Office of the Secretary of Defense Test Resource ... · Design the hardware needed to install HTDLAS at HAPCAT Install & perform shakedown testing at HAPCAT Final Report and HTDLAS

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Office of the Secretary of Defense

Test Resource Management Center: Opportunities for HBCU/MI

Mr. Derrick HintonActing Director, Test Resource Management Center

August 30, 2017Taking the Pentagon to the People – Oakwood University

28 AUG 2017 – CLEARED FOR OPEN PUBLICATION BY THE DOD OFFICE OF PREPUBLICATION AND SECURITY REVIEW – 17-S-2412

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Discussion

• TRMC Overview

• Technical Workforce Challenges

• TRMC-Directed Research Opportunities for HBCU/MIs


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Discussion

• TRMC Overview




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TRMC OrganizationAs of 1 Sep 2017

Chief Financial Officer

Chief Operating Officer

Under Secretary of Defense for Acquisition, Technology & LogisticsThe Honorable Ellen M. Lord

Deputy EA for Cyber Test Ranges

AgencyRange Oversight

ArmyRange Oversight

Air ForceRange Oversight

NavyRange Oversight

Deputy Director, T&E Range Oversight

Deputy PM, CTEIP PM, REP

PM, CTEIP

Deputy PM, T&E/S&T

Director, TENA SDA

Deputy PM, JMETC

Director, NCR Complex

Deputy Director, NCR Complex

Deputy Director, Major Initiatives and Technical AnalysesPM, T&E/S&T // PM, JMETC

Principal Deputy, TRMC

Mr. Paul D. Mann (Acting)

PM, NCR Complex Expansion

Deputy PM, NCR Complex Expansion

Director, TRMC

Mr. G. Derrick Hinton (Acting)


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TRMC MissionsDoD (Charter) Directive 5105.71

MRTFB OVERSIGHT / T&E INFRASTRUCTURE• Plan for and assess the adequacy of the MRTFB to provide adequate testing in support of the development,

acquisition, fielding, and sustainment of defense systems

• Support the Department’s objective of ensuring compliance with DoDD 7000.14-R• Review proposed significant changes to T&E facilities and resources of the MRTFB before they are implemented

by the DoD Components

• Issue guidance to the DoD Components, through the USD(AT&L), with respect to MRTFB planning• Maintain an awareness of other T&E facilities and resources, within and outside the DoD, and their impacts on

DoD requirements

• Serve as Executive Agent for Cyber Test Ranges STRATEGIC PLAN

• Complete a strategic plan for T&E not less often than once every 2 fiscal yearsBUDGET CERTIFICATION

• Submit report to the SECDEF containing the comments of the Director concerning all such proposed budgets, together with the Director’s certification as to whether such proposed budgets are adequate

PROGRAMS• Administer the CTEIP (Central Test and Evaluation Investment Program) and T&E/S&T Program

CAPABILITIES• Manage and operate the JMETC (Joint Mission Environment Test Capability) Multiple Independent Levels of Security

(MILS) Network and the Regional Service Delivery Points (RSDP) cloud computing environments• Manage and operate the NCR (National Cyber Range) (IAW RMD 407A1, Issue #1, Title: Cyber, Jan 12, 2015) to

provide test capability and capacity for the T&E CommunityStatutory Regulatory


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Major Range and Test Facility Base(MRTFB): The “Critical Core”

23 Sites: Army-8; Navy-6; Air Force-7; Defense Agency-2Legend:

Army, Navy, AF, Defense Agency

30th Space WingVandenberg AFB, CA

NAWC-WD Point Mugu, CA

Nevada Test and Training RangeNellis AFB, NV

Utah Test and Training RangeHill AFB, UT

West Desert Test CenterDugway Proving Ground, UT

White Sands Test Center, White Sands Missile Range, MN

Electronic Proving GroundFort Huachuca, AZ

96th Test Wing (Includes 96th Test Group), Eglin AFB, FL

Atlantic Undersea Test and Evaluation Center, Andros

Island, Bahamas

45th Space Wing, Patrick AFB, FL

Arnold Engineering Development Complex,

Arnold AFB, TN

Aberdeen Test Center, Aberdeen

Proving Ground, MDDISA

Ft. Meade, MD

Cold Regions Test Center

Fort Greely, AK

NAWC-WDChina Lake, CA NAWC-AD

Patuxent River NAS, MD

DISA,JITCFort Huachuca, AZU.S. Army Kwajalein Atoll

Reagan Test SiteTropic Regions

Test Center, various locations

PMRFKauai, HI

Yuma Test CenterYuma Proving Ground, AZ

412th Test WingEdwards AFB, CA

NUWC Keyport (Nanoose & Dabob ranges)Keyport, WA

Updated 22 Jul 2015 • Created by Congress• 25,000+ Personnel• ~$4B in Funding Annually

