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41#
发表于 2008-12-25 20:05:33 |只看该作者
ELPRS Enhanced Position Location Reporting System.7 J) S" o* U% A6 h5 W$ T ELS Earth Limb Sensor.! h+ [8 ?2 M; x ELSEC Electronics Security.7 U7 u, M: S2 i$ v' O3 D+ u4 j: j ELSI Enhanced Longwave Spectrometer Imager. & n# l4 n8 P9 u& D1 G( [ELV Expendable Launch Vehicle. 2 { ~2 ^" z2 N) x+ i9 iEmanations * \2 {' z& u* j- qSecurity 5 Q+ L) ~) U) A* e! m* I(EMSEC)7 \' a8 X! ^) c5 e5 [% Y/ R The protection that results from all measures designed to deny unauthorized + I8 |- ^: i* [; T* e6 z6 `2 I2 Upersons information of value that might be derived from intercept and analysis of' h3 M7 A C0 F z compromising emanations.7 g" _ m- F" m9 d- m EMC (1) Electromagnetic Compatibility. (2) Early Midcourse.1 Y: J! d! b' h2 @. c EMCON Emission Control% o6 w$ }7 N6 B% U/ b EMD Engineering and Manufacturing Development (previously referred to as FSD).1 A2 l; L7 | E6 O z EMDCT Expanded Memory DCT.# a+ p" j1 o; e" r EME Electromagnetic Environment.% A! X9 |2 N# `, X MDA GLOSSARY, VER. 4.0 E9 i! \! h3 X( X8 f. J 93 " c: Y% `& Q, x7 B; L4 i: g; b+ SEmergency * @! Z: u$ [" _2 b6 m7 }2 ?/ zCapability! a5 u$ u; q' G3 h2 q1 b (replaces4 o$ J: V8 ~$ v% x Contingency 3 ]. `/ C! K1 f3 E. B# T8 QCapability) C1 u# U8 F0 \& }! aBMDS elements or components that are still in development or testing that& k+ q h0 w t( P. | provide limited ballistic missile defense capabilities. MDA, working with the6 @$ ^4 @, c% Z3 y Services, will develop plans, which cover the potential use of prototypes and test) W* Z# \% c$ Q: W/ F2 E9 P/ K: @ assets for contingency deployment should the SECDEF determine that an + B8 {) \5 T n3 p+ w8 p2 memerging BMD threat requires emergency fielding of a BMDS capability.4 O+ {2 |8 V% w: s7 b3 P$ S+ R EMF Electromagnetic Field. 2 j# d6 b" `8 b% NEMG Electromagnetic Gun.% }, b0 m! l, [. O EMI Electromagnetic Interference.# \- }' w1 H9 b( d* w EMIP See Exoatmospheric Midcourse Interceptor Program.; H y- T% n2 o Emission Control5 r' M& s" d( S3 p- f! e1 p (EMCON) 5 H7 ] |6 y4 u3 uThe selective and controlled use of electromagnetic, acoustic, or other emitters + ^. h' X! g2 C7 y- B+ P Fto optimize command and control capabilities while minimizing: a) detection by& s v' P6 x; O J/ j enemy sensors, and b) mutual interference among friendly systems. EMCON 1 m9 b) W6 g' H% U7 n& J6 C' dcan also be involved in military deception plans. Also called EMCON.2 X2 I3 o4 m: W+ t4 k1 Y EML Electromagnetic Launcher. A device used to launch hypervelocity particles. % @/ X9 ^5 t; `' hEMP Electromagnetic Pulse.7 @0 o9 a* l/ s& W) c EMPSKD Employment Scheduling (USN term). 9 Z9 ]: a' ?, S( rEMR Electromagnetic Radiation.2 O+ r8 W8 S' g* ~ EMRLD Excimer Moderate Power Raman-Shifted Laser Device. ) T* P8 N! F- V% @& eEMSEC Emanations Security. # D5 A3 {& @+ B/ V) L: sEMSP Enhanced Modular Signal Processor.4 N/ F% @+ r- _ EMT Engineering Management Team., z3 i0 l2 G* e$ R- ` EMV Electromagnetic Vulnerability.. F$ T7 g& s& M ENA Engineering: Architecture and Analysis.* d+ y, p0 ~ S$ P ENCATT Engineer CATT (US Army term).0 z# f) E4 N, S* ]! | Enclave Isolated resource – an SDS asset that has lost connectivity with other SDS 7 j& a( s! a/ f$ N Z$ vassets with which it normally has connectivity, but is still capable of coordinating; Y8 v) u9 |3 Q- t& ~! S with SDS assets to conduct ballistic missile defense. Various combinations of) q- n: y# q6 x! q# F8 j; {. n# @ connectivity losses are possible; for example, (1) an operations center has lost8 i8 @( l) t+ }: A; \- @/ j connectivity with Higher Authority, yet can still provide sufficient C2 and can still / e9 \& e+ Y4 x# Y! G% X4 Pconnect with sufficient weapons and sensors to conduct an engagement and (2) 3 }$ Z6 l( q2 s$ wan operations center has loss of connectivity with another operations center with) y% ~$ p9 x' V% N' O9 \ which it normally shares data, but can still conduct an engagement.. l! g: M$ `$ {2 P8 E6 A Endgame FOV The field of view of the interceptor’s sensor during its final maneuvers after target3 q6 v4 C, e( {( S: K" d2 W0 X9 V# x acquisition to intercept the target. May be less than the acquisition FOV.3 _# E; C$ H; c$ m# N End Item The final production product when assembled, or completed, and ready for ' z; O% ]2 ~% p9 i u6 oissue/deployment.- d( F* _' C$ \3 b0 T7 T7 G. o2 z- i MDA GLOSSARY, VER. 4.0 E " |3 u! H6 b2 D: G1 w' Y94 . j1 P7 \2 [7 u1 h3 e: \/ ]6 R* n" bEndoatmospheric Within the earth’s atmosphere; generally considered to be altitudes below 100 9 n. n, ]" E8 U5 A( r3 J' n: ikm. An endoatmospheric interceptor reaches its target within the atmosphere. + V1 I! X; {/ Q/ N4 U0 kEndo- . V, D6 X+ K+ a- |- B& Y5 q$ M$ u uExoatmospheric) s6 I7 [6 q1 a6 E) K3 Q5 d Interceptor (E2 I) b: V8 C9 d! V1 }/ PA ground-based interceptor capable of engaging RVs either endoatmospheric or 3 w6 ^0 V8 q+ ~exoatmospheric. (Successor to High Endoatmospheric Defense Interceptor0 Q) Q' K( Q) t" Z9 \ I (HEDI).) 3 o4 T" p2 f5 R9 `- W3 |/ @) ]ENDOSIM Endoatmospheric Simulation. * T7 W5 ^1 ?9 `6 P v/ IEndurance The time an aircraft can continue flying, or a ground vehicle or ship can continue( W& T* H7 p# [. F operating, under specified conditions, e.g. without refueling. e6 Z ]- J# @! UENG Engineering.! h% b5 v1 h% R& _* G+ G5 | ENGAG’T Engagement. * |; M: { p) H6 P8 ?6 XEngage (1) In air defense, a fire control order used to direct or authorize units and/or 3 V" T; @* n# ]weapon systems to fire on a designated target. % g4 O' d2 M$ q7 r9 E1 ^(2) In air intercept, a code meaning, “Attack designated contact.” 1 c( d" y# r6 u7 S- t- c$ eEngagement (1) A period of hostilities beginning when the first ballistic missile target- d6 g( i' ^+ K# n& Q4 q undergoes fire from the first defensive weapon.$ t. r; w N1 h (2) A period beginning whenever any hostile object is identified (designated) + n/ a3 Y! V2 N( Q, N" ^7 o7 y0 has hostile and ending after the last hostile object has been attacked.2 ^+ [% J$ ?- [ (3) In air defense, an attack with guns or air-to-air missiles by an interceptor 3 f9 b( H$ D3 v3 {( s; _# Naircraft, or the launch of an air defense missile by air defense artillery and$ S# ]8 d$ q. O0 O, x/ G the missile’s subsequent travel to intercept.% b" Z9 |+ p% _: ^ Engagement$ N" y8 H3 [4 T5 W- J2 B( A' F Authorization ' |' X" m- t# l# k2 y0 |& }; _The authorization given to USSPACECOM to use weapon and sensor systems3 \4 w8 O7 p3 X; Y8 } ` under previously coordinated and authorized rules, procedures, and conditions.8 Y- D r/ W: T6 Y: E Engagement! a" s$ q6 T+ H9 h! `4 H! v2 [* @) Y Control 3 J9 u, `8 `9 H(1) That set of coordination, assessment, decision, and direction functions ) e+ p4 }$ h8 k4 {: F7 ]$ N5 M* |% Fnormally implemented automatically to execute the selected battle plan,- J$ y, B/ I0 C9 a. i) N military strategy and tactics within partitioned battle spaces (i.e., a& R- o, W. c: E+ { spatial/functional subdivision of battle management). Includes the- l. `( w# [. L. r& V, y; F. C% ? determination of: what specific objects to intercept in order to implement g' h; b# K5 z* r- A8 d. cthe selected military strategy, and which specific interceptors to assign to5 d1 L$ u5 k$ O! z X4 |7 R each attacker to implement the selected tactics within the rules of- `9 k: N$ _, f# P" w engagement.* Y) U- Z! ^! L/ Y C4 ?! F (2) In air defense, that degree of control exercised over the operational/ s. \* T6 J6 Z9 B functions of an air defense unit that are related to detection,- e( t$ K6 F m identification, engagement, and destruction of hostile targets.

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发表于 2008-12-25 20:05:49 |只看该作者
Engagement% L1 Y. J. {" d. g) m3 F* K Planning/ v1 L# W$ t6 o A set of rules and parameters to be used in developing weapon-target1 ?! t& O) s$ k: q2 D+ Y assignments and for sensor resource management. (USSPACECOM) 1 Z2 C; @' x7 R. Y' `Engagement ; w! S! Q V' ^) g: wSurveillance1 w! z4 f7 K" S, @( u6 W% a9 T The surveillance required to support RV negation in the midcourse tier. ( R, y2 |9 E1 L% eEngagement ' c! A5 d% s/ M& i/ K8 {Time5 O1 g( y# J$ k- Z6 d! G! m' h The time that a weapon takes while engaging a given target. This includes not4 ^8 v/ E7 u1 _ only firing at the target but all other necessary weapon functions involved that# ^! `/ n& C; _6 B# U5 C4 l5 ~ are unique to that particular target. + v1 F! b# X, _' {MDA GLOSSARY, VER. 4.0 E+ v3 c8 V* p! V3 u, M 95+ n" g2 a4 a/ ~0 Y) L3 ~( F/ Y9 A Engineering and9 Q% u: K$ w9 w Manufacturing( Z$ K2 p) \8 z3 ]) @, } Development 5 D0 b. h/ k5 z4 `" K6 \" P(EMD) * n# Q! t, i, t* X& WThe third phase in the acquisition process, following Milestone II. The system# ?2 v1 y8 X: W C and its supporting items are fully developed, engineered, designed, fabricated, " }+ v3 U( U* R+ B/ ]) ?tested, and evaluated. The intended output is a pre-production system that: u2 {9 N5 `. _1 q closely approximates the final product; the documentation necessary to enter the % r7 u+ _( Z( E9 c+ Bproduction phase, and the test results demonstrating that the production product f d; Q: E. {9 Hwill meet stated requirements.5 I: Q$ }) W. v) Z5 R Engineering - C. Y8 o- }' f/ S, H9 ~3 SChange Proposal+ F0 W3 ~" R7 M& \" D: C, F, F# j (ECP); S% c# a* q0 p3 K( T. S* K A proposal to the responsible authority recommending that a change to an , ?