1. Office of the Secretary of Defense Test Resource Management Center
Test & Evaluation/Science & Technology
Opportunities
June 8, 2015

2. Test Resource Management Center Presenters
Moderator: Mr. Robert Heilman
Principal Director, TRMC: Mr. Derrick Hinton
TRMC STEM Lead: Ms. Denise De La Cruz

3. Our Objective Today
Raise awareness of the mission of the Test Management Resource Center
Describe the opportunities available through our Test & Evaluation / Science & Technology Program
Discuss the future and its impact on Test & Evaluation
Raise awareness of the TRMC STEM Initiative

4. Test Resource Management Center (TRMC) Overview
Derrick Hinton Principal Deputy, TRMC

5. TRMC Organization Starting July 2015 Dr. C. David Brown
Director, National Cyber Range
Pete Christensen
Deputy Director, Corporate Operations & MRTFB Policy
Sheila Wright
Deputy Director,
T&E Range
Oversight
Bruce Bailey
PD, TRMC
Mr. Derrick Hinton
DASD(DT&E)
Dir, TRMC
Under Secretary of Defense for Acquisition, Technology & Logistics
Hon Frank Kendall
Staff Director
Col Erik Webb, USA
Chief Financial Officer
Bruce Buchner
Tech. Development
George Rumford
T&E/S&T Program PM
Interoperability
Chip Ferguson
JMETC
Program PM
Test Capabilities Development
Gerry Christeson
EWIIP PM
CTEIP PM
Chris Paust
ASD(R&E)
Mr. Al Shaffer, Acting
Starting July 2015
PD, DT&E
Dr. Brian Hall
Effective April 1, 2011, the DASD(DT&E) serves concurrently as Director, TRMC

6. Game-Changing Technologies Challenges in Hypersonic T&E
Hypersonic flight environment is difficult to replicate on the ground
Hypersonic flows are difficult to accurately model
Material Development Challenges
Extreme heat requiring Thermal Protection System (TPS), shell made of advanced materials
TPS materials tested in Arc Jet Heaters up to 180 atmospheres & 13,000 degR
Arc jets achieve these extreme temperatures by flowing high pressure air over an electric arc and through a supersonic nozzle
Bottom Line: Designing test facilities is just as challenging as designing hypersonic flight vehicles
Scramjet Test
at NASA Langley
Arc Jet Heater
Hypersonic Vehicle in Flight

7. Game-Changing Technologies Managing T&E of Autonomous Systems
We Must Transform T&E Culture
We Must Develop Accepted
Cross-domain standards, metrics, and test methodologies
Human-Robot-Robot interactions
Multiple interacting domains
(Air, Land, Sea, Undersea) ranges
Georgia Tech Research Institute Study
To assess and develop an approach to gaps and required investments in T&E infrastructure for autonomous systems

8. Test and Evaluation Range in Action
Range Control Facility
Bidirectional Secure Range Network
CEC
Unmanned Systems & Networks
Joint Task Force
TAC NET
C4I Providers
OTHER RANGES
OTHER RANGES
Mobile Apps & Adaptive Networks
Mobile Apps & Adaptive Networks
C2 CONTROL NET

9. TRMC Mission TRMC Mission
T&E Infrastructure
T&E Investments
Test & Evaluation/Science & Technology (T&E/S&T) Program
MRTFB Planning, Assessment and Oversight
T&E advanced technology development
Strategic Plan for DoD T&E Resources
Central Test & Evaluation Investment Program (CTEIP)
Updated every 2 years in coordination with the Military Departments, Defense Agencies, and specified OSD offices
T&E capability development
Joint Mission Environment Test Capability (JMETC)
T&E Budget Certification
T&E distributed test integration
National Cyber Range (NCR)
Certify to the Secretary of Defense adequacy of DoD T&E Budgets
Cyber T&E Environment