• Army – 5.5M Acres Land• Navy – 1M Acres Land, 165K

sq mi Sea, 103K sq mi Air• Air Force – Western Ranges

ALONE – 5M Acres Land


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Discussion


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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

71 ActiveProjects

Test & Evaluation / Science & Technology (T&E/S&T) Program

Shaping Technology into Tomorrow’s T&E Capabilities

High SpeedSystems

15 Active Projects

Eight Test Technology Areas

Directed Energy9 Active Projects

Cyberspace2 Active Projects

C4I & SoftwareIntensive Systems5 Active Projects

Electronic Warfare16 Active Projects

Unmanned & Autonomous Systems

4 Active Projects

AdvancedInstrumentation

12 Active Projects

Spectrum Efficiency

8 Active Projects

Mission: Develop Technologies Required to Test Future Warfighting Capabilities

FY 2017 FY 2018 FY 2019* FY 2020* FY 2021* FY 2022* FY 2023*$92.0M $89.6M $97.1M $98.3M $100.3M $102.3M $106.8M

*Outyear Planning Profile


Sheet1

FY 2006FY 2008FY 2009FY 2012FY 2015FY 2017FY 2018FY 2019*FY 2020*FY 2021*FY 2022*FY 2023*

22.59861.3$92.6M$96.6M$81.0M$92.0M$89.6M$97.1M$98.3M$100.3M$102.3M$106.8M

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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 nozzleBottom Line: Designing test

facilities is just as challenging as designing hypersonic flight

vehicles

Game-Changing TechnologiesChallenges in Hypersonic T&E

• Hypersonic flight environment is difficult to replicate on the ground

• Hypersonic flows are difficult to accurately model

Scramjet Test at NASA Langley Arc Jet Heater

Hypersonic Vehicle in Flight28 AUG 2017 – CLEARED FOR OPEN PUBLICATION BY THE DOD OFFICE OF PREPUBLICATION AND SECURITY REVIEW – 17-S-2412

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Game-Changing TechnologiesManaging 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


