航空缩略语词典

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ELPRS Enhanced Position Location Reporting System. ELS Earth Limb Sensor. ELSEC Electronics Security. ELSI Enhanced Longwave Spectrometer Imager. 5 |4 X" a% R3 d# c8 rELV Expendable Launch Vehicle. Emanations Security 4 c; P) V5 P$ S- P(EMSEC) 7 n- Y( k$ S- \The protection that results from all measures designed to deny unauthorized persons information of value that might be derived from intercept and analysis of compromising emanations. EMC (1) Electromagnetic Compatibility. (2) Early Midcourse. EMCON Emission Control $ m3 a) y8 W0 B. rEMD Engineering and Manufacturing Development (previously referred to as FSD). EMDCT Expanded Memory DCT. + c( D1 X" ]9 F- X/ h- T% E. XEME Electromagnetic Environment. % C; i3 T7 T S7 o3 V0 U) W dMDA GLOSSARY, VER. 4.0 E 8 x7 R& l4 V. l' l% u M1 u* m7 d7 M$ u93 Emergency Capability (replaces Contingency Capability) 7 j: G8 r8 T! v9 aBMDS elements or components that are still in development or testing that provide limited ballistic missile defense capabilities. MDA, working with the Services, will develop plans, which cover the potential use of prototypes and test 9 _2 g* u" j' X8 o Hassets for contingency deployment should the SECDEF determine that an emerging BMD threat requires emergency fielding of a BMDS capability. EMF Electromagnetic Field. EMG Electromagnetic Gun. 6 \# [: X2 ?, t7 ^EMI Electromagnetic Interference. : Q4 h1 i+ t4 @6 i4 DEMIP See Exoatmospheric Midcourse Interceptor Program. : Q+ o8 E- Q1 o) g) zEmission Control (EMCON) 7 ?# B0 M' A/ E+ LThe selective and controlled use of electromagnetic, acoustic, or other emitters to optimize command and control capabilities while minimizing: a) detection by ) Y, w7 P* g6 {9 k: n3 c' p/ _enemy sensors, and b) mutual interference among friendly systems. EMCON can also be involved in military deception plans. Also called EMCON. EML Electromagnetic Launcher. A device used to launch hypervelocity particles. EMP Electromagnetic Pulse. EMPSKD Employment Scheduling (USN term). / H9 l, [; Q, \4 l/ Q6 y9 U5 M9 k' rEMR Electromagnetic Radiation. EMRLD Excimer Moderate Power Raman-Shifted Laser Device. ) s+ N. G( b. Y- p4 [EMSEC Emanations Security. " M' X: R6 T; n( b+ x- l, fEMSP Enhanced Modular Signal Processor. 4 `/ U: h3 e6 ]- q# e# AEMT Engineering Management Team. % f" s u* T! Z; tEMV Electromagnetic Vulnerability. ENA Engineering: Architecture and Analysis. ENCATT Engineer CATT (US Army term). ( h+ L- Q' Q9 ^# R+ Y2 O6 TEnclave Isolated resource – an SDS asset that has lost connectivity with other SDS assets with which it normally has connectivity, but is still capable of coordinating with SDS assets to conduct ballistic missile defense. Various combinations of connectivity losses are possible; for example, (1) an operations center has lost ) A; M; v H6 [* V) Fconnectivity with Higher Authority, yet can still provide sufficient C2 and can still 6 I4 L: l$ C" V8 P3 j# Hconnect with sufficient weapons and sensors to conduct an engagement and (2) # x9 e q: j4 j& ?4 zan operations center has loss of connectivity with another operations center with ; G# x! ^5 E7 S4 j4 Rwhich it normally shares data, but can still conduct an engagement. . \# C* r- _: p- b/ X8 c2 vEndgame FOV The field of view of the interceptor’s sensor during its final maneuvers after target acquisition to intercept the target. May be less than the acquisition FOV. End Item The final production product when assembled, or completed, and ready for issue/deployment. MDA GLOSSARY, VER. 4.0 E 7 z5 M {9 ^+ r, B5 m8 S94 * z7 d8 J6 N5 W6 i5 sEndoatmospheric Within the earth’s atmosphere; generally considered to be altitudes below 100 & {: H+ [! L& y1 P. j pkm. An endoatmospheric interceptor reaches its target within the atmosphere. Endo- : Y% Q: M* t. ]9 [( I* G/ CExoatmospheric Interceptor (E2 I) 5 w6 T: c4 P/ H, vA ground-based interceptor capable of engaging RVs either endoatmospheric or 2 x8 d0 ]6 R3 ?$ _exoatmospheric. (Successor to High Endoatmospheric Defense Interceptor (HEDI).) ENDOSIM Endoatmospheric Simulation. 3 r _; K- H3 h) O4 _# lEndurance The time an aircraft can continue flying, or a ground vehicle or ship can continue operating, under specified conditions, e.g. without refueling. ENG Engineering. . `( K0 Z# r* H4 lENGAG’T Engagement. Engage (1) In air defense, a fire control order used to direct or authorize units and/or & A- x4 R; k. U, z- [weapon systems to fire on a designated target. (2) In air intercept, a code meaning, “Attack designated contact.” Engagement (1) A period of hostilities beginning when the first ballistic missile target undergoes fire from the first defensive weapon. ) q0 Z$ L9 M+ c$ ?(2) A period beginning whenever any hostile object is identified (designated) 4 {+ q% e, o; Jas hostile and ending after the last hostile object has been attacked. & V {$ V4 `6 Y; ?0 i8 H(3) In air defense, an attack with guns or air-to-air missiles by an interceptor * x8 |, ?* C* c0 O2 Xaircraft, or the launch of an air defense missile by air defense artillery and 6 Y4 u& G' `8 I ^the missile’s subsequent travel to intercept. * B3 A8 b) a# M a, X( QEngagement Authorization 4 N3 J- I2 ]8 `" w. r0 c% UThe authorization given to USSPACECOM to use weapon and sensor systems under previously coordinated and authorized rules, procedures, and conditions. Engagement Control (1) That set of coordination, assessment, decision, and direction functions normally implemented automatically to execute the selected battle plan, + N- D8 Q/ l7 ?6 P) z: L! ]military strategy and tactics within partitioned battle spaces (i.e., a spatial/functional subdivision of battle management). Includes the determination of: what specific objects to intercept in order to implement . w- {% n+ ]4 |the selected military strategy, and which specific interceptors to assign to each attacker to implement the selected tactics within the rules of engagement. * c8 c' m! @: o7 f/ E(2) In air defense, that degree of control exercised over the operational / I1 J) y1 l9 Dfunctions of an air defense unit that are related to detection, identification, engagement, and destruction of hostile targets.

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Engagement : a( }3 P- {* N# h& D6 OPlanning {4 r; a; g" Q3 hA set of rules and parameters to be used in developing weapon-target 9 T6 y) w f9 Y% Kassignments and for sensor resource management. (USSPACECOM) Engagement Surveillance 2 W! \* r/ U" fThe surveillance required to support RV negation in the midcourse tier. Engagement 6 q' \2 Z5 o" p5 V" R; W9 DTime The time that a weapon takes while engaging a given target. This includes not only firing at the target but all other necessary weapon functions involved that are unique to that particular target. $ Y3 f Y# M5 w. W5 i- {$ fMDA GLOSSARY, VER. 4.0 E - q j+ P- j1 l# l5 |- J95 " L5 o( J) b. g/ N [5 _Engineering and Manufacturing , ^2 g" q7 _; ?) uDevelopment (EMD) & Y3 V [2 K& H0 Y0 i) AThe third phase in the acquisition process, following Milestone II. The system and its supporting items are fully developed, engineered, designed, fabricated, tested, and evaluated. The intended output is a pre-production system that closely approximates the final product; the documentation necessary to enter the 1 |% a9 D" H W) _$ t Vproduction phase, and the test results demonstrating that the production product , S/ j( {! k+ n+ h3 {8 g( E9 ~! Dwill meet stated requirements. / }; k% d& p; n3 ?$ G* Q, d8 TEngineering Change Proposal (ECP) A proposal to the responsible authority recommending that a change to an # M4 d5 V: F M" I* Soriginal item of equipment be considered, and the design or engineering change # d; l0 }$ c- tbe incorporated into the article to modify, add to, delete, or supersede original parts. , O0 B- Z, W& f: ^0 R6 ^Engineering 1 g9 v; `- {3 s. Y' c. zDevelopment # h1 ~" ?$ l- j- n- n' L% D; ?- iA funding category including those development programs being engineered for service use but which have not yet been approved for procurement or operation. Money under budget activity 6.4. + j f8 A2 p! ]3 |. ~Engineering $ h. J% N' e% w9 R ?Development ( W6 c/ f; ~. y' E, v' A8 P# tModel Enhanced Target / q) z9 x, M, Y' t! W/ d: BDelivery System (ETDS) An advanced prototype used during the Engineering and Manufacturing Development phase (EMD) to resolve design deficiencies, demonstrate maturing $ m6 ]8 X9 h! fperformance, and develop proposed production specifications and drawings. 9 a* ^4 s- R/ h) D9 bTarget delivery system being developed for future GMD testing that will complement existing systems, provide flexible, modular configurations, and will be launchable from land, air, or sea modes ENNK Endoatmospheric Non-Nuclear Kill. ENSCD Enemy Situation and Correlation Division (JFACC term). Environmental Assessment (EA) 4 i# t& M: o; z3 sA concise public document whose primary purpose is to provide sufficient . P! }+ ~4 ~) ? t& p4 b, C$ R$ Canalysis of environmental effects of an action to determine whether to prepare an environmental impact statement or a finding of no significant impact. Environmental # }: b/ H0 [( yImpact Statement (EIS) A detailed written statement analyzing the environmental effects of a major Federal action. Environmental ; I6 y; k6 R& I( gSecurity A specialized form of physical security that prevents technical penetration, e.g., penetration by waves of electron beams. " T2 F; y, a" nEnvironments The media, conditions, and/or physical objects in which a BMD asset is immersed or surrounded. For BMD systems and elements, the comprehensive environments definition consists of natural, hostile, induced, and storage, transportation and handling categories. " {. Z, w3 r* D7 k- M; _EO (1) Electro-Optical. (2) Engagement Operations. (3) End Office. ; ]/ @1 Y, I% X. G# F: D# Q, R% h(4) Eyes Only. EOA Early Operational Assessment. EOB (1) Enemy Order of Battle. (2) Electronic Order of Battle. EOC (1) See Element Operations Center. ( {- C: J% M/ `! z I(2) Emergency Operations Center 8 [; R1 A- o6 h, S1 }MDA GLOSSARY, VER. 4.0 E 96 * p4 n( g4 M) H3 F9 T) g- yEOCM Electro-Optic Countermeasure. " s, v" z6 l: s/ ^3 ?$ iEOCT Element Operations Center Test Bed. ( J& v, k' W5 R( i4 P8 VEOD Explosive Ordnance Detail 3 C' F* v& z0 P6 j( y6 HEO/IR See Electro-Optics Infrared. EOM End of Message. EOP Executive Office of the President EORSAT ELINT Ocean Reconnaissance Satellite (US). 4 k6 u2 @8 s& Q8 n& }$ {) OEOS Earth Orbiting System (NASA term). EOSH Environmental Operational Safety and Health. ) R- R: [; p& a" l- d! M4 s- _( rEP (1) Engagement Planning. (2) Evaluation Plan EP Cycle Engagement Planner Cycle (NMD BMC2 term). EPA Environmental Protection Agency. EPD Engineering Product and Development - N/ A k3 C( c& p. M: ZEphemeris/ Ephemerides ) j0 H/ n9 v5 \& W5 ^6 g: i(1) A table showing the positions of an object in space at regular intervals of * n" ]: I! S( I4 B0 Ttime. $ }) m2 L9 p0 k: Y(2) A publication giving the computed places of the celestial bodies for each day of the year or for other regular intervals. EPITS Essential Program Information Technology and Systems. EPL Emitter Parameter Listing (USN term). EPLRS Enhanced Position Locator Reporting System. " b8 O# x x( d- V9 Y# BEPO (1) OBSOLETE - ERINT Project Office (US Army term). (2) Element Program : A1 H! w3 p/ U6 C! s- B) F9 | aOffice. EPP Electric Power Plant (PATRIOT). % z) U$ V/ } a1 KEPROM Electrically Programmable Read-Only Memory. EQEC EurQuantum Electronics Conference (See CLEO). Equipment 7 f" R' o/ v" ]2 H/ x" b/ d4 MOperationally , k) p% M5 @! O/ b8 MReady , E, V* m" t. Z1 u" WThe status of an item of equipment in the possession of an operating unit that indicates it is capable of fulfilling its intended mission and in a system 7 _/ {2 I1 M+ D. u" @. z: hconfiguration that offers a high assurance of an effective, reliable, and safe performance. ER (1) Enhanced Radiation (“neutron bomb”). (2) Extended Range. ERA Explosive Reactive Armor . A0 E, {7 b _) ]" o9 p- r! ]8 _ERADCOM OBSOLETE. Army Electronics Research and Development Command. (Now Laboratory Command (LABCOM), Adelphi, MD.) : [8 J: S: N6 ]# JMDA GLOSSARY, VER. 4.0 E 97 ERCS Emergency Rocket Communications System (US). ERD Element Requirements Document. ERG Executive Review Group. ERINT OBSOLETE. Extended Range Interceptor. Now referred to as PAC-3. 1 n& r1 I" g( d) zERIS OBSOLETE. Exoatmospheric Reentry Vehicle Interceptor Subsystem. 