10. Major Range and Test Facility Base (MRTFB): The “Critical Core” 23 Sites: Army-8; Navy-6; Air Force-7; Defense Agency-2
Legend:
Army, Navy, AF, Defense Agency
NUWC Keyport (Nanoose & Dabob Ranges)
NAWC-WD China Lake
30th Space Wing
NAWC-WD Point Mugu
412th Test Wing
Yuma Test Center
Nevada Test and Training Range
Utah Test and Training Range
West Desert Test Center
White Sands Test Center
Electronic Proving Ground
PMRF
U.S. Army Kwajalein Atoll
Reagan Test Site
DISA,JITC
96th Test Wing (Includes 96th Test Group)
Atlantic Undersea Test and Evaluation Center
45th Space Wing
Arnold Engineering Development Complex
Aberdeen Test Center
DISA
Cold Regions Test Center
Tropic Regions Test Center, various locations
NAWC-AD Patuxent River
Updated 21 Apr 2014

11. Test & Evaluation / Science & Technology (T&E/S&T) Program
Mission: Develop Technologies Required to Test Future Warfighting Capabilities
Established in FY02
Joint DDR&E / DOT&E Initiative
Transitioned to TRMC in FY05
RDT&E Budget Activity 3 funds
Purpose
High Risk / High Payoff R&D for Testing
Foster technology transition to major DoD test ranges
Risk reduction for test capabilities developments
Annual Broad Agency Announcements (BAAs)
Academia
Industry
Government Laboratories
Tri-Service working groups
Validate requirements
Evaluate proposals
Facilitate technology transition
Central Oversight – Distributed Execution
82 Active Projects
High Speed Systems
14 Active Projects
Eight Test Technology Areas
Directed Energy
Cyberspace
3 Active Projects
C4I & Software Intensive Systems 8 Active Projects
Electronic Warfare
15 Active Projects
Unmanned & Autonomous Systems
4 Active Projects
Advanced Instrumentation
11 Active Projects
Spectrum Efficiency
13 Active Projects
Shaping Technology into Tomorrow’s T&E Capabilities

12. Central Test & Evaluation Investment Program (CTEIP)
Mission: Develop or Improve Major Test Capabilities that have Multi-Service Utility
Established in FY91 by Congress with 6.4 RDT&E funds
Long-Term Multi-Service Investments
Near-Term Investments
Joint Improvement & Modernization (JIM)
Resource
Enhancement Project
(REP)
Threat
Systems
Project
(TSP)
Core EW
Special DoD area of emphasis
EMD of electronic warfare (EW) test capabilities
Focus is on assessing performance of aircraft against complex new threats
Service budget for life-cycle O&M
Total cost ~$465 over ~7 years
3-5 year requirement horizon
EMD of major test capabilities
Must address multi-Service need
Development, not procurement
Services & Agencies budget for
O&M over life-cycle
$ M/year
1-2 year horizon
Address shortfalls
in threat systems
representation
Coordinated with
DOT&E
$3-5M/year
1-2 year requirement horizon
EMD of instrumentation
needed to address an
emergent requirement
Must address OT shortfalls
Coordinated with DOT&E
$18 -20M/year
Requirements Drivers
Bi-annual Multi-Service T&E Reliance Nomination Process
Multiple DoD EW studies
Annual review of near term OT requirements
Annual review
of threat needs
19 JIM, 6 EW, 13 REP, 11 TSP = 49 Projects