http://www.google.com/url?sa=i&rct=j&q=&esrc=s&frm=1&source=images&cd=&cad=rja&uact=8&docid=ROOHJ0fbs9c2yM&tbnid=-fuc5vNagTwWeM:&ved=0CAUQjRw&url=http://www.darpa.mil/Our_Work/TTO/Programs/Anti-Submarine_Warfare_(ASW)_Continuous_Trail_Unmanned_Vessel_(ACTUV).aspx&ei=A1aHU7TLI-LLsQTo5YCoBA&bvm=bv.68114441,d.aWw&psig=AFQjCNHxV5ycXC9bgjeVwvU9UsG-WPIbJQ&ust=1401464705054427http://www.google.com/url?sa=i&rct=j&q=&esrc=s&frm=1&source=images&cd=&cad=rja&uact=8&docid=mVV-kcsLnDqx9M&tbnid=1bvno8yxf12A9M:&ved=0CAUQjRw&url=http://www.theblaze.com/stories/2012/01/09/these-next-gen-military-drone-helicopters-will-be-controlled-by-smartphones/&ei=QFaHU5_oE9HMsQTgl4DwAg&bvm=bv.68114441,d.aWw&psig=AFQjCNFDFRvB1rQBXUoSl4O6ojF-MPKNPg&ust=1401464762220969http://www.google.com/url?sa=i&rct=j&q=&esrc=s&frm=1&source=images&cd=&cad=rja&uact=8&docid=rOwIHJvTlfKr0M&tbnid=lRZaqPkysr-FMM:&ved=0CAUQjRw&url=http://www.army.mil/article/125468/Automotive_engineers_explore_future_mobility__protection/&ei=6laHU_OqM-bRsQSqlYDwDQ&bvm=bv.68114441,d.aWw&psig=AFQjCNF7eH48vqLCSRIEEQMAU8E0sRo7jw&ust=1401464891819889http://www.google.com/url?sa=i&rct=j&q=&esrc=s&frm=1&source=images&cd=&cad=rja&uact=8&docid=fvmOPxAezE4tlM&tbnid=BnTbXtp5DGcKNM:&ved=0CAUQjRw&url=http://www.militaryaerospace.com/articles/2014/04/darpa-code-solicitation.html&ei=h1qHU8m8J6rKsAS694DoAg&bvm=bv.68114441,d.aWw&psig=AFQjCNGpc2-0c8FQpkSGMkIkrZEWaizMiw&ust=1401465855283169http://www.google.com/url?sa=i&rct=j&q=&esrc=s&frm=1&source=images&cd=&cad=rja&uact=8&docid=If_CoXpfRZ7dnM&tbnid=v3Bxr1HBPUCjXM:&ved=0CAUQjRw&url=http://www.defenseindustrydaily.com/cv-ucavs-the-return-of-ucas-03557/&ei=Q1eHU8ToBpPOsAS0soDYDQ&bvm=bv.68114441,d.aWw&psig=AFQjCNG_FGNwGjG0fdxe58mJLOtnHxU66A&ust=1401465014907688http://www.google.com/url?sa=i&rct=j&q=&esrc=s&frm=1&source=images&cd=&cad=rja&uact=8&docid=ROOHJ0fbs9c2yM&tbnid=-fuc5vNagTwWeM:&ved=0CAUQjRw&url=http://www.darpa.mil/Our_Work/TTO/Programs/Anti-Submarine_Warfare_(ASW)_Continuous_Trail_Unmanned_Vessel_(ACTUV).aspx&ei=A1aHU7TLI-LLsQTo5YCoBA&bvm=bv.68114441,d.aWw&psig=AFQjCNHxV5ycXC9bgjeVwvU9UsG-WPIbJQ&ust=1401464705054427http://www.google.com/url?sa=i&rct=j&q=&esrc=s&frm=1&source=images&cd=&cad=rja&uact=8&docid=mVV-kcsLnDqx9M&tbnid=1bvno8yxf12A9M:&ved=0CAUQjRw&url=http://www.theblaze.com/stories/2012/01/09/these-next-gen-military-drone-helicopters-will-be-controlled-by-smartphones/&ei=QFaHU5_oE9HMsQTgl4DwAg&bvm=bv.68114441,d.aWw&psig=AFQjCNFDFRvB1rQBXUoSl4O6ojF-MPKNPg&ust=1401464762220969http://www.google.com/url?sa=i&rct=j&q=&esrc=s&frm=1&source=images&cd=&cad=rja&uact=8&docid=rOwIHJvTlfKr0M&tbnid=lRZaqPkysr-FMM:&ved=0CAUQjRw&url=http://www.army.mil/article/125468/Automotive_engineers_explore_future_mobility__protection/&ei=6laHU_OqM-bRsQSqlYDwDQ&bvm=bv.68114441,d.aWw&psig=AFQjCNF7eH48vqLCSRIEEQMAU8E0sRo7jw&ust=1401464891819889http://www.google.com/url?sa=i&rct=j&q=&esrc=s&frm=1&source=images&cd=&cad=rja&uact=8&docid=fvmOPxAezE4tlM&tbnid=BnTbXtp5DGcKNM:&ved=0CAUQjRw&url=http://www.militaryaerospace.com/articles/2014/04/darpa-code-solicitation.html&ei=h1qHU8m8J6rKsAS694DoAg&bvm=bv.68114441,d.aWw&psig=AFQjCNGpc2-0c8FQpkSGMkIkrZEWaizMiw&ust=1401465855283169http://www.google.com/url?sa=i&rct=j&q=&esrc=s&frm=1&source=images&cd=&cad=rja&uact=8&docid=If_CoXpfRZ7dnM&tbnid=v3Bxr1HBPUCjXM:&ved=0CAUQjRw&url=http://www.defenseindustrydaily.com/cv-ucavs-the-return-of-ucas-03557/&ei=Q1eHU8ToBpPOsAS0soDYDQ&bvm=bv.68114441,d.aWw&psig=AFQjCNG_FGNwGjG0fdxe58mJLOtnHxU66A&ust=1401465014907688