+ e) X, [# `3 y& I& voriginal item of equipment be considered, and the design or engineering change 6 ^$ ^5 e# H9 ^; o: Tbe incorporated into the article to modify, add to, delete, or supersede original% Q" L# h& ^2 d# T) o) O# [8 o parts.) o$ V+ C8 q4 [- [2 e$ m Engineering% R' j; y) k' R) z; K Development0 u$ U$ C, g1 Q# J+ f6 X. |3 R A funding category including those development programs being engineered for 6 Y6 ]; W6 a: a* K- f7 jservice use but which have not yet been approved for procurement or operation.1 j' K- J) E* y" N5 ^" h" C& i Money under budget activity 6.4. P/ E _' s8 p, T- E0 v Engineering* j3 o! Y" I& l7 }# |, d" F* t" Y3 v Development) j0 T i9 f: G Model# ?: D1 B! T( Z7 L( ?1 ^ Enhanced Target5 ^& G7 Y) x! }9 U/ m. k Delivery System2 }' q# c4 }. W* k$ E) k p# @6 L( P& G (ETDS)3 y2 `+ b7 o1 K An advanced prototype used during the Engineering and Manufacturing O+ e0 B0 Z9 n" h% }1 e, g: ~- o# q Development phase (EMD) to resolve design deficiencies, demonstrate maturing * p& f$ `0 J/ J3 s' @performance, and develop proposed production specifications and drawings.6 n6 E5 u( o4 s/ d, A# g. N: ?, d Target delivery system being developed for future GMD testing that will* b; G9 I5 n @4 E6 E complement existing systems, provide flexible, modular configurations, and will8 O" Y( Z4 o, V, o, q5 C4 z. D be launchable from land, air, or sea modes ' h) L+ |& h3 v* ^ENNK Endoatmospheric Non-Nuclear Kill.3 Q: C5 D0 b9 u i ENSCD Enemy Situation and Correlation Division (JFACC term). / C1 E2 f0 j4 o5 c+ i4 Z. ZEnvironmental' ~2 a" _/ c _/ _; m Assessment (EA)' [1 @0 x$ o) { A concise public document whose primary purpose is to provide sufficient* X+ B- i! J4 i8 Q+ ~5 K analysis of environmental effects of an action to determine whether to prepare: b: @) f8 w3 J% b+ ^8 S an environmental impact statement or a finding of no significant impact.1 P& Q/ e2 z3 X( V Environmental& ?. s, S# L9 R5 ~3 V& K Impact Statement % e' M) J1 K4 r$ E; ?(EIS)0 C2 c. \$ N! v' T6 l) Z A detailed written statement analyzing the environmental effects of a major0 P* B9 w h* z9 o: C5 ] Federal action. - F6 p. c3 n3 T a9 G' ~2 iEnvironmental 5 t: T* a9 z& W2 G$ d USecurity+ Q M) D' S; `. [ A specialized form of physical security that prevents technical penetration, e.g.,- b* f2 \: d; Z8 C z8 |! n; \ penetration by waves of electron beams. " }) R! P# R# GEnvironments The media, conditions, and/or physical objects in which a BMD asset is immersed/ ]( v% F& g1 _; ] or surrounded. For BMD systems and elements, the comprehensive , M5 X. L: x+ @1 Denvironments definition consists of natural, hostile, induced, and storage,2 F4 k8 g( w2 l0 g transportation and handling categories. / x; m/ @5 Z, O; xEO (1) Electro-Optical.9 n* d9 ]" \3 g3 Q2 b& r (2) Engagement Operations.2 L3 x0 {( J- u" y4 y: W4 ^* J (3) End Office.% `+ b/ w/ c6 X$ x. e& A O (4) Eyes Only.+ k% b/ {' v' e EOA Early Operational Assessment.# }! e0 P+ E0 J! i- k, F EOB (1) Enemy Order of Battle.. j6 q* u1 J* ?% y: F (2) Electronic Order of Battle. $ b* o5 n0 e" J$ V" pEOC (1) See Element Operations Center.! E5 M9 B$ O; v& }+ y (2) Emergency Operations Center 6 w Y8 u0 l$ UMDA GLOSSARY, VER. 4.0 E: f, w( B$ V2 m1 r 965 M# e5 [/ i7 { h1 j: f0 N EOCM Electro-Optic Countermeasure. ! O! R% c1 v! Q* t' s- gEOCT Element Operations Center Test Bed. 7 j8 z0 S$ s5 t- wEOD Explosive Ordnance Detail2 w8 B6 D, e8 r7 a' C EO/IR See Electro-Optics Infrared.9 s3 V5 c/ c" t EOM End of Message. 3 G! s$ G, H. m$ r/ S& t! wEOP Executive Office of the President ) G; c, g8 V3 f6 P" C) m$ BEORSAT ELINT Ocean Reconnaissance Satellite (US).( S7 l' v/ d5 w* m' G- D7 S( ^ EOS Earth Orbiting System (NASA term)." Q, Q( s; ?, n9 {$ i0 f EOSH Environmental Operational Safety and Health.$ v, ~4 p8 _4 k% `* e' F EP (1) Engagement Planning. (2) Evaluation Plan2 u' m" d. z7 B& b EP Cycle Engagement Planner Cycle (NMD BMC2 term).9 ^4 R$ `+ h4 H9 K: R$ M EPA Environmental Protection Agency. ; Z6 E0 K& Z! |7 y FEPD Engineering Product and Development 5 m" _* n: b5 Y. S r; @$ _- @; LEphemeris// G; \5 R5 j5 _% W; e5 S0 a Ephemerides$ S1 C* b7 k; q$ M (1) A table showing the positions of an object in space at regular intervals of" s) l* k6 }# e* M+ l5 { time. ! A; ?2 i2 b& K(2) A publication giving the computed places of the celestial bodies for each) s9 J6 ~( c0 ^) _' a$ H day of the year or for other regular intervals.0 Z2 ?7 q9 A( o2 I3 ~3 n+ g EPITS Essential Program Information Technology and Systems.- N. {4 \% S4 v$ R7 p1 F EPL Emitter Parameter Listing (USN term).) V0 M9 t) v8 v4 u- z- J EPLRS Enhanced Position Locator Reporting System. # W2 K" p$ ~ f" OEPO (1) OBSOLETE - ERINT Project Office (US Army term). (2) Element Program9 e" V1 V6 |3 z, } Office." A+ @- T: U) _2 A- s. g EPP Electric Power Plant (PATRIOT). 2 E' \$ D5 H* e8 U$ ZEPROM Electrically Programmable Read-Only Memory.! w0 Z4 L0 F0 j. i! c EQEC EurQuantum Electronics Conference (See CLEO). E, |6 B2 }5 s* L$ ^/ S Equipment ; a( P( [% l! p8 L1 lOperationally 0 ?# R, l, p5 ?" p' f. b# AReady & c0 r& B+ U9 D, @% Z# n" @; hThe status of an item of equipment in the possession of an operating unit that0 D" D8 i/ i) A3 R* f ^& u" B3 h indicates it is capable of fulfilling its intended mission and in a system) q1 t& h3 G$ R# o: L; ?5 b1 A; C configuration that offers a high assurance of an effective, reliable, and safe $ C3 Y \. C" ^ w# Jperformance. 6 o& [; r$ v1 u+ WER (1) Enhanced Radiation (“neutron bomb”). (2) Extended Range.# J' n; w& E' ?0 [% p& E ERA Explosive Reactive Armor & ^' G9 M+ t# X+ ]% W3 ZERADCOM OBSOLETE. Army Electronics Research and Development Command. (Now " D7 I3 t7 n0 ]; ]8 [0 V; JLaboratory Command (LABCOM), Adelphi, MD.) 7 n# }9 n3 c9 d, B3 w% ~7 @MDA GLOSSARY, VER. 4.0 E/ O- \/ U2 b6 n0 K$ V! T 97 9 d- ]; g8 E' B* X `0 UERCS Emergency Rocket Communications System (US). ; f& `5 a% F5 x8 UERD Element Requirements Document. 9 C% h% R' y8 H, @% ~) a( EERG Executive Review Group.# ^3 L8 @8 k+ T2 y" b' v& R: G+ ~ ERINT OBSOLETE. Extended Range Interceptor. Now referred to as PAC-3. $ t3 r( r$ @; V1 AERIS OBSOLETE. Exoatmospheric Reentry Vehicle Interceptor Subsystem. 7 l# K" P& S! L" n. J) ]% M5 |! F(Predecessor to Ground-Based Interceptor (GBI).)7 ]/ U- A H/ u6 H* } ERIS(F) OBSOLETE. ERIS Farm., b+ ]! r, L- Z ERP Emitted Radiative Power. $ t" h1 a! I9 r5 d% P2 B( YERR (1) Element Requirements Review. (2) Engineering Release Record. 6 k/ B; |' z" w& Q7 I! C; Z6 oERS (1) Early Release of Submunitions. (2) Emergency Response System.$ Q8 L' ~' R/ ^9 L' C, u+ s/ B ESA Electronically Scanned Array. $ |4 A8 F. ^1 n4 J& b1 rESAD Electronic Safe and Arm Device. 1 [2 k, L, E( g! ^ESAR Extended Subsequent Application Review.+ A7 K7 l/ b4 d4 @1 C `. j8 h: A ESC Electronic System Center (AFMC), Hanscom AFB, MA. 6 G* ]$ y3 {" B. n: R6 KESCN Existing Systems and Center Notebook.# j( E9 x6 o/ } ESD OBSOLETE. Electronic Systems Division. (Now Electronic Systems Center,2 N) m, g# `4 D3 X# M; @ Hanscom AFB, MA.) / \% z' f; P" d N/ iESH Environmental, Safety and Health+ R' D, Z) @) \( G ESI External Systems Integration.9 L" l- h! `+ V- x. n1 g) b ESI ICD External Systems Integration Interface Control Document.6 ~* b! w/ K% U& u ESM (1) Electronic Warfare Support Measures. (2) Electronic Support Measures.. A" ]$ g$ N: `: L$ [4 K' g8 p: a& L/ { ESMC Eastern Space and Missile Center, Patrick AFB, FL. " L5 e1 N" w, e! r4 w( J; xESNet Energy Sciences Network. / c* |; [5 Q" o8 l$ C+ ]5 VESPRIT European Strategic Program of Research in Information Technology.8 N0 b) Q1 c% U, z) w. r% ~9 g ESQD Explosive Safety Quantity Distance. 0 S7 o5 b/ ]6 G$ }6 N- `ESSM Evolved (Enhanced) Sea Sparrow Missile. : s3 L% E2 L- K' ?& L5 N, [ET&C Extended Tracking and Control. $ i; f3 s; ]$ i" J2 t9 PETA Estimated Time of Arrival. * Q/ L% Q( |% q) D5 tETC (1) Electro-Thermal Chemical. (2) Estimated Time-to-Completion. 9 X. S2 E6 X* GETD (1) Estimated Time of Departure. (2) Electronic Transfer Device./ P6 P8 ]- O9 I6 B MDA GLOSSARY, VER. 4.0 E 8 n- W) `3 }6 U2 y982 y- H+ h& b3 m2 K ETERTS End-to-End Real Time Simulator. 9 [( }0 c- q, L, P; e( I+ ?5 BETESD End-to-End Sensor Demonstration.2 b; [& N& D4 M) D H# W4 r ETI Estimated Time of Intercept. + n- a6 O$ v1 [/ _: tETIC Estimated Time for Completion. 9 j* W% c' D4 @6 U: H7 HETM Engineering Test Model 2 N9 ]4 t( L+ ^ETR (1) Extended Test Range (Pacific Test Bed) (2) See Eastern Test Range. (3)% K9 A+ p8 {* @& Q g- R. D Environmental Test Round. (4) Estimated Time to Repair. ; a0 O# t; M* L: C+ H! S$ lETS (1) Experimental Test System. (2) Experimental Test Site.0 O* P/ |+ L% @6 x EU European Union [formerly European Community (ECI)]3 l/ V) h3 X* d3 j5 h# h9 C) O EUCOM European Command. See USEUCOM.7 p# B0 g* t- o7 j+ l% ~ EURATOM European Atomic Energy Agency. . S7 Z4 P2 ~$ e# U8 I# i3 SEUREKA European Research and Coordinating Agency.$ ~/ K% J" ^% u! ^6 k EUT Early User Test. # y: t9 R/ P2 U- [2 B0 cEV Experimental Version: r: Y J2 I; d/ f L EVA Extravehicular Activity. 0 L0 ~3 S/ F I, k( s; ?5 NEvasive MRV A reentry vehicle, which maneuvers for the purpose of evading defensive 4 a! ?7 X4 R; F# H: v1 `/ Fweapons.% @: V+ z: l1 M Event Based) ?* L/ [8 [& k* {3 r* d7 t Contracting6 _: Q8 O" L: p Support “event driven acquisition strategy” by linking specific contractual events & k& A/ j* U/ t6 Y0 Zto the “exit criteria” for the acquisition phase, or to intermediate development9 m3 u5 d0 Z$ j: Y$ h o: k events established for the acquisition strategy.4 b5 ^5 P/ s/ i- l8 W Event Driven 9 ]. v. @& p6 @$ z0 Z8 QAcquisition 4 q# f1 L8 {( z& O0 W5 VStrategy 5 z, }! |" I! Q0 ~2 UAn acquisition strategy that links program decisions to demonstrated % v- G0 F, e) yaccomplishments in development, testing, and production. ) }9 R2 B+ y6 D8 b% u8 v, xEvent Validation A sensor element internal process that results in a determination by the operator; h9 {- L0 i& H3 ?+ X that the sensor is healthy and the event reported is real.