13. UNCLASSIFIED UNCLASSIFIED
Joint Mission Environment Test Capability (JMETC) Program Secret Network
Boeing LabNet Tukwila
Leverages the SECRET Defense Research and Engineering Network (SDREN) for connectivity
Operates only at the SECRET classification
Continuous monitoring, troubleshooting, and optimization of the end-to-end network infrastructure
Capable of supporting numerous simultaneous test events
Updated
Apr 2015
Keyport NUWC
Ft. Greely: CRTC
Site in Alaska
Rome NY AFRL
Newport NUWC
Moorestown: CSEDS
Edwards (2):
USSTRATCOM
WPAFB: SIMAF
Aberdeen:
ATC-STE
Ridley
Dugway Proving Ground
412th EWG IFAST
Crane (2):
NSWC RDT&E, NTN Lab
Dahlgren:
IWSL
Rapid-SIL/C2
(2) DOC, ICSTF
China Lake (3): F/A-18, IBAR,
TSPIL
Boeing LabNet Berkeley
Point Mugu (3):
ITEC, EA-6B.
EW CyCon
Pax River:
(9) E2C, E2D, MCL,
ACETEF, SAIL, ATR,
E-2C SIL, UASIL, MFS ETC SYSCON
East Interconnect Rtr.
Redstone (10): SMDC
RTC: DTCC, DISTL
SED: Patriot, THAAD, FAAD, GSIL, JLENS, MUSE, C-RAM
AMRDEC
Camp Pendleton:
MCTSSA
Corona: NSWC
Kirtland AFB DMOC
Tinker AFBAWACS
Palmdale, Triton
Raytheon Tucson
Ft. Sill (2):
FSED, SMART Lab
JS J8 DDC4 C4AD
Point Loma :
SSC-PAC 59140
Langley TDLITC
Yuma PG
GTRI
Norfolk COMOPTEVFOR
W. Interconnect Rtr.
Greenville Rivet Joint
Charleston (2): SSC Data Ctr
MEF-MEU
Ft Huachuca: (5)
JITC, JTDL, CMIS, JTRS,
EPG
Rancho Bernardo
NGC Triton
WSMR IRCC
Dam Neck CDSA
Ft. Bliss MCC
Wallops Island (2): SCSC, SSDS
MHPCC
PMRF: Bldg 105
Sites in Hawaii
Newport News NGC VASCIC
Ft Hood (2): CTSF, TTEC
LMCO Global Vision
Network
Eglin AFB (5):
AOC, DTF, GWEF, KHILS, JDAT
McLean MITRE NSEL
Kingstowne JMETC / TENA SDA Lab
Melbourne
NGC JSTARS
76 Current Sites 9 New Sites Planned 7 Connections Points to Other Networks
Richmond NRO CTE
Army
Air Force
Navy
Marines
Joint
Industry
Academia
UNCLASSIFIED
UNCLASSIFIED 13

14. National Cyber Range (NCR) “DARPA-Hard” Capability
Computing Assets/Facility
Encapsulation Architecture & Operational Procedures
Provides the ability to rapidly design, deploy and sanitize large scale, high fidelity test and training environments
Extremely malicious threats can be unleashed on operationally, representative systems and networks to assess the impact on the network, networked weapon systems, the associated mission
Significant technological advancements incorporated into integrated tool suite
Highlighted by the significant level of automation
Ability to support up to four concurrent events, executed in completely isolated testbeds, at different levels of classification
Automated sanitization capability
Expunges all malicious code from every component used within the event and returns it to a pristine state ready for reuse
Sanitizes not only storage but also servers (including non-volatile RAM) and network equipment
Time saving
In many cases, what previously took weeks or months has been reduced to hours or days
Allowing users the ability to rapidly plan, execute, and analyze their test or training initiatives
NCR also provides SME
Available, at the discretion of the user, to support the planning, execution and analysis of test and training events
NCR is able to collaborate with other cyber ranges using secure networks
When test events require special capabilities or additional scale
“DARPA-Hard” Capability
Integrated SW Testing Toolsuite

15. A Look at What Drives Impacts to the T&E Infrastructure
Why We Need Technology Enhancements

16. 50 Years of Exponential Progress
We’ve hit the 50th anniversary of Moore’s Law
What does 50 years of exponential progress look like?
Produced in 1971
Produced in 2013
4,000X Faster
5,000X Less Energy
50,000X < cost/transistor
2,300 transistors
Built by hand
Used in F-14 Tomcat
1.4 Billion transistors
5 Billion transistors built per second
Annual production = 20 Million for every person on earth