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OTH

ER R

ANG

ES

Mobile Apps & AdaptiveNetworks

Mobile Apps & AdaptiveNetworks

OTH

ER R

ANG

ES

CEC

C2 CONTROL NETC2 CONTROL NET

Unmanned Systems & Networks

Range ControlFacility

Range ControlFacility

JointTaskForce

Joint Task Force

TAC NET

C4I ProvidersC4I Providers

Bidirectional Secure Range NetworkBidirectional Secure Range Network

Test and Evaluation Range in Action


High Pressure High Temperature Gas Tunable Diode Laser Absorption Spectroscopy Temperature

(HTDLAS)

FY14 Major Accomplishments Complete shock tube spectral studies, including 3-color

absorptionCreate lookup tables for temperature vs spectral absorption

FY15 - FY17 Major Accomplishments Investigate one-, two- and three-color (wavelength) nitric oxide-

based TLAS (NO-TLAS) for low and high temperature ranges Identify optimum wavelengths Obtain shock tube data on 3 separate NO spectral lines

Develop HAPCAT installation requirements Design the hardware needed to install HTDLAS at HAPCAT Install & perform shakedown testing at HAPCAT Final Report and HTDLAS instrument delivered to HAPCAT

TDLAS Flange

Stanford University, Air Force Research Lab (AFRL), & Air Force Office of Scientific Research

Description: Developing Tunable Laser Absorption Spectroscopy (TLAS) instrument for temperature measurements in high pressure, high temperature Air

Enables:• Non-intrusive air temp measurements at high pressure and

temperatures• Nitric oxide (NO) based TLAS to provide the needed

temperature measurements with low experimental uncertainties• Evaluation of turbine and scramjet engine combustion

properties

Current Status: Completing final report and delivering HTDLAS instrumentation to Hypersonic Aerothermal Propulsion Clean Air Testbed (HAPCAT)

Key Future Events:Q4FY17: Install & perform shakedown testing at HAPCATQ4FY17: Final Report and HTDLAS instrument delivered to HAPCAT

Deliverables (Mo/Yr): Final Report Sep/17 HTDLAS Instrumentation Sep/17

Potential Transition Partner / Date: Hypersonic Aerothermal Propulsion Clean Air Testbed (HAPCAT)


Cyber Threat Automation & Monitoring (CTAM)

Key Future Events:August 2017 : Technical Interchange Meeting

Deliverables (Mo/Yr): Phase 1 Final Report Apr/17 Phase 2 Demonstration Dec/17 Phase 2 Final Report Jan/18

Potential Transition Partner / Date: National Cyber Range, Regional Service Delivery Point (RSDP), Avionics Cyber Range (ACR) and CyberTASE

Description: Developing technologies to detect, monitor, and analyze malware behavior during cyber attacks in a virtualized T&E environmentEnables:• Virtual machine introspection, data collection, and monitoring

through a centralized hypervisor system• Artificial Intelligence / Machine Learning technology to monitor

and analyze malware in virtualized testbed using classification and anomaly detection algorithms

• Visualization and generation of reports to assess the potential damage to operational cyberspace assets

Current Status: Development of XEN and QEMU hypervisors with full introspection instrumentation package for various Operating Systems

Florida International University-ARC Miami FL

FY16 Major Accomplishments CTAM T&E Infrastructure Development Advanced Cyber Analytics and Virtualization Platform

Design Test Control Center Virtual Machine Mgt Module

FY17 Major Accomplishments Smart Memory Acquisition and Virtual Machine Introspection Machine Learning Algorithms and Models Test Control Center Development and Platform Integration Phase 1 Demo and Cyber Fellows Induction Ceremony Test Control Center Enhancements Scaling of Virtualization Platform Advanced Machine Learning Algorithms Implementation Malware Analysis & Repository


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• In-cycle Process– Declared schedule for white paper submissions (deadline)– Requires an allocation of available funding– Priority over out-of-cycle white paper submissions