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发表于 2008-12-25 20:06:02 |只看该作者
Event" g4 I6 ?, Z& H; f+ S7 Y Verification/ k5 Y$ j- V/ b The process by which it is decided, from SDS external data, that the event- K! C) b' C- g/ J Q reported is real.0 r+ l0 ~9 h1 a( R$ d MDA GLOSSARY, VER. 4.0 E% i) F! P& F5 x4 O3 h {! d 99 $ |) \6 \2 {% V9 f( rEvolutionary 8 @9 t+ x0 q+ B4 vAcquisition P, ?2 y* w6 A" y3 F$ K(1) An approach in which a core capability is fielded, and the system design has . f0 X A9 Y {: E' [: K' Ba modular structure and provisions for future upgrades and changes as q, T4 F+ q( p% l3 }/ O requirements are refined. An evolutionary acquisition strategy is well suited to1 X5 T& W2 Z4 H4 V high technology and software intensive programs where requirements beyond a : Q h) o/ p# k. P! \4 N( j, Dcore capability can be generally, but not specifically, be defined. + l* j" |& ^0 H+ c(2) An acquisition strategy that defines, develops, produces or acquires, and1 _* [5 U' O; ?' j, x/ d; G fields an initial hardware or software increment (or block) of operational capability. 9 |$ @* m! P2 L' U/ l9 p8 E+ n# l, bIt is based on technologies demonstrated in relevant environments, time-phased8 U& L: ^1 @3 i& U requirements, and demonstrated manufacturing or software deployment / A' ~6 B Z# Rcapabilities. These capabilities can be provided in a shorter period of time, ; J3 e& n l2 H# cfollowed by subsequent increments of capability over time that accommodate. q* D! u. a9 s4 a. \ improved technology and allowing for full and adaptable systems over time. Each2 U! \ s5 V) c U8 e5 p5 l increment will meet a militarily useful capability specified by the user (i.e., at least ; R2 {( @- F$ e( _* i% Othe thresholds set by the user for that increment); however, the first increment; C R6 J$ n5 m4 T0 T, v may represent only 60% to 80% of the desired final capability. (MDA Lexicon) ' c) U; g: @. s4 i* D% HEvolutionary 6 c- t6 w1 S7 kRequirements 3 d* A/ Q" T% }, B5 uDefinition 2 M0 n# J4 {0 Q# C: s( VMission needs are first expressed in broad operational capability terms, and then- N9 W5 l1 l, Z! y/ L progressively evolved to system specific performance requirements. 2 W+ ?/ {5 k+ Q" k2 [EVPA Experimental Version Performance Assessment. $ H% n2 U6 q9 U2 e1 rEVPA/TEVS Experimental Version Performance Assessment Test Environment System. 4 H& D/ x& y3 k6 ]/ z c' }EVS Enhanced Verdin System.* d5 b, B$ _* }" [) A. | EW (1) Electronic Warfare. (2) Early Warning. 4 e7 ]) N, E" mEW/AA Early Warning and Attack Assessment. 8 |& _/ G- L# r! I0 jEWCC Expanded Weapons Control Computer (PATRIOT). ; d( ]& ~) J& G2 P5 d7 {EWDA Energy and Water Development Appropriations (US).: F+ d# ~3 }0 G5 h EWG Event Working Group./ |9 x3 I' f, {2 c EWN Early Warning Net.: C& w7 n) s& Z! `' f% N# l EWO Electronic Warfare Officer.2 Q& s/ V& m2 _. N5 } EWPE Electronic Warfare Pre-Processing Element. & r6 a$ g p2 u" L* a* vEWR Early Warning Radar. 2 a2 u/ C6 `% [" K) uEWS Early Warning System. 1 `' ?( L6 k8 y2 {1 ~5 m8 \, IEXCEDE Electron Accelerator Experiment." u1 F/ m; k! q Excimer A contraction for “excited dimer”; a type of lasant. A dimer is a molecule 4 b* C: ^' r4 m/ n0 S+ ^, a# Nconsisting of two atoms. Some dimers (e.g., xenon chloride and krypton fluoride) 3 i( n# R& t: V7 ?are molecules, which cannot exist under ordinary conditions of approximate' e9 T9 h3 n4 J0 ^7 G& Y thermal equilibrium but must be created in an “excited” (e.g., energized) condition# K7 k' v7 w+ J( Y: ]+ \, ]. P8 f by special “pumping” processes in a laser." }- G- x& P }5 H5 K. w Excimer Laser ! j$ k/ b& O$ Y. J' o: S(EXL) * O# F2 R: @7 L$ D1 ^4 m) }A laser in which emission is stimulated when a gas is shocked with electrical * T: u1 ? |) o* w s9 ienergy and the excited medium emits light when returning to a ground state. 7 u) ~! t9 n' XMDA GLOSSARY, VER. 4.0 E 7 z/ I7 ~. b& T9 z! e6 k; `+ l100$ u( A, W1 z" m6 N4 I7 G6 A EXCOM Executive Committee.1 y$ Y1 ^: C! _ Executable8 ^ m8 g2 Z4 p& e8 \9 m% } Program 5 D# |% E2 E1 a% @% ]A program is executable if the PM has adequate near-term approved funding.0 B" `/ {( {: K, P" V# d Executing Agent The individual within the executing element assigned responsibility for managing 2 b, d5 r# Z$ r1 W- T/ j* JMDA funded programs.9 T1 u0 n) r) c6 Z: R Executing. e0 k5 |2 @! h ]1 D0 M' I5 p. c( O1 } Elements : F4 q% ?& w% u# _$ N7 Y3 z2 @2 {Agencies or organizations (DoD or non-DoD) that are managing BMD-related 6 K2 R( P$ R3 c0 K- Bprograms. 2 n; b' {8 k+ @; _; ?' `$ TExecuting* I+ ?+ a0 U7 J8 b' f& ` Responsibility . r% P- ~; x0 x, G, b: r! @Program Manager responsibility. 5 l1 A% R7 e3 aExercise A military maneuver or simulated wartime operation involving planning, : @ a( O7 c7 k, [* T \preparation, and execution. It is carried out for the purpose of training and # C, \/ B/ J Z3 j/ J5 u- o7 `evaluation. It may be a combined, joint, or single-Service exercise, depending : v! s& y, t/ }9 @% ^8 C9 ion participating organizations. See also Command Post Exercise. 7 G# {- R# }1 lExit Criteria Program specific accomplishments that must be satisfactorily demonstrated 7 ~( \) ?' j5 w0 U, G; Bbefore an effort or program can progress further in the current acquisition phase: q- ~+ {/ S8 S. @ Q: d6 w or transition to the next acquisition phase. Exit criteria may include such factors ; q4 w6 v. T. M' D; t; cas critical test issues, the attainment of projected growth curves and baseline # m% d3 R0 k. n! v ]! K& ~parameters, and the results of risk reduction efforts deemed critical to the # D4 l) G' h- V/ |decision to proceed further. Exit criteria supplement minimum required9 j* ^8 m0 `) Z% T { accomplishments and are specific to each acquisition phase. , ?: f+ k+ N! j& ]7 L5 }EXL Excimer Laser. ) d# [. i) o8 y# eExoatmospheric Outside the Earth’s atmosphere; generally considered to be altitudes above 100( k/ _! X3 |; l km. 7 z1 x, k* }5 B# @( }& M8 qExoatmospheric : ~; ]+ e1 N g; Z; }& SReentry Vehicle9 B$ { i# b$ v# { Interceptor o- U! Z0 C& a7 I' |& g# k4 iSubsystem, X6 `, M' }; l/ n6 G* k# O (ERIS). v- a6 B* N0 ~5 U! R4 X OBSOLETE. Interceptor designed to provide functional test validation of GBI.+ d# O t3 m+ _4 o( n Exoatmospheric % U* M4 R: r: V1 ^Test Bed (XTB) & A. ?5 W; I$ i0 }5 hFlight qualified and range integrated vehicle to support other programs such as- @# r" M, r# _ GBI-X.% Y: u2 ?- w( _ Exo Decoy A decoy that matches RV signature exoatmospherically. Exo decoys can use $ }, a$ R" X- {* zradar and/or optical means to deceive sensors. * A$ o5 F* Y& h. ^7 @8 s lExpert Systems Software programs, which use artificial intelligence techniques to capture and + L6 e- o% G2 c: x. O1 l1 ]" happly the non-algorithmic knowledge and procedures of human experts.# |) U" @1 u- m5 a# l) U Expired ' [5 l7 p$ a* s% B1 L! t oAppropriation2 h# I5 W, Z! z9 l8 \ An appropriation that is no longer available for new obligation but is still available 5 U. h/ l) |7 F2 t+ z/ K& O* H, N1 o" Y% ?for disbursement to liquidate existing obligations. Under current legislation no) G7 X# V/ ]) ]. J disbursement may be recorded or paid after a five-year expiration period., P# F7 X9 [* H( n' ] Maintains all original accounting identity, e.g. FY, appropriation, PE, etc. * \8 S$ s$ }8 R l. \# Y+ F! Z4 zEXPLAN Exercise Plan. D5 G( g/ \. Q& N! s* ^Explicit , {( e6 w1 N4 J6 i, pCoordination 7 ]( C' G# u/ y' ?9 ]A battle management technique which communicates results, decisions or 4 ]% S, `- w+ n" ~5 t' B" icommand from one battle manager to another, usually from a higher command . t7 p: b9 B* B8 ~- s8 N' g4 wto a lower command. ! \2 ~8 Y7 m! e% vMDA GLOSSARY, VER. 4.0 E 7 ?! e J! L% T4 Q; s9 m101 ) T, Q5 i) g0 G: dExtended . S: F8 g6 m. X/ [# t5 [5 zPlanning Annex ! x2 a: W1 ]4 ^A document providing program guidance for an additional 10 years beyond the , `5 j, F* B5 p+ QPOM.. E2 V' h8 H: A MDA GLOSSARY, VER. 4.0 F : _; ?, t" Q- b9 ^9 S9 m$ H103" a9 O/ V' i, Y$ z3 T4 \ F (1) Fluoride. (2) Fahrenheit.8 B4 @- ?' F o6 b' J# G* g F/O (1) Fiber Optic. (2) Follow-On. " z1 x" C' N& v+ m( @1 AFA (1) Field Artillery. (2) Feasibility Assessment.# y& e! l- ^8 k& d# Y FA/RD Functional Analysis/Requirements Definition. 9 {0 A. u8 j* ~% KFAA Federal Aviation Administration. 7 i2 U) S3 p$ _: e9 wFAAD Forward Area Air Defense (US Army).8 S5 W8 A4 ` b7 _" v FAAD C2I Forward Area Air Defense Command, Control and Intelligence.0 s( y4 N9 r! g0 c0 I, [* V, f FAADS Forward Area Air Defense System (JCS term). # I3 n* }( ]2 D, ~FAAWC Fleet/Force Anti-Air Warfare Commander.9 R# X: o, i4 V6 X8 _' I3 } FAB Fly Along Probe.) N- {" M& g n. s( R0 n& X% v; A0 J Fac Facility (MILCON term).$ P! s2 r+ S3 ]3 c& p2 N FACP Forward Area Control Post (JFACC term).1 D( b5 l! ^, n; o FACSPMF Federal Agency Computer Security Program Manager’s Forum. 5 {: g9 a8 T0 i+ g1 gFAD (1) Force Activity Designator. (2) Feasible Test Date. 5 g! V" b4 {& C9 KFADEC Full-Authority Electronic Controls.- P$ } i& v0 I# T2 K) d% N FAFB Falcon AFB, CO.- t9 L6 y& N/ N6 O+ Q. e1 D. O0 x FAFBR Falcon AFB Regulation: U% a, _1 i9 h* H Fairing Structure to protect the payload during ascent phase. 5 G }; w0 l, |5 VFAIT Fabrication Assembly, Inspection/Integration, and Test. ! X0 R4 W( o3 ?) B* d: a7 m# `FALCON Fission-Activated Light Concept. ( A: c' m) ^7 x8 p: u. H. B0 YFAM Functional Area Management. & h" R ^% D2 E% C N. h [' F' oFAMIS Financial Accounting Management Information System.& X% M$ {- z! H2 u0 _6 f2 v FAMP Facilities Acquisition Management Plan. , V! j3 c5 W8 JFAMSIM Family of Simulations (USA term).: K- U& M# l$ |4 S FAR See Federal Acquisition Regulation.: f% U+ C( w0 \( G; r6 N+ W6 M Far Field The region far from an antenna compared to the dimensions of the antenna and* O3 Y6 O( D, @$ z8 E the wavelength of the radiation.( A4 W8 Q! A, I7 b- S: j; J( M FAS (1) Fly Away Sensor (TCMP). $ w, p ^. @) N. \( @* T1 N(2) Federation of American Scientists. * t5 \7 g" R, O' Z7 PFAST Facility Allocation Study Team. / ?' I0 Y9 d5 C1 e" [MDA GLOSSARY, VER. 4.0 F ) t2 y0 [. W2 k; ]. r! C" n104 * d4 B3 g V; G) q- z$ kFast-Burn , D m% G8 B) z# y& n- z, v MBooster (FBB). A% [7 `5 r% q, M! K A ballistic missile that burns out much more quickly than current versions, ( s' d# x* }& x, l% _2 Vpossibly before exiting the atmosphere entirely. Such rapid burnout complicates : J" t0 V6 V% C# _3 `# o; b; b) y8 Ja boost-phase defense.1 k) D' O6 z$ K3 p FAT (1) First Article Testing. (2) Factory Acceptance Test.4 ?$ M+ Z. T3 L/ a% r Fault Tolerance The ability of a processor to maintain mission effectiveness after some* ]$ a0 T: \/ H G( G subsystems failed.6 ~2 V! B* P2 U5 { Fax Facsimile.& H9 J$ c# {/ \& n3 G4 [& @' V6 L FBB Fast-Burn Booster.. b' L& o# {7 S; M4 } FBIS Foreign Broadcast Information Service (US).8 V0 O) U! t ?7 }' S9 ~% J r FBM Fleet Ballistic Missile. % z+ q$ Q' d% B F- B' J+ ]FBMS Fleet Ballistic Missile System (USN term).. O( V6 h K0 A4 Z" Z/ U FBP Forward Based Probe. 7 D% l4 b( ^& u* p/ a" _FBR Forward-Based Radar (US Army term). ' y" L- w4 C' _/ Q3 y9 ]FBS Forward-Based System. 4 I, I( w4 a. n) l! d& UFBXR Forward-Based X-band Radar. . B6 C0 a- |5 U( g% EFC (1) Fire Control [of weapons].% {- v1 q: e6 E (2) Fund Code.) k. y0 Z& C. u3 c+ K FCA Functional Configuration Audit.3 Z H A4 Y+ n- K7 K FCC Federal Communications Commission. 2 t7 K0 L+ x# a* Y/ c; LFCCM Facilities Capital Cost of Money. ! `9 ~( E$ _6 e) I! S' {1 @5 |* oFCN Fully Connected Network.' N1 k9 t' @; N; O5 ]2 e FCO Field Change Order. ; a6 }* _8 j, K0 R! TFCRC OBSOLETE. Federal Contract Research Center.+ n# R1 o) w0 ]# h' ], M1 ` FCS Fire Control Section.