0 d- v' c8 I8 t' o(Predecessor to Ground-Based Interceptor (GBI).) ERIS(F) OBSOLETE. ERIS Farm. ERP Emitted Radiative Power. : l/ P( Z2 [4 c2 k/ L( C. B |& dERR (1) Element Requirements Review. (2) Engineering Release Record. ERS (1) Early Release of Submunitions. (2) Emergency Response System. ESA Electronically Scanned Array. ESAD Electronic Safe and Arm Device. ESAR Extended Subsequent Application Review. & z, X3 ^6 `" z8 VESC Electronic System Center (AFMC), Hanscom AFB, MA. ESCN Existing Systems and Center Notebook. ESD OBSOLETE. Electronic Systems Division. (Now Electronic Systems Center, Hanscom AFB, MA.) % H- U' `1 K- M4 B& aESH Environmental, Safety and Health 7 M1 @$ y! y5 y( T0 TESI External Systems Integration. ESI ICD External Systems Integration Interface Control Document. 7 S D" H2 w" M& T+ S4 |ESM (1) Electronic Warfare Support Measures. (2) Electronic Support Measures. ESMC Eastern Space and Missile Center, Patrick AFB, FL. * Y0 g% `, P) i0 |0 v0 fESNet Energy Sciences Network. 3 Q5 D2 H* M' m5 WESPRIT European Strategic Program of Research in Information Technology. ESQD Explosive Safety Quantity Distance. ' j3 _$ ^/ B$ Q- V( H( G7 VESSM Evolved (Enhanced) Sea Sparrow Missile. ET&C Extended Tracking and Control. ETA Estimated Time of Arrival. ETC (1) Electro-Thermal Chemical. (2) Estimated Time-to-Completion. ; A3 u7 y$ }2 g. O$ METD (1) Estimated Time of Departure. (2) Electronic Transfer Device. # M7 ~# a; M1 \MDA GLOSSARY, VER. 4.0 E 98 ETERTS End-to-End Real Time Simulator. ( n5 m r0 N4 @" o \ETESD End-to-End Sensor Demonstration. ETI Estimated Time of Intercept. * D+ V: x0 A- ]+ ^; P" E! iETIC Estimated Time for Completion. - w A0 w: n3 c7 h% ^. z! |- NETM Engineering Test Model ETR (1) Extended Test Range (Pacific Test Bed) (2) See Eastern Test Range. (3) Environmental Test Round. (4) Estimated Time to Repair. ETS (1) Experimental Test System. (2) Experimental Test Site. . r+ T; g! R/ s7 @3 GEU European Union [formerly European Community (ECI)] 5 {2 w( @- `: j5 TEUCOM European Command. See USEUCOM. 7 G* B# b2 z, ~6 G+ mEURATOM European Atomic Energy Agency. 7 }& R5 l* {! r* ~: V& F7 f3 MEUREKA European Research and Coordinating Agency. 3 p9 s3 H: M8 i' HEUT Early User Test. EV Experimental Version EVA Extravehicular Activity. Evasive MRV A reentry vehicle, which maneuvers for the purpose of evading defensive weapons. ! j7 @$ I8 z% q9 j! O( R1 DEvent Based + J2 `/ f: o" nContracting Support “event driven acquisition strategy” by linking specific contractual events to the “exit criteria” for the acquisition phase, or to intermediate development events established for the acquisition strategy. 0 a8 y" v' r; M3 Z8 { d4 REvent Driven Acquisition 0 f# q" f2 N3 j0 IStrategy ! F) I- X: q MAn acquisition strategy that links program decisions to demonstrated accomplishments in development, testing, and production. ( v" [: T1 z! ^1 @: vEvent Validation A sensor element internal process that results in a determination by the operator 3 P& W9 E+ t) dthat the sensor is healthy and the event reported is real.

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Event 5 f& J* ?" O- V; |Verification The process by which it is decided, from SDS external data, that the event % y1 X" @4 ]0 G( ~ ^reported is real. MDA GLOSSARY, VER. 4.0 E 99 0 @/ G6 U- n7 Y5 EEvolutionary Acquisition (1) An approach in which a core capability is fielded, and the system design has " T! j3 @4 T* X8 t0 ta modular structure and provisions for future upgrades and changes as , J4 b d5 G6 w: s1 z9 vrequirements are refined. An evolutionary acquisition strategy is well suited to high technology and software intensive programs where requirements beyond a ) ]" c1 H5 }* G4 m& u! v; k2 N8 mcore capability can be generally, but not specifically, be defined. (2) An acquisition strategy that defines, develops, produces or acquires, and fields an initial hardware or software increment (or block) of operational capability. It is based on technologies demonstrated in relevant environments, time-phased # M4 Z1 y7 l+ ~- l4 ^requirements, and demonstrated manufacturing or software deployment 7 w; Y0 ~) r7 ocapabilities. These capabilities can be provided in a shorter period of time, 7 e& e( Z% {* _/ @$ i4 ?% Q6 bfollowed by subsequent increments of capability over time that accommodate ' [* [- h+ D; L* S8 @/ x: Zimproved technology and allowing for full and adaptable systems over time. Each increment will meet a militarily useful capability specified by the user (i.e., at least the thresholds set by the user for that increment); however, the first increment may represent only 60% to 80% of the desired final capability. (MDA Lexicon) Evolutionary Requirements " |/ d5 M* w, d% f( bDefinition Mission needs are first expressed in broad operational capability terms, and then 3 W+ }: ?/ M' {( b+ Gprogressively evolved to system specific performance requirements. ; h1 s! [( Z4 q& REVPA Experimental Version Performance Assessment. 5 H, t1 k+ }" N; W7 M/ MEVPA/TEVS Experimental Version Performance Assessment Test Environment System. 9 ^& f* v4 p6 k2 `+ S; qEVS Enhanced Verdin System. + Q2 x$ X3 |; g5 d2 y FEW (1) Electronic Warfare. (2) Early Warning. ; n3 ?/ V+ j: t4 ^EW/AA Early Warning and Attack Assessment. 7 ~! C0 G C$ o0 V6 I- \EWCC Expanded Weapons Control Computer (PATRIOT). % X- V- ~: l* GEWDA Energy and Water Development Appropriations (US). ' |4 |2 J3 J; `+ y& d7 {/ cEWG Event Working Group. 4 c# p |' \# F$ R3 \) J& iEWN Early Warning Net. ; M* F3 ]: j6 w9 a2 x+ K2 _EWO Electronic Warfare Officer. & _) A1 E% h& E( m$ e+ q4 IEWPE Electronic Warfare Pre-Processing Element. EWR Early Warning Radar. EWS Early Warning System. EXCEDE Electron Accelerator Experiment. Excimer A contraction for “excited dimer”; a type of lasant. A dimer is a molecule " C1 E O$ [" Wconsisting of two atoms. Some dimers (e.g., xenon chloride and krypton fluoride) are molecules, which cannot exist under ordinary conditions of approximate thermal equilibrium but must be created in an “excited” (e.g., energized) condition ( ~* N' z" i2 M H, A4 V9 xby special “pumping” processes in a laser. & \! I+ @0 u9 _+ p7 S2 W0 QExcimer Laser (EXL) 1 N( L- h2 w5 \7 A7 MA laser in which emission is stimulated when a gas is shocked with electrical ; N! } P3 O+ lenergy and the excited medium emits light when returning to a ground state. * v% ~$ n- s2 bMDA GLOSSARY, VER. 4.0 E {1 r5 b1 ^# J# U# q, p100 ) y" `' R/ b) g; M/ u( MEXCOM Executive Committee. 3 v, R1 W6 p7 s" i7 D8 Y) oExecutable $ _9 u8 M2 h' X. E! `, p/ ^Program A program is executable if the PM has adequate near-term approved funding. Executing Agent The individual within the executing element assigned responsibility for managing MDA funded programs. & a9 Z% G- f: \; C kExecuting 9 p9 s8 R7 z. w# e0 G; J& z2 F7 tElements Agencies or organizations (DoD or non-DoD) that are managing BMD-related programs. / i3 W% V, c* }' |" S& PExecuting 0 _) t; B( @/ l* F" r+ B1 kResponsibility Program Manager responsibility. 5 T6 N6 N5 O" B1 j) XExercise A military maneuver or simulated wartime operation involving planning, preparation, and execution. It is carried out for the purpose of training and 1 C5 h5 G/ X8 L& S7 |6 d9 _! m2 Yevaluation. It may be a combined, joint, or single-Service exercise, depending on participating organizations. See also Command Post Exercise. # E! p* C& G' T" h5 q: P% [$ _1 t& jExit Criteria Program specific accomplishments that must be satisfactorily demonstrated $ d" p' [: n6 S4 E+ zbefore an effort or program can progress further in the current acquisition phase 9 b7 ]( O2 J, r" e7 E6 Por transition to the next acquisition phase. Exit criteria may include such factors V/ H$ y% d$ I) J5 `) }& {as critical test issues, the attainment of projected growth curves and baseline parameters, and the results of risk reduction efforts deemed critical to the decision to proceed further. Exit criteria supplement minimum required accomplishments and are specific to each acquisition phase. 7 L5 G* Z0 O0 o( Z8 g- z% K1 }) lEXL Excimer Laser. 0 H2 \& @" p% B2 }( R+ mExoatmospheric Outside the Earth’s atmosphere; generally considered to be altitudes above 100 km. ' s J; G$ w* [+ ?Exoatmospheric Reentry Vehicle Interceptor Subsystem (ERIS) OBSOLETE. Interceptor designed to provide functional test validation of GBI. Exoatmospheric + ?+ o, W9 d; Z$ LTest Bed (XTB) Flight qualified and range integrated vehicle to support other programs such as GBI-X. Exo Decoy A decoy that matches RV signature exoatmospherically. Exo decoys can use " }: `- q8 I9 e. c8 E+ j5 \8 aradar and/or optical means to deceive sensors. Expert Systems Software programs, which use artificial intelligence techniques to capture and ; D2 a8 k6 C3 }+ fapply the non-algorithmic knowledge and procedures of human experts. $ A# \* r$ d. w& mExpired Appropriation An appropriation that is no longer available for new obligation but is still available for disbursement to liquidate existing obligations. Under current legislation no disbursement may be recorded or paid after a five-year expiration period. Maintains all original accounting identity, e.g. FY, appropriation, PE, etc. EXPLAN Exercise Plan. ' [+ D, p/ \8 }, O, A9 ^Explicit Coordination A battle management technique which communicates results, decisions or ' ?- H3 W, x4 O5 ecommand from one battle manager to another, usually from a higher command to a lower command. MDA GLOSSARY, VER. 4.0 E 101 6 O2 w9 D F8 o/ Y$ K1 dExtended Planning Annex 6 x2 M; R: u! `2 D( H$ P3 mA document providing program guidance for an additional 10 years beyond the POM. + l z+ C$ R) C2 z7 aMDA GLOSSARY, VER. 4.0 F 103 " t% j* E1 }( _* C* XF (1) Fluoride. (2) Fahrenheit. F/O (1) Fiber Optic. (2) Follow-On. $ j) c( o7 N: u5 H7 b( |FA (1) Field Artillery. (2) Feasibility Assessment. 7 C% _3 `& h, T R" }FA/RD Functional Analysis/Requirements Definition. ( t. m& i% o; j5 _: n8 l8 m- AFAA Federal Aviation Administration. FAAD Forward Area Air Defense (US Army). 2 K. A! s( X0 {3 J$ f+ T0 x$ IFAAD C2I Forward Area Air Defense Command, Control and Intelligence. * S3 q: K3 V1 _7 L8 eFAADS Forward Area Air Defense System (JCS term). FAAWC Fleet/Force Anti-Air Warfare Commander. FAB Fly Along Probe. * i1 [4 n" o& k1 N1 n/ p" U0 SFac Facility (MILCON term). FACP Forward Area Control Post (JFACC term). FACSPMF Federal Agency Computer Security Program Manager’s Forum. FAD (1) Force Activity Designator. (2) Feasible Test Date. FADEC Full-Authority Electronic Controls. FAFB Falcon AFB, CO. FAFBR Falcon AFB Regulation & [. o8 C4 O' g0 ^1 iFairing Structure to protect the payload during ascent phase. 9 Q5 W! T0 @$ t) Z/ AFAIT Fabrication Assembly, Inspection/Integration, and Test. % ^& } m* m YFALCON Fission-Activated Light Concept. FAM Functional Area Management. 6 {2 @: }# X' m0 F3 F: N6 O+ yFAMIS Financial Accounting Management Information System. K k% T0 ^4 x. }' |% XFAMP Facilities Acquisition Management Plan. E( M$ m% |8 E, \* aFAMSIM Family of Simulations (USA term). FAR See Federal Acquisition Regulation. & l4 ~5 ]. N* Y6 e- HFar Field The region far from an antenna compared to the dimensions of the antenna and 2 G3 ?" P5 H2 g) ` Xthe wavelength of the radiation. ' l5 ]8 M, Y( ?: hFAS (1) Fly Away Sensor (TCMP). 7 Y4 u. C0 o! J9 C6 M& |(2) Federation of American Scientists. FAST Facility Allocation Study Team. MDA GLOSSARY, VER. 4.0 F # y4 Y! ?1 d- U1 p, y104 Fast-Burn Booster (FBB) A ballistic missile that burns out much more quickly than current versions, possibly before exiting the atmosphere entirely. Such rapid burnout complicates 8 U' N8 n* V# g1 T9 \- b: ya boost-phase defense. 1 q% C" R6 ?3 f4 o! n" `FAT (1) First Article Testing. (2) Factory Acceptance Test. Fault Tolerance The ability of a processor to maintain mission effectiveness after some subsystems failed. Fax Facsimile. & }. j! e; l; w4 [5 W0 i4 i1 NFBB Fast-Burn Booster. - L( [' M5 c6 i4 }7 W. w- |+ X* Q" UFBIS Foreign Broadcast Information Service (US). FBM Fleet Ballistic Missile. FBMS Fleet Ballistic Missile System (USN term). FBP Forward Based Probe. FBR Forward-Based Radar (US Army term). FBS Forward-Based System. * }- C" ~9 r( r" L1 C! r$ j1 F/ r% @FBXR Forward-Based X-band Radar. FC (1) Fire Control [of weapons]. (2) Fund Code. ' J, T; h6 d; S" j+ cFCA Functional Configuration Audit. $ t/ W% `) d% qFCC Federal Communications Commission. FCCM Facilities Capital Cost of Money. FCN Fully Connected Network. FCO Field Change Order. + s4 \( x s' CFCRC OBSOLETE. Federal Contract Research Center. , `$ e( ~5 u( }( k6 N sFCS Fire Control Section.