• Out-of-cycle Process– White papers submitted anytime after "in-cycle" deadline or to define

a BAA cycle where a “new start” budget has not been quantified– Offerors required to contact Executing Agent before submitting

white paper− Ensures interest; mitigates unnecessary effort by Offeror− Can address whether a ‘possibility' exists for funding

• All BAAs include an “Other Test Technology” category to enable offerors to propose test technology not included in the list of topics identified by the Government

T&E/S&T ProgramBroad Agency Announcements


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T&E/S&T BAA Location

Out-of-Cycle Only:Must Discuss Concept with Executing Agent Prior to Submittal

Keyword:TRMC

Posted Date:[change to blank]

www.fbo.gov


16Executing Agent ActionProgram Manager Action Offeror ActionContracting Officer Action

BAA Pre-FY Cycle

Draft BAA Topic Areas

BAA Topics Finalized

BAA Topics Announced

White Paper Submissions

Proposals Requested from Selected Offerors

Proposal Submissions

Proposals Review

Executing AgentsRecommendations to PM

Contract Negotiations & Awards

White Paper Reviews

Activity T&E/S&T Project Selection Process Schedule JUN JUL AUG SEP OCT NOV DEC JAN FEB MAR APR MAY

PM New Start Decisions

FY18 Project Selection Schedule

BAA Topics Thru Legal

Call for White Papers

Contract Clarifications


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Successful White Papers / Proposals

• Satisfy T&E need

• Meet S&T challenge

• Demonstrate technical feasibility

• Convey breadth of technology application• Imply utility via desired application/T&E

CONOPS

• Compatible with TTA portfolio 28 AUG 2017 – CLEARED FOR OPEN PUBLICATION BY THE DOD OFFICE OF PREPUBLICATION AND SECURITY REVIEW – 17-S-2412

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National Cyber Range Complex (NCRC)Background

• Developed by Defense Advanced Research Projects Agency (DARPA) in the 2009-2012 timeframe

• Transitioned from DARPA to the DoD Test Resource Management Center (TRMC) in October 2012• Provides secure facilities, innovative technologies, repeatable processes

• Creates custom-fidelity, mission representative cyberspace environments

• Facilitates the integration of the cyberspace T&E infrastructure through partnerships with key stakeholders across government, industry, and academia

Mission: Improve the resiliency of our warfighters in the cyber-contested battlespace by conducting testing, training, and mission rehearsal events in operationally-

representative cyberspace environments

TRMC institutionally funds the NCR to support the full spectrum of DoD T&E and training customers


19

JIOR -JMN

SCADA SITES

National Cyber Range Complex Vision

• Common Cyber Testing Ontology, Taxonomy, and Lexicon

– How we communicate• Common Concept of Operations

– How the cyber ranges operate • Common Cyber Test Data Model

– How to describe a cyber test• Common Cyber Descriptions (Object Definition

and Transforms)– How components of the cyber test are

defined• Common Cyber Universe Description

– How the environment that surrounds the components of the cyber test are defined

• Common Instrumentation and Control– How data is collected and assessed– How cyber tests are controlled

TECHNICAL CHARACTERISTICS• Realistic: Large-scale, high-fidelity virtualized cyber environments operating actual software integrated with hardware-in-the-loop capabilities

• Repeatable: Archived, reusable environments, procedures, parameters, and event restoration checkpoints to facilitate test-fix-test verification

• Rapid: Standard tools and processes to automatically create, re-create, and modify mission-specific environments

• Isolation: Cryptographic segregation of multiple, concurrent cyber environments at varying security classifications

• Sanitization: Restore all assets to a known, clean state – not just range infrastructure, but also mission system equipment

E n a b l e d b y a C y b e r - S a v v y W o r k f o r c e

Manage and operate the National Cyber Range (IAW RMD 407A1, Issue #1, Title: Cyber, Jan 12, 2015) to provide test capability and capacity for the T&E Community


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Sanitization is an Example of Multi-Pronged Approach to Mature Best-of-Breed

