1. Central Test and Evaluation Investment Program (CTEIP)
Ed Gonzalez

2. Director, Operational Test and Evaluation
Secretary of
Defense
Director
Operational
Test and Evaluation
Principal
Dep Director
Deputy Director
C3I &
Strategic Systems
Systems and
Test Resources
Under Secretary
of Defense (AT&L)
Live Fire T&E
Conventional
Systems

3. The CTEIP Program Established in FY90 (Congressionally founded)
Funds acquisition of high-priority multi-Service T&E capabilities, applying state-of-the-art technologies
Managed by OSD DOT&E/Systems and Test Resources
Added responsibility for resourcing near-term OT&E shortfall efforts in FY91
Leverages Service/Defense Agency T&E investments
Funding historically near $125M/year
Have multi-Service application
Be developmental
Be non-procurement

4. CTEIP JIM Projects in Execution at the MRTFB
Naval Air Warfare Center, Aircraft Division, Patuxent River, MD
Naval Air Warfare Center Weapons Division
Aberdeen Test Center Aberdeen Proving Ground, MD
China Lake and Point Mugu, CA
Advanced Range Telemetry
Foundation Initiative 2010
Hardened Subminiature Telemetry & Sensor System
Joint Advanced Missile Instrumentation
Joint C4ISR
Joint Installed Systems Test Facility
Multi-Service Target Control System
Advanced Range Telemetry
Electromagnetic Environmental Effects Generating System
Electromagnetic Transient T&E Facility
Foundation Initiative 2010
Joint Advanced Missile Instrumentation
Joint C4ISR
Joint Installed Systems Test Facility
Hardened Subminiature Telemetry & Sensor System
Joint Advanced Missile Instrumentation
Land & Sea Vulnerability Test Capability
Roadway Simulator
Tri-Service Signature Measurement & Database System
Air Force Flight Test Center Edwards AFB, CA
Advanced Range Telemetry
Foundation Initiative 2010
Joint Installed Systems Test Facility
Naval Undersea Warfare Center Newport, RI (Non-MRTFB) .
Foundation Initiative 2010
Joint C4ISR
Land & Sea Vulnerability Test Capability
Soft Impact Location Capability
Tri-Service Signature Measurement & Database System . .
Dugway Proving Ground Dugway, UT . .
Contamination Avoidance Detector Test Suite .
Yuma Proving Ground Yuma, AZ . . .
Arnold Engineering Development Center Tullahoma, TN .
Hardened Subminiature Telemetry & Sensor System
Advanced Instrumentation & Data Control System
Decade Radiation Test Facility Enhancement
Electronic Proving Ground Ft Huachuca, AZ
White Sands Missile Range and 46th Test Group White Sands, NM
Foundation Initiative 2010
Joint C4IRS
Advanced Range Telemetry
Digital Video Laboratory
Foundation Initiative 2010
Multi-Service Target Control System
Air Force Air Armament Center Eglin AFB, FL
Non-MRTFB Test Sites, including …
U.S. Army Aviation Center
Fallon NAS
NTC, Ft. Irwin
Redstone Technical Test Center
Naval Undersea Warfare Center
Digital Video Laboratory
Enhanced Range Applications Program
Foundation Initiative 2010
Hardened Subminiature Telemetry & Sensor System
Joint C4ISR
Joint Installed Systems Test Facility
Multi-Service Target Control System
Tri-Service Signature Measurement & Database System

5. FY 2004 President’s Budget Request FYDP Profile ($M)
130.8
128.3
126.7
124.4
136.9
122.3
127.1
133.3
FY FY FY FY FY FY FY FY09
FY04 PBR
Cong. Adds
Gen. Reductions
Total CTEIP, FY

6. Major Initiatives CTEIP-Sponsored Studies
Integrated Networked Enhanced Telemetry
Determine feasibility of RF TM network
Will augment and enhance current PCM technology by allowing more efficient use of current TM bandwidth with on the fly selection of the TM data that is transmitted
Directed Energy Test and Evaluation Capabilities Study
Requirements definition
Test capabilities assessment based upon results of requirements definition
Infrastructure development roadmap