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FCT Foreign comparative testing. FD First Deployment. & ^! k" r% m# OFDA Food and Drug Administration. FDC Fire [of weapons] Direction Center. FDG Foreign Disclosure Guide. 7 m1 I1 k0 e I* }& e) WFDM Function Description Manual. I# m! S( ^2 uFDO Fee Determining Official. 4 u# u$ X5 i+ v0 p+ kMDA GLOSSARY, VER. 4.0 F 105 , u/ `* |" z+ D* y; Z9 NFDP Flight Demonstration Program. * M! G1 h9 L1 l2 O. M* |FDR Final/Formal Design Review. FDRU Final Design Review Update (MDA PAC term). ' g5 x. \9 I0 K- P3 a/ C1 F" a0 WFDS (1) Flight Demonstration System. (2) Fault Detection System. FDSV Flight Demonstration Space Vehicle. " S- Y+ b/ g, E- z1 D$ I: |% f1 [: CFDT&E See Force Development Test and Experimentation (US Army). FDX Full Duplex (Telecomm/Computer term). 3 w/ a! ^! ?& _FEA Functional Economic Analysis. , f9 |' H t& ^: _8 k' d- sFeasibility Study A study of the applicability or desirability of any management or procedural system from the standpoint of advantages versus disadvantages in any given case. A; B! L1 Z% @4 S* XFEBA Forward Edge of the Battle Area. FECA Front-End Cost Analysis 4 `5 J6 r& h; m$ U8 a0 F" O {" Y( l" ^FED Federal. + x5 e0 @8 m$ ^, U: OFEDAC Federal Computer Acquisition Center. Federal Acquisition Regulation 6 c& R) y: J5 Q6 ]" F9 CThe primary regulation for use by federal executive agencies for acquisition of 4 Y% c4 X/ x4 b' nsupplies and services with appropriated funds. It directs the defense program ) {1 I, b1 J' x9 Z& l \2 L" emanager in many ways, including contract award procedures, acquisition planning, warranties, and establishing guidelines for competition. The Military $ n" F; p' I& ?& ]: c& L2 N2 WDepartments and DoD issue supplements to the FAR. The DoD supplement is called DFARS (Defense FAR Supplement). FEDSIM Federal System Integration and Management. FEL Free Electron Laser. FEMA Federal Emergency Management Agency. Fenced Funding An identified aggregation of resources reviewed, approved, and managed as a distinct entity. The proposed program must be implemented within specified 7 f, R1 N! P& W& ^resources. Examples of fences areas are: Intelligence and Security, Support to 3 ?2 _% i/ g1 B- [, o; xOther Nations. 2 X, i% k i2 RFER Financial Execution Review. : o1 k# ]1 a4 @- Y3 O9 U' d! |FES Facility Engineering Surveillance Plan. 7 u5 @( [6 Y$ ` g2 aFET Field Effect Transistor. 5 j. o* ]: a- c9 w9 u: \FEU Flight Evaluation Unit. FEWS Follow-on Early Warning System. % I0 X% a* c2 i# BFF Fire Finder Radar (US Army. " Z/ Y4 M- ~2 N4 V" F, ?1 yMDA GLOSSARY, VER. 4.0 F 106 7 g* x+ x; Q2 d5 P2 ]$ i" DFFBD Functional Flow Block Diagram. FFCD Full, Final and Complete Disclosure (Treaty negotiation term). FFD Fraction Failure Detected. FFH Fast Frequency Hopping. 5 A# V* }, f* h* vFFP Firm Fixed Price. 3 {: {7 {- g0 PFFRDC Federally Funded Research and Development Center. % f+ T5 _- [3 z. q/ PFGC Functional Group Code (Navy ILS term). $ x3 V' k; y3 J! l6 xFGEP Fixed Ground Entry Point. 1 w: `. f' K m5 o) r/ I' rFH Flight Hours. FI Fault Isolation. & g3 w: f% ~; YFI&A Fault Isolation and Analysis. FIDO Fighter Duty Officer (JFACC term). Field of View + Y& ~- | O( P# @" X# u(FOV) The angular measure of the volume of space within which the system can 2 q! {+ N) x6 @$ |9 c% F% V& Prespond to the presence of a target. Fighting Mirror $ b; k5 n" F8 P- G(FMIR) Part of the GBL System. The low orbit mirror, which receives laser energy and # Y1 c* o# y/ D5 areflects it to the target. 9 D6 G. r5 |( z$ A. b8 z" eFigure of Merit : u/ A/ [: k* H1 }: i(FOM) 5 r+ V( F, a% G) X+ P* H _' o2 wThe numerical value assigned to a measure of effectiveness, parameters, or 5 A( |8 x- G" o, Xother figure, as a result of an analysis, synthesis, or estimating technique. $ E# ~# Z/ F0 m8 v& lFIP Federal Information Processing. 4 B" V: x- p; \0 c! g) }# TFIPS Federal Information Processing Standard. # c7 h) x% C3 f* K3 r" s2 J4 t9 OFire Control The control of all operations in connection with the application of fire on a target. Fire Control System A group of interrelated fire control equipment and/or instruments designed for 9 S8 ?) U9 q" w9 e1 M& quse with a weapon or group of weapons. ' n0 t* W% J7 ]Fire Support Coordinating Measure A measure employed by land or amphibious commanders to facilitate the rapid . J7 r+ g) f- R1 y# u/ [( Iengagement of targets and simultaneously safeguard friendly forces. : b* ?+ \7 z4 U1 \; K% N) _1 T8 ~$ OFire Support 9 s- O Y- y- D5 }& ?Coordinating Line # d( Q* m7 e( `" p7 m( q(FSCL) 4 Q' X' ^6 S( O( S* |! s; s4 w# jA line established by the appropriate ground commander to ensure the ' k) [4 a* [5 }+ f& ~1 S: N* Ucoordination of fire not under the commander’s control but may affect current tactical operations. The fire support coordination line is used to coordinate fires of air, ground, or sea weapons systems using any type of ammunition against surface targets. The fire support coordination line should follow well-defined 2 c4 J6 @ q7 `0 Q4 n9 s4 w& `terrain features. The establishment of the FSCL must be coordinated with the 8 `2 Q7 W8 R# U( B ~0 w# H( ^; iappropriate tactical air commander and other supporting elements of the FSCL ; l3 C( `9 n( M+ w4 H; U" y* qwithout prior coordination with the ground force commander provided the attack * Q r- c O# o6 [2 w% m0 P; mwill not product adverse effects on or to the rear of the line. Attacks against 3 E i1 I e J& `. X# m" i$ F$ p, k5 {surface targets behind this line must be coordinated with the appropriate ground force commander. MDA GLOSSARY, VER. 4.0 F / Q% H$ J6 Z5 _, k: ]: Z107 Firing Doctrine The ratio and manner of assigning numbers of interceptors against given ) |0 F; z+ ` cattackers. One-on-one, salvo, shoot-look-shoot, shoot-fail-shoot, etc. are examples of different firing doctrine. The priority of targets being defended and the number of interceptors available relative to the number of attackers drive + G6 q9 D" a, j- M& kdoctrine. / d# h, I2 F* q1 Y4 e+ uFiring Rate The number of missiles fired per site per minute. FIRMR Federal Information Resources Management Regulation. 4 b; }' v3 P% ~' t& X1 Z- s5 wFIRST Forum of Incident Response and Security Teams. First Article First article includes pre-production models, initial production samples, test samples, first lots, pilot models, and pilot lots. Approval involves testing and ( `. L- l- W9 G/ V. F; cevaluating the first article for conformance with specified contract requirements ) O( W9 t2 h' y* b& J, i' y* \& tbefore or in the initial stage of production under a contract. + m1 B) z6 I1 b7 h% ^First Strike The first offensive action of a war (generally associated with nuclear operations). ; ~: j* b$ b+ ~, a" D k: fFirst Unit $ I( i; S* l9 ^( n8 xEquipped Date The scheduled date an end item and its support elements are issued to the c' s' A' X. Ainitial operational capability unit and training in the new equipment training plan has been accomplished. FIS Facility Installation Standard. ' v3 E9 Y1 W* H) _, P8 W. C0 T1 jFiscal Guidance The annual guidance issued by the SECDEF in the Defense Guidance which ( ~: i0 X+ y$ z. M9 Q( x8 m: L. nprovides the fiscal constraints that must be observed by the DoD Components in 0 F0 s. `. i J" U5 p( D& L1 J! }the formulation of force structures and the FYDP, and by the OSD in reviewing ' H0 ^1 U$ ?/ H4 p- ~proposed programs. FISSP Federal Information System Support Program. FIWC Fleet Information Warfare Center (USN term). 5 r( Y3 ^6 J- s. cFIX Site Firing-in-Extension (Target Launch site in White Sands Missile Range Northern Extension). Fixed Costs Costs that do not vary with the volume of business, such as property taxes, / a1 K) a$ g: E cinsurance, depreciation, security, and minimum water and utility fees. Fixed Ground ' u# z/ }- ]. ^. GEntry Point # P Z5 I2 Z1 D9 |6 u(FGEP) ; x! }) N/ n. LThe subset of GEPs, which are not transportable. GEPs provide the 7 T0 Y1 q# s! P6 @1 @8 w7 b* x0 \communications interfaces between the SDS space orbital/sub-orbital elements & e, p+ o8 u. land the C2E. Fixed Ground % M% j8 w( S; m% pStation All hardware, software, and facilities located at a fixed ground site necessary to , x7 f; d& [& C* F. h& o n" i3 \( Z& ~receive, process, support, and analyze mission status and data, and disseminate $ K7 X9 m2 w/ x& ooperational messages. " _$ ?: r" \- j% A/ uFLAGE OBSOLETE. Flexible Lightweight Agile Guided Experiment. (Predecessor program to Extended Range Interceptor (ERINT).) FLC Federal Laboratory Consortium. # e/ u9 a7 [$ t yMDA GLOSSARY, VER. 4.0 F & ^ T- Q' y |) Q( A108 - F) L6 \9 }: j( MFleet Satellite Communications 5 e# B/ P) p. W! Y; S- `; vSystem - {# U0 D. b$ k, @(FLTSATCOM) * h+ X' v: X# J; M" e' D) C @0 x6 d1 oOperating at ultra high frequency (UHF), FLTSATCOM allows relatively low-cost terminals with simple antennas for use on highly mobile platforms. It has a relatively small capacity because of its much lower operating frequency. It ) Q& N& E4 O( S0 y) O" ]* o2 zprovides a satellite communication system for high-priority communication % J2 y# D, B' ?; B( Nrequirements for the Navy and Air Force that encompasses almost the entire ' d1 Q9 H8 V7 @1 f$ y, zworld. It supports other DoD needs as well. It consists of satellites in geosynchronous equatorial orbit, each with 23 communication channels in the UHF ) \( ?