(U) COST: (Dollars in Thousands)
| PROJECT NUMBER & TITLE | FY 1996 ACTUAL | FY 1997 ESTIMATE | FY 1998 ESTIMATE | FY 1999 ESTIMATE | FY 2000 ESTIMATE | FY 2001 ESTIMATE | FY 2002 ESTIMATE | FY 2003 ESTIMATE | TO COMPLETE | TOTAL PROGRAM |
| X2091 Space and Electronic Warfare (SEW) Advanced Technology | 14,609 | 15,731 | 16,301 | 16,932 | 17,394 | 17,735 | 18,111 | 18,530 | CONT. | CONT. |
| R2239 Advanced Targeting | 8,632 | 12,299 | 7,467 | 948 | 944 938 | 957 | 979 | CONT. | CONT. | |
| TOTAL | 23,241 | 28,030 | 23,768 | 17,880 | 18,338 | 18,673 | 19,068 | 19,509 | CONT. | CONT. |
A. (U) MISSION DESCRIPTION AND BUDGET ITEM JUSTIFICATION: This Program Element (PE) develops communications technologies, real-time precision targeting information and decision aids which support the effective utilization of naval forces in conducting Joint operations with the other Services or our allies. Efforts include development of high capacity, low-probability-of-intercept communication; distributed networks; distributed command and control real-time multi-level secure systems; integrated voice/data/video communications techniques; software specification tools; algorithms for specific target identification and precision targeting; interactive collaborative decision aids; and supporting technologies for a multi-mission broadband antenna and Command, Control, and Communications (C3) embedded training.
(U) This PE primarily supports the following Joint Mission Areas and Support Areas: Strike Warfare, Littoral Warfare, Intelligence, Surveillance and Reconnaissance, Strategic Deterrence, Sealift/Protection, and Readiness/Training. The focus is on development and demonstration of next-generation C3 systems, demonstrating a capability to perform precision targeting aided by real-time interactive force level planning and rehearsal in a joint arena supporting a multi-platform environment, aircraft, and submarines. There are two projects supported by the PE:
1. (U) SEW Advanced Technology (X2091) -- This project is pursuing work in telecommunications, networking, security, and real time decision aids for Joint military operations. Efforts will develop and demonstrate a multinet, multi-media communications controller that provides a smart software-intelligent interface between user Transmit/Receive communications systems capable of adjusting bandwidth/frequency to balance system loading, as well as state-of-the-art telecommunications
technologies such as high data rate local-area-networks (LAN) that can meet unique military data transfer requirements using commercially developed Asynchronous Transfer Mode (ATM)/Synchronous Optical Network technologies. These high speed LANs will provide the ability to perform collaborative strike planning in the Real-Time Support for Joint Power Projection project by developing and integrating multi-node expert computer workstations and intelligent data bases, through ATM networking which will eventually operate in the gigabits per second regime. Information can then be communicated electronically from a shipboard multi-beamed steerable antenna interoperating with reconnaissance and surveillance sensors and aircraft to enhance joint strike planning among Navy platforms and between other Services. In addition, integrating of real-time information from sources such as the Precision Signals Intelligence (SIGINT) Targeting System (PSTS) and tactical reconnaissance and surveillance data will greatly improve asset allocation, precision targeting and execution of strike missions.
2. (U) Advanced Targeting (R2239) -- the Precision Signal Targeting System (PSTS) is a Joint Service/Defense Agency effort to develop and demonstrate the capability to provide tactical users with near-real-time target identification and precision targeting information, sensor-to-shooter target updating, and Battle Damage Assessment. PSTS will enhance the tactical utility/applicability of existing national assets and provide the tactical commander with performance improvements in terms of targeting accuracy, targets of interest, timeliness, and target identification. Technical challenges include development of advanced signal processing and data fusion algorithms for target detection and classification; and exploitation of multiple signal characteristics for specific emitter identifications.
(U) The Navy Science and Technology program includes projects that focus on or have attributes that enhance the affordability of warfighting systems.
(U) JUSTIFICATION FOR BUDGET ACTIVITY: This program is budgeted within the ADVANCED TECHNOLOGY DEVELOPMENT Budget Activity because it encompasses design, development, simulation, or experimental testing or prototype hardware to validate technological feasibility and concept of operations and reduce technological risk prior to initiation of a new acquisition program or transition to an ongoing acquisition program.