Technologies for Utilization• Communicating technology development needs in multiple forums

promotes best-of-breed solutions• Multi-pronged approach to augmenting sanitization capabilities includes

the following initiatives:• Developing broader

methodologies and tools to sanitize a range of mission system hardware provides several benefits:– Increased throughput /

rapid turnaround– Increased event scope– Higher fidelity to provide

greater operational realism

– Framework for Automated and Verified Sanitization (FAVS) (Lockheed Martin) Effort progressing to establish and demonstrate tools and procedures to restore

systems to fully mission capable status (with confidence) Initial emphasis is on T&E, training, and mission rehearsal—in the future, this

could provide real-time sanitization of systems in the operational environment

– Avionics Attestation (TRMC / AF/TE, AFRL) Determine whether or not an aircraft preparing for a mission contains malware or

maldata Minor modifications in avionics memory enable attestation to detect a change

before a cyber attack occurs

– Customized server components for NCR (Dell; unsolicited) Tailored hardware and software to reduce sanitization time for NCR infrastructure

assets

• Critical research area; expect to spend $50M over the next 5 years• G O A L : R e d u c e D e p e n d e n c e o n V i r t u a l i z e d S y s t e m s


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Discussion

• TRMC Overview




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Technical Workforce Demand

•The DoD Cyber T&E Community anticipates hiring a minimum of 200 new technical employees over the next 5 years (FY18-FY22).

•These jobs include positions at the National Cyber Range Complex, as well as at Service cyber ranges.

•The number of new hires could be as high as 300—or higher—depending on demand for cyber testing and training.


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Accelerate Professional Development of Technical Staff

•Targeted curriculum

•Student internships

•Jump-start clearance process


24

Discussion

• TRMC Overview




25

Major S&T ChallengesHow will we test future weapons?

• Autonomy & Robotics• Electronic Warfare• Cyber Warfare• Future of Computing• Micro-electronics• Hypersonics• Directed Energy• …?

We look for your help to innovate our test capabilities

As the S&T Community innovates weapons…

The T&E Community must innovate test capabilities.

How do we test a learning system with changing behavior?

How do we measure energy on target?

How do we replicate a multispectral environment?

How do we test systems maneuvering at hypersonic speeds?

How do we measure cyber resiliency? …?


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University Outreach

Focus on Spectrum Efficiency and Network Centric Systems Software Defined Radio (SDR) Project Decision Engine for Structured and Unstructured Data (DESU)

Focus on Cyberspace Test Technology Established Cyber Test Lab with existing T&E test tools Established Cyber T&E Fellow Program Ongoing T&E/S&T project: CTAM – Cyber Threat Automation

and Monitoring System 6 TRMC summer interns

Focus on Unmanned & Autonomous Systems Test Technology Developed Autonomous System Predictive Performance Test

Technology Won ASD (R&E) Autonomy Center of Excellence Ongoing T&E/S&T project: DIPT – Data-driven Intelligent

Prediction Tool for T&E of Unmanned Autonomous Systems 3 TRMC summer interns


27

Arizona State University Brigham Young University Carnegie Mellon University Case Western Reserve Univ. Columbia University Cornell University Embry-Riddle Aeronautical Univ. Fayetteville State University Florida International University Florida State University George Washington University Georgia Tech Research Institute Harvey Mudd College Johns Hopkins University Lincoln University Mass. Institute of Technology Middle Tennessee State Univ. Morgan State University Naval Post Graduate School

University of Delaware University of Florida (Gainesville) University of Hawaii at Manoa University of Illinois University of Iowa University of Kansas Univ. of Maryland (College Park) University of Massachusetts Univ. of Minnesota University of Missouri University of Pittsburgh University of Tennessee University of Texas – El Paso University of Virginia University of Washington Utah State University Vanderbilt University Virginia Tech West Virginia University

New Mexico State University North Carolina A&T Univ. North Carolina State Univ. Ohio State University Oklahoma State University Oregon State University Pennsylvania State University Princeton University Purdue University Rochester Inst. of Technology Stanford University Texas Tech University Univ. of Alabama, Huntsville University of Arizona University of Arkansas University of California Irvine Univ. of California Los Angeles Univ. of California San Diego University of Central Florida

University Support toTest Technology Development


28

TRMC Points of Contact

Test Resource Management Center (TRMC)4800 Mark Center Drive, Suite 07J22

Alexandria, VA 22350-3700Phone: 571-372-2700

http://www.acq.osd.mil/dte-trmc

Mr. Derrick HintonActing Director, TRMC

Acting Executive Agent (EA) for Cyber Test [email protected]