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FCT Foreign comparative testing.- U3 z O! ?9 W% ]8 O1 z @ FD First Deployment. * n) i% E' |# }2 e- uFDA Food and Drug Administration. & i; }# y- Z! [FDC Fire [of weapons] Direction Center.4 C( v* `8 X, k) l) j; ] FDG Foreign Disclosure Guide. ) r, R/ b7 t3 \4 m+ s% zFDM Function Description Manual.# u3 y+ F1 ^: h8 O1 M( e1 [" G FDO Fee Determining Official. 1 p9 h4 a- R1 n# i: K0 Q6 A/ oMDA GLOSSARY, VER. 4.0 F; j3 W9 k8 x `! h+ ]9 J. u 1057 ^: F. [% M$ V0 R: Q FDP Flight Demonstration Program. - p, R1 ?, Y1 C% d. P8 ]. _5 ?; n- _FDR Final/Formal Design Review.1 a; q: v d% |, B8 e/ T4 u; g FDRU Final Design Review Update (MDA PAC term). . X8 L9 e0 l6 w, O5 X6 S4 B) w5 QFDS (1) Flight Demonstration System. (2) Fault Detection System. ) u% ~- p0 F- F+ q0 @7 G( X) |) sFDSV Flight Demonstration Space Vehicle.- W+ W9 U9 h; U( Q, l+ \$ y/ j FDT&E See Force Development Test and Experimentation (US Army).1 I" G; ]# J, @3 U( r- z FDX Full Duplex (Telecomm/Computer term). # c4 {7 B/ p$ g9 X# k* V. qFEA Functional Economic Analysis./ t: D* P! J* n, u Feasibility Study A study of the applicability or desirability of any management or procedural9 ?5 A/ `, s2 Q system from the standpoint of advantages versus disadvantages in any given 7 |4 [! i w+ S6 Q) ]6 n1 X" _& Z4 acase. " ^: w& T' ~9 a- Z! @8 mFEBA Forward Edge of the Battle Area. : f2 V- y" M# V9 |* rFECA Front-End Cost Analysis5 ]# N7 K! h4 Q2 x FED Federal. ) Y& T+ \/ B. p9 ^% `6 |" C: JFEDAC Federal Computer Acquisition Center. 4 g6 `+ D( w' o9 ~9 \& x( WFederal' c/ w u( Z6 f$ G% l1 } Acquisition) o" r* F5 [3 f) x$ W+ q Regulation5 J% X0 c# ]& C) u; g) c9 p The primary regulation for use by federal executive agencies for acquisition of + G1 b: }4 C0 ?3 [) \9 T; A. Wsupplies and services with appropriated funds. It directs the defense program ; G2 E: a' e% h. T( r9 bmanager in many ways, including contract award procedures, acquisition2 {, y2 U/ k3 s" H, S$ H. {8 ~2 J planning, warranties, and establishing guidelines for competition. The Military$ p0 Y% g+ j( y Departments and DoD issue supplements to the FAR. The DoD supplement is $ L1 q1 a' I4 s2 ncalled DFARS (Defense FAR Supplement). O1 Q) J3 D- m* f3 y1 aFEDSIM Federal System Integration and Management. & i3 b4 C; m8 g) `4 _& eFEL Free Electron Laser. 7 p: C$ _& D+ tFEMA Federal Emergency Management Agency. 6 d! J5 R1 C& n7 o! K: HFenced Funding An identified aggregation of resources reviewed, approved, and managed as a: l$ {- M/ k: c( _; y; s distinct entity. The proposed program must be implemented within specified % G/ k, E3 G/ |- wresources. Examples of fences areas are: Intelligence and Security, Support to6 U& g3 g& s- n9 q Other Nations. e( }7 z& f- n- @! j5 uFER Financial Execution Review. 9 ~; N, u! A" A) V/ D, g0 |FES Facility Engineering Surveillance Plan.# |/ o6 R- O; }6 H% J0 O FET Field Effect Transistor.% ^* S% j+ _1 C3 } G3 Y' G8 d5 @ FEU Flight Evaluation Unit. 9 v$ m6 _$ ^. N; W: _, xFEWS Follow-on Early Warning System. 0 P& m+ ]- o: FFF Fire Finder Radar (US Army.* s0 I$ a- g8 v1 i7 k3 r! o MDA GLOSSARY, VER. 4.0 F : I6 b. ?) U% F* E/ A" p; S106; }' @) B; A) J F, A FFBD Functional Flow Block Diagram.0 @) @8 n' ~9 c0 A2 l: I FFCD Full, Final and Complete Disclosure (Treaty negotiation term).7 b. I- y( h; C, h& H5 _( J! h4 d FFD Fraction Failure Detected.* K4 |% u) z) c. s, F FFH Fast Frequency Hopping.4 Q2 ^$ e/ G+ j& n$ J/ c FFP Firm Fixed Price.: o0 N `* g) I& `/ v FFRDC Federally Funded Research and Development Center. , G+ M6 G: G+ j4 f6 W$ b; v8 NFGC Functional Group Code (Navy ILS term). 8 e* }1 S( \# G+ B3 r; ~FGEP Fixed Ground Entry Point. * a7 c0 T9 m9 {) q, OFH Flight Hours.( J* C/ X, |3 T8 A' Q+ \ FI Fault Isolation.8 @5 q n0 x0 B- f FI&A Fault Isolation and Analysis. ( b( l! g* b) LFIDO Fighter Duty Officer (JFACC term).+ A2 x# F) |$ i# ~$ Z+ m Field of View4 L( h7 C+ U! N% g (FOV)5 o/ G9 B5 w; \% E The angular measure of the volume of space within which the system can/ o0 D `4 i0 @ respond to the presence of a target. ; k# I0 N% o5 ~5 T6 i( sFighting Mirror) y! D6 w! A3 D1 i; y& E/ _ (FMIR)$ _0 {1 Y8 P- o$ v# S5 V; Q0 s Part of the GBL System. The low orbit mirror, which receives laser energy and 9 ?! Y m4 k/ `1 `8 l0 jreflects it to the target.$ k3 v+ d k$ n8 \6 H& Z$ a1 g Figure of Merit " T8 _) b. ?% }! E5 O1 f, @(FOM)* Y9 `7 G9 M5 [0 V The numerical value assigned to a measure of effectiveness, parameters, or) V: \ Y9 ?( p8 K0 V: l8 b7 t other figure, as a result of an analysis, synthesis, or estimating technique. $ o- k$ M$ A4 L+ J9 D P m* P1 iFIP Federal Information Processing. - D, e7 e; k! T0 L1 g$ fFIPS Federal Information Processing Standard.) h# L: x( l, X- o1 |# K# j5 c Fire Control The control of all operations in connection with the application of fire on a target.6 a& g6 ^" i7 u$ k$ c7 U" ^! Z! Q Fire Control ' S9 p9 O* f, t( X" g j) J' zSystem& v& z4 g) n; K: |/ B& g A group of interrelated fire control equipment and/or instruments designed for 8 j$ o5 p7 G& a$ f4 g% n9 yuse with a weapon or group of weapons. , H; ]) _, Y& F) l: d' KFire Support , @" @6 P- j2 I1 gCoordinating1 H9 }3 i0 _9 ]4 k9 g4 E Measure 4 p* |2 ~& w, A) B5 ^; l/ @$ y, }A measure employed by land or amphibious commanders to facilitate the rapid 8 S( a# w8 ~& Sengagement of targets and simultaneously safeguard friendly forces. # z4 o+ T9 p4 d0 v- DFire Support4 M- w3 Z! n: o' F Coordinating Line $ ?, Y7 s/ @" F9 }, }& N(FSCL) 0 ?9 ?: ?$ _* V' g1 HA line established by the appropriate ground commander to ensure the! J! u8 X2 |; F- }" a2 Z% C coordination of fire not under the commander’s control but may affect current- G, @4 ^) S- ]% Z5 D' h" ^( F tactical operations. The fire support coordination line is used to coordinate fires # f& [& T3 F; q- wof air, ground, or sea weapons systems using any type of ammunition against " d' n; G/ H- Zsurface targets. The fire support coordination line should follow well-defined! d9 W7 F, W1 [% { terrain features. The establishment of the FSCL must be coordinated with the 7 |$ h: N7 d, M- b+ {: _appropriate tactical air commander and other supporting elements of the FSCL * X+ S6 x) \0 T3 ]* Hwithout prior coordination with the ground force commander provided the attack " E; |8 e) f! k# E, P) fwill not product adverse effects on or to the rear of the line. Attacks against3 M( t5 q% g3 n ]( P; q9 T surface targets behind this line must be coordinated with the appropriate ground # R+ W% ?0 \& ]- i1 {1 Tforce commander. ! H3 C$ a, r( M. d+ BMDA GLOSSARY, VER. 4.0 F- O4 O" K) ~9 o, {3 K) _ 1077 [' Y3 J" t2 u5 g0 _1 K Firing Doctrine The ratio and manner of assigning numbers of interceptors against given ; b- A" h) \% ^- wattackers. One-on-one, salvo, shoot-look-shoot, shoot-fail-shoot, etc. are / O* {8 ~& s! z7 [9 ^examples of different firing doctrine. The priority of targets being defended and5 p9 \) E+ }' }4 T9 P% |$ K0 G the number of interceptors available relative to the number of attackers drive; D4 r; f3 h; A2 j6 _ }( o doctrine." j" p" W3 c7 z6 a. o Firing Rate The number of missiles fired per site per minute. 8 a1 ?! e+ ^0 d; lFIRMR Federal Information Resources Management Regulation.5 y9 h; T8 i' w, Y6 p FIRST Forum of Incident Response and Security Teams. ! R3 z8 O0 l5 w- O7 K% C9 W2 uFirst Article First article includes pre-production models, initial production samples, test 9 T& x/ T" H! o2 z& ^samples, first lots, pilot models, and pilot lots. Approval involves testing and1 H" t' k( F; T( q. ] evaluating the first article for conformance with specified contract requirements. w1 F8 s$ e; n, J, Y before or in the initial stage of production under a contract. & |: a+ R& f7 I8 v. pFirst Strike The first offensive action of a war (generally associated with nuclear operations). 0 @ I& E' X* c R3 _" q J+ h' ~First Unit# K; I' ]/ G$ m; s$ k7 r$ _ Equipped Date & d! g! v/ K- S$ a2 b* V, n+ i# @The scheduled date an end item and its support elements are issued to the* s( r; Y, w% s# k1 _9 n: {: n initial operational capability unit and training in the new equipment training plan" r) g1 n/ G) s: s has been accomplished.* a1 D, ~3 }5 L+ k FIS Facility Installation Standard. " U' w9 K4 ^: C, i+ o! iFiscal Guidance The annual guidance issued by the SECDEF in the Defense Guidance which# X9 W# \5 m3 m! y provides the fiscal constraints that must be observed by the DoD Components in 6 p8 K( D+ n% y9 w( @the formulation of force structures and the FYDP, and by the OSD in reviewing 1 a: m% R" ~7 Y- }2 mproposed programs. ( t% H1 D: q6 V" }1 H# F8 tFISSP Federal Information System Support Program.) Q' J* R* @- Q+ f$ P: L FIWC Fleet Information Warfare Center (USN term).3 _" u7 r- H$ B& W FIX Site Firing-in-Extension (Target Launch site in White Sands Missile Range Northern 8 b# G( i$ U. S" O) jExtension). 9 j# M. G% l1 d! H( {1 j3 hFixed Costs Costs that do not vary with the volume of business, such as property taxes,* w" `* Z- n* B0 c) e insurance, depreciation, security, and minimum water and utility fees. \' H8 I' x- A* T! H) e; WFixed Ground : Z O9 P# u3 a& w, GEntry Point $ U3 f: H) a* x& Q(FGEP) Y& x3 p- P( A( D2 ?The subset of GEPs, which are not transportable. GEPs provide the 2 Y- D+ I& P" n1 O1 icommunications interfaces between the SDS space orbital/sub-orbital elements 4 G6 L5 |$ f8 Eand the C2E.+ [' C- G& l k3 _2 } Fixed Ground & {& _% Z+ s: O* n" Z9 G: `& IStation ' I& [& A1 X$ i6 B. z7 g5 k7 zAll hardware, software, and facilities located at a fixed ground site necessary to ' {$ s8 o6 n# U# G+ vreceive, process, support, and analyze mission status and data, and disseminate + e; l2 N' T7 H6 v' L& Ooperational messages.& ^; @+ N/ p9 d0 |) i3 t6 o0 b FLAGE OBSOLETE. Flexible Lightweight Agile Guided Experiment. (Predecessor% n f' m O3 ~" T# C( N0 F program to Extended Range Interceptor (ERINT).)7 j0 @: a0 `) y2 L8 L FLC Federal Laboratory Consortium. 5 y! ~: H+ Q1 ^! ]# Y- f* ]/ WMDA GLOSSARY, VER. 4.0 F b7 P& Y" h2 a& _* G$ ~ 108 X9 M' q) Z a, H& \2 R0 E5 W8 tFleet Satellite 9 |: w L& [9 }6 gCommunications . X0 y3 `2 x6 V ?- d7 DSystem) w* @- ?$ C& a6 J+ i6 P2 { (FLTSATCOM)2 X( Z4 [$ l/ } Operating at ultra high frequency (UHF), FLTSATCOM allows relatively low-cost 5 v( ?, k, P4 Q5 l0 Z/ [terminals with simple antennas for use on highly mobile platforms. It has a % L# p* z9 E8 s: v1 D8 mrelatively small capacity because of its much lower operating frequency. It % _! D' U* {, C! |5 }provides a satellite communication system for high-priority communication - j5 D$ s: {+ Lrequirements for the Navy and Air Force that encompasses almost the entire * Q$ y( ]; ]3 B( C, z( Tworld. It supports other DoD needs as well. It consists of satellites in geosynchronous equatorial orbit, each with 23 communication channels in the UHF' d0 C8 {0 c- ~0 L2 }1 p0 w W and SHF bands. The Navy has exclusive use of 10 channels for communication9 h+ N: m3 a. h% ]9 W with its land, sea, and air forces. The Air Force uses 12 others as part of its* s! P8 r% G* [( \- T AFSATCOM system for command and control of nuclear capable forces. The) k- F" E4 Y9 Y/ ?, K system has one 500 KHz channel allotted to the national command authorities. ! G2 \( a# _5 D# X; ^Flexible 7 s& u8 [' ]7 E+ _- WResponse* B" b, b8 s3 M: \ The capability of military forces for effective reaction to any enemy threat or 5 y! j+ _ _0 t& U% v& u& j- oattack with actions appropriate and adaptable to the circumstances existing.- _1 K9 d u4 i* T, I7 z" e; g9 o FLHER Funds and Labor Hours Expenditure Report. G6 i3 [: }# ~+ g6 t Flight ! I; @5 f" v% NDemonstration , j* n# t6 n! VSystem (FDS) 0 |+ e; C# U1 H3 dPart of the SBIRS Low Program Definition and Risk Reduction (PDRR) program% x7 N& i# x7 r+ d, }5 X1 ? phase. The FDS will consist of two satellites and a ground system being built by : c0 `. U+ s0 B6 F& O* @TRW/Hughes. The FDS satellites are to be launched in FY99 for a two-year test* e' o+ q3 q: C# {6 `& W% U program to demonstrate operations and performance of a SBIRS Low concept,; }0 x) T! ^# \$ F. r7 u1 B collect target and phenomenology data to support the objective system design, - \& j" L: H9 f) Land validate cost estimating models. . g0 B& z: y% k! M6 _ s/ LFlight Path The line connecting the successive positions occupied, or to be occupied, by an) B, E4 p* N3 X% b- [: }. L' N aircraft, missile, or space vehicle as it moves through air or space. (It is more 0 i3 Y) S( \$ B, n# i+ lcommonly referred to as trajectory for space vehicles, especially ICBMs.) ' `! t- v/ o9 S3 GFlight Readiness/ C3 W" F! q. S Firing7 p2 s# W$ }& Z6 V1 Q% U, n! i A missile system test of short duration conducted with the propulsion system! s) K' k% w$ t/ l C. | operating while the missile is secured to the launcher. Such a test is performed% X8 b# j9 M3 t# m0 B `4 l to determine the readiness of the missile system and launch facilities prior to' E% C7 ]( H: v; P/ i) } flight test.. h. R- C0 K/ K3 j$ s Flight Test Test of an aircraft, rocket, missile, or other vehicle by actual flight or launching. 9 n O* V0 c$ y3 U& z4 RFlight tests are planned to achieve specific test objectives and gain operational9 y j# H# X. L) v2 m8 g information.3 U; P) M8 O" Y3 [ Flight Test: G5 P* R/ k7 w; v( G9 C Vehicle (FTV)2 j2 l9 B1 o7 [% R8 _ Prototype of airborne or spaceborne hardware used to validate a technology( x s! H2 @( z/ x7 _) Z/ E concept.