(U) COST: (Dollars in thousands)
| PROJECT NUMBER & TITLE | FY 1996 ACTUAL | FY 1997 ESTIMATE | FY 1998 ESTIMATE | FY 1999 ESTIMATE | FY 2000 ESTIMATE | FY 2001 ESTIMATE | FY 2002 ESTIMATE | FY 2003 ESTIMATE | TO COMPLETE | TOTAL PROGRAM |
| X2091 Space and Electronic Warfare (SEW) Advanced Technology | 14,609 | 15,731 | 16,301 | 16,932 | 17,394 | 17,735 | 18,111 | 18,530 | CONT. | CONT. |
A. (U) MISSION DESCRIPTION AND BUDGET ITEM JUSTIFICATION: Demonstrate advanced technology components, subsystems and systems that will improve the Navy's Command, Control and Communications (C3) distributed networks in areas such as high assurance functionality, high data rates, optimization and automation of network resources, multi-level access and security of databases and the ability to transmit and receive multi-media data (voice/data/video) over narrow bandwidth communication circuits. Capabilities realized from these efforts will contribute to the Navy's ability to maintain an accurate situation assessment and tactical picture in near-real-time through shared knowledge of threatening situations which can then be communicated to all forces in near-real-time. Projects will be conducted in the following areas: (1) Automated Integrated Communication Systems (AICS) that utilizes digital networking techniques to integrate wideband voice/data/video data for transmitting over narrowband communication links; (2) Specification Tools for Software Requirements (STSR) as a prototype toolset to create high quality specifications needed to develop high-assurance mission critical C3 systems; (3) Multi-Level Secure (MLS) systems that provide embedded security for communicating at multi-security levels; (4) Supporting technologies; e.g., Multi-Mission Broadband Antennas (MMBA); (5) Real-Time Support for Joint Power Projection operations (JPP/RTS) that provides collaborative strike force planning and mission execution for Joint service systems; and (6) Verification & Validation of Mission Critical Systems (VVMCS) is a toolset and methodology based on formal methods to verify and validate that a developed mission-critical system satisfies its requirements. (7) Programmable Intelligent Digital Electronics (PRIDE) will develop/obtain, demonstrate, evaluate and transition PRIDE hardware engines based on industry consensus standard open architectures for a series of Navy and Joint applications. The applications will range from secure Joint Tactical Information Distribution System (JTIDS) waveforms for Joint Maritime Communications System (JMCOMS) to Command Control Communications Computers and Intelligence/Combat Direction System (C4I/CDS) embedded training for the warrior at sea to exploit/attack/protect functions for Information Warfare. High Data Rate Communications (HDRC) for Small Platforms will develop and demonstrate a shipboard Very Small Aperture Terminal (VSAT) capable of providing high data rate capabilities to FFG-7 and DDG-963 ships. Initial goals are for full duplex data exchange rates of 1.5 MBPS with scaleability to 45 MBPS utilizing Code Digital Multiplexing Analysis (CDMA) techniques. Cryptologic Unified Build On-Line Trainer (COLT) will develop an embedded cryptologic C4I interactive simulation and training capability for use by shore-based and deployed forces.
(U) PROGRAM ACCOMPLISHMENTS AND PLANS:
1. (U) FY 1996 ACCOMPLISHMENTS:
(U) ($1,036) STSR: Completed reports on toolset software design, and user guide. Conducted full-scale demonstration of the enhanced toolset (specification editor, consistency checker, simulator and initial verifier capabilities) on an avionics weapons scenario. Demonstrated toolset at the Software Technology Conference (STC'96). Initiated technology transition of toolset to software developers.
(U) ($1,225) AICS: Developed Network Management Systems Segment Specification required for shipboard distributed network systems. Completed Integration of Communication Automation Manager (CAM) and Network Manager.
(U) ($1,041) MLS: Demonstrated high assurance, locally, distributed MLS strike planner. Evaluated several different security architectures for strike planning and command and control management.
(U) ($1,025) JPP/RTS: Developed advanced in-cockpit situation awareness units for demonstration in multiple AH-64 units and ground control centers. Demonstrated air ground coordination and targeting in DEEP LOOK 96.