571-372-2761

Mr. Chip FergusonDeputy EA, Cyber Test [email protected]

Mr. AJ PathmanathanDirector, National Cyber Range (NCR) [email protected]

Dr. Robert TamburelloDeputy Director, National Cyber Range (NCR) [email protected]

Mr. Christopher PaustPM, Central Test & Evaluation Investment Program (CTEIP)[email protected]

Mr. George RumfordDeputy Director, Major Initiatives & Technical AnalysesPM, Test & Evaluation / Science & Technology (T&E/S&T)[email protected]

Mr. Geoffrey WilsonDeputy PM, T&E/S&[email protected]

Ms. Denise De La CruzLead, Army Range Oversight and Workforce/STEM [email protected]

Mr. G. Derrick Hinton (Acting)Director, TRMC

EA, Cyber Test [email protected]

571-372-2761

Mr. Paul Mann (Acting)Principal Deputy, TRMC

DD, T&E Range [email protected]

571-372-2773

As of 14 Apr 2017


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T&E/S&T ProgramSignificant Test Technology Needs (1 of 2)

Electronic Warfare Test High-Speed EO/IR Scene Generation High Power/Bandwidth 2-Color IR Emitter Real-time, High-Fidelity, High-Density

RF Signal Generation Reconfigurable AESA Threat Simulators High Power EW Amplifiers

C4I & Software Intensive Systems Test Automated Testing of Systems and

Environments Rapid Analysis of Voluminous

Unstructured Data (“Test Data to Decision”) Removing Distributed Testing

Environment Effects Automatically Characterize Required M&S

Fidelity in Tests

Directed Energy Test Neutron Environment Simulator to

replicate required nuclear effects In Chamber HPM Source HEL Direct Detection Target Board HEL Target Imagery with Active Adaptive

Optics

High Speed Systems Test Advanced Thrust Measurement

Techniques In-Flight Sensing of Atmospheric

Conditions Hypersonic Flight Erosion Test Methods Thermal Protection System Ablation

Testing Improved Computational Tools


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T&E/S&T ProgramSignificant Test Technology Needs (2 of 2)

Cyberspace Test Hypervisors for Kinetic Systems and

Cyber-Physical Networks Defining Cyberspace Test Measurements Improved, Scalable Cyberspace Test

Environments Cyberspace T&E Visualization Advanced cyberspace instrumentation Improved cyberspace analysisAdv. Instrumentation Sys. Technology 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

Spectrum Efficiency Technology Multiple Access Schemes for Serial

Streaming Telemetry Modulation Agile Radio for Test

Applications Advanced Spectrum Management

Techniques Steerable Multiband Antenna (L-,

S-, & C-band) for Airborne Test Articles

Unmanned & Autonomous Systems Test Predicting autonomous behavior for

testing scenarios Enhancing safety of autonomous testing Testing of autonomy components Measure autonomous system reliability

and performance Adapt Test Environment to Cognitive

Autonomous Systems


�Office of the Secretary of Defense�Test Resource Management Center: Opportunities for HBCU/MIDiscussionDiscussionTRMC OrganizationTRMC Missions�DoD (Charter) Directive 5105.71Major Range and Test Facility Base�(MRTFB): The “Critical Core” �23 Sites: Army-8; Navy-6; Air Force-7; Defense Agency-2DiscussionSlide Number 8Game-Changing Technologies�Challenges in Hypersonic T&ESlide Number 10Slide Number 11High Pressure High Temperature Gas Tunable Diode Laser Absorption Spectroscopy Temperature�(HTDLAS)Slide Number 13Slide Number 14T&E/S&T BAA LocationFY18 Project Selection ScheduleSuccessful White Papers / ProposalsSlide Number 18National Cyber Range Complex VisionSlide Number 20DiscussionTechnical Workforce DemandAccelerate Professional Development of Technical StaffDiscussionMajor S&T Challenges�How will we test future weapons?University OutreachSlide Number 27TRMC Points of ContactT&E/S&T Program�Significant Test Technology Needs (1 of 2)T&E/S&T Program�Significant Test Technology Needs (2 of 2)

Documents

Office of the Secretary of Defense Test Resource ... · Design the hardware needed to install HTDLAS at HAPCAT Install & perform shakedown testing at HAPCAT Final Report and HTDLAS