$ ~9 [5 q5 y9 n' Aand SHF bands. The Navy has exclusive use of 10 channels for communication with its land, sea, and air forces. The Air Force uses 12 others as part of its AFSATCOM system for command and control of nuclear capable forces. The & c% E8 L6 h6 E, p; Q; Q# jsystem has one 500 KHz channel allotted to the national command authorities. . c. x7 y+ N: I, n; N* g& JFlexible Response 5 R! R9 p: G; u, \. XThe capability of military forces for effective reaction to any enemy threat or 7 D( k6 G4 @7 S; Oattack with actions appropriate and adaptable to the circumstances existing. FLHER Funds and Labor Hours Expenditure Report. Flight Demonstration System (FDS) Part of the SBIRS Low Program Definition and Risk Reduction (PDRR) program 3 v& v' X" E/ ? I- B; \, Cphase. The FDS will consist of two satellites and a ground system being built by ' ], Q) Q* Z2 f4 FTRW/Hughes. The FDS satellites are to be launched in FY99 for a two-year test * ? U6 D x9 E, J4 uprogram to demonstrate operations and performance of a SBIRS Low concept, : y. n& I6 ^2 T8 x/ zcollect target and phenomenology data to support the objective system design, 3 A+ M8 v2 b- j- K1 U i& X% ^; |and validate cost estimating models. Flight Path The line connecting the successive positions occupied, or to be occupied, by an 6 g/ Z$ J: x5 m. m! Eaircraft, missile, or space vehicle as it moves through air or space. (It is more commonly referred to as trajectory for space vehicles, especially ICBMs.) Flight Readiness 9 x* Y7 e' c8 a) c0 n* HFiring A missile system test of short duration conducted with the propulsion system ( q# ?) ~! p9 h& i; r! g- y8 Hoperating while the missile is secured to the launcher. Such a test is performed to determine the readiness of the missile system and launch facilities prior to % n) g% M- ]7 u/ j% nflight test. 3 r! O$ l3 |' n1 _" ~Flight Test Test of an aircraft, rocket, missile, or other vehicle by actual flight or launching. 4 @, ?; ?) C% eFlight tests are planned to achieve specific test objectives and gain operational information. 3 ?, p: w' a7 _ |Flight Test Vehicle (FTV) Prototype of airborne or spaceborne hardware used to validate a technology " _2 E9 C& G$ a. W& ?concept.

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FLIR Forward Looking Infrared Radar. FLOT Forward Line of Own Troops. $ }/ Q) I3 t9 T; f, b) p* l* v1 DFLT Flight. 2 P S3 d. O; gFLTSATCOM Fleet Satellite Communications System. Fluence (or / N# g+ f6 `* j9 _! b$ HIntegrated Flux) The product (or integral) of particle (neutron or photon) flux and time, expressed 6 o' R2 Y, m* B6 w7 g* Vin units of particles per square centimeter. The absorbed dose of radiation (in % D% _& t! |1 ]rads) is related to the fluence. (It should be specified whether this is incident or 0 \; c+ i/ k i6 B6 P* aabsorbed fluence). MDA GLOSSARY, VER. 4.0 F 1 a: e, G2 j" [- |5 i109 $ B1 X$ T7 q' ^; S3 z) E" `Flyaway Cost The total cost related to the production of a usable end item of military hardware. Flyaway cost includes the cost of procuring the basic unit (airframe, hull, chassis, 6 s1 k9 W# U% ]/ B$ ?etc.), a percentage of basic unit cost for changes allowance, propulsion ! h5 u* o8 J7 F/ i9 Oequipment, electronics, armament, and other installed government-furnished 7 O- N4 R; @0 O2 p: J) cequipment, and nonrecurring production costs. Flyaway cost equates to Rollaway and Sailaway cost. FM (1) Flare Multiunit. ! R5 H* f8 j4 v' ?2 ?(2) Frequency Modulation. 8 p6 `4 X: }) j0 c3 v(3) Functional Manger. ( i0 R& L1 Z* p ^' T0 B6 j(4) Force Module(s). (5) Field Manual. ' C8 v5 X2 N2 _7 Z( U0 ^8 ?! [* eFMA Foreign Military Acquisition. 1 }6 D" [8 G" I; O8 }( x4 YFMB Financial Management Board. $ |! a6 U% Z9 v1 X' @. n! Q5 e- RFMC Flexible Manufacturing Cell. 3 t8 p/ z4 s m4 {) G5 pFMEA Failure Modes Effects Analysis (ILS term). FMECA Failure Modes Effects and Criticality Analysis (ILS term). 1 t5 U" o1 A- p/ F4 HFMIR Fighting Mirror. ' F; r! Z. J% y) F) h) ]FMP Foreign Materiel Program. FMS (1) Flight Mission Simulator (PATRIOT), Huntsville AL. (2) Foreign Military Sales. FMTV Family of Medium Tactical Vehicles (USA term). & W* j. b! H4 ^; q' S6 _FNC Federal Network Council FO Force Operations (PATRIOT). 7 P3 N; Q+ d8 C- HFO Link Fiber Optic Link. FOA Future Offensive Aircraft (UK RAF term). # G6 C! C$ f1 z3 IFOB Forward Operations Base. & ^! k/ h; V+ ^% ~+ VFOBS Fractional-Orbital Bombardment System. 1 z& y- ]! u( u( XFOC Full Operational Capability. $ `5 Q7 ?7 ]* Y: n8 f4 X9 e" XFocal Plane The plane, perpendicular to the optical axis of the lens, in which images of points in the object field of the lens are focused. Focal Plane # n8 f* F1 t3 x" x+ IArray (FPA) # x9 W( U6 k) |( [$ |; S ?An FPA is a matrix of photon sensitive detectors which, when combined with low noise preamplifiers, provides image data for the signal frequencies of interest. & S, j; K, D! f/ Y4 o( M5 rFOFA Follow-On Force Attack. , [, C. U" h, h7 r* A$ cFOG Fiber-Optic Gyroscope. 6 r8 l7 \$ D' y; X# MFOIA Freedom of Information Act (US). 9 w0 f4 k4 X% `9 ?4 UMDA GLOSSARY, VER. 4.0 F 110 ) |) l4 J! K/ D7 BFOL Forward Operating Location. FOLAN Fiber Optic Local Area Network. 7 p) |8 v3 |% e: WFolded Optics Any optical system containing reflecting components for the purpose of reducing the physical length of the system or for the purpose of changing the path of the optical axis. Follow-On 0 G2 T4 A$ @& N* E- HOperational Test and Evaluation (FOT&E) That test and evaluation that is necessary during and after the production period 7 M/ E9 c8 {5 I8 N+ O+ z7 L" `to refine the estimates made during operational test and evaluation, to evaluate 2 l! q' f* X# \' f; Y! nchanges, and to reevaluate the system to ensure that it continues to meet operational needs and retains its effectiveness in a new environment or against / k- p. S" [& @% ia new threat. FOM Figure of Merit. FON Fiber Optic Network. 2 k2 \: |% g2 J# ?& JFootprint (1) An estimated area of possible reentry or the solid angle of a detector or & T: O- M; n( A$ I5 |* Y1 {linear area of a detector at a certain location. (2) Geographic area in which a focused satellite downlink can be received. FOR Field of Regard. # Q* k% C0 D, ]% t& `" Z5 hForce Closure The point in time when a supported commander determines that sufficient personnel and equipment are in the assigned area of operations to carry out . S4 `" }9 }; k& v" ]: vassigned tasks. Force Development Test and _; I; a* d' Y* d) `1 y5 tExperimentation Tests employing representative users to examine definition of materiel requirements or support/assess development of doctrine, training, organization, * P0 Z& [: J; \/ j fand logistics for system acquisition. (U.S. Army). Force Direction The operational management of the forces. Force Integration Staff Officer + r2 F8 I. S* _3 U& `: f( N& J7 BArmy individual assigned to ODCSOPS to serve as HQDA user representative for a specific system. Provides continuous coordination necessary for integration of a new system into the Army force structure. Force & o" ~4 A7 \# m* w4 bManagement ; `& b2 k, i- T* K2 UThe assessment of the effectiveness of the defense forces throughout an engagement and adjustment of tactics and the system configuration as necessary to effectively allocate resources to satisfy mission objectives. Force Reliability The percentage of the missile force that will successfully detonate within 3.5 CEPs of the target. 5 [0 L) r! }# y+ c% X7 _FORDTIS Foreign Disclosure Technical Information System. 4 Q$ [+ J9 J9 k0 E. RForeign Government w/ i9 M2 ?$ }8 }6 s7 }4 UInformation Information that is (1) provided to the United States by a foreign government or / a6 R' B5 U' J" ~$ Zgovernments, an internal organization of governments, or any element thereof with the expectation, expressed or implied, that the information, the source of the information, or both, are to be held in confidence; (2) produced by the United 0 q6 P2 i( F c) A" W$ f& B( MStates pursuant to or as a result of a joint arrangement with a foreign government or governments or international organization of governments ) u8 q4 U4 V/ C0 Srequiring that the information, the arrangement, or both, are to be held in ) e9 X7 k; l2 z6 m. `" Q* Mconfidence. MDA GLOSSARY, VER. 4.0 F ! J) q; V! x1 f7 @2 B111 ( G( w' V0 D) A% A8 qForeign Military Sales (FMS) That portion of U.S. security assistance authorized by the Foreign Assistance Act L( C3 ], X# p/ F! Jof 1961, as amended, and the Arms Export Control Act, as amended. The recipient provides reimbursement for defense articles and services transferred 5 v) B6 h; j) |' H( m0 l! `from the U.S. Includes case sales from stocks (inventories, services, training) by the DoD defense services. Foreign Security : Y5 J5 m0 d+ O$ T- {Policy Model 1 y+ H! M1 A; eA mathematically precise statement of a security policy. To be adequately precise, such a model must represent the initial state of a system, the way in 4 O$ Z7 y! n& ?8 M# |4 bwhich the system progresses from one state to another, and a definition of a “secure” state of the system. . c, G# L, E' yForm, Fit, and Function Data 9 L2 U- @5 E2 A) yTechnical data pertaining to items, components or processes for the purpose of 1 p+ f- s+ B oidentifying source, size, configuration, mating and attachment characteristics, 3 P' W5 T7 a) u$ u: N. Pfunctional characteristics and performance requirements. % s* G* q' }6 l3 Y! B+ n/ z$ iFormal Qualification Review A systems level configuration audit conducted after system testing is completed 5 l' H" z8 N; M3 K4 j% @to ensure that performance requirements have been met. $ J! S) m9 c! |9 x# S9 xFormerly Restricted Data 0 e. U0 D2 C4 _Information removed from the RESTRICTED DATA category upon joint determination by DoE (or antecedent agencies) and DoD that such information 3 h% t1 B/ N! `" R9 `relates primarily to the military utilization of atomic weapons and that such 7 T" C- D/ [1 X! E2 S2 M' G8 Ninformation can be adequately safeguarded as classified defense information. FORSCOM U.S. Army Forces Command, Ft. McPherson, GA. 2 U3 ]1 o5 ]# q( u9 ^7 VFORTRAN Formula Translation Language.