(U) ($3,909) JPP/RTS: Integrated new technology modules for strike planning and execution with collaborative planning and query services and other technology efforts directed toward Global Command and Control System development at Navy demonstration site (Naval Strike Warfare Center, Fallon, Nevada) and aboard the USS THEODORE ROOSEVELT (CVN-71). Module installed on fleet workstations to allow collaborative planning, three dimensional (3D) visulation evaluation, and monitoring of a strike operation. Distributed algorithms, collaborative planning tools, a scaleable high performance shipboard LAN, and tactical aircraft planning workstations, actual tactical information were utilized to demonstrate in real-time, optimized planning and routing of a strike mission coordinated from the Joint Maritime Communication Information System (JMCIS).
(U) ($3,955) JPP/RTS: Designed technology insertion device and conducted simulation of advanced real-time information flow to the Advanced Joint cockpit with on-board defensive and offensive decision aids and improved situation awareness. Unit deployed to the Sixth Fleet.
(U) ($2,418) JPP/RTS: Demonstrated a 155 megabit per second strike planning LAN with interfaces to distributed mission planning and intelligence at Navy Research and Development Center and aboard the aircraft carrier USS THEODORE ROOSEVELT (CVN-71). LAN was accepted by and transferred to type Commander as Rapid Transition Effort.
2. (U) FY 1997 PLAN:
(U) ($749) STSR: Transition technology of enhanced STSR toolset to Navy C3 users, JMCIS, SC-21, multi-level security developers and commercial organizations. Evolve toolset into a production strength tool.
(U) ($910) MLS: Test and evaluate network security requirements resulting from the FY 1996 MLS Strike planning comparisons against assurance strategy/security architecture and security policy.
(U) ($1,937) AICS: Conduct analysis and specification of Communication Plan (COMMPLAN) processing requirements. Develop integration framework for AICS and JMCOMS/Automated Digital Network System (ADNS), Integrated Network Manager (INM). Develop architecture for Web-based management of INM. Implement SNMPv2 prototype with security features.
(U) ($2,244) MMBA: Develop and demonstrate prototype of multi-function multi-beam antennas in three frequency spectrums: below 2Ghz, above 2Ghz, and in the Defense Global Broadcast System (GBS) frequency spectrum (X-Ka band). Conduct extra high frequency (EHF) Satellite Communications (SATCOM) GBS two dimensional (2D) sub-array demonstration. Conduct ultra high frequency (UHF) SATCOM/International Maritime Satellite (INMARSAT) sub-array demonstration to include hybrid reliability study and tracking/hand-off demonstration.
(U) ($4,256) JPP/RTS: Major transition of Office of Naval Research (ONR) 6.2 decision making technology into JPP/RTS, including plan optimization and multiple interdependent routing algorithms. Integrate real-time joint intelligence, surveillance, and reconnaissance (ISR) sources into a common, integrated display, supporting planning and operations. Conduct Joint multi-laboratory demonstrations of interoperable planning and execution systems for Commander Joint Task Force, Joint Air Force Component Command, and strike commander in power projection planning and employment of Joint strike assets.
(U) ($1,491) JPP/RTS: Integrate and demonstrate Navy/Joint force planning and execution capabilities and participate in a Joint/National planning, targeting and retargeting exercise.
(U) ($2,720) JPP/RTS: Conduct Joint Navy/Air Force flight demonstration to assess advanced cockpit information management, situation awareness, and retargeting capability in F/A-18. Demonstration will support transition/implementation decision.
(U) ($800) JPP/RTS: Demonstrate and test 622 megabit per second LAN prototype supporting ATM aware advanced planning, intelligence, and shipboard interior communications systems.
(U) ($500) JPP/RTS: Engineering support to the Naval Sea Systems Command (NAVSEA) topside design branch (SEA 03KQ4) as related to LPD17 Advanced Enclosed Mast/Sensor (AEM/S) design.
(U) ($124) Portion of Extramural Program reserved for Small Business Innovation Research Assessment in accordance with 15 U.S.C. 638.
3. (U) FY 1998 PLAN:
(U) ($800) VVMCS: Demonstrate capability for specifying timing and accuracy requirements. Enhance simulator to symbolically execute system behavior based on timing and accuracy requirements as well as functional requirements. Demonstrate initial capability for verifying critical functional properties using model checking technology. Demonstrate an initial capability to generate functional, accuracy, and timing oriented test cases for the system integration and testing phase of a C3 software development.
(U) ($900) MLS: Develop a security architecture and demonstrate prototype which will support read and write capability of both unclassified and Secret message traffic (and e-mail) and run both Secret and unclassified application programs from a single JMCIS/Global Command Conrol System (GCCS) workstation.