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FLIR Forward Looking Infrared Radar.6 ~1 T {+ F4 t! B# g. p! @ FLOT Forward Line of Own Troops. 9 b" }) M* R: W% o6 W- nFLT Flight.$ M9 O9 Y) v% @. I* e FLTSATCOM Fleet Satellite Communications System. r, U5 E8 m$ C6 m' xFluence (or1 }, o* z& z+ J" U* G2 R( d: D Integrated Flux) : f3 N( q, \8 S; h# b# |6 L8 F* AThe product (or integral) of particle (neutron or photon) flux and time, expressed. m/ P8 s5 Z1 l# J$ p6 J in units of particles per square centimeter. The absorbed dose of radiation (in8 a- l. q+ x+ d rads) is related to the fluence. (It should be specified whether this is incident or ( p$ y9 a' l8 i) E2 D6 Q" z$ nabsorbed fluence). % \4 n( b; I2 b& _0 [" y* s/ iMDA GLOSSARY, VER. 4.0 F$ p$ l$ s! G9 g/ U 109 ) Q( Z# l+ w% \0 v# x' r/ ?4 ?Flyaway Cost The total cost related to the production of a usable end item of military hardware.; o4 t) c f$ `# T( p6 A Flyaway cost includes the cost of procuring the basic unit (airframe, hull, chassis, 6 f( _ O* L# l' eetc.), a percentage of basic unit cost for changes allowance, propulsion $ x4 @0 [) Q( l2 ?' y9 x- _$ t1 N4 {equipment, electronics, armament, and other installed government-furnished- S* V/ N9 \$ d0 Q w equipment, and nonrecurring production costs. Flyaway cost equates to$ u% Z+ g& V0 z# \ Rollaway and Sailaway cost. ( l1 B+ o* U! _! ]FM (1) Flare Multiunit. 5 R# [! p$ i3 }(2) Frequency Modulation. " w( H" W! I# x% z; C7 t0 T(3) Functional Manger. : ^" v" y) a4 K6 s(4) Force Module(s). - R# q, m& n% f" @! M: I(5) Field Manual.$ y* T% |/ K4 |, E FMA Foreign Military Acquisition.3 X, s$ v! I) _( P3 p/ J FMB Financial Management Board. 5 a6 C/ w" }& E% G7 ?& E' N* I" `FMC Flexible Manufacturing Cell.+ b, g& f& V( ? FMEA Failure Modes Effects Analysis (ILS term). ! |! e0 T# m$ l) t: A1 i/ t, A6 s, hFMECA Failure Modes Effects and Criticality Analysis (ILS term).# F, T0 A7 g2 q- v" U FMIR Fighting Mirror.& i% H/ M! a ~( E$ X# J FMP Foreign Materiel Program. , b ?( _+ p5 p; J t5 C5 kFMS (1) Flight Mission Simulator (PATRIOT), Huntsville AL. 6 ^" x0 x j) P% k5 g, a; r(2) Foreign Military Sales. 0 a5 y" u' Q( V; u' u9 H3 ~# _, m/ XFMTV Family of Medium Tactical Vehicles (USA term). % u a* Y$ {) ~) b3 J5 JFNC Federal Network Council9 O @6 f5 s, n) W* J8 P FO Force Operations (PATRIOT). C$ m# _9 Q2 c! ^5 B1 h) YFO Link Fiber Optic Link. + W7 f% k$ A- r9 H+ f: G/ vFOA Future Offensive Aircraft (UK RAF term). * d, P9 `# X. V* K! j0 D q N; Z8 uFOB Forward Operations Base.$ V. M& O! j( t: Z3 ^ FOBS Fractional-Orbital Bombardment System.: l1 C3 g3 i8 Y. D! \" X. h* ?* y FOC Full Operational Capability.% C6 V! q. `. l5 V# E m Focal Plane The plane, perpendicular to the optical axis of the lens, in which images of points" N4 V, U1 O( T! T8 K6 } in the object field of the lens are focused.6 J; c* @$ k/ X5 a$ @# X& M Focal Plane $ N9 @/ i3 ^) XArray (FPA)6 I4 G4 [, B* k6 }- _& Q An FPA is a matrix of photon sensitive detectors which, when combined with low ( i4 C y: o1 z2 Onoise preamplifiers, provides image data for the signal frequencies of interest. - W. ?7 E8 A/ C3 }0 G' ?FOFA Follow-On Force Attack. 9 M" h) U* W* F* ?; I- UFOG Fiber-Optic Gyroscope. * Z5 @, P6 T7 X" t: `' dFOIA Freedom of Information Act (US). * A. B* R1 X8 Z! VMDA GLOSSARY, VER. 4.0 F8 i( ?7 A) w. v/ [4 H+ d! ? 110: p+ K( X! { g4 s8 ^% S; q+ e FOL Forward Operating Location. 9 l3 b5 y6 Z U7 U8 D* x4 bFOLAN Fiber Optic Local Area Network.) F) ?$ ^. t e. d Folded Optics Any optical system containing reflecting components for the purpose of reducing: a6 R7 p; a M% r6 o3 X+ q the physical length of the system or for the purpose of changing the path of the1 }4 T1 v+ H) L# G" l2 @ optical axis.$ H% l+ Q- k5 f/ c% K3 q- U: ^ Follow-On ( h( l7 J( L/ D2 V/ W* ` ~, `Operational Test% y6 R& u" u6 O- Z9 s9 S, K9 R6 B and Evaluation/ I6 Q8 J' x S. t. V* @ (FOT&E)3 C7 ~1 ?9 Q) J( {! I That test and evaluation that is necessary during and after the production period 8 `6 ?2 S% T3 ]' h. r0 j/ X3 Rto refine the estimates made during operational test and evaluation, to evaluate f$ j# U( Y7 Y4 J* rchanges, and to reevaluate the system to ensure that it continues to meet 1 Z& M* N7 h8 A. h) w" I* koperational needs and retains its effectiveness in a new environment or against' v: {6 Z7 o! u$ O( c1 } a new threat.6 m9 E% B* d4 F6 z FOM Figure of Merit. & [* l) {( o8 n# w7 m! uFON Fiber Optic Network., _ G9 b* j$ y; J" _1 f Footprint (1) An estimated area of possible reentry or the solid angle of a detector or 9 ~$ {& s4 n9 ^: L7 p* P$ Tlinear area of a detector at a certain location.* v& d! X# z q& M+ ?9 P9 e (2) Geographic area in which a focused satellite downlink can be received.* {7 [9 { G2 J8 } d9 i FOR Field of Regard. $ f! I7 b: l$ J. dForce Closure The point in time when a supported commander determines that sufficient 6 _9 U0 C7 F9 Y# b1 P- Ypersonnel and equipment are in the assigned area of operations to carry out+ ], [: q! R) K! H8 I# z F. E# { assigned tasks. : u6 W& F4 x6 x- u9 l9 l! eForce Development Test and6 e( Q$ ^3 b8 l. e4 X1 r& o/ H Experimentation& w6 g# u: P# t7 }8 {; S! p3 h Tests employing representative users to examine definition of materiel F* p4 K" n% x9 B+ _% Y8 srequirements or support/assess development of doctrine, training, organization, 1 y, w- d& C6 s4 u8 Pand logistics for system acquisition. (U.S. Army). u$ ]6 ]3 ]5 P4 \ l) M2 iForce Direction The operational management of the forces. / a: F: F2 V! h- }Force Integration" n( a: r6 u" H$ G0 W( T. r Staff Officer) Q p3 G0 q0 U) x Army individual assigned to ODCSOPS to serve as HQDA user representative for A, ~ k; b5 c; s0 s9 Z, F a specific system. Provides continuous coordination necessary for integration of ) A4 g$ [. |# f' O1 X- I: t$ ra new system into the Army force structure.4 a/ T7 Q0 z R, J% ~. r5 C& i Force8 ~4 G+ K3 [, b Management) S; K" A' k. Z The assessment of the effectiveness of the defense forces throughout an; X T& `# L* y9 u; C* f* ]& O( Q9 q engagement and adjustment of tactics and the system configuration as( @/ b1 t" _" @ necessary to effectively allocate resources to satisfy mission objectives.; z% d: ~, i3 B/ ] Force Reliability The percentage of the missile force that will successfully detonate within 3.59 K( P9 N) n' T0 ]& C CEPs of the target.% z; ^# l8 u3 W2 L8 F: ?3 k% G; u FORDTIS Foreign Disclosure Technical Information System.4 ^: Q/ a- h) |# S Foreign @* a* d) v/ y n! v E+ K Government$ f6 K Z+ d. ?3 Q5 r) [ Information" T4 O# x, Q. c2 ^" O Information that is (1) provided to the United States by a foreign government or 1 A8 k: }. d4 ]3 S8 u7 Y' d9 {governments, an internal organization of governments, or any element thereof# w& g( ~) x$ |) T7 D with the expectation, expressed or implied, that the information, the source of ! X1 k6 B1 z0 c5 ^& lthe information, or both, are to be held in confidence; (2) produced by the United 5 O% W- Z5 G/ Q7 lStates pursuant to or as a result of a joint arrangement with a foreign5 `4 c) I( C5 D3 j/ H government or governments or international organization of governments 4 o+ L) F+ {3 ~& L' {requiring that the information, the arrangement, or both, are to be held in9 T8 G. O( G" c% L Z" @ confidence. " t$ h; g, P+ n- h: \; GMDA GLOSSARY, VER. 4.0 F1 o0 ?) m- f# X( A) F# [ 111 ! w; X# Q! r1 p# C1 y: DForeign Military : U3 ~! d0 g" t8 i0 R5 q' h/ T7 mSales (FMS)3 ]2 n4 }! e- P7 l# e7 l3 g3 [ That portion of U.S. security assistance authorized by the Foreign Assistance Act" J) U& H$ O I( T4 _! | of 1961, as amended, and the Arms Export Control Act, as amended. The) b/ l9 L8 |2 f {( [ recipient provides reimbursement for defense articles and services transferred / Q1 `" Y4 k4 t% F1 X! J# Lfrom the U.S. Includes case sales from stocks (inventories, services, training) by 2 ?9 e9 x. o* P$ a& L& b6 Gthe DoD defense services. m; d2 i& `" Q# Y( N Foreign Security& s( a9 w; @) m7 S* D2 d( | Policy Model8 a9 j( P' t" d7 w0 [ A mathematically precise statement of a security policy. To be adequately * {2 W, E, x2 T- oprecise, such a model must represent the initial state of a system, the way in$ ?# K0 j' J2 J- k which the system progresses from one state to another, and a definition of a, h6 [# j3 W, j# N: M4 L' F" u) u “secure” state of the system.6 H( a4 [* m* W) ? Form, Fit, and 7 }& B% y2 ]/ r6 N+ OFunction Data0 d- `' b& f( i Technical data pertaining to items, components or processes for the purpose of 4 v# U: y4 `6 e3 ?* F% bidentifying source, size, configuration, mating and attachment characteristics, 1 G8 m2 o9 v& @$ J$ f6 rfunctional characteristics and performance requirements. 4 [( a( a5 d+ S1 BFormal; V w( z; Y; W' B Qualification 1 c; h3 a8 [) L Q+ D7 _Review / v$ B6 f3 q) m; u$ u% F( u9 LA systems level configuration audit conducted after system testing is completed* A( W: Z8 @1 I) U9 O to ensure that performance requirements have been met.& ?' X/ A5 C$ Y- V Formerly * r8 a; G9 R0 QRestricted Data 7 E& I/ O) Z% h' n" N& d( nInformation removed from the RESTRICTED DATA category upon joint6 N1 c& \, A/ |, H3 r1 V# v determination by DoE (or antecedent agencies) and DoD that such information ( ?! U! j8 K5 n/ ^. H t6 nrelates primarily to the military utilization of atomic weapons and that such 1 q) c3 b: i' P3 P8 k8 _information can be adequately safeguarded as classified defense information. ' ?) {6 Y" ` f) U4 U" J+ A |3 \FORSCOM U.S. Army Forces Command, Ft. McPherson, GA. 6 P C* T# x+ vFORTRAN Formula Translation Language.