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Forward Edge of the Battle Area (FEBA) The foremost limits of a series of areas in which ground combat units are deployed, excluding the areas in which the covering or screening forces are 7 g/ E% v) g* E- @operating, designated to coordinate fire support, the positioning of forces, or the ) ?$ L9 I( D: Tmaneuver of units. 7 N' \5 o4 @/ s% ], H# y1 Y/ GForward Funding Carry-over of RDT&E funding into second year of appropriations availability. Requires permission from high authority. FOS Family of Systems (TMD). FOSS Fiber-Optic Sensor System. ; X6 f9 c! [7 U( l2 M. d2 a* BFOT Follow-On Technologies. # ?7 ?" k: S3 G2 M% _5 |FOT&E Follow-On Test & Evaluation. . a, a2 W$ V; R) S$ D( B( M lFOTC Force Over-the-horizon Track Coordinator (USN term). FOUO For Official Use Only. Fourth Generation Language ' d, v# _6 r: S( m& WA programming environment that produces both screen and report utilities for # [4 t. C1 k1 V. L1 Q. s3 u) [use by lower-level programming environments. FOV Field of View. 4 M# T5 a; M& K8 W. z2 q5 `6 zFOV Radar [Full] Field of View Radar FP Focal Plane. * t' L, t: x; Z+ D; K/ c; n+ g. ^MDA GLOSSARY, VER. 4.0 F 112 & t G1 `8 x8 J6 e$ M+ i# H& @FPA Focal Plane Array. ' W- i- M& S7 @) k" M, BFPC Facilities Protection Committee. FPI Fixed Price Incentive. FPS Fixed Radar. FPTOC Force Projection Tactical Operations Center (USA term). % N' s2 I4 ~* b! _- [5 ^; aFQR Formal Qualification Review. & I6 `% j- l0 AFQT Formal Qualification Testing. 1 m7 T) V% o/ S R5 nFR (1) Federal Register. (2) France. FRACAS Forward Reaction Altitude Control System. 4 |/ R7 y @$ F$ ]FRACS Forward Reaction Altitude Control System. 9 f( z* E* X6 ^ f$ X& gFragmentation Warhead , N5 \( B% N+ z0 oA warhead, which releases small solid objects to damage or destroy its targets. ' z* W3 l' I t( {FRAS Free Rocket Anti-Submarine. FRC Fire Control Radar 6 R2 t5 {) G7 K1 sFRD Facilities Requirements Document. Free Electron [) c, R8 W# U3 k! H sLaser (FEL) ( ?4 S2 C; s: X) }- MA type of laser, which generates radiation by the interaction of an electron beam 7 X K5 J; v/ u: B- }( o* qwith a static magnetic or electric field. Loosely speaking, free-electron laser technology resembles and evolved from that used by particle accelerators (“atom 1 D& M/ q( r& [smashers”). Lasers, which are not free electron lasers, are bound electron % A" }$ i% h: `# E" i* L9 ]4 W% plasers. T7 q3 X* \2 f" d& d1 V$ E' ~Free Rocket A rocket not subject to guidance or control in flight. Frequency Management ; r- m3 w9 ~4 z+ ~& h& n' x9 ]. R% ~The act of allocating frequencies, or bandwidths to a telecommunications system, necessary to minimize the potential interference between transmitting/receiving devices. Governing agencies and international agreement 5 u! T; r$ I8 z+ w0 B4 dcontrols authorized use of a particular frequency, frequencies, or bands. " K9 w5 |2 C" r* I% [. {! AFRG Federal Republic of Germany. FRN Force Requirement Number. FROD Functionally Related Observable Differences. + S4 R" I3 U0 z/ w/ zFROG Free Rocket Over Ground. FRN Force Requirement Number. 2 u* m3 p: Z0 c7 DFRP Full-Rate Production. + l% R% ~& z/ q. h3 h6 I: m: @7 zFRS Federal Reserve System. 7 _ d) b1 j) eFS&E Facility Siting and Environment (MILCON term). / i3 d* K8 r6 t* @# aMDA GLOSSARY, VER. 4.0 F 113 FS3 Future Strategic Strategy Study. FSAF Future Surface-to-Air [Missile] Family. 1 N$ @, n$ o. y" B" m+ bFSC (1) Fire Solution Computer. (2) Fire Support Coordination. % n& E, J; C* O9 L! w- l1 VFSCATT Fire Support CATT [for Weapons] (US Army term). / p+ ^/ o3 Y7 R" [- N6 Z4 C8 dFSCL Fire Support Coordination Line. 6 q- O* K! s% nFSD OBSOLETE. Full Scale Development Phase. See EMD. 6 ~, @; O: O" _! f6 VFSE Fire Support Element. FSM Firmware Support Manual. FSP Facility Security Plan. FSS Fixed Satellite Service. FSST Forward Space Support in-Theater. 2 ~/ d: l) t0 oFST Flight System Testbed. FSU Former Soviet Union. / u; W0 K/ ~4 nFSU Republics Former Soviet Union Republics. FT Flight Test. Ft Foot FTC Federal Trade Commission. FTD OBSOLETE. Foreign Technology Division (USAF), Wright-Patterson AFB, OH. See NAIC. & Z# M, W$ P- kFTI Fixed Target Indicator 3 o2 g# w! {; _: q: [ hFTLS Formal Top-Level Specification. FTP File Transfer Protocol (ADP/Internet term). 0 W' d8 q5 t |0 k* Q; J; bFTR Flight Test Round. FTS (1) Flight Test Summary (2) Federal Telephone Service 5 L0 e% k L K5 _+ C/ Y8 xFTS 2000 Federal Telecommunications System 2000. / W- R& y( ~; H. L3 D3 yFTV (1) Functional Technology Validation. (2) Flight Test Vehicle. FTX Field Training Exercise. % O1 e v$ d6 B/ N9 PFU Fire Unit (PATRIOT). # @' Q: l- u" ^ `FUE First Unit Equipped. # Y$ j- D0 X, w# V+ ?7 ~MDA GLOSSARY, VER. 4.0 F 114 3 x! e8 ~ g4 O f! s# J; GFull Mission Capable ' u3 c8 O( s2 ]6 MMaterial condition of an aircraft or training device indicting that it can perform all of its missions. Also called FMC. % c7 c; i/ K! T/ s; [9 f3 F; QFull Operational Capability (FOC) % p5 X/ u0 U* n) WThe full attainment of the capability to employ effectively a weapon, item of equipment, or system of approved specific characteristics, which is manned and # k7 g z M5 _ g+ Z0 |. t; W3 [: Xoperated by a trained, equipped, and supported military unit or force. Full Rate Production Production of economic quantities following stabilization of the system design and prove-out of the production process. Fully Configured . \6 T J# a) {, S( REnd Item 3 Q6 U5 l3 r$ U, mThe final combination of end products, component parts, and/or materials, which is fully ready for its intended operational use. Normally all production units are fully configured. Research and development units may be considered fully 0 J/ O6 W2 L# \7 K8 [: W6 Iconfigured if they are or are planned to become operationally equivalent to the production units.

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Fully Connected Network (FCN) 9 Z6 @9 Q# X0 VA network in which each node is directly connected with every other node. 2 d. \1 S5 p8 R' ?$ ^Functional Analysis An approach to the solution of a problem, in which the problem is broken down 1 D# q1 Y/ e4 T. l4 u: q! D' Jinto its component function, such as intelligence, firepower, or mobility. Each relevant function is then further analyzed and broken down into smaller functional components until a level of molecularity suitable for solution of the * `4 ]( h! U. n: s7 iproblem is attained. Functional 8 U/ |' D }! a$ k( v0 x1 \9 xBaseline (1) Established after the system requirements analysis/design activity has 6 W- V3 F9 m7 [ s G4 Ccompleted the definition of the system functions and associated data, 7 g4 v4 {' E3 i6 G3 a" v* Hinterface characteristics, functional characteristics for key configuration , c1 ^& x9 c& h2 i& }items, and tests required to demonstrate achievement of each specified characteristic. This Government normally controls the baseline. ( P/ a* m+ S0 e1 i- ?* b(2) In configuration management, the initial approved technical . w: ?2 u5 g) x7 ydocumentation for a configuration item. 8 E/ w0 u: j+ z5 a) a8 q% @(3) Documentation describing a system’s functional characteristics and the verification required to demonstrate the achievement of requirements. 9 h% L6 f- E" G. ?) q) |Functional Configuration ; u7 h- B" T0 P3 N* ~Audit (FCA) The formal examination of functional characteristics test data for configuration item, prior to acceptance, to verify that the item has achieved the performance specified in its functional or allocated configuration identification. 1 L% L& H2 z7 Q. @2 vFunctional 3 p: H9 Z4 B# K7 Q1 V: B. iEconomic X% G9 o! u; C9 F# v$ q# ^0 V- a9 gAnalysis (FEA) A structured proposal that serves as the principal part of a decision package for enterprise leadership. It includes an analysis of functional process needs or $ M: m7 w+ j6 pproblems; proposed solutions, assumptions, and constraints; alternatives; lifecycle costs; benefits and/or cost analysis; and investment risk analysis. It is consistent with, and amplifies, existing DoD economic analysis policy in DoD Instruction 7041.3. Functional Kill The destruction of a target by disabling vital components in a way not immediately detectable, but which nevertheless prevents the target from functioning properly. An example is the destruction of electronics in a guidance , t' a6 T$ F: y- P/ zsystem by a neutral particle beam. Also referred to as “soft kill.” Functional + H% i! D! ? a: vSupport Systematized methodologies and procedures, or a common set of standards, * k. E; r3 B0 Mapplied to materiel acquisition programs. 3 u, R4 ?' P: o$ h. I& Y2 mFunctional 9 h, b: e2 v7 o. ?Technology Validation (FTV) % ~/ M' H9 Q* a6 a: }Program with the intent of proving or disproving a technology is useful for a given application. MDA GLOSSARY, VER. 4.0 F 115 Functional Testing The portion of testing in which the advertised features of a system are tested for $ `# l2 @1 h9 s. c: kcorrect operation. $ S6 \5 `, G( ]4 E0 M# ~0 RFunding Profile Program funding, usually displayed in columnar spreadsheet format by years, starting with previous year through current year and out-years. 3 A& c4 J' u8 L8 i0 t* F' zFuture Years Defense Program 3 k& X1 J3 {' |0 t! W1 K3 n1 l: G1 c(FYDP) The official DoD document that summarizes forces and resources associated with % r `; j2 u, g/ u5 b' L' \% Jprograms approved by the Secretary of Defense. Its three parts are the 1 z4 H2 G* N. `organizations affected, appropriations accounts and the 11 major force programs (strategic forces, airlift, R&D, etc.). Under the biennial PPBS cycle, the FYDP is : J: p1 C V9 `updated in even years in April (POM); October (budget); and then in January (President’s budget) of odd years. The primary data element in the FYDP is the 3 g0 y! W; {2 z! @8 m6 i! J& }Program Element (P.E.). Formerly known as the Five Years Defense Program. FWCA Fixed Wing Combat Aircraft. 9 }7 \$ m& x( d: _; T9 B& y. xFwd Forward. FXBR Forward-based X-Band Radar. FY Fiscal Year. % S, ]- L4 {0 g7 NFYDP Future Years Defense Program. - \3 o, R3 _/ Q+ W$ `MDA GLOSSARY, VER. 4.0 G 0 E( |- k& x- y# K* F) n116 3 E) U; T3 g( w. SG Giga (one thousand million). 