17. Living in an Exponential Age
Linear Progress
Exponential Progress
26 Steps
26 Steps
= 26 meters
= A walk around Earth
A walk across the room
30 steps = Circle Earth 26X

18. What Did Exponential Increases Provide?
2005
Let’s look at the last
The iPhone was two years away from its 1st release
The first video was uploaded to YouTube
Facebook was a year old, and acquired URL “facebook.com” for $200K
Android was a small startup that Google had just acquired
The term “Drone” meant a military weapon system
An early prototype autonomous car completed DARPA Grand Challenge for the first time

19. What Did Exponential Increases Provide?
2015
Today
Let’s look at
iPhone 6: 32% thinner, 5% lighter, 40% >display, 200% >resolution, 700% >RAM, 800% >storage, 340% >processor, 60% <cost w/ contract
Billion users, 300 hours of video uploaded an hour
1.4 billion users from every country on earth share 2.5 million pieces of content every minute
Over a billion Android users
Drones from $50 - $1,500 used by everyone from kids to Amazon
Google’s autonomous cars have logged > 1M miles
Every auto manufacturer working on a version

20. Technologies & Trends Leaning into the Future
Sensor Fusion
By 2025 we will have 100 billion connected devices
100 billion connected devices =
trillion sensor ecosystem
Sensor Fusion
Massive increase in connected devices
Today 2.8B of 7B+ people on earth connected
By 2020 entire earth population will be connected
Connectivity
The more connected we are, the more we depend on the net, the greater our vulnerability
Cyber 20

21. Technologies & Trends Leaning into the Future
Every year we produce more computing power than the sum of all previous years – soon to become unlimited and nearly free
Infinite Computing
Fully intelligent machines operating with
zero human control
Autonomy
By 2025 a computer costing $1K will have the equivalent processing speed of the human brain. By it will have human level intelligence.
Artificial Intelligence
Billions of dollars are being invested in
full immersion AR and VR
Augmented Reality

22. 5th Gen T&E Infrastructure
Cyber
Emulation of global information infrastructure
Testing & employment of learning systems
Quantum computing
Extending cyber ecosystem to warfighting systems
Autonomy
Predict behavior of fully autonomous system
White box insight into black box system
Measure group thinking of autonomous swarm
Optimize tasking between human vs AI system
Game Changing Technology we need Now
Reducing and Sharing DoD Spectrum
Advanced Automated Software Defect Detection

23. Test & Evaluation/Science & Technology Program Overview

24. T&E Capability Development Cycle
Challenge: T&E Capabilities must be available in time to provide useful insight to decision-makers and warfighters A B C
Materiel Solution Analysis
Engineering and Manufacturing Development
Production and Deployment
Technology Development
Operations and Support
SHIFT LEFT will require earlier forecast of test infrastructure needs
Begin System T&E Planning
Articulate T&E Requirements
Use T&E Capabilities
IOT&E uses capabilities
T&E/S&T
Program
CTEIP and Services I&M
Cycle for Test Capability Development Must Begin Early

25. T&E/S&T Program Overview
Mission: Develop Technologies Required to Test Future Warfighting Capabilities
Established in FY02
Joint DDR&E / DOT&E Initiative
Transitioned to TRMC in FY05
RDT&E Budget Activity 3 funds
Purpose
High Risk / High Payoff R&D for Testing
Foster technology transition to major DoD test ranges
Risk reduction for test capabilities developments
Annual Broad Agency Announcements (BAAs)
Academia
Industry
Government Laboratories
Tri-Service working groups
Validate requirements
Evaluate proposals
Facilitate technology transition
Central Oversight – Distributed Execution
82 Active Projects
Current Test Technology Areas
High Speed Systems
14 Active Projects
Unmanned & Autonomous Systems
4 Active Projects
Spectrum Efficiency
13 Active Projects
Advanced Instrumentation
11 Active Projects
Directed Energy
14 Active Projects
Cyberspace
3 Active Projects
Electronic Warfare
15 Active Projects
C4I & Software Intensive Systems
8 Active Projects
Shaping Technology into Tomorrow’s T&E Capabilities