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Forward Edge of - X* r' u! {& s7 G0 w1 nthe Battle Area 8 w& a$ A) c" `. ^7 @. a% L' y. q(FEBA) 1 a" T [ Z: @1 QThe foremost limits of a series of areas in which ground combat units are 4 E: R4 M" D" v1 H' F) Cdeployed, excluding the areas in which the covering or screening forces are , d6 @6 e. |5 G# Z, I, \5 [operating, designated to coordinate fire support, the positioning of forces, or the4 v1 Y7 W8 [) O* y' `: D maneuver of units.& b; |& }$ T& w+ R% a7 y! Q+ D/ G( L Forward Funding Carry-over of RDT&E funding into second year of appropriations availability. 1 i5 @9 b' s) N2 ?Requires permission from high authority.0 D0 p! s C$ |7 v FOS Family of Systems (TMD). ! o4 w& l* @, I5 NFOSS Fiber-Optic Sensor System. + J6 @1 d4 X6 i0 K0 yFOT Follow-On Technologies. : b* a" o( s7 X7 y4 A* zFOT&E Follow-On Test & Evaluation. 4 E3 F5 M" f8 m# TFOTC Force Over-the-horizon Track Coordinator (USN term). Q! h9 Y/ | Q' x. \( C0 e4 ^, ]FOUO For Official Use Only. " P1 {9 c& F5 U M# s NFourth6 v2 |' L$ E( Q. y. Z Generation 0 d1 b0 \# N. e* RLanguage - s/ w7 x* B& p$ h; wA programming environment that produces both screen and report utilities for / ?! E3 Q" U3 Z' d! nuse by lower-level programming environments." Z' {$ R0 q; V FOV Field of View. % ~8 \% U6 e+ Z, K0 Q% IFOV Radar [Full] Field of View Radar ) k0 L. a9 T [FP Focal Plane. 9 _4 b* O1 L8 Q) z5 r4 f: i1 H$ MMDA GLOSSARY, VER. 4.0 F , \! B9 e7 I2 F& J9 k! h112( T" \! @1 W1 Q FPA Focal Plane Array.' k- J1 I. t' [4 h( F FPC Facilities Protection Committee.- H, G7 r* H+ B6 N. ?( _ FPI Fixed Price Incentive. ( l$ Y( [- [. l1 l) WFPS Fixed Radar. y! P1 [$ H: B& W2 Z( f( BFPTOC Force Projection Tactical Operations Center (USA term).& M+ F" P/ z- b FQR Formal Qualification Review. 5 m7 g, m" [( xFQT Formal Qualification Testing.9 w. }7 K( [* N: k' D- D: [ FR (1) Federal Register. (2) France.1 ~; B2 p2 @/ m. y! m, m FRACAS Forward Reaction Altitude Control System.3 [, ?- j/ G. z$ u3 a: Q FRACS Forward Reaction Altitude Control System., z1 Z2 ]* a' j$ P9 e+ L6 ~" N Fragmentation& A* w& j$ M$ j. R7 b9 a% X Warhead $ _8 h9 s; o- q1 ]6 ZA warhead, which releases small solid objects to damage or destroy its targets. ! n C* T% j" f$ \FRAS Free Rocket Anti-Submarine. % d* Q: D# d/ ^" t0 T3 xFRC Fire Control Radar ' D) K5 T+ I2 e1 Y& D7 kFRD Facilities Requirements Document.! b* s9 ]5 E+ Q D7 W Free Electron : C- x; ]' ^3 k$ Z- L/ S$ pLaser (FEL), C( |! K' l; @% \+ [( t A type of laser, which generates radiation by the interaction of an electron beam ( i- y9 E; {/ h* n& {7 jwith a static magnetic or electric field. Loosely speaking, free-electron laser9 G2 j+ Y7 X7 ]9 i7 I/ s technology resembles and evolved from that used by particle accelerators (“atom& S. z. O$ K/ D smashers”). Lasers, which are not free electron lasers, are bound electron 1 }& r" |8 i6 U- alasers. * C, X I& F& V3 K/ ]) c! R+ AFree Rocket A rocket not subject to guidance or control in flight.# W' d$ `4 ?( C Frequency6 }) L, p$ ]9 I4 { Management$ a1 l+ w+ n: Y0 [3 P$ l The act of allocating frequencies, or bandwidths to a telecommunications9 i2 e, u4 l5 A% Y' J. C8 o system, necessary to minimize the potential interference between2 z5 L: ~# C& B7 T2 s- i" \2 Z transmitting/receiving devices. Governing agencies and international agreement 2 B! p& c n- }2 pcontrols authorized use of a particular frequency, frequencies, or bands.- j' `' t1 U( i7 N) h+ ` FRG Federal Republic of Germany. $ ^9 c3 {: j" Z( GFRN Force Requirement Number.4 q5 U; [# v S' _, e2 d; h FROD Functionally Related Observable Differences., |# T6 y9 K* s Z FROG Free Rocket Over Ground.9 ]- _3 R. p- J6 V FRN Force Requirement Number.. [' v" H- ] H. ]7 |" o2 y+ ] FRP Full-Rate Production.# P( v0 B0 u6 ` @8 z" f8 I FRS Federal Reserve System.1 ^, }$ B8 x, J0 c FS&E Facility Siting and Environment (MILCON term)." T( v0 a/ Y2 C- d, ?( D MDA GLOSSARY, VER. 4.0 F$ ^7 b/ W, j4 W 113 5 f [/ u" H2 _! c9 W3 j# N5 `" NFS3 Future Strategic Strategy Study. / I ~1 F) O% h& A# ]FSAF Future Surface-to-Air [Missile] Family. ( p7 E, q. g! SFSC (1) Fire Solution Computer. (2) Fire Support Coordination." B' X ]# f, G! l$ w+ O FSCATT Fire Support CATT [for Weapons] (US Army term). 3 b# E0 W" u: k" e4 H9 HFSCL Fire Support Coordination Line.$ C1 A: A' o! C. o FSD OBSOLETE. Full Scale Development Phase. See EMD.9 N$ E/ i" h8 z, ~ A FSE Fire Support Element.% F( b, l. `5 z' \ FSM Firmware Support Manual.5 u4 e7 R/ E- Z0 g/ m7 O- b FSP Facility Security Plan.9 E {8 B% \+ X/ j. ]7 Y9 y( C& ~! O# j FSS Fixed Satellite Service.2 _1 z2 [! d3 b7 ` `" [& x" S FSST Forward Space Support in-Theater. 0 C7 E- t8 d: EFST Flight System Testbed. 6 V9 T+ D( x; K5 @/ V0 z3 d. q$ jFSU Former Soviet Union. 7 f x. L- ^. K) G! m2 xFSU Republics Former Soviet Union Republics.) f2 j" x9 _4 j( e FT Flight Test. : n: S6 a$ j7 V; UFt Foot# S D1 O3 C3 R) E FTC Federal Trade Commission. ( a" _1 E7 e5 K1 d6 {FTD OBSOLETE. Foreign Technology Division (USAF), Wright-Patterson AFB, OH.+ |, N! A4 \2 i% @4 o See NAIC.: r; ?: i V$ @2 ? FTI Fixed Target Indicator; j- B: v& v! k$ A! t; f- } FTLS Formal Top-Level Specification.: G9 v) [' i% W FTP File Transfer Protocol (ADP/Internet term).8 y0 z$ u. Q# g: F+ x: b( c FTR Flight Test Round. & ^ A4 n! ]7 ^$ NFTS (1) Flight Test Summary (2) Federal Telephone Service: i$ u5 |# S% W& y FTS 2000 Federal Telecommunications System 2000.- I; {: o. Y6 ~% h8 q/ U( W FTV (1) Functional Technology Validation. (2) Flight Test Vehicle.+ O( r: F j- { ~/ z* q, W FTX Field Training Exercise. 4 x0 M w B1 u+ C+ c# k8 jFU Fire Unit (PATRIOT).6 p( o" F' g5 Z9 Y FUE First Unit Equipped. 8 R: z! t. f$ ]+ jMDA GLOSSARY, VER. 4.0 F2 D8 x5 T' e7 {. ] B- ] 114+ W1 g; r+ f* }/ J Full Mission ! j# k) M c" D" D1 M& WCapable! A% L. d' c' S$ h7 K7 K# U Material condition of an aircraft or training device indicting that it can perform all 9 t4 @ S1 ]) s" s, |/ iof its missions. Also called FMC.' q7 _* T( |9 G. ]. j Full Operational 5 E( S! _' g. T; }Capability (FOC)5 Q2 ]& I' ^1 @. |1 M) O The full attainment of the capability to employ effectively a weapon, item of1 G8 {7 [: n2 R equipment, or system of approved specific characteristics, which is manned and( j( I/ H' i% V operated by a trained, equipped, and supported military unit or force. 9 T+ G2 D( T# z; I- n+ i# V9 pFull Rate ' P5 B' \1 e. J$ ]; m6 nProduction- A! S" Q( l3 g Production of economic quantities following stabilization of the system design & l$ D8 } T5 i, R3 M' D6 iand prove-out of the production process. * {& H# D. S6 |& H% W: W1 xFully Configured 8 O7 h( o( C: a% kEnd Item ' C% J! M# B1 I; W$ A3 t& AThe final combination of end products, component parts, and/or materials, which 8 j p( b& ~+ ?" o. dis fully ready for its intended operational use. Normally all production units are 2 b0 { w% s# f L* L( gfully configured. Research and development units may be considered fully/ Q: `9 s$ o; Y$ M configured if they are or are planned to become operationally equivalent to the, y. ^3 K7 z( @: G" e$ S# { production units.

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Fully Connected 7 F" {/ {/ @7 D5 ?6 _6 QNetwork (FCN)9 I* d* ?" K& v, J/ W& ^ r A network in which each node is directly connected with every other node. 6 o7 w3 S* G$ u$ LFunctional 5 t+ W8 e8 p' xAnalysis ! e3 J3 }' M Y, v4 J4 |An approach to the solution of a problem, in which the problem is broken down 4 Q* F) ^9 s1 linto its component function, such as intelligence, firepower, or mobility. Each ) ~ d( H2 N- Y' @$ Q7 e) Q- srelevant function is then further analyzed and broken down into smaller 4 U6 ~4 u# m6 [$ \- Zfunctional components until a level of molecularity suitable for solution of the- M! v. c2 {& }4 i problem is attained.( I! F, L' d8 c- a Functional. l5 j( w4 j9 N, n& S" @) n Baseline 8 | Y9 q6 C& ?5 M2 k% b6 F(1) Established after the system requirements analysis/design activity has ( z9 E4 O* Z' D. R4 qcompleted the definition of the system functions and associated data,# g" W& |! |$ e+ M& W interface characteristics, functional characteristics for key configuration `: e* e, y6 g1 l1 S! V5 A items, and tests required to demonstrate achievement of each specified$ u' Z) C v+ b* g3 z! Q: m characteristic. This Government normally controls the baseline. $ \. H2 q. V+ k0 x: k% v" B3 Z7 J(2) In configuration management, the initial approved technical k( t; L% E1 s* ^ documentation for a configuration item.3 K. T4 M( U) ~$ B9 v& q) W" w* ~ (3) Documentation describing a system’s functional characteristics and the- T! f, p* l& E. h% H verification required to demonstrate the achievement of requirements.& n9 o% Z4 [1 ^* i/ ?2 Y Functional6 v! v. r. H D$ u6 a- }7 b; p% t% |1 q Configuration- P$ X/ A6 ?5 E& |! B Audit (FCA)8 d& B' i; g" N% t The formal examination of functional characteristics test data for configuration 8 W3 W" D4 S. D) d |2 c8 B& u) citem, prior to acceptance, to verify that the item has achieved the performance " H0 |- U6 a! Ospecified in its functional or allocated configuration identification. 2 g) c8 ]% i, H5 H% K' aFunctional ' l( j k, D+ F' S4 D% j$ @Economic 2 G7 O- `2 F4 C$ SAnalysis (FEA)7 M! B3 B* H4 r$ k" d! e6 G8 t A structured proposal that serves as the principal part of a decision package for m# m4 x$ B x# D. X* Y8 l6 c% U/ Q: zenterprise leadership. It includes an analysis of functional process needs or D. L0 `, Y' v* j% x3 ~% ?problems; proposed solutions, assumptions, and constraints; alternatives; lifecycle costs; benefits and/or cost analysis; and investment risk analysis. It is$ ~- m2 T! w7 K0 ~( g0 c consistent with, and amplifies, existing DoD economic analysis policy in DoD5 w( ^, B8 y) R) G Instruction 7041.3.& N: ?3 \6 A2 u Functional Kill The destruction of a target by disabling vital components in a way not 9 n) v5 G1 Z' M# fimmediately detectable, but which nevertheless prevents the target from h Q* j7 i! E- g functioning properly. An example is the destruction of electronics in a guidance ( [# f( A0 w) h# v) c4 p) t# L! ksystem by a neutral particle beam. Also referred to as “soft kill.”' f1 C) `5 B+ L3 \4 U# P, S C/ Q Functional 8 x2 X, N! i1 p% i4 P5 \" `$ ^Support 3 o4 p* ^+ |5 r/ {. S% U. KSystematized methodologies and procedures, or a common set of standards, ; m& N' T+ w% u. T) rapplied to materiel acquisition programs. ; K/ |5 L: \3 m6 \4 X7 wFunctional2 i1 b. m! c3 E& {( W Technology . T y% s+ [; EValidation (FTV) 3 F: A( Y$ v' x! @; f: `* V$ GProgram with the intent of proving or disproving a technology is useful for a given7 k1 K! u# a7 u8 q& P% v/ L9 H- m application.+ `) T4 a* C( b2 V MDA GLOSSARY, VER. 4.0 F6 e, b4 }! A) m! H& H4 J7 G 1157 {( Z, J7 E* ~' b# b! m$ T Functional * C9 B+ {" Z/ O4 W9 FTesting - d' Y" B z3 @The portion of testing in which the advertised features of a system are tested for: j7 T' M! `* [' ]! G3 T correct operation. . g- I- W% y! [6 ]Funding Profile Program funding, usually displayed in columnar spreadsheet format by years, 8 O, ]7 m- Q rstarting with previous year through current year and out-years. / e `1 p* L8 c+ b$ KFuture Years! ]5 u2 l9 h( { Defense Program. h& ?' G2 u' N' G; `2 c (FYDP)0 {* n+ j W" J9 Q: `8 d The official DoD document that summarizes forces and resources associated with7 {/ u+ |# f: A programs approved by the Secretary of Defense. Its three parts are the' W+ f3 W: y9 M7 `/ ?+ { organizations affected, appropriations accounts and the 11 major force programs # f7 Q6 x: G+ `+ U5 N3 l(strategic forces, airlift, R&D, etc.). Under the biennial PPBS cycle, the FYDP is3 s7 n0 s1 k' z8 z9 ]+ v' r updated in even years in April (POM); October (budget); and then in January : H; d! [. E# @5 o9 B. ~$ ]3 G(President’s budget) of odd years. The primary data element in the FYDP is the9 {4 c! b2 m0 @- @6 Y) \5 C Program Element (P.E.). Formerly known as the Five Years Defense Program.1 b9 U# X+ k/ t5 T4 b3 T) D FWCA Fixed Wing Combat Aircraft. $ t4 b8 Q# M) R% BFwd Forward." r# c: y1 @9 h. b# z: r2 d FXBR Forward-based X-Band Radar. 8 _! B! ^* y1 \; l) d' eFY Fiscal Year./ d' d/ y" C% y0 \ FYDP Future Years Defense Program. 2 `% v4 V% O$ t) v) N7 ~ b; XMDA GLOSSARY, VER. 4.0 G- S9 X% g/ `% \ 116* S6 Y( E7 [" R3 P+ S G Giga (one thousand million).% P, |+ J# `' j8 i+ r g Gram.9 a) |1 J/ m! z$ Q2 g2 m G&A General and Administrative costs./ o$ @" P% T) l. ` G&C Guidance and Control. 7 C1 w" S7 ^9 E' I; E) {0 |G&O Goals and Objectives. 