1. Partnering Earth Observations for People Living Environmentally (PEOPLE) JCTD FY11-12 ��Candidate Nomination Board (CNB)�25 May 2010 Participants
COCOM Sponsor: EUCOM
Oversight Executive: Elmer Roman, RFD, DDR&E OSD
Operational Manager: Steve Desautel, EUCOM
Technical Manager: Jeff McCracken, NASA
Transition Manager: Marty Kress, VCSI
Other participants / partners / interested parties: NORTHCOM, SOUTHCOM, DLR, UAH, PDC, CRREL, ORNL, AMRDEC, NIC, NSF, Environment Canada, AARI, NOAA
POC name and contact data: Steve Desautel, 011-49-711-680-7009, stephen.desautel@eucom.mil 1 8/31/2012
2. PEOPLE JCTD Candidate Overview 8/31/2012 2
3. National Direction 8/31/2012 3
4. 4 8/31/2012
5. 2008 Sea Ice Coverage 5 8/31/2012
6. What is the PEOPLE JCTD? Technical Idea
A military & civilian whole of government web-based, open-source, environmental decision support system for Arctic Region, integrating disparate data, models, tools and products from US agencies and foreign countries, including Russia
Low cost, modularized software, standardized hardware and systems architecture, providing decision support tools to a variety of end users
Capitalize on proven NASA architecture, data and modeling integration expertise, and COTS technologies
Military Requirement / Operational Problem / Warfighter Problem Addressed
Facilitate COCOM, Interagency, Partner Nations (PN) regional & local entities partnering through information sharing
Provide tools to conduct long-term environmental planning and near-term cooperative actions in response to environmental changes occurring in the Arctic Region, as the first focus area
Enhance regional security by providing a better capability to plan for, monitor, and respond to, natural disasters and environmental & humanitarian challenges through cooperation and interdependence
References: EUCOM Commander Priority; NSPD-66 Arctic Region Policy; QDR Feb 2010; U.S. Navy Arctic Roadmap, Oct 2009 (See back-ups), International Polar Year, NOAA Arctic Policy, NSF Arctic Observing Network
Expected Outcome
Year 1 (2011) deliverables: An open-source web-based Arctic Region & National decision support system with integrated data from existing remote sensing, buoy, and in-situ data (e.g. , sea ice flow, permafrost melt).
Regional and multi-national cross border, detection, monitoring, analysis, visualization, predicting and decision support tools deployed to partner nations. CONOPS & TTP.
Additional partnering with Russia
Metrics: 5 Capabilities; 13 Tasks / Attributes; # of validated models / data sets; # of partnerships (See Top Level Capabilities and Metrics Tables in back-up)
Year 2 (2012) deliverables: Transition to Interagency (e.g., NOAA), Partner Nations (e.g., Russia, Canada, Europe), MSFC / NASA; EUCOM; NORTHCOM;. 6 8/31/2012
7. 7 8/31/2012
8. JCTD Year 1 Operational Demonstration Configuration 8 8/31/2012
9. 9 8/31/2012 Schedule
10. Cost Plan 8/31/2012 10
11. Funding Plan 11 8/31/2012
12. Summary Technical idea and operational purpose
Idea: Leverage NASA assets/architecture – demonstrate Arctic Environmental Decision Support System
Capitalize on proven low cost existing NASA system architecture for processing existing models and datasets from US and foreign entities
Leverage NASA & other gov’t agencies’ investment & experience – build common interest area – the Arctic
Create a decision support system to monitor, analyze and visualize environmental issues
Purpose: Building Partnerships, enable military / civilian long-term environmental planning and/or near term cooperative actions in response to climatic change & environmental degradation in the Arctic Region
Used by EUCOM, NORTHCOM, Navy, NOAA, interagency & partner nations, regional and local users
Test / demonstration approach
2011: Component tests; technical and operational demonstrations with EUCOM, NASA, DLR, UA Huntsville, VCSI and Partner Nations (PN) Operators / Analysts and Decision-makers; OUA Reports
STEM: Integrate college interns & students in initial operations demonstration including exchanges with partners
Metrics: 5 Capabilities; 13 Tasks / Attributes; # of validated models / data sets; # of partnerships
Deliverables
2011: An Arctic Decision Environmental Support System with 1 Regional, 2 Partner Nation system nodes and 3 Remote Access Sites with cross border, detection, monitoring, analysis, visualization, predicting and decision-making system capabilities; CONOPS, TTPs
2012: Transition to PNs and Organizations; NOAA, Earth Science Office, MSFC / NASA, EUCOM, NORTHCOM