9 P8 [5 b6 ~ p; sg Gram. * M" h& k/ d' b( g2 S0 ]G&A General and Administrative costs. * w! q) b4 I4 D4 m6 n# VG&C Guidance and Control. G&O Goals and Objectives. G/A Ground-to-Air G/G Ground-to-Ground. GaAs Gallium Arsenide. Galosh The Soviet Anti-Ballistic Missile system built to defend Moscow from missile ; @2 R& X( K0 G0 Aattack. 1 D5 q0 }6 d4 i* F; T0 ?, J5 I/ JGamma-Ray Electromagnetic radiation resulting from nuclear transitions. Although incorrect, ! z# g5 h; j% K2 h; v" Hhigh-energy radiation, particularly “bremsstrahlung,” is sometimes referred to as gamma radiation. 6 C7 S3 g7 E. Q( NGamma-Ray Laser A laser which generates a beam of gamma rays; also called a “graser.” A % {+ k0 ^- Y5 Wgamma-ray laser, if developed, would be a type of x-ray laser; although it would employ nuclear reactions, it need not (but might) employ nuclear fission or fusion reactions or explosions. , T/ \8 M0 o/ I# }" t! WGAMS GPS (Global Positioning System)-Aided Munitions. 7 `' z; q9 v/ V `9 H, U8 A, BGaNMPA Gallium Nitride Microwave Power Amplifiers. (A demonstration program to develop GaN based transistors and integrated circuits for power amplifiers in systems ' z5 w, a$ B r4 b8 f: ^9 Rsuch as Ground Based Radar. Goal is to reduce total weight and size by a factor of 10). 4 l4 ~# r% e) y1 H WGAO General Accounting Office. GARDIAN General Area Defense Integrated Anti-missile Laser System. ; @4 L' A, O/ e) [/ }0 u; OGAT Government Acceptance Testing. GAT CALL Guidance, Apportionment, and Targeting Call (JFACC term). ! |% A+ u& x' h$ _GATE Graphic Analysis Tool Environment. Gateway An element that contained a node on the SDS backbone network as well as on some other network(s) and would have performed protocol and format conversions necessary to accept messages from one network and retransmit , _# G1 K/ C" J, i$ \ \9 Fthem on the other. 6 u$ j' {' h4 X2 X0 aGATS GPS (Global Positioning System)-Aided Targeting System. 4 H" t4 g5 R# n0 n* f3 B0 VGB (1) Ground-Based. (2) Gigabyte. ! {% @6 D$ k4 J3 v: M7 i) w* AGBD Global Burst Detector. GBDL Ground-Based Data Link. " J; _8 E, ^- jMDA GLOSSARY, VER. 4.0 G 117 6 { u: z- A4 yGBEV Ground Based Experimental Version. 4 ?( H" D* ~1 z$ i- ? LGBFEL Ground-Based Free Electron Laser. * k1 j% I) V: u0 B) ]9 ZGBHE Ground-Based Hypervelocity Gun Experiment. GBHRG Ground-Based Hypervelocity Rail Gun. ! z/ v: ?; f+ w+ T( M2 z9 G8 ^GBI OBSOLETE. See Ground-Based Interceptor. GBI-P Ground-Based Interceptor – Prototype. GBI-X Ground-Based Interceptor Experiment. 8 J, |) i: s& K: L+ oGBKV Ground-Based Kinetic Kill Vehicle. & p4 h- z9 X' PGBL Ground-Based Laser. GBLD Ground-Based Launcher Demonstration. GBLRS Ground-Based Laser Repeater Station. GBM Global Battle Managers. GBMD Global Ballistic Missile Defense. GBMI Ground-Based Midcourse Interceptor. 0 A3 ~ e: M5 {+ N* vGBOS Ground-Based Optical System. GBPST Ground-Based Passive Signal Tracking. 4 @; K$ o' y( w, aGBR See Ground-Based Radar. GBR-M Ground-Based Radar-Midcourse. GBR-O Ground-Based Radar-Objective. GBR-P Ground-Based Radar-Prototype. GBRT Ground-Based Radar Terminal. 2 C, L, K( {2 VGBR-X The experimental version of the GBR. - I4 B2 D4 [1 {, b' ZGBRF Ground-Based Radio Frequency.

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GBRI Ground-Based Rocket Interceptor. GBRT Ground-Based Radar Terminal. % q1 S* i' [: ^4 ~3 _GBS Ground-Based Sensor. GCA (1) Guidance, Control, and Avionics. (2) Guidance, Control, and Airframe. / _3 n5 d6 i1 C# n2 W H3 Q1 T" tGCC Ground Component Commander (JFACC term). . l! ^; U" `, v+ WGCCS Global Command and Control System. 0 [$ Z1 z3 \, v- n" cMDA GLOSSARY, VER. 4.0 G ; U, n9 ^! j( @( q7 p7 {: Q118 GCI Ground Control Intercept. 1 h' C5 Y/ j6 s# O4 E# C! M' g6 mGCN Ground Communications Network. 8 f+ ]" d9 W0 f* c- w; WGCS Ground Control Station. GD General Dynamics. ' k9 f( G6 Q$ y& t/ \" W- W" YGDL Gas Dynamic Laser. % j9 e$ M. u/ I+ hGEDI Ground-Based Electromagnetically-Launched Defensive Impactors. , O( G3 n* ]" o9 O% U HGEM Guidance Enhancement Missile (PATRIOT). General Manager Program Management Directive (GPMD) % R$ n# K! g0 W. V [OBSOLETE. The primary document used by the GM to direct the Service BMD PEO on the specific actions necessary to fulfill BMD program requirements. General Specifications A general specification covers requirements common to two or more types, # B; p6 i$ w7 M( d cclasses, grades, or styles of products, services or materials; this avoids the repetition of common requirements in detail specifications. It also permits . W+ p1 O/ T# Q @% ~0 G) N! Nchanges to common requirements to be readily affected. General specifications may also be used to cover common requirements for weapons systems and subsystems. 1 }9 j! Y: G7 V3 EGeneric Rest of 7 ]2 K7 b/ f; o6 n4 c f2 dWorld Target (GROW) Strategic target being developed for GMD program. . F. V' Z, ]; V$ x( tGEO Geo-synchronous Earth Orbit. GEODSS Ground-based Electro-Optical Deep Space Surveillance System. $ ^4 Y* K* \2 e& }& {Geo-stationary Orbit (GSO) & N/ w, @7 g3 q% G2 P$ jAn orbit 35,784 km above the equator. A satellite placed in such an orbit revolves around the earth once per day, maintaining the same position relative to the surface of the earth. It appears to be stationary, and is useful as a ( R* i+ n: v$ Hcommunications relay or as a surveillance post. $ E$ v8 d- }; p# o6 P dGEP OBSOLETE. Ground Entry Point. IFICS. 0 }1 X. G( f, \' x6 h# \: MGES Ground Engineering System. $ Y8 L$ x& Z8 Y4 r" mGFE Government Furnished Equipment. See Government Furnished Property. GFI Government Furnished Information. 8 B( ~$ V! ~/ K/ z7 v0 b2 ^* KGFM Government Furnished Material. / b( y5 _ t2 x9 `9 x7 I0 xGFM/P Government Furnished Material and Property. See Government Furnished , g. T7 Q% n8 C$ NProperty. ! ?9 O8 i6 a7 j2 Q# {' w+ JGFP Government Furnished Property. GFS Government Furnished Software. See Government Furnished Property. # @4 T- u+ p" N* ]. JMDA GLOSSARY, VER. 4.0 G 119 Ghosting This condition occurs when two or more targets reside close to the same plane + P" w+ E, ~+ Y2 H$ _also containing two sensors viewing the targets so they are within experimental determination of having the same hinge angle F. Thus, ghosting depends on LOS error and positions. : c9 G; B: |. D; n% ]9 rGHz Giga Hertz (1 x 10(9) Hz). GIDEP Government/Industry Data Exchange Program. GIF Generic Interface. 8 Q5 H- k9 U7 Z$ d- qGII Global Information Infrastructure. GIP Ground Impact Point. GIS Geographic Information System. 1 F; J, e `2 C4 e) ~GITIS Government Integrated Technical Information System. GLCM Ground-Launched Cruise Missile. + d& i2 t& I4 z, @8 {! UGLP Ground Launched Probe. See Brilliant Eyes Probe. 5 L6 h& n4 T1 y" G6 F" X) EGlobal Environment 0 y" q( e. X4 D& w: R1 QThe ISTC Global Environment is responsible for the creation, propagation, and maintenance of test scenario common knowledge, how subsets of this - {3 v* p8 H' [6 A1 C, yinformation will be determined, and how common knowledge will be disseminated to the various element representations (nodes). The Global Environment performs functions which are common to the scenario such as timing, health, status, state vectors of objects, and effects models. 5 o- k9 ?8 N8 g3 x: }- aGlobal 8 D" V' y( x3 f$ y2 I2 zPositioning , M) U% w1 r$ \+ Z+ G! x( `System (GPS) The NAVSTAR Global Positioning System is a space-based radio navigation . a( d* s a+ `# S; v+ xnetwork providing precise positioning and navigation needs of all the military 4 I6 {6 m' e! A- r6 vservices. In the fully operational configuration, there will be 18 satellites in six ) O% { \ q3 {. lorbital planes with an orbit period of 12 hours at 10,900 nautical miles altitude. Each satellite transmits three L-band, pseudo-random noise-coded signals, one ' S& m( g: W9 ~8 _9 ?. b$ [& Z- dS-band, and one ultra high frequency for spacecraft-to-spacecraft data relay. Global Protection Against Limited Strikes (GPALS) , I1 o( m1 g" C* P% F9 K3 W& ]OBSOLETE. GPALS was an architecture denoting an anti-missile system designed to provide protection against limited ballistic missile strikes, be they deliberate, accidental or unauthorized—whatever their source. GPALS was composed of three interrelated segments: (1) theater ballistic missile defenses, and associated space-based sensors, to protect U.S. forces deployed abroad, and our friends and allies; (2) ground-based defenses, with space sensors, to protect the entire United States against long-range ballistic missiles; and (3) ; A- V7 `; j0 h$ [6 d9 x% Einterceptors based in space – Brilliant Pebbles – capable of providing continuous, global coverage by intercepting enemy ballistic missiles with ranges ( G5 m( Y4 P4 f8 P" o8 v1 fgreater than several hundred miles. Global Protection Against Limited Strikes (GPALS) , P! N5 G1 S, t* d/ qProgram 4 C* J* T, ?8 U9 F: H* v0 XOBSOLETE. The GPALS Program consisted of six Major Defense Acquisition Programs: GPALS System/BMC 3 , National Missile Defense (NMD), Global Missile 0 ~4 f6 X8 i! M0 DDefense (GMD), Upper Tier Theater Missile Defense (UTTMD), Corps SAM, and PATRIOT. Army PEO GPALS was re-designated PEO Missile Defenses in 1992. , M6 l5 O; b% S) F1 }GLOBIXS Global Information Exchange System. GLONASS Global Navigational Satellite System. MDA GLOSSARY, VER. 4.0 G 120 GLOW Gross Lift-Off Weight. * }: H8 {' b3 Q; KGLP Ground Launched Probe. See Brilliant Eyes Probe. GLS Ground-Launched Sensor. GM (1) Guided missile. (2) General Manager. + A% x' H# {: H* T7 B9 V2 e- gGMACC Ground Mobile Alternate Command Center. * q7 X3 m- L% B q$ q) ZGMAOC Ground Mobile Alternate Operations Center. 8 K F# A, I/ @0 [( jGMCC Ground Mobile Command Center. GMCP Ground Mobile Command Post. 9 g+ Z9 C2 L2 n& aGMD (1) Ground-based Midcourse Defense (formally National Missile Defense) (2) Global Missile Defense (OBSOLETE). * u$ p9 J5 U& dGMT Greenwich Mean Time. GMTT&C Ground Mobile Tracking, Telemetry, and Control. GN&C Guidance, Navigation, and Control. GNC&P Guidance, Navigation, Control and Propulsion. 6 G5 m' g! J2 u4 Y1 I; X! rGND Ground. GOCO Government Owned, Contractor Operated. GOES Geo-stationary Operational Environmental Satellite. ; K1 F5 C7 C1 V' mGOI Government of Israel. GOJ Government of Japan.