7 `' x0 _# T1 e8 E9 P1 I/ ^G/A Ground-to-Air 7 _! q/ j: `; A/ {, HG/G Ground-to-Ground. ' h4 ~6 F( O" ^/ H2 l9 MGaAs Gallium Arsenide. # S5 B9 v4 o" b1 G- n ]/ K! f7 E( jGalosh The Soviet Anti-Ballistic Missile system built to defend Moscow from missile 8 Z) s4 T2 s: U4 w; @( aattack. 2 |! E; b( g* G1 B4 j+ wGamma-Ray Electromagnetic radiation resulting from nuclear transitions. Although incorrect,3 Q) u6 p, q7 h; n, C8 _ high-energy radiation, particularly “bremsstrahlung,” is sometimes referred to as + i0 Q9 x* c8 F: }gamma radiation." t# y$ W+ k, r$ B: k- K Gamma-Ray* R# b0 d/ n4 _+ n' ? Laser! u) V& q' _0 F/ {/ R9 n( F b+ z% D A laser which generates a beam of gamma rays; also called a “graser.” A! C# n8 x7 j' r. R! H gamma-ray laser, if developed, would be a type of x-ray laser; although it would, j6 l" L! |8 _3 R' o' _0 u employ nuclear reactions, it need not (but might) employ nuclear fission or fusion % ^4 `9 I2 r/ n& M! J( q7 n/ P8 \reactions or explosions.: P, }0 `- q0 D- O, X- J GAMS GPS (Global Positioning System)-Aided Munitions.1 L/ Q7 n3 g- o7 B/ l' V& b GaNMPA Gallium Nitride Microwave Power Amplifiers. (A demonstration program to develop$ C: S, }8 D4 o% ~: j) A1 | GaN based transistors and integrated circuits for power amplifiers in systems ( b9 i F" T. s* Y, xsuch as Ground Based Radar. Goal is to reduce total weight and size by a 2 O; I3 t0 r% n0 K- pfactor of 10). 0 d$ U" ^: B! j3 oGAO General Accounting Office. 3 b# o1 m. n5 yGARDIAN General Area Defense Integrated Anti-missile Laser System.6 `/ |- Y; N( N S8 D GAT Government Acceptance Testing.6 X6 P: ?4 E& T+ b$ Y9 c3 } GAT CALL Guidance, Apportionment, and Targeting Call (JFACC term).8 V. T2 q2 s3 |& O GATE Graphic Analysis Tool Environment.% {; [7 k N) n Gateway An element that contained a node on the SDS backbone network as well as on % m( i, [/ |" T( @: U9 Isome other network(s) and would have performed protocol and format" m, @' N& e- T2 e% J& B- D conversions necessary to accept messages from one network and retransmit6 c: y/ B9 ^; P ^0 k them on the other. . W* y7 F1 O5 u1 SGATS GPS (Global Positioning System)-Aided Targeting System. ( U) `& E) ^& W/ ?1 \0 p+ v S/ Y7 UGB (1) Ground-Based. (2) Gigabyte." m/ H8 W0 ~# B) _ GBD Global Burst Detector. ! s' p5 ~7 b! kGBDL Ground-Based Data Link.' w3 D2 P m5 i1 H$ F! U) r. W3 ~ MDA GLOSSARY, VER. 4.0 G / z7 b6 o+ }- i, z1 S4 S/ V117 + k V. Q* |) |7 w% g( jGBEV Ground Based Experimental Version. ; x$ Z, }0 ]! V, T) ~) cGBFEL Ground-Based Free Electron Laser.# s1 L, t3 ^$ G/ M, H GBHE Ground-Based Hypervelocity Gun Experiment. : t) H) j6 E+ n8 e1 {! LGBHRG Ground-Based Hypervelocity Rail Gun. C8 y" O0 t; l" i. a* X& | GBI OBSOLETE. See Ground-Based Interceptor.$ w6 ~% ^" [% u4 K& }! J GBI-P Ground-Based Interceptor – Prototype.! ~9 \2 H1 G5 e GBI-X Ground-Based Interceptor Experiment.% B2 H' y" k* [( q8 Y GBKV Ground-Based Kinetic Kill Vehicle.5 u _, _8 @6 A4 Q8 [" o+ Z GBL Ground-Based Laser. v K4 z1 m9 b& b( n, P0 c& n GBLD Ground-Based Launcher Demonstration. : X; U/ e3 ^; i5 n& n" q( r0 VGBLRS Ground-Based Laser Repeater Station.; ?% `$ K3 c- s S( Z m GBM Global Battle Managers. 5 L7 u8 c& f1 VGBMD Global Ballistic Missile Defense. 7 q6 |; J+ b3 P' OGBMI Ground-Based Midcourse Interceptor.3 z8 U# G7 E/ b3 ]5 k! X; W( J5 `& ~ GBOS Ground-Based Optical System.# Z2 P* Z6 ~& [ GBPST Ground-Based Passive Signal Tracking.% ^4 P+ s9 x/ R GBR See Ground-Based Radar.- v! G2 ^5 g, W" v GBR-M Ground-Based Radar-Midcourse. " W* }. I$ I# Y F' _3 R S% Q4 LGBR-O Ground-Based Radar-Objective.+ }* p8 G+ Q( c GBR-P Ground-Based Radar-Prototype.! e2 c' q0 u2 V( Q GBRT Ground-Based Radar Terminal. 6 I: s0 d1 r% V; ]GBR-X The experimental version of the GBR." W/ d, Q J# z" Q GBRF Ground-Based Radio Frequency.

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GBRI Ground-Based Rocket Interceptor. # z4 O, W* W% A' T& Y! `GBRT Ground-Based Radar Terminal.# v6 d G* ]! J- g/ T GBS Ground-Based Sensor.9 p$ Y1 `" k( t) l1 l, O GCA (1) Guidance, Control, and Avionics. (2) Guidance, Control, and Airframe.7 g+ D# K5 u" f" T- e GCC Ground Component Commander (JFACC term).0 s6 F, q7 ?: {5 J GCCS Global Command and Control System.9 }4 V& f& b& L4 e9 o, J MDA GLOSSARY, VER. 4.0 G; J7 w) Q! c+ Y 118+ [: `0 F1 F7 u' ^ `- ]2 U GCI Ground Control Intercept. , q) c/ X) V, D) [1 eGCN Ground Communications Network.6 z" k" W7 }$ E9 l GCS Ground Control Station.; G& o9 s6 z% s GD General Dynamics. / \# i4 ]. U; K" `( [; kGDL Gas Dynamic Laser.5 x( Y, @# Y! D+ n& L7 E GEDI Ground-Based Electromagnetically-Launched Defensive Impactors. " o3 Q1 S4 q, G$ UGEM Guidance Enhancement Missile (PATRIOT). . C. C( o% c- Z# o& R+ Q% iGeneral Manager& e# R) V" w/ M2 Z Program ) E$ b% b# N! @) w& ~Management . n' W1 [. \+ c, Z9 Z' X, kDirective (GPMD) . H! Y' N& J/ ]6 h& T5 J1 ^* V; NOBSOLETE. The primary document used by the GM to direct the Service BMD1 L% n7 s M& v PEO on the specific actions necessary to fulfill BMD program requirements." P( j' c \- k8 h" R General0 I* o q, l; t9 Z' m Specifications / s: l* t* G4 T Z3 |# y/ a, [A general specification covers requirements common to two or more types,, V4 t. q- i) J, V5 \/ P6 m3 {& T classes, grades, or styles of products, services or materials; this avoids the3 Z/ [# Y, i" q) ^ repetition of common requirements in detail specifications. It also permits9 N$ j& U* y6 c2 x changes to common requirements to be readily affected. General specifications/ s" O: U1 R5 p x may also be used to cover common requirements for weapons systems and4 b6 n/ F8 X0 u' d& ~" V subsystems.: P1 G% `2 X1 L5 ^$ g- j Generic Rest of / Y* Q, L' q( t4 T3 `/ DWorld Target5 f. f, d1 S% h, L) y (GROW)4 I- f \4 _6 Y, W" {6 ~, |0 I; I Strategic target being developed for GMD program.9 |+ N$ b8 w. d/ N3 B7 X GEO Geo-synchronous Earth Orbit.0 j6 @9 G- t' V, X6 t7 i GEODSS Ground-based Electro-Optical Deep Space Surveillance System. % c; N' [" @2 B5 D& oGeo-stationary , B' H& o9 F) t$ K3 Y eOrbit (GSO)* A8 F D6 |- V, `4 C An orbit 35,784 km above the equator. A satellite placed in such an orbit- _0 u2 j+ W2 B: y, b! ^& @1 ~# | revolves around the earth once per day, maintaining the same position relative+ @- f% Y; ]0 C1 \0 G& T" Q8 C to the surface of the earth. It appears to be stationary, and is useful as a6 c( o, f. I3 j& g communications relay or as a surveillance post. 9 T- X, X( t `GEP OBSOLETE. Ground Entry Point. IFICS. % g. J+ ~/ Y' GGES Ground Engineering System. : ?" S+ Q" X3 E3 y7 u7 a+ |GFE Government Furnished Equipment. See Government Furnished Property.& N5 s) p* R/ \& C GFI Government Furnished Information. 8 ^8 F1 ^) E1 q) g P) L! `GFM Government Furnished Material. % c3 ]6 u! n' PGFM/P Government Furnished Material and Property. See Government Furnished ' p Y; @% c) f2 _Property.7 `8 o' s' a5 z) F' J* w$ p6 w GFP Government Furnished Property. , @7 F+ |$ n8 QGFS Government Furnished Software. See Government Furnished Property./ }1 ?1 g6 K- C$ k s' x8 L2 ` MDA GLOSSARY, VER. 4.0 G 0 R. C+ S0 _8 u P. C119 }; V4 y' U/ ?) c! J# QGhosting This condition occurs when two or more targets reside close to the same plane7 r) O r: ], f9 G: r- D also containing two sensors viewing the targets so they are within experimental ( q& }- T! h: r! _ v, K* Bdetermination of having the same hinge angle F. Thus, ghosting depends on R: V$ m0 `+ n4 o- |4 g* p( |7 GLOS error and positions.6 A/ Q& X0 O# Z8 T4 Z GHz Giga Hertz (1 x 10(9) Hz).% x' }0 M' i, Z- z( s GIDEP Government/Industry Data Exchange Program.* C* V: X& l0 R9 F' j' X4 O/ h GIF Generic Interface. * ~9 I, I+ {, O- \GII Global Information Infrastructure. ! o. u6 l" l; j1 N+ E! mGIP Ground Impact Point. 1 }1 _( ~& g! q8 H2 c9 c: ]GIS Geographic Information System.) O& X" x0 W, g; a GITIS Government Integrated Technical Information System. 3 @% w ?! {- }( k; eGLCM Ground-Launched Cruise Missile. $ n$ N% o1 Q8 M d D! D% yGLP Ground Launched Probe. See Brilliant Eyes Probe.. C1 s4 D; x8 o$ i: b Global & t% G8 i5 J0 J X% MEnvironment! w1 X3 Q" m# z$ | The ISTC Global Environment is responsible for the creation, propagation, and, Q3 W: `+ u# A0 P' j maintenance of test scenario common knowledge, how subsets of this+ e0 W9 E3 F% n7 n information will be determined, and how common knowledge will be disseminated4 j% O) O7 o7 N6 y& Y% E- }2 o to the various element representations (nodes). The Global Environment , H+ ?) ?3 P: J+ W8 f. |! ^performs functions which are common to the scenario such as timing, health, 3 r. q/ I3 c' [status, state vectors of objects, and effects models. . f* f/ h0 o. X3 } }Global& w( n7 ]9 z) |& T0 [; f a) z: s+ y Positioning / [4 a4 O' c3 K5 ?System (GPS) - B" f* n1 R' k1 } |) [8 u+ _3 M7 H/ eThe NAVSTAR Global Positioning System is a space-based radio navigation; o2 W$ c2 }; {- i* Y network providing precise positioning and navigation needs of all the military 5 N) r$ N, S" o8 U H* r6 vservices. In the fully operational configuration, there will be 18 satellites in six 8 n( p6 n. G# s5 n; _; `4 v uorbital planes with an orbit period of 12 hours at 10,900 nautical miles altitude.2 G; q! h: I' _, | ^ Each satellite transmits three L-band, pseudo-random noise-coded signals, one3 K. ?8 p7 J4 Q+ {* Y" h( T: o S-band, and one ultra high frequency for spacecraft-to-spacecraft data relay.6 g8 G: K2 H" m, o! M! t( Q Global Protection " H. P; D" c- B4 Q4 q* o7 oAgainst Limited w: Y5 d( V7 t/ {- S, lStrikes (GPALS) ( b! G. ?, ?% s) D5 J3 d3 ]. g. @/ \OBSOLETE. GPALS was an architecture denoting an anti-missile system: Z! k6 P: c. X5 a$ `$ p designed to provide protection against limited ballistic missile strikes, be they 7 K4 z/ _2 l: x3 A# Tdeliberate, accidental or unauthorized—whatever their source. GPALS was 4 N1 s4 ?3 s" p z: h1 P# g J* [ Hcomposed of three interrelated segments: (1) theater ballistic missile defenses, ( y9 E$ Z) \, M) D5 Oand associated space-based sensors, to protect U.S. forces deployed abroad, - F$ k5 ?# {0 D+ Land our friends and allies; (2) ground-based defenses, with space sensors, to) ~, O5 p. g G i: {% p protect the entire United States against long-range ballistic missiles; and (3) : k& n4 }' M9 E, J, Kinterceptors based in space – Brilliant Pebbles – capable of providing" i# |6 C. c# a2 e; B } continuous, global coverage by intercepting enemy ballistic missiles with ranges" s+ f) j1 T t% k9 V' P+ m greater than several hundred miles. k( x o8 D: ]* u% j6 Q. J$ {Global Protection 0 s: T! L9 {$ h1 V& g8 }Against Limited5 P8 q P; b, [ o$ g5 A$ q Strikes (GPALS) ) o) T: v4 {" x2 l. V" B' qProgram2 y7 h5 g' W i& Q OBSOLETE. The GPALS Program consisted of six Major Defense Acquisition, z; q+ [! f5 U) P4 {7 P% i Programs: GPALS System/BMC 3 # k* Y( A: L5 }1 R, National Missile Defense (NMD), Global Missile 3 N h. A5 P; ~0 I# o8 I% I7 k! KDefense (GMD), Upper Tier Theater Missile Defense (UTTMD), Corps SAM, and ! j/ C+ [4 R8 VPATRIOT. Army PEO GPALS was re-designated PEO Missile Defenses in 1992. # D& P% F P- |3 l" C3 }4 q4 XGLOBIXS Global Information Exchange System.) A. j' G' C; H9 B6 C8 ` GLONASS Global Navigational Satellite System. x( g- C/ m. C$ T9 \$ ?; w9 W MDA GLOSSARY, VER. 4.0 G ' X5 B& R3 R; \. t/ C* s) _1200 Z. N: V7 b% g GLOW Gross Lift-Off Weight.6 X6 O' x, C& y2 l/ ` GLP Ground Launched Probe. See Brilliant Eyes Probe.! s, B! ?8 W# [ Y) ? GLS Ground-Launched Sensor. " }. p; ~: e" P2 W% d; }9 P+ aGM (1) Guided missile. (2) General Manager.# b2 T9 }3 @$ @8 K; }% l GMACC Ground Mobile Alternate Command Center.0 O/ B8 U' p6 Y; ]4 n) r* D GMAOC Ground Mobile Alternate Operations Center.8 d& m6 }. V' m# d; n8 v, e GMCC Ground Mobile Command Center.. S1 ]2 g4 x" l9 a d( C6 L GMCP Ground Mobile Command Post.6 T) B. I+ e q6 e GMD (1) Ground-based Midcourse Defense (formally National Missile Defense) (2)- v; T) M- c0 w# |3 g" { Global Missile Defense (OBSOLETE).% w( Q. K) v% N i3 @9 v5 J+ b! i GMT Greenwich Mean Time.- n8 c- ^! B# r0 T GMTT&C Ground Mobile Tracking, Telemetry, and Control." S+ x. S8 w6 f9 L0 f" m2 @4 e. z) ] GN&C Guidance, Navigation, and Control. 1 \& a8 f3 T" _; j' P5 FGNC&P Guidance, Navigation, Control and Propulsion.) q6 X. ~3 n. n, ]& _8 k- ] GND Ground.. N* T- A0 J* y: ^ K% n GOCO Government Owned, Contractor Operated. ) a7 k( j$ E& _4 k3 I; YGOES Geo-stationary Operational Environmental Satellite.6 c1 I) V* d; j# M: E GOI Government of Israel. 0 D3 v+ V$ J9 o" hGOJ Government of Japan.