26. T&E/S&T Test Technology Area Executing Agent Organizations
TRMC HQ
Air Force
Army
Navy
Advanced Instrumentation Systems Naval Undersea Warfare Center
Program Office TRMC HQ
Spectrum Efficiency Edwards AFB
High Speed Systems Test Arnold Engineering
Development Center
Unmanned & Autonomous Systems Test
Naval Air Systems Command
Cyberspace Test Eglin AFB
C4I & Software Intensive Systems Test Naval Air Systems Command
Directed Energy Test
PEO for Simulation, Training and Instrumentation
Electronic Warfare Test
PEO for Simulation, Training and Instrumentation
Central Oversight – Distributed Execution 26

27. T&E/S&T Program Significant Test Technology Needs (1 of 2)
High Speed Systems Test
Electronic Warfare Test
Propulsion Scaling Test Techniques
Combined Cycle Propulsion Test Methods
Hypersonic Flight Erosion Test Methods
Thermal Protection System Ablation Testing
Improved Computational Tools
High-Speed EO/IR Scene Generation
Missile Body & Plume Attitude Measurement
Real-time, High-Fidelity, High-Density RF Signal Generation
Multi-Beam Characterization
Radar Clutter Simulation
Directed Energy Test
C4I & Software Intensive Systems Test
Neutron Environment Simulator to replicate required nuclear effects test environments
In Chamber HPM Source
HPM Electronic Failure Analysis
Characterizing beam propagation through atmosphere & maximizing laser test windows
Flexible Test Harness Generator
Automated, Rapid, Agile Test Planning
Removing biases in Distributed Testing
Rapid Analysis of Voluminous Unstructured Data (“Test Data to Decision”)
Determining Required M&S Fidelity in Tests
Examples of some of the T&E S&T Projects

28. T&E/S&T Program Significant Test Technology Needs (2 of 2)
Unmanned & Autonomous Systems Test
Cyberspace Test
Predicting autonomous behavior for testing scenarios
Enhancing safety of autonomous testing
Testing of autonomy components
Measure autonomous system reliability and performance
Controlling swarming target systems
Cyberspace test visualization
Defining cyberspace test measurements
Improved, scalable cyberspace threat representations
Improved cyberspace range turn-around
Advanced cyberspace instrumentation
Improved cyberspace analysis
Spectrum Efficiency Technology
Adv. Instrumentation Sys. Technology
Multiple Access Schemes for Serial Streaming Telemetry
Modulation Agile Radio for Test Applications
Channel Estimation and Equalization
Steerable Multiband Antenna (L-band, S-band, & C-band) for Airborne Test Articles
TSPI without GPS (or with limited GPS)
Measuring body armor / helmet effectiveness
Measuring cognitive workload
Improved weapon characterization and scoring
Mitigating test range impacts from alternative energy solutions
Examples of some of the T&E S&T Projects

29. T&E/S&T Program Broad Agency Announcements
Topics for Industry, Academia, and Government Laboratories to propose test technology solutions
In-cycle Process
Declared schedule for white paper submissions (deadline)
Requires an allocation of available funding
Priority over out-cycle white papers (must be processed first)
Out-of-cycle Process
White papers submitted anytime after "in-cycle" deadline
Offerors "highly encouraged" to contact Executing Agent before submitting white paper
Ensures interest
Can address whether a 'chance' exists for funding
All BAAs include an “Other Test Technologies” topic to enable offerors to propose test technology developments that were not previously identified by the Government
All T&E/S&T BAAs are always open for new white papers

30. Location of T&E/S&T BAAs
Keyword: TRMC
Note: Change search criteria for “Posted Date” from “Last 90 Days” to “<blank>”
Updated Topics Being Posted by End of July
Out-of-Cycle Only Must Discuss Concept with Executing Agent Prior to Submittal