(U) ($1,469) AICS: Update AICS network management architecture document and the AICS system segment specification documents with results of FY98 testing. Define automated management and control of shipboard voice systems (e.g., secure telephones, etc.) shall be undertaken. Conduct operational demonstration of ATM hardware used in the AICS and ADNS Research Development Test & Evaluation (RDT&E) test facilities. Produce AICS Network Management Architecture Document and the AICS System Segment Specification Document incorporating FY98 updates.
(U) ($1,000) HDRC: Conduct CDMA study, CDMA modem specifications and procurement, conduct CDMA/VSAT link modeling, development and prototype. Conduct analysis of network and satellite management issues.
(U) ($1,000) PRIDE: Complete development and demonstrate a PRIDE-based software radio with secure JTIDS waveforms. Demonstrate high frequency(HF)/very high frequency (VHF)/UHF waveforms with available prototype multi-functional antennas. Continue cost/performance tradeoff studies for SC-21, CV(X), Smart Ship and Arsenal Ship applications.
(U) ($2,250) MMBA: Conduct shipboard demonstration of FY-97 multi-functional antenna demonstrations. Continue developmental testing of 2D phased array GBS antenna.
(U) ($4,257 JPP/RTS: Mature technology capability demonstrated during FY97 in the joint laboratory environment and demonstrate integrated power projection planning and optimization, execution monitoring, intelligence, and re-targeting capabilities in Joint demonstration facility with interconnections to Battle Labs. Participate in Joint field exercise (Roving Sands, Project Strike, or equivalent).
(U) ($3,625) JPP/RTS: Demonstrate 622 megabit per second shipboard LAN prototype with interfaces to global and theater level network control and management. LAN will provide ATM-aware network management and host advanced Navy/Joint power projection tools on fleet workstations and host shipboard interior communications and advanced multi-media distribution. Planned shipboard demonstration platform is CVN or LHD.
(U) ($1,000) COLT: Develop an embedded cryptologic C4I interactive training simulation, mission planning and analysis tool for use by shore-based and deployed forces.
4. (U) FY 1999 PLAN:
(U) ($1,000) VVMCS: Demonstrate advanced capability for verifying critical functional properties using model checking technology. Add capability for not only identifying violations of critical system properties but in addition for producing counter examples that demonstrates violations. Integrate the verifier with the specification editor, the consistency checker, and the simulator. Demonstrate an initial capability to use automated test cases of an example C3 system.
(U) ($900) MLS: Develop the security architecture and build and demonstrate prototype to manage separate Unclassified, Secret, and Sensitive Compartmented Information (SCI) networks from a single workstation.
(U) ($1,732) AICS: Iterate and refine the operational demonstration of ATM and AICS implementation. Update the AICS Network Management Architecture Document and the AICS System Segment Specification Document.
(U) ($1,100) HDRC: Conduct engineering testing of subsystems. Conduct systems integration testing. Demonstrate RF subsystem, line of signal (LOS) subsystem, and Full Spectrum Management Subsystem.
(U) ($1,400) PRIDE: Develop and demonstrate a prototype PRIDE-based embedded trainer for both CDS and C4I applications. Conduct limited at-sea evaluation. Conduct feasibility study for PRIDE-based sonar and radar embedded training.
(U) ($3,200) MMBA: Conduct full scale shipboard test of integrated multi-function multibeam antenna operating in the UHF, EHF and GBS frequency regime.
(U) ($2,500) JPP/RTS: Demonstrate 2.4 gigabit shipboard LAN with advanced high speed transport protocols, advanced congestion management to accommodate C3I, combat, and ship inter-communications distribution to support interactive planning and serve as backbone shipboard LAN for SC-21, CVN-X, and following ships.
(U) ($4,100) JPP/RTS: Conduct major integrated demonstration of planning and execution capabilities, including flight demonstration, in conjunction with Air Force battle management demonstrations Joint Forces Air Componet Commander (JFACC) Advanced Concept Technology Demonstration (ACTD), national intelligence, and battlefield visualization demonstrations. Provide 2.4 gigabit per second communications backbone.
(U) ($1,000) COLT: Build and demonstrate cryptologic C4I interactive training, mission planning and analysis prototype for use by shore-based and deployed forces.