Funding, sources and amounts by year:
RFD recommendation: USD(AT&L) approve PEOPLE JCTD
12 8/31/2012
13. 13 8/31/2012
14. Back-ups 14 8/31/2012
15. PEOPLE Node Equipment� 15 8/31/2012
16. Anticipated Facility Requirements� 16 8/31/2012
17. Scalable National/Regional Node �(Computing and Operations Room Examples) 17 8/31/2012
18. NSPD-66 Arctic Region Policy 8/31/2012 18
19. Quadrennial Defense Review 8/31/2012 19
20. U.S. Navy Arctic Roadmap 8/31/2012 20
21. The Current Situation Developed and third world countries face security risks because of an inability to plan for, monitor, and respond to disasters in the Arctic & other areas of the world:
Environmental change (albedo, permafrost, oil spills and biodiversity)
Natural disasters (sea ice depth and flows)
Humanitarian challenges (vector born disease, fresh water, human health, mobility)
Involvement is in U.S. best interest; especially providing low-cost decision support systems that enhance a country’s or region’s awareness and preparedness
Partner nations need enhanced day-to-day resource management and emergency preparedness:
Prepare for, monitor, and coordinate responses
Efficiently manage ecological resources and address environmental trends
Sharing Earth Observation data and analysis is acknowledged by over 72 nations as a “must accomplish” activity – solutions are many years off
The Arctic represents a great opportunity to integrate disparate parties to address a common area of interest and to integrate disparate data sets, tools and models to produce a recognized decision support system 8/31/2012 21
22. Partner Nations / Joint / Interagency�Operational Problem 8/31/2012 22 No overarching operational architecture or universal core system for data & tool integration
Slow pace of enabling data sharing polices
Insufficient ability to build partnership capacity to address environmental and resource management issues
Insufficient ability to develop plans for Arctic Ocean passages, environmental & ecological management - for all partners!
Evacuation, land, water, and ocean use, and environmental disasters (Ice characteristics and spatial distribution: ice breakup, ice temperature, snow depth, etc)
23. Desired Capabilities by FY12 A monitoring, analysis, and visualization decision support system for environmental resource management, humanitarian and hazard risk forecasting and management
Capitalize on existing space, air, ground-based, and NASA decision support architecture & tools
Integrate & interoperate w/ existing & developing satellite imagery, in-situ, and disparate data sources
Strengthening engagements with Partner Nations and research organizations (e.g., Group on Earth Observations, Sustainable Arctic Observing Network) engaged in collaborative data sharing and product and model development
Integration of data in standardized data formats and taxonomy provided by partner nations and participating organizations
Management tools for decision making
A cross-border, interdependent, regional, and national decision support system
Capable of delivering land, sea and atmospheric conditions measurement and monitoring capabilities (e.g., water resources, pollution, urban development, fires, sea ice dept and flows)
Display and overlay multiple geospatial data information products (e.g. fires, weather prediction, climate change, permafrost, land cover mapping, and flooding data)
CONOPS and TTP
Compatible with and supportive of broader Building Partnerships (BP) strategies
23 8/31/2012
24. 8/31/2012 24
25. Capabilities Solution Combined hardware and software system consisting of the following:
Processing and Service Software
Web services (HTTP / HTTPS) Application
Relational Data base Management Software
Database Interface (Web Map Service)
Geographic Information System (GIS) application
Image Processing Software Applications
Product Generation Software
Google Earth Professional Edition
Spatial Datasets and Analysis
Satellite Data (e.g., Landsat, MODIS (Aster and Terra), EO-I ALI, QuickBird, IKONOS, FORMOSAT, RADARSAT, ENVISAT, TERRASAR-X, COSMOS SKYMED
Airborne Data (e.g., AirSAR, Star – 3i, Aerial Photography, LIDAR
Marine data (e.g., MODIS: Sea Surface Temperature; surface winds (buoy) )
Tabular Data (e.g., stream gauge, surface temperature, surface winds, soil saturation, weather radar, seismic , buoy data etc.)
Framework Data (e.g. topographic, political, geologic, transportation, land cover, etc.)