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GOSG General Officer Steering Group. GOSIP Government Open Systems Interconnect Profile (CALS term). GOSP Government Open System Protocol (CALS term). GOTS Government Off-the-Shelf. ) k L! T) W4 l0 c e f6 gGov’t Government. Government 5 D; B! F2 T9 iFurnished Property ( B6 k% z6 d9 QProperty in the possession of, or directly acquired by, the Government and subsequently made available to the contractor. (See FAR 45.101.) 6 U: I1 R: p4 v F! |Government 0 P4 {" L S* C9 `! x& X9 \Verification Management Plan (GVMP) A management document that provides the overall framework for BMDS verification. It includes processes for implementation, organizational relationships, and stakeholder responsibilities. It covers the full scope of BMDS - B# i1 V9 Z1 x4 S3 c( u0 J7 Xverification and identifies how all BMDS verification activities will come together to confirm BMDS capability. 2 j9 B5 l8 R) W1 E+ S2 _MDA GLOSSARY, VER. 4.0 G 121 q. |/ Z" u% }0 q# uGP Group. GPALS Global Protection Against Limited Strikes. GPC Global Protection Center. % h4 b+ P3 {1 n# S8 @GPMD General Manager Program Management Directive. GPO Government Printing Office (US). 0 @4 j6 K! f. b4 hGPP General Purpose Processor. GPS (1) Global Positioning System. (2), Global Protection System. GPSIU GPS Interface Unit. ( T7 \" @! p# G; C; y8 uGPU Guidance Processor Unit (US Army term). 1 c8 a" ^7 j& h' |! u/ Z MGraceful % S1 o$ }* `' h+ I% I' T" L% G, u5 ODegradation # q! c, }2 y; F3 `8 z8 |A condition in which a system continues to operate, providing service in a degraded mode rather than failing completely or catastrophically. ! n- A; ]) c9 C: X/ J. r0 gGRASER Gamma-Ray Amplification by Stimulated Emission of Radiation. (See Gamma- Ray Laser.) GRC General Research Corporation. ( |. G% ~# A- Q. w: g! vGreen Code Interface Software. - ]! ]0 j" v/ q6 V! m: |7 y lGround-Based Defense The ground-based sensor and weapon systems of BMD. Ground-Based # A- n1 n* E8 B7 _! c6 qInterceptor (GBI) 4 h# u8 H( P0 i$ u5 c7 ?A kinetic energy exoatmospheric interceptor with long flyout range to provide, where possible, a multiple engagement capability for defense of the U.S. with a , t5 D0 ~/ G: h% k( @: M4 i+ Srelatively small number of missile launch locations. It is designed to engage e3 s _' _0 J* {post-boost vehicles and/or RVs in the midcourse phase of flight. ! v# W5 w) p6 e% b(USSPACECOM) (Successor to Exoatmospheric Reentry Vehicle Interceptor Subsystem (ERIS).) See EKV. Ground-Based Interceptor ; t2 y9 y. b. v# N) ^Experiment (GBI-X) Designed to infuse advanced technology and promote competitive environment 1 J1 D, m* o' v; `# [% I+ Ffor GBI. Ground-Based Radar (GBR) / K# F% R# ~- s; h" l8 {A task-able, modular, multi-function, phased-array radar that provides * G6 Z9 t7 E8 [" q3 ]2 T, r/ Esurveillance, tracking and engagement planning data in post-boost, midcourse, and terminal flight phases within its capabilities. It also provides target 9 D s9 ]0 [, ^8 idiscrimination, in-flight target updates (IFTUs), and target object maps (TOMs) to interceptor vehicles. See THAAD. (USSPACECOM) Ground-Based Radar Terminal (GBRT) The sensor for the NMD system. An X-band, ground-based, phased array radar v s. s8 m9 ?; E9 W% e; Pcapable of detecting, tracking, and providing discrimination information to a " E0 y0 V) B% H) k$ Uground-based interceptor. 3 @, T) Z* d; e% fGround-based Surveillance and 1 e( X& |& J* s/ C6 I" q! }7 X' fTracking System $ _- m8 K+ D6 x(GSTS) A fast-response rocket-launched sensor, which can support the SDS midcourse sensor suite by employing multiple Long Wavelength Infrared (LWIR) wavebands ( a" F: D+ Z, K/ L4 ^7 X- [and a visible waveband sensor to provide tracking and discrimination of potentially lethal targets. ' q1 i) N( [# a# v# m! pMDA GLOSSARY, VER. 4.0 G 122 F0 d+ B8 [" x& y2 d, Y: z' q5 d) K! L3 ?Ground Entry Point (GEP) - R, s4 c( F8 U% vOBSOLETE. GEPs provide the communications interfaces between the SDS space orbital/sub-orbital elements and the C2 E. See IFICS. Ground Mobile Regional Operations ! C) P" b2 M5 Q) sCenter (GMROC) Transportable ground segment of the Regional Operations Center. Ground Zero The point on the surface of the earth at, or vertically below or above, the center of a planned or actual nuclear detonation. # i" D: [1 O( {5 ]- z; KGS Garrison Support (US Army term). GSA General Services Administration (US). 9 [2 ^' p2 `! m" v% h2 q# F% C$ vGSDC Ground Station Demonstration Lab. 0 s7 f4 v0 I2 g* aGSE (1) Ground Support Equipment. (2) Government Support Equipment. 0 w( y# Q# Z( L$ O2 {* Q+ B/ KGSFC Goddard Space Flight Center, Greenbelt, MD. GSII Government Services Information Infrastructure. GSM Ground Station Module. : k9 `, n5 n4 j* I% ? EGSO Geo-stationary Orbit. $ Q3 _8 ?# b1 }; U# YGSR Ground Station Radar. : |. c0 r' Z9 m$ T; BGSTS OBSOLETE. A fast-response, rocket-launched, Long Wavelength Infrared 9 Q9 _. g' v& e* D" W/ Y$ p9 l(LWIR) and visible waveband sensor, which would have enhanced the 1 Q; p' P; n4 X7 tinformation available from the SDS’ midcourse sensor suite by providing tracking 8 m: E8 u& [3 w' r) Nand discrimination data on potentially lethal targets. : D! f& h. ?0 P7 M% O* SGSTS (F) GSTS Farm. GTA Ground Test Accelerator. + u7 B0 q4 N1 K3 WGTACS Ground Theater Air Control System. 1 c1 r8 d$ N+ p! N7 p2 t! c. k5 @ BGTE GTE Corporation. ! L. X# Q6 C1 `8 V2 zGTF Guided Test Flights. / n1 y- V8 q0 {: IGTM Global Track Manager. GTN General Technical Note. GTR Gulf Test Range, Eglin AFB, FL. $ \8 ^4 a" u& P5 I6 sGTSF Guidance Test and Simulation Facility (PATRIOT), Huntsville, AL. & \( Q3 b& \9 ?8 g6 hGTV Guided Test Vehicle. GUI Graphic User Interface. 2 k4 | C u: R JMDA GLOSSARY, VER. 4.0 G 123 1 m N( s+ a: t* b5 jGuidance (1) Direction, altitude control, and navigation (where appropriate) of sensors : C$ W/ X, Y" f F& s+ wor interceptor vehicles. (2) The entire process by which target intelligence information received by a 9 u2 T5 E$ r& k" ~4 ~! kguided missile is used to effect proper flight control to cause timely direction changes for effective target interception. 7 e9 L. i" t2 F. C# ZGuidance Enhanced @. A! L- ~, H! zMissile (GEM) A companion program to PATRIOT PAC-2, which includes enhancements to the radar to increase intercept range and performance. Guidance System (Missile) / b( ?2 h7 B* ]8 N9 SA system, which evaluates flight information, correlates it with target data, - {" t4 _# x' b1 P6 bdetermines the desired flight path of the missile, and communicates the necessary commands to the missile flight control system. 4 s% E5 H+ Q4 Q7 iGuided Missile An unmanned vehicle moving above the surface of the earth, whose trajectory or ! S `* x* D( d5 Oflight path is capable of being altered by an external or internal mechanism. GVSC Generic VHSIC (Very High Speed Integrated Circuit) Spaceborne Computer. 0 T9 S$ v% P1 J& e* xGWAPS Gulf War Air Power Survey, 1994 [a DoD-sponsored survey]. Gwd Giga watt-days. - V+ a0 V/ M5 F b! hGWEN Ground Wave Emergency Network. GZ Ground Zero. ) z3 u) [0 y1 ^* kMDA GLOSSARY, VER. 4.0 H 2 E* u% u+ o" X124 8 @" }7 o9 [: EH Hour. H&S Health and Status. * d& N8 k/ R9 i% E% V! uH/W Hardware. - ^7 A! N& s- f+ f, m* r2 JHA Higher Authority. + V- E V( W; h. `4 BHABE High Altitude Balloon Experiment. HAC House Appropriations Committee (US). " Y, [5 u6 A ^( S, @HADS High Altitude Defense System. HALE High Altitude Long-Endurance. + w- H0 E# n6 f( X& p% oHALE UAV High Altitude Long Endurance Unmanned Aerial Vehicle. Half-Value , `0 e! b% u0 J3 q, H) _Thickness (HVT) 0 O1 b' v/ j# m J% ~8 o5 r$ HThe thickness of a given material, which will absorb half the gamma radiation ! z, m6 w+ p" \6 C( W. R- cincident upon it. This thickness is inversely proportional to its density and also depends on the energy of the gamma rays. HALO II High Altitude Observatory II HAMS Hardness Assurance, Maintenance and Surveillance. * s/ c, P# C' e. P1 MHandoff This occurs when information on positions, velocities and tracks are given by one Z; W; A V7 T# h$ Xsensor or system to another and the first sensor or system continues to track the objects. 8 x2 [0 u/ j# u/ M6 }2 ^Handover This occurs when information is passed on to another sensor or system in which the first does not continue to track. # X; N( x) h- I* [7 fHAOI High Altitude Optical Imaging.