B. (U) PROGRAM CHANGE SUMMARY:
FY 1996 FY 1997 FY 1998 FY 1999
(U) FY 1997 President's Budget: 15,038 16,445 19,653 17,088
(U) Adjustments from FY 1997 PRESBUDG: -429 -714 -3,352 -156
(U) FY 1998/1999 PRESBUDG: 14,609 15,731 16,301 16,932
(U) CHANGE SUMMARY EXPLANATION:
(U) Funding: FY 1996 adjustment reflects a Jordanian F-16 financing rescission (-$17); SBIR transfer (-$243); Execution adjustment (-$169). FY 1997 adjustment reflects congressional undistributed adjustment (-$714). FY 1998 adjustment reflects Navy Working Capital Fund (NCWF) and minor adjustments (-$921); Inflation (-$41) and S&T adjustment (-$2,390). FY 1999 reduction reflects NWCF adjustment (-$156).
(U) Schedule: Not applicable.
(U) Technical: Not applicable.
C. (U) OTHER PROGRAM FUNDING SUMMARY: Not applicable.
(U) RELATED RDT&E:
(U) PE 0301567G (Computer Security Program)
(U) PE 0303140N (Information Systems Security Plan)
(U) PE 0601153N (Defense Research Sciences)
(U) PE 0602232N (Space and Electronic Warfare (SEW) Technology)
(U) PE 0602234N (Materials, Electronics and Computer Technology)
(U) PE 0604231N (Tactical Command Systems)
D. SCHEDULE PROFILE: Not applicable.
(U) COST: (Dollars in Thousands)
| PROJECT NUMBER & TITLE | FY 1996 ACTUAL | FY 1997 ESTIMATE | FY 1998 ESTIMATE | FY 1999 ESTIMATE | FY 2000 ESTIMATE | FY 2001 ESTIMATE | FY 2002 ESTIMATE | FY 2003 ESTIMATE | TO COMPLETE | TOTAL PROGRAM |
| R2239 Advanced Targeting | 8,632 | 12,299 | 7,467 | 948 | 944 938 | 957 | 979 | CONT. | CONT. |
A. (U) MISSION DESCRIPTION AND BUDGET ITEM JUSTIFICATION: The Precision Signal Targeting System (PSTS) addressed in the Director of Defense, Research, and Engineering Global Surveillance and Communications Thrust is a Joint Service/Defense Agency effort to develop and demonstrate the capability to provide tactical users with near-real-time precision targeting information and sensor-to-shooter target updating. The proposed system will enhance the tactical utility and application of existing national assets to provide the tactical commander involved in future conflicts with significant performance improvements, resulting in a total surveillance network which is more responsive to changing world economic and political threats in terms of targeting accuracy, targets of interest and timeliness. PSTS will develop Joint Service/Defense Agency cooperative precision targeting site enhancements and Global Concept of Operations for optimal asset cooperative utilization and minimal operational impact. Technical challenges include development of advanced signal processing, data fusion algorithms, exploitation of multiple signal characteristics for target detection and precision geolocation, and modeling and simulation to assure optimal resource allocation for cooperative precision targeting and primary mission performance.
(U) PROGRAM ACCOMPLISHMENTS AND PLANS:
1. (U) FY 1996 ACCOMPLISHMENTS:
I. (U) ($1,890) Demonstration 3. Completed Demonstration 3. Demonstrated the capability to process fused national and tactical data at the GUARDRAIL Integrated Processing Facility (IPF) located in Savannah, GA. Demonstration
3 included upgraded processing algorithms, integration of a time of arrival (TOA) Acquisition and Precision Measurement System, and specification and acquisition of a live fire target radar emulator
I. (U) ($2,720) Demonstration 4. Demonstration 4 occured in Korea and demonstrated a limited deployed PSTS capability. Communication emitter data collected during demonstration 4 supported development of communication emitter geolocation algorithms used in subsequent demonstrations. Demonstration 4 included integration of additional specialized signal processing algorithms into the IPF, use of specialized broad band point to point communications supported high data rate transfer of Pulse Descriptive Words (PDWs), and inclusion of data fusion algorithms into the Landmark processor.
II. (U) ($2,199) Systems Engineering. Completed requirements analysis, operations concept development, planning and procedures, scheduling, and execution of Demonstration 3. Initiated requirements analysis, operations concept development planning and procedures, and scheduling activities for Demonstration 4. In addition, defined and executed system engineering tasks including basic and applied science study to determine the effects of the ionosphere on the transmission and geolocation of emitters; analysis to quantify and understand the subtle interactions among PSTS collection systems; empirical analysis of near real-time post collection knowledge of corrections to system errors to single source techniques; and other relevant system engineering trade studies.