Geophysical and human dimension model results (e.g., WRF)
Network and Security Services Infrastructure (scalable, equitable, interoperable, tailorable)
Unclassified, commercially secured Internet / Intranet connectivity
Continuous 24/7 information access
Hardware (dedicated web, database, data archive servers, displays) & workstations
CONOPS and TTP 25 8/31/2012
26. 26 8/31/2012
27. Top Level Capabilities & Metrics�(1 of 5) 27 8/31/2012
28. Top Level Capabilities & Metrics� (2 of 5) 28 8/31/2012
29. 29 8/31/2012 Top Level Capabilities & Metrics� (3 of 5)
30. 30 8/31/2012 Top Level Capabilities & Metrics� (4 of 5)
31. 31 8/31/2012 Top Level Capabilities & Metrics� (5 of 5)
32. Overall Demonstration Strategy Operates at unclassified and commercially secured information levels
Ability to access data in a Web-based construct
Participants: EUCOM, NASA, DLR, UA Huntsville, VCSI and Partner Nations Operators / Analysts and Decision-makers
Technical and Operational Demonstrations, 2011
Technical:
Performs final component integration test and demonstration
Reduces risk via test-fix-test approach and operator / user input
TD serve as “dress rehearsal” for operational demonstration (OD)
TD: Oct / Nov 2011, National Space Science and Technical Center (NSSTC), MSFC NASA
Operational:
Captures independent operator / user assessments and determines operational utility
OD: Nov / Dec 2011: 1 Regional [NIC U.S.], 2 National nodes [Canada, Russia]; 3 Remote Access Sites [EUCOM Germany, NORAD Colorado, Fairbanks, Alaska]; 1 System Administration node [MSFC NASA]
OUA: Jan / Feb 2012 32 8/31/2012
33. 8/31/2012 33 Top Level Regions & Scenarios�(1 of 3)
34. Top Level Regions & Scenarios�(2 of 3) 34 8/31/2012
35. 35 8/31/2012 Top Level Regions & Scenarios�(3 of 3)
36. Core Technologies 36 8/31/2012
37. Description of Products / Deliverables 8/31/2012 37
38. Critical Operational Issues 38 8/31/2012
39. Follow-on Development / Production /�Fielding / Sustainment Products and deliverables transitioned pending successful OUA and resource sponsor commitment:
Targeted Programs: Partner Nations; Interagency; NOAA, Earth Science Office, MSFC / NASA
Limited follow-on development [6mos] required if PEOPLE JCTD configuration replicated
Obtain and reestablish the data feeds
Obtain alternative data feed if the original is not available
Update framework data for new area
Update data products for new area
Develop and establish as applicable community of interest of Partner Nations
Follow-on development [18mos] of custom product generation required to support additional specific user needs
Determine institutional eligibility
Define user requirements
Determine feasibility of system to meet user requirements
Develop and establish as applicable community of interest of Partner Nations
Develop specific system tools, data, models as applicable
Deployment and fielding starts FY13
Equipment should be COTS / GOTS to the greatest extent possible 39 8/31/2012
40. Limited Operational Use�If conducted, resourced through transition funding (if approved) Conduct Limited Operational Use with operational components at demonstration sites in FY11
Pending OUA, starts in 2Q FY12
12 months maximum
Includes hardware, software, and documentation (see Products / Deliverables)
Finalizes CONOPS, TTP, training package, and DOTMLPF recommendations
Qualitative feedback iterated with:
EUCOM, Partner Nations, Partner Organizations, NASA MSFC Earth Sciences Office (ESO), NOAA
NASA TM provides technical support
Requires positive OUA
Requires Partner Nations and Partner Organizations commitment for post-demonstration time frame
Does not enhance capability or continue assessments 40 8/31/2012
41. 8/31/2012 41
42. Battlespace Awareness (BA) JCA�Environmental Measurements & Visualization Monitoring 42 8/31/2012
43. Battlespace Awareness (BA) JCA� Environmental Analysis 43 8/31/2012
44. Battlespace Awareness (BA) JCA� Predict Environment Forecast and Management Analysis 44 8/31/2012
45. Battlespace Awareness (BA) JCA� Exploit Environment Decision Set 45 8/31/2012
46. JCTD Risk Management�and Mitigation Approach 46 8/31/2012
47. 47 8/31/2012 JCTD Partnerships
48. Organizations 48 8/31/2012
49. 49 8/31/2012 Building Partnerships (BP)�Functional Capability Area (FCA)�Definitions