31. T&E/S&T New Project In-Cycle Selection Schedule
BAA Pre-FY Cycle
T&E/S&T New Project Selection Schedule
Activity
OCT
NOV
DEC
JAN
FEB
MAR
APR
MAY
JUN
JUL
AUG
SEP
Draft BAA Topic Areas
Industry/Academia Days
Announced through
Refine BAA Topics
BAA Topics Finalized
BAA Topics Announced
Call for White Papers
White Paper Submissions
White Papers due in March
White Paper Reviews
Proposals Requested from Selected Offerors
Proposal Submissions
Proposal Review & Clarifications
Executing Agents Recommendations to PM
PM New Start Decisions
Contract Awards Initiated
Program Manager Action
Executing Agent Action
Contracting Officer Action
Offeror Action

32. The Proposal — Key Criteria
Meets a T&E need
Requires S&T work
High payoff
Broad application (more than one DoD test activity)

33. T&E/S&T Program Summary
T&E/S&T Program initiated to address critical T&E needs tied to S&T drivers
Advancing the state of the art in T&E technologies
The only DoD S&T program dedicated to T&E
Annual Call to Industry, Academia, and Government Laboratories to address test capability needs
Competitive technology developments to get the best technologies possible to the test community
Focused on transition into needed test capabilities
Looking Ahead, Responsive, and Agile

34. Test Resource Management Center (TRMC) STEM Initiative
The T&E Future Workforce
Denise De La Cruz TRMC STEM Lead

35. TRMC STEM Initiative Technology Talent
Investments in minority-serving universities for concept exploration and development of new test technologies
(to expand our offeror base)
Summer internship program to immerse students in T&E centers
Regional outreach and partnerships to promote STEM and the T&E profession across the country
Technology
Talent
Persistent infusion of a diverse supply of technology and talent into the T&E enterprise

36. TRMC STEM Tech Initiative
Initiative Objective: Establish a broader T&E/S&T Program offeror base by posturing targeted Engineering schools to successfully compete for T&E/S&T technology development
Current Partners
SCHOOL
TOPIC
START
North Carolina Agriculture & Technical University
Autonomous Systems
-Fuzzy logic application to a Perception Inference Engine
Jan 2014
Florida International University
Cyberspace T&E
-Instrumenting hypervisors for use in a virtual environment
March 2014
Cyberspace Technology Testing & Training Center (CT3C) at FIU
NCA&T Autonomous Systems Project Team
2014 TRMC Internship Orientation at FIU

37. NC A&T Autonomy Test Technology Research
Autonomous Control and Information Technology Institute (ACIT)
Dr. Abdollah Homaifar, Director
Technology Description
Create an Autonomous System Behavior Prediction Tool
Perception Inference Engine (PIE)
Predict/mimic the behavior of an autonomous system under test without interfering with the operation of the physical system
Two Principal Components
Fuzzy Inference System
Learning Classifier Tool
T&E Application/Value
Predict behavior of autonomous system under varying conditions via sim environment to assist in defining test limits and mitigating risk

38. 2015 Regional Intern Partnerships
Legend:
Army, Navy, AF, Defense Agency, OSD
University Partners
NUWC Keyport (Nanoose & Dabob Ranges)
NAWC-WD China Lake
30th Space Wing
NAWC-WD Point Mugu
412th Test Wing
Yuma Test Center
Nevada Test and Training Range
Utah Test and Training Range
West Desert Test Center
White Sands Test Center
Electronic Proving Ground
PMRF
U.S. Army Kwajalein Atoll
Reagan Test Site
DISA,JITC
96th Test Wing (Includes 96th Test Group)
Atlantic Undersea Test and Evaluation Center
45th Space Wing
Arnold Engineering Development Complex
Aberdeen Test Center
DISA
Cold Regions Test Center
Tropic Regions Test Center, various locations
2015 Worksites
TACOM
TARDEC
Morgan State Univ.
NAWC-AD
Patuxent River
Wayne State Univ.
Lawrence Tech. Univ.
Oakland Univ.
Cal. State Univ. Channel Islands
Univ. of Maryland
Virginia State Univ.
Holloman AFB
New Mexico State
New Mexico Tech
Univ. of New Mexico
Univ. of TX, El Paso
Redstone Test Center
AMRDEC
North Carolina A&T
Georgia Tech
Univ. of Alabama
Alabama A&M
National Cyber Range
Florida Int’l Univ.
Center for Countermeasures
NAWC-TSD
Orlando