III. (U) ($978) Portable Tactical Testbed. Began specification and implementation of a Portable Tactical Testbed capable of receiving Common Data Link information and producing geolocations based on Signals Intelligence (SIGINT) or Communications Intelligence (COMINT).
IV. (U) ($845) Integrated Airborne Deployed Strike Surveillance (IADSS). Initiated a systems engineering system study to determine the architecture and system requirements for an unmanned aerial vehicle (UAV) deployed autonomous controlled sensor suite to provide SIGINT and COMINT data for PSTS processing. Also initiated a system architecture study to define how IADSS and PSTS fits into the overall Command, Control, Communications, Computer and Intelligence (C4I) architecture.
2. (U) FY 1997 PLAN:
V. (U) ($4,451) Demonstration 5. Demonstration 5 will be conducted in Continental United States and will demonstrate the added capability of targeting continuous wave communications emitters. Additional refinements and upgrades to the signal processing and data fusion algorithms based on the results from previous demonstrations will be integrated into the processing system. Demonstration 5 will include the specification and acquisition of a COMINT target emitter capable of emulating a broad variety of COMINT transmitters.
VI. (U) ($3,448) Systems Engineering. Will complete requirements analysis, operations concept development, planning and procedures, and scheduling for Demonstration 5. In addition, systems engineering tasks initiated in FY96 will continue. These studies include basic and applied science study to determine the effects of the ionosphere on the transmission and geolocation of emitters; analysis to quantify and understand the subtle interactions among PSTS collection systems; empirical analysis of near real-time post collection knowledge of corrections to system errors to single source techniques; and other relevant system engineering trade studies.
VII. (U) ($1,000) IADSS. Based on the study results obtained during FY96, perform a detailed system engineering study to define sensor suite, communications, and autonomous management requirements and design. This design will provide the basis for integrating a sensor suite and autonomous management system to support a demonstration of IADSS in conjunction with PSTS.
VIII. (U) ($2,400) Portable Tactical Testbed. Complete the implementation and integration of the Portable Tactical Testbed for use with Demonstration 6.
IX. (U) ($1,000) Integrated Sensor Tasking (IST). Continue development of an Integrated Sensor Tasking effort to provide the capability to coordinate the collection management of tactical and national assets to support tactical exploitation of PSTS capabilities.
3. (U) FY 1998 PLAN:
X. (U) ($4,022) Demonstration 6. Demonstration 6 will be conducted in Korea and will demonstrate all PSTS capabilities. Additional refinements and upgrades to the signal processing and data fusion algorithms based on the results from previous demonstrations will be integrated into the processing system.
XI. (U) ($2,418) Systems Engineering. Will complete requirements analysis, operations concept development, planning and procedures, and scheduling for Demonstration 6. Will complete system engineering studies as required to meet Demonstration 6 and to support technology transition.
XII. (U) ($834) Portable Tactical Testbed. Provide engineering, operations and maintenance support for the Portable Tactical Testbed for Demonstration 6.
XIII. (U) ($193) Technology Transfer. Complete documentation and configuration management of final PSTS systems including the tactical testbed.
4. (U) FY 1999 PLAN:
XIV. (U) ($948) Logistics Support. Provide engineering, operations and maintenance support for deployed PSTS systems.
B. (U) PROGRAM CHANGE SUMMARY:
FY 1996 FY 1997 FY 1998 FY 1999
(U) FY 1997 President's Budget: $10,666 $12,823 $8,305 $955
(U) Adjustments from FY97 PRESBUDG: -2,034 -524 -838 -7
(U) POM-98 Submission: $ 8,632 $12,299 $7,467 $948
(U) CHANGE SUMMARY EXPLANATION:
(U) Funding: FY 1996 adjustment reflects a Jordanian F-16 financing rescission (-$12); and Execution Adjustment
(-$2,022). FY 1997 adjustment reflects minor Congressional undistributed adjustments(-$524). FY 1998 adjustment reflects Navy Working Capital Fund (NCWF) and minor adjustments(-$238) and S&T adjustment (-$600). FY 1999 adjustment reflects minor internal adjustments (-$7).
(U) Schedule: Not applicable.
(U) Technical: Not applicable.
C. (U) OTHER PROGRAM FUNDING SUMMARY: Available above SECRET level of classification.
(U) RELATED RDT&E: Available above SECRET level of classification.