere to the following: –Provide a stable and robust data system infrastructure, including networks, computing facilities, data processing, algorithm development, data storage and data dissemination mechanisms. –Be readily adaptable and flexible to needs and requirements that are science domain specific and will change through time.

Community: Strategy –Continue to improve the ease of data handling -- satellite observation/model data remains voluminous. –Build Once, Use Many Times. Incorporate new technologies as components that can be employed in multiple instances within NASA science data systems. –Leverage NASA existing data system capabilities while including pertinent community developments.

Opportunities MEaSURES: Principle solicitation to add needed Earth science research and/or science data products. ESTO AIST: Develop and mature improved information system technology - risk reduction. Space Science AISR: Space Science data system testbeds and prototypes. DECISION: Applied sciences solicitation for improving and creating solutions networks and support DSS tools. ACCESS: Leverage existing capabilities to improve NASAs Earth science data systems.

ESDSWG Highlights Standards Processes Group –Revised its process to remove separate iterative reviews of "implementation" followed by "operation" –Recommended greater use of WMS by NASA Earth Science Data Systems –Investigated and provided guidance on recent OPeNDAP security issue.

ESDSWG Highlights Metrics Planning and Reporting –The mission to "review and recommend program- level performance metrics and collection tools that measure how well each data activity supports the NASA Science Mission Directorates Earth science, application and education programs " –Metrics are essential both for internal management of data activities and for reporting their progress and utility to external stakeholders –A simple, flexible, web-based, process has been operationally used by 42 projects since early 2004 for reporting metrics on a regular basis. An additional 15 projects have started to report through this mechanism recently.

ESDSWG Highlights Technology Infusion –Developed the Technology Infusion Readiness Assessment tool to help identify steps to promoting technology products –Completed a technology road map for advancing semantic web technologies in support of a planned demonstration of emerging capabilities –Created a new focus group on sensor web technologies to leverage collaboration activities tested by the TIWG for web services and semantic web

ESDSWG Highlights Reuse –Preparing peer-recognition recommendation for NASA HQ –Began work on a set of Reuse Readiness Levels (RRLs) –Preparing guidelines on the software release process at GSFC

ESDSWG Highlights Cost Estimation Toolkit –Approved for open source use – projects/CET/CET.phphttp://opensource.gsfc.nasa.gov/ projects/CET/CET.php

Data Systems: Earth Observing System Data and Information System Evolution Approach In 2005 HQ chartered an Evolution of EOSDIS Elements Study Team that developed a vision for 2015 timeframe and provided guidance to a Technical Team Technical team led by GSFC focused on key vision tenets of cost control, future data access & processing, IT currency, and user community support –Explored alternative approaches with data centers and major contractor –Discussed plans with lead scientists –Synthesized a solution to maximize benefits and minimize risk Formal implementation began in early 2006

Evolution Results The EOSDIS Evolution is on track and meeting expectations –MODIS SIPS assumed all the responsibilities related to MODIS level 0, level 1 and atmospheric data from the GSFC DAAC as of Feb 2007 –GSFC DAAC is transitioning to an in-house developed software system and on-line storage using commodity based hardware, on track to complete by end of CY2007 –LaRC DAAC is consolidating holdings into one unique system, planned for May 2008 –Re-architected ECS SPDS with first release scheduled for delivery in May 2007 –ECHO prioritized development efforts to focus on achieving higher operations maturity All Evolution activities to date have been accomplished with no impact to operations Already experiencing dramatic projected resource savings

GCMD and ECHO provide complementary capabilities to enable Earth science research –GCMD enables users to locate a broad spectrum of Earth science datasets and services relevant to global change and Earth science research. GCMD holds over 21,000 metadata records. –ECHO enables users to search and access NASAs granule-level Earth science data and related services through tailored interfaces. ECHO has over 2,000 datasets and 56 million granules. Example

GCMD and ECHO interoperate to provide a cohesive perspective of NASAs Earth science data holdings Example