39. Sample Intern Worksite
2014 NCA&T Intern
Air Combat Environment Test & Evaluation Facility
(ACETEF)
ACETEF, the Navy’s fully integrated RDT&E Installed Systems Test Facility, provides full spectrum evaluation of highly integrated aircraft and aircraft systems in a secure controlled engineering environment

40. # = collisions per flight hour
Intern Accomplishments
2014 NCA&T Intern
Joint Unmanned Aircraft System Mission Environment
(JUAS ME) Project
Payload Component – Safety of Flight #
Task 1
Assist in developing the technical requirements for an A2A radar model that will be used in aircraft ground test to evaluate A2A radars against their performance specifications and against competitor A2A radars 2
Aid in development of the A2A radar model fundamentals using the Matrix Laboratory (MATLAB) technical computing language 3
Assist in development and analysis of data from the Collision Risk (CR) tool that, when combined with other technical data, will assess the UAS Target Level of Safety (TLS) in a given Airspace environment
Air
Traffic Analysis
Airspace
Analysis
CR Value
Ownship
Perfmc.
Specs.
UAS TLS
# = collisions per flight hour

41. STEM Connect Adopt-A-School Barcroft Elementary School
Building a foundation to connect today’s STEM professionals with tomorrow’s future workforce
Adopt-A-School
Barcroft Elementary School
South Arlington, VA
Flexible Learning Experience – Aviation Classroom Experience (FLEX-ACE)
Orlando, FL
Washington, DC
Virginia FIRST Robotics / International Test & Evaluation Association (ITEA) Robotics Competition
Cool Boys Book Club
Reading enrichment from male role models for elementary boys
Girls for Engineering, Math & Science (GEMS)
STEM Enrichment program with female role models for elementary girls
Supporting immersive classroom experiences to promote the importance of T&E in STEM curriculum
Investments in underserved populations promote higher education in STEM career fields
Pairing technical SME’s with opportunities to volunteer supporting hands on learning through robotics and engineering programs
FLEX-ACE
Students at work
Oakridge High School FLEX ACE Lab
2014 ITEA / Virginia FIRST Robotics Competition

42. Our Request & Challenge to You
Our Goal
Through our resources and partnerships, place
5,000 interns across the T&E enterprise in 5 years
Implementation
We will nurture, cultivate, track and prepare these young minds to enter and transform the T&E Community
Our Request & Challenge to You
Join us in preparing T&E for the future 42

43. Test Resource Management Center
Questions?
Test Resource Management Center
4800 Mark Center Drive, Suite 07J22
Alexandria, VA
Phone:
FAX:
Dr. C. David Brown
DASD(DT&E) / Director, TRMC
(703)
Mr. Derrick Hinton
Principal Deputy Director, TRMC
(571)
Mr. Chip Ferguson
Deputy Director,
Interoperability
JMETC Program Manager
(571)
Ms. Denise De La Cruz
TRMC Test and Evaluation Range Oversight (TERO), Army Lead
STEM Lead
Mr. George Rumford
Deputy Director,
Technology Development
T&E/S&T Program Manager
(571)
Mr. Chris Paust
CTEIP Program Manager
(571)
Mr. Gerry Christeson
Deputy Director,
Test Capabilities Development
(571)
Mr. Pete Christensen
Director,
National Cyber Range
(571)