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GOSG General Officer Steering Group., {7 c1 q2 }" q& Q% x GOSIP Government Open Systems Interconnect Profile (CALS term). % Z7 r* p9 s) v1 SGOSP Government Open System Protocol (CALS term).4 D6 `; _$ S! C GOTS Government Off-the-Shelf. * Q4 |$ W" ^! c! ?. G% R/ r/ c# {Gov’t Government.* y+ F( Y' P) r2 c! {+ d) U Government ) o+ L/ C+ V# M' T* T1 oFurnished4 |2 w9 _& W; W3 w& A I Property 9 r9 J7 t E$ x: p9 M# nProperty in the possession of, or directly acquired by, the Government and 9 C: _# N6 m( C5 [subsequently made available to the contractor. (See FAR 45.101.) 6 v0 D0 i, I) J% [Government! s% J: v& y% ~& S# @3 h. ~ Verification) \* \4 c! ~5 _( b/ ?5 Z' F8 j Management + d$ P- x5 D3 k8 h8 V4 yPlan (GVMP) 8 s( z3 C2 u3 D: t# W' m4 UA management document that provides the overall framework for BMDS ' V/ x* q% U& v) W, e2 r- xverification. It includes processes for implementation, organizational Z0 c. Z8 }8 p( k S6 e" X relationships, and stakeholder responsibilities. It covers the full scope of BMDS * k% t* v2 o/ |2 W6 Zverification and identifies how all BMDS verification activities will come together to $ Q i! z+ H2 t7 f% G7 F" g1 ?% Rconfirm BMDS capability.) j/ T! ?: a! {9 O. l. Z2 L MDA GLOSSARY, VER. 4.0 G: Y. Y. V. f$ I3 v# Q0 t 121/ T1 U: j& o1 a2 }9 W7 i8 Z9 Z GP Group.' \" o4 w/ e( ?# I ? GPALS Global Protection Against Limited Strikes.2 |1 j+ r$ I9 h9 f GPC Global Protection Center. ' ~. N! F$ t' B7 _GPMD General Manager Program Management Directive. 7 y3 s: w8 [/ Q8 [, y0 ^( `- sGPO Government Printing Office (US). ) m7 Q& g6 B h/ ?GPP General Purpose Processor. _0 i! Z' @. k S% Q+ x- l$ b GPS (1) Global Positioning System. (2), Global Protection System.# ?% a# ~) g3 A& B8 }1 M( M+ ~* G GPSIU GPS Interface Unit.- C/ c! z* M5 B+ @# U9 Z GPU Guidance Processor Unit (US Army term).0 |8 S2 @/ W R( \' u' ` Graceful % x! r r* f) ?/ tDegradation, R: V( `6 n( u( f1 `4 U" } A condition in which a system continues to operate, providing service in a ( E+ |2 V$ Q1 B4 q& \2 |: K- \degraded mode rather than failing completely or catastrophically. ; J: o) n+ g3 u# R* R: K p# ?GRASER Gamma-Ray Amplification by Stimulated Emission of Radiation. (See Gamma-+ ]% {7 i3 R: d" s Ray Laser.) . F, F1 B0 q- i: _4 oGRC General Research Corporation.! |$ q+ f2 e3 j/ A4 ?, | Green Code Interface Software. ! p' U1 M) s0 [2 oGround-Based & L0 N' E' N/ K% b% A. b; E9 T `Defense " E+ {+ c5 ^: L7 L" dThe ground-based sensor and weapon systems of BMD. + w% B( S& r, cGround-Based C: O% K1 E6 r: y Interceptor (GBI), d( |% ^) W& N% k A kinetic energy exoatmospheric interceptor with long flyout range to provide, # D% v% _2 Z$ H+ kwhere possible, a multiple engagement capability for defense of the U.S. with a 1 O: V" U( @' `/ h5 w7 Drelatively small number of missile launch locations. It is designed to engage# u; }( R; {* o( ?5 s9 S7 v3 l$ ? post-boost vehicles and/or RVs in the midcourse phase of flight. " e$ M3 u- r/ D' z(USSPACECOM) (Successor to Exoatmospheric Reentry Vehicle Interceptor ' D V- x; K1 @* V: E7 rSubsystem (ERIS).) See EKV.* w$ S) \, n. V; S3 ]; s Ground-Based9 y8 R' I3 |5 G& I, e: M; J0 ` Interceptor6 Q$ a$ o9 ]# O9 z3 g Experiment9 V; g( z/ q: E, C ? (GBI-X)( |/ h+ T# } I' s Designed to infuse advanced technology and promote competitive environment # j! ?2 X8 B8 `8 O7 ?) ]0 ^2 Jfor GBI./ d8 U( N7 c* O8 J Ground-Based 1 U& X, ~2 S& L4 {9 ]Radar (GBR) & o3 @* ?- B/ }( Z7 L# Q- H5 mA task-able, modular, multi-function, phased-array radar that provides( X. j2 o; Q$ _% S4 Y0 I" R surveillance, tracking and engagement planning data in post-boost, midcourse,# m' j0 v J3 H and terminal flight phases within its capabilities. It also provides target( b, W+ K9 A6 C" m discrimination, in-flight target updates (IFTUs), and target object maps (TOMs) to $ C1 H; O( G3 |- {$ K+ pinterceptor vehicles. See THAAD. (USSPACECOM)/ `& j/ m6 N1 y5 k- b, V; D, q Ground-Based6 t4 i: j9 p! x) L- i5 r Radar Terminal7 X$ w4 X/ J5 ^# P0 i (GBRT) & U) W4 G3 z `: v0 V3 m @The sensor for the NMD system. An X-band, ground-based, phased array radar/ o0 o. i+ I% t! {+ c: C( } capable of detecting, tracking, and providing discrimination information to a4 {( T1 e8 V. l8 n9 y& [# b ground-based interceptor.: K3 C/ r6 C7 ? Ground-based * A* N% A% t2 O9 V( S9 vSurveillance and* ?1 ^4 K( \$ S8 J) Q$ ] Tracking System8 \- Q7 Y, h4 C# M (GSTS)+ I! P' f( L5 Y, h* { A fast-response rocket-launched sensor, which can support the SDS midcourse6 y9 L( |2 P% K/ }' A sensor suite by employing multiple Long Wavelength Infrared (LWIR) wavebands ) | t4 |- g9 W' ^" Kand a visible waveband sensor to provide tracking and discrimination of1 L+ N8 e# @; n" W5 y4 K potentially lethal targets.: s: ]7 [ a, u8 q' B MDA GLOSSARY, VER. 4.0 G " Z( M( ?0 I- C; v9 @$ ^122# \* o; O- C& ]0 V: R7 K4 C2 w Ground Entry & u9 c5 ?( k' K/ `3 \4 @/ V1 GPoint (GEP)$ u4 I4 H/ U5 \; ] OBSOLETE. GEPs provide the communications interfaces between the SDS {6 ]$ E6 i6 M: _ space orbital/sub-orbital elements and the C2 E. See IFICS. : b3 X; _6 V8 H- QGround Mobile + g! x% p! }# a* N& E5 kRegional 2 K) N6 G, l7 i! p$ zOperations" O" D& b" p! ?: i \7 z3 E) r+ d Center) O$ g) z+ V i. [% ~ (GMROC)7 `! ^, D! J, ?" h, M$ q& i. Q Transportable ground segment of the Regional Operations Center. # C; L% |- x& M' {Ground Zero The point on the surface of the earth at, or vertically below or above, the center 9 ^1 u1 a- F: l# z4 ^of a planned or actual nuclear detonation. 2 m) J; _. K) Q/ P. t; q. yGS Garrison Support (US Army term). " e3 Y5 S7 E! y1 pGSA General Services Administration (US). 7 F' ^: J! l3 R7 p( V; tGSDC Ground Station Demonstration Lab. ' J* W7 ^/ U$ MGSE (1) Ground Support Equipment. (2) Government Support Equipment. ( Q1 V2 Y8 `! \4 e5 | LGSFC Goddard Space Flight Center, Greenbelt, MD.3 o: L. v$ I/ f/ p3 H) S9 A" Z GSII Government Services Information Infrastructure., J7 w0 v; q4 \; j* ?, @ GSM Ground Station Module. 7 n& J1 ^" P! l, l/ R9 { k0 wGSO Geo-stationary Orbit.+ E5 k, O7 T) n- }4 i% Q GSR Ground Station Radar.2 L3 g t7 Q* S; v GSTS OBSOLETE. A fast-response, rocket-launched, Long Wavelength Infrared4 v" u |4 [3 G3 Q4 A' a (LWIR) and visible waveband sensor, which would have enhanced the9 P( b% K8 |. _( b' y) H; h7 F information available from the SDS’ midcourse sensor suite by providing tracking( D1 m( H" \: R) p5 ~! B and discrimination data on potentially lethal targets.. a% Y7 W `/ D, v+ n/ Z5 Q) F* F GSTS (F) GSTS Farm. 1 K" J# z; Q/ ^$ e$ \GTA Ground Test Accelerator.$ M( m; O# D3 o) l0 N9 M GTACS Ground Theater Air Control System. 5 m+ P* ?' R% J7 h2 P7 WGTE GTE Corporation. " Z, s* A! v! _1 V5 A+ s) V0 d& s1 p7 N, SGTF Guided Test Flights.: [% X" ^* R: L& E' M GTM Global Track Manager. + C9 b& [. Y( U" YGTN General Technical Note.2 [0 d* O4 q. u$ X5 V8 k! \" b GTR Gulf Test Range, Eglin AFB, FL.9 s, C7 h R s; N GTSF Guidance Test and Simulation Facility (PATRIOT), Huntsville, AL.4 A% Z) h% F6 W. T0 \8 v- |1 Y" v8 L9 q GTV Guided Test Vehicle.0 h% g' p9 n V4 E' q$ Q- P& R* L8 T GUI Graphic User Interface.; {1 k) N; z2 y D$ ~7 w& s' g0 u MDA GLOSSARY, VER. 4.0 G% w! \4 A' f$ r) d/ b 123- K, A) _7 s' j" E8 x Guidance (1) Direction, altitude control, and navigation (where appropriate) of sensors 3 w# |8 h* B, sor interceptor vehicles.$ z3 \: m9 P; Q* Q (2) The entire process by which target intelligence