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HAOIS High Altitude Optical Imaging System. HAP High Altitude Probe. 8 z0 U4 h) @) v$ ?; AHard Kill (HK) Destruction of a target in such a way as to produce unambiguous visible ( \1 t' I7 y9 m1 Bevidence of its neutralization. Hardening Design and manufacturing process and other measures, which may be employed to render military assets less vulnerable. ' {5 v+ X" b; {* e7 F& w( }HARDMAN Hardware/Military Manpower Integration (Navy ILS term). Hardness A property of a target; measured by the power needed per unit area to destroy 5 Y2 ^1 C- n7 Q+ v5 S7 f' Qthe target. A hard target is more difficult to kill than a soft target. Hardware-in-the- 8 J5 @4 N( M. wLoop (HWIL) 2 S2 w6 D* Y$ d/ g" H1 uTests in which BM/C3 computer and communication test systems will be in communication with some of the hardware test facilities developed for other BMD 2 ~" X' S0 m" M1 ?technology programs. Hardware + N% ?$ D1 P4 g+ e: `, aSecurity 5 k+ m3 r7 O W/ C) PComputer equipment features or devices used in an ADP system to preclude unauthorized access to data or system resources. HARM High Speed Anti-Radiation Missile. * P9 k% w2 F/ P5 _( {MDA GLOSSARY, VER. 4.0 H / F9 f5 V2 n7 E( I125 " S H$ @: _0 A1 ^* D9 ?HASC House Armed Services Committee (US). 8 a: q W0 G" v0 _' ~HASP Hardened Ada Signal Processor. HATELM High-speed Anti-TEL Missile. # ^8 v- b! v( F% X: sHATMD High-Altitude Theater Missile Defense. (U.S. Army) HAVE STARE Name assigned a proven sensor capability. - u* n- O* r" y) [) M+ o) YHAWK Homing All-the-Way Killer. HBCU/MI Historically Black Colleges and Universities/Minority Institutions. 6 {6 C& {% e; G4 V" j) u; [, VHBHO Hard-body Hand-over [algorithms]. % q$ U' E0 v6 k2 i4 }) WHCO High Consequence Option (Safety Engineering term). HCT Mercury Cadmium Telluride. HDA Hybrid Detector Assembly. HDBK Handbook. 5 }: v) W# C7 s @, |HDR High Data Rate. + w9 ?* p% y/ k5 A/ UHDX Half Duplex (TelComm/Computer term). ; d! W3 J: b m. ?HE (1) High Explosive. (2) High Energy. Health and Status # p" W+ V* i% g. G. o0 G8 E/ B" z% |(H&S) 2 t: Q- a m0 N: M5 XHealth and Status pertains to a unit’s ability to assess the conditions of its subsystem functions. The term H&S is used for units in remote locations, such as satellites, where ground controls must interface with BITE to determine operational status of the satellite and its equipment. 1 w2 d& i! }' h/ `; EHeavy Replicas (HREPS) R1 U/ A1 G9 y# p& u2 ] jDecoys, which by virtue of shape, size, and mass, closely approximate an RV’s ) R3 @, Q* i$ H, y F7 }signature. HREPS have significant off- load penalty. HEDI OBSOLETE. See High Endoatmospheric Defense Interceptor. HEDR High Endoatmospheric Defense Radar. HEDS High Endoatmospheric Defense System. ; f+ x2 D4 Z! j8 d4 }HEI High Endoatmospheric Interceptor. HEL High Energy Laser. ( {9 H. ]+ J* v, V2 y+ \HELKS High Energy Laser Kill System. 2 X" C3 f* p, \/ |9 nHELLO High Energy Laser Light Opportunity. HELSTF High Energy Laser Systems Test Facility. HELWS High Energy Laser Weapon System. * ~! B! x' l4 g9 T. B+ qHEMP High Altitude Electromagnetic Pulse. MDA GLOSSARY, VER. 4.0 H 1 P2 h5 o, s0 X5 [' O126 HEMTT Heavy Expanded Mobility Tactical Truck (US Army prime mover). Hen House Soviet area defense radar used as a component of the Moscow ABM system 1 X3 {/ J, @$ m- g' }' hthat provides VHF coverage of space to monitor orbiting satellites and early ; ~; Z/ L' N7 J. X9 ]- D' C* _+ [- Qwarning of ICBMs launched from the U.S. 5 j# w6 B! n' u! S; g. Q1 p4 wHEO See High Earth Orbit. # L1 ?& R* H5 n9 c2 VHERA (1) An improved surrogate TBM test target. (2) Two-stage, ground launched solid propellant theater target vehicle. (MDA 0 D& d+ A( b m' v6 H; R7 }. q% n7 m! lLexicon) HERO Hazards of Electromagnetic Radiation to Ordnance (SM-2 Bk IVA). - [' c; U& O; i7 o2 x; ZHESP High Efficiency Solar Panel. HEU Highly Enriched Uranium. HF (1) High Frequency. (2) Hydrogen fluoride. HF/DF (1) High Frequency/Direction Finding. (2) Hydrogen Fluoride/Deuterium Fluoride. (Chemicals used in IR chemical 9 t1 Y( D) I G% ?% `5 P) dlasers). 2 c5 S6 D9 t7 s( a vHFCNR High Frequency Combat Net Radio. , }8 h0 m& x2 t# A4 R3 iHFE Human Factors Engineering. HgCdTe Mercury Cadmium Telluride. HHB Headquarters and Headquarters Battery. # A8 W- F) R4 E2 \* RHIBEX High-Acceleration Boost Experiment. HIBREL High Brightness Relay. HIC Human-in-Control. HICOM High Command (Navy term). HICTB Human-in-Control Test Bed. 5 A p& B% _$ f7 F4 EHIDACZ High Density Aerospace Control Zone. " n2 I4 \# p) A6 ^% d4 IHIDAR High Data Rate. ! w5 o6 \/ H$ q& I0 DHigh Earth Orbit ; I7 N5 U4 z+ r4 n) |(HEO) An orbit about the earth at an altitude greater than 3,000 nautical miles (about + w2 X; Z: O9 A; Y- t C+ {+ V) L5,600 kilometers). High Endoatmosphere That portion of the earth’s atmosphere, generally above 40 km altitude. High , \7 u( o8 R4 V0 T2 g6 w; ~Endoatmospheric 4 i% p% c( v+ [& fDefense 3 Y: | a/ x7 e \Interceptor (HEDI) OBSOLETE. Interceptor concept designed to engage RVs within the (upper or high endo) atmosphere. (Predecessor to Endo-Exoatmospheric Interceptor (E2I).) MDA GLOSSARY, VER. 4.0 H 7 v; U2 t& D" e127 High Density Aerospace . }: P- p5 g; L' Q1 y o! o! E2 hControl Zone ) K! H3 v0 M" u s(HIDACZ) 3 _6 A4 B2 ]5 u/ f: V% uAirspace designated in an airspace control plan or airspace control order, in ) {% h7 H* v7 F+ m2 kwhich there is a concentrated employment of various weapons and users. A HIDACZ has defined dimensions, that usually coincide with geographical . b; l& Q3 S2 t0 d6 @. zfeatures or navigational aides. Access to a HIDACZ is normally controlled by the maneuver commander. The maneuver commander can also direct a more 6 M4 |8 `! [' c0 N( vrestrictive weapons status within the HIDACZ. ( A j7 m6 U3 n" u- f, [Higher Authority * K7 X; j1 `6 DInterface " T P) ~7 }% Z. b; Q+ IPolicy, strategy, doctrine, readiness conditions, and rules of engagement from . ]" a) |( T6 mhigher authorities for use by the defense system in conducting system operations including specific orders specifying actions such as testing, defense 6 V- g# P& F9 B9 B% qenabling, pre-delegation of authority, etc. Also the reporting of situation assessment and system readiness to higher authority. 8 M1 D( q( v) g( k1 EHigh Order Language (HOL) A programming language that requires little knowledge of the computer on which 8 X2 \1 g: a* U0 ga program will run, can be translated into several different machine languages, allows symbolic naming of operations and addresses, provides features designed to facilitate expression of data structures and program logic, and , o/ C, O+ l* x3 b4 o3 X7 w# ~usually results in several machine instructions for each program statement. HIL Human In-the-Loop. HIMAD High to Medium Altitude Air Defense. , N8 i$ [$ U( v( ~HIMEZ High Altitude Missile Engagement Zone. HIP Hot Isostatic Processing. HIRAM High Resolution Infrared Auroral Measurements. HISEM High Speed Environmental Multi-burst Model. # l7 h3 X, |. \/ GHIT (1) Heterojuncture Internal Photomissive. (2) Homing Interceptor Technology. HK Hard Kill. HKV Hit to Kill Vehicle. . n1 b: N3 X5 l6 N" d" MHLD Hardware Description Language. # n0 r$ w- U) ~) r2 _; ^HLLV Heavy Lift Launch Vehicle. HMC&M Hazardous Material Control and Management. HMI Human Machine Interface. HMMWV High Mobility Mutli-purpose Whealed Vehicle (USA term) (pronounced Hum Vee). HMPC Hazardous Maintenance Procedure Code. $ C" J; p" T' `' x% QHMSC Hughes Missile System Corporation. HOB Height of Burst. HOE OBSOLETE. Homing Overlay Experiment. (Predecessor program to & U: \0 D4 l( `" {, oExoatmospheric Reentry Vehicle Interceptor Subsystem (ERIS).) ( u9 o7 B! ^3 A" ^# C l9 l" l3 s ^HOL High Order Language. MDA GLOSSARY, VER. 4.0 H + f: K! b0 s! l9 U# c9 f128 ; Z/ n+ Y/ O5 F! q- R: m' w+ jHoming All-the- Way Killer 3 u0 h! [* {9 I3 q; g8 J9 b(HAWK) }2 l& g3 \) s* e+ A# F. i(1) Upgrades to the HAWK interceptor and radar system to provide the + ^$ Y+ k* }0 O2 ^* j+ [. jMarine Corps with a mobile point theater ballistic missile defense capability. 9 _. x z) U- `' n(2) A mobile air defense artillery, surface-to-air missile system that provides 7 |( W% X& E* pnon-nuclear, low to medium altitude air defense coverage for ground 4 f/ E1 T% [" C; m2 w2 B7 B+ \+ Sforces. Designated as MIM-23. 6 I2 }; S" n( o: {1 \8 v% e$ QHoming Device A device, mounted on a missile, to aid its guidance to a target. The homing * y$ j+ O! b Q6 f) Tdevice uses sensors to detect the position of, or to help predict the future 0 y4 O; S$ g2 F6 }position of a target, and then directs the missile to intercept it. The homing device usually provides frequent target position updates during the flight of the 2 V9 K( f8 F( X6 a: J7 Pmissile. Homing # `1 I6 J- h9 kGuidance A system by which a missile steers itself towards a target by means of a selfcontained mechanism which is activated by some distinguishing characteristics of ' @( v& A% ` H+ v# q, C7 X* Q4 Pthe target, such as an infrared signature. 8 T: Y5 [- i$ q- }' NHOMS Homing Overlay Mission Simulation. 6 U: o2 |8 D; O* SHOST Hardened Optical Sensor Testbed. " i2 M+ E! u, P2 }Host Installation A designated DoD facility that provides non peculiar SDS support of SDS elements. # Y$ A- k" J! z" F. i3 o" @Hostile Environment Those environments that result from a BMD system engagement of an enemy threat or collateral conditions resulting from deliberate hostilities. Hostile environment categories currently applicable to National Missile Defense are 5 E# }% h6 P8 {( V$ q+ ?Nuclear, Battle Debris, and Electronic Warfare. ! Y, G" l- R5 S+ E7 ?Hostile Track The classification assigned to a track that, based upon established criteria, is determined to be an enemy threat. Host Interface The interface between a communications processor and a host computer. ; o2 @0 Y! }0 q* ~9 I. hHost Nation 0 S2 `; L3 X, _8 P4 l$ [* RSupport Civil and/or military assistance rendered by a nation to foreign forces within its * E; t2 \8 a9 C6 {territory during peacetime, crisis or emergencies, or war based on agreements concluded between nations. , E; r& a: A2 w$ T! t/ Php Horsepower. 8 \( j) n" _ BHPA High Power Amplifier. 1 i- f3 q. ^# Q: h+ j9 Z! a; e( |; EHPC High Performance Computing. HPCC High Performance Computing and Communications. HPG Homopolar Generator. HPI High Power Illuminator (Hawk). HPIR High Power Illuminator Radar. HPL High Power Laser. 9 F; d! y2 ?- SHPM High Power Microwave. * K J# n3 [4 L; P* ?7 UHQ Headquarters. MDA GLOSSARY, VER. 4.0 H 6 s9 `, j) o2 O7 w, j129 HQMC Headquarters, Marine Corps. HRDS High Resolution Display System. 6 Y( Z* ]! \5 n4 d2 k7 [HREPS Heavy Replicas. HRR High Range Resolution. . c7 \0 A2 q: `( FHRSA HICTB Requirements, Support and Analysis. % {, x7 d# [. h* t& m/ aHSDB High Speed Data Bus (TelComm/Computer term). ( F5 B8 v$ Q1 f( X; fHSFB High Speed Fleet Broadcast (Navy term). HSI Human Systems Integration. HSV Huntsville, Alabama. HTICIA High Technology Crime Investigation Association. $ j( p* R5 R Y. q1 a5 J2 GHTI Horizontal Technology Initiative. 9 ?4 F5 X, T3 _7 D$ X0 YHTK Hit-to-Kill. * H+ ^" j/ b) s7 eHTMIAC High Temperature Materials Information Analysis Center. HTML Hypertext Markup Language. HTPB Hydroxy-Terminated Poly Butadiene. 7 E) S( {( R3 }1 L1 ^' O; `' h& ]HTS (1) High Temperature Super-conducting. (2) Hawaii Tracking Station. HTSA Host Tenant Support Agreement. . J5 B) s$ ~: yHTSS Hardened- sub-miniature Telemetry and Sensor System. $ _" C. f# [' X1 yHTTP Hypertext Transfer Protocol. * O- r# Q8 }, s0 \0 R0 P3 v5 uHUD Heads Up Display. Human Factors A body of scientific facts about human characteristics. The term covers all biomedical and psychosocial considerations; it includes, but is not limited to, # G1 u- ~/ D: d" x+ |1 ~principles and applications in the areas of human engineering, personnel selection, training, life support, job performance aids, and human performance evaluation. % }! e4 E9 Q7 ^: lHuman Factors 6 ~/ ^: z5 j$ B% aEngineering % X5 q# H5 l* ]6 a8 ]+ z3 l1 qThe design of man-made devices, systems, and environments to enhance their use by people. Also called human engineering, human factors, and ergonomics.