7. Study Approach CTEIP T-SS Roadmaps Multi- Service Capabilities Program
Test
Concepts
Capabilities
Shortfalls
Solution Specs
T&E
Infrastructure
Requirements
Agency/Program
Unique
Capabilities
Shortfalls
Solution Specs
Service Investment Process
Reliance Process

8. CTEIP: Why a Joint Investment Program for T&E Capability Developments
Partnership
with Acq Com
& Industry
Technology Opportunity and User Needs A B C
Weapon
System
Acquisition
Concept &
Technology
Development
System Development
& Demonstration
LRIP and Production
Operations &
Support
T&E Requirement
T&E Capability Needed
For IOT&E
T&E Capability Development
T&E
Planning
Process
T&E/
S&T
CTEIP or
Service I&M
System T&E
Planning
Begins here

9. CTEIP Efforts in Target and Ranges
EnRAP - Enhanced Range Applications Project
MSTCS - Multi-Service Target Control System
JAMI- Joint Advanced Missile Instrumentation
iNET - Integrated Network Enhanced Telemetry Study

10. Enhanced Range Applications Project
This slide should be a picture(s) or an illustration that depicts and / or illustrates the project.
GPS
EnRAP Ground System
EnRAP RANGE INSTRUMENTATION
Tethered
Remote
Rangeless
Relay
Encrypted or
Unencrypted Links
Participants are equipped
with internal mounts or pods
EnRAP provides order of magnitude improvement in GPS- based TSPI (and an upgraded DL) over ARDS (which is used at number of ranges including Edwards, Pt Mugu, China Lake, PAX, WSMR)
Enhancement comes from ring laser gyro-based IMU (tightly coupled) over ARDS mech gyro
Smaller components allow use in volumetrically constrained platforms –
F/A18E/F, smaller internal mount
F-22, JSF small internal mount, meets stealth requirements

11. Multi-Service Target Control System
Target Control Description
MSTCS provides upgrades and enhancements to the existing TCS at Tyndall/Eglin, WSMR, & Pt Mugu
Tyndall/ Eglin: Get 0ff 915MHz with Dev & integ of MHz Datalink transceiver – transitions from multi lat GRDCS to GPS target control-based
WSMR: New Ground Station Command Processor, the USAF dev transceiver (gets them off Multilat DFCS to GPS), also integrates existing Army developed, low cost UHF datalink
Pt Mugu: Upgraded GHz C-band transceiver that transitions from multi lat ITCS to GPS based target control, and redesigned (simplified) antenna pedestal

12. Joint Advanced Missile Instrumentation
Integrated instrumentation package for small missile platforms
Will eliminate the need for range specific or multi-system facilities
JAMI components will provide:
Telemetry
Dual/Tri-Band Antennas
Time-Space-Position-Information
Track high-dynamic targets and missiles that fly below the radar horizon
Flight Termination
Miniature, dual-redundant flight termination hardware
End Game Scoring
Data to determine lethality performance for missile-target intercept.
Allows placement of GPS based instrumentation in small missiles: AMRAAM, AIM 9X, gets out of Multi lat
Allows OTH test ops with single relay aircraft–thru GPS based instr
Provides miniturized flight termination recvr
WRT Enhanced Flt Term Sys (EFTS CTEIP funded at Edwards): AMRAAM for C-7 testing will use JAMI FTS (current analog tone system). EFTS IOC aspprox FY-7-08
End game scoring – Was Threshold reqmt; now moved to objective requirement
Currently used in Tomahwak

13. JAMI Deliverable Hardware
JTU-I
TOMAHAWK JTU-T
FTR
FTR: Flt Termination Recvr – Adapted miniturized commercial unit, qualified for use on Tomahawk, AMRAAM
FTS&A – JAMI developed under CRADA with Raymond Engr, replaces elctro-mechanical S&A with all electronic, smaller & more reliable unit
Tomahawk JTU-T – JAMI devloped, receiver based TSPI unit has IMU but not used,- Tomahawk no longer needs radars – range free
JTU-I – JTU-T with active IMU but not coupled with receiver – for target and low dynamic missile TSPI – has potential for end game scoring- need SW development
GSU-II V2 – GPS Sensor Unit innovative hybrid (Recvr/translator) based, in development, looking good for 40+ g environment – biggest (hardest) part of JAMI effort
JTU-II – integrates GSU-II V2 to be used in AMRAAM C-7 AIU
FTS&A
GSU-II V2
JTU-II

14. Integrated Network Enhanced Telemetry StudyRF
Network
Data Acquisition
Point to Point
Test Engineers
Laboratories
Data
Management
iNET Study Products
Determine needs of RF TM network
Provide a network architecture
Integrate ground and test article networks
Uses spectrum as a pooled resource
Define a technology investment roadmap
Driver: Limited spectrum for T&E
iNET introduces a network approach to move the bulk of TM data; traditional PCM TM retained for safety of life/flight

15. Identify Future T&E Drivers
MOUT Environments
Approach: explore methods used by the cellular industry
Approach: Materials for inexpensive threat representation
Need: Threat Representative Structures
Need: Instrumentation to locate combatants

16. Identify Future T&E Drivers
Threat realism
Approach: Low cost, higher fidelity, IR RF & optical, components
Need: Higher fidelity, multi-spectral targets
Accommodate Greater Engagement Ranges
Need: Range/Fidelity
Approach: Networked ranges – TENA ,iNET
Need: Mobile instrumentation – calibration, long duration power
Approach: TRACS & Right Mix of GPS and RADARS

17. Identify Future T&E Drivers
Environmental Challenges
Need: Better Spectrum Utilization
Approach: Improved Spectrum Management Tools
Need: Better Use of Airspace
Approach: clearance to fly UAVs in civilian airspace

18. Help Identify Areas for CTEIP Investment
Common investment roadmap
Partner with industry and other DOD organizations
Identify DoD and Industry T&E Needs
Establish investment objectives
Time phase investments to meet the DoD and Industry T&E Needs
Dennis Mischel will be the DOT&E Lead for this Effort

19. Points of Contact DOT&E/S&TR CTEIP Program Office
4850 Mark Center Drive
Suite 1000 (10th Floor)
Alexandria, VA 22311
Derrick Hinton, CTEIP PEM
(703) ext. 157
Dennis Mischel, Targets and Threat Systems Office
(703) ext 164

20. Back up

21. L-Band MSTCS Data Link Transceiver
Modular design, MHz, TDMA
Up to 1810 MHz with new power amp
Drop in VCO replacement allows
VHF, MHz, 900MHz, MHz
Requires new power amp
Digital Signal Processor allows
multiple waveforms
Output power: 43 dBm and 50 dBm
Data rates: 1.28 Mbps and 232 Kbps
Interfaces
RS-422 (SDLC, Asynchronous)
IEEE 1394 (Firewire)
RS-232 (CDU interface)
Mounts either long wise for P-4 pod or stacked for internal mount

22. Proposed Solution: integrated Network Enhanced Telemetry (iNET)
Data Acquisition
Network
Data Acquisition
Network RF
Network
Downlink
Downlink
Downlink
We have networks on the gropund – TENA wannabe
Networks in nhtae air: firewire , fiberchannel, 1553,
We need a network base link iNET
GPS in HWIL example
spectrum as a scarce resource
iNET allows a pooled resource approach – bandwidth on demand vs dedicated resource
Telemetry Network System
Data Acquisition Network
RF Network/PCM TM
Interface to Ground Network

23. Identify Future T&E Drivers
MOUT Environments
Instrumentation to locate combatants
– explore methods used by the cellular industry
Threat representative structures -Material – allow inexpensive threat representation to be constructed
Threat realism – current systems discrimination require higher fidelity IR RF optical, etc threat representation
Accommodate greater engagement ranges
Range/fidelity
Networked ranges – TENA ,iNET
Mobile instrumentation – calibration, long duration power
TRACS
Trades between gps & radar
Environmental Challenges
Spectrum
Spectrum mgmt tools
Natural environment
Airspace – clearance to fly UAVs in civilian airspace
Use of UAVs as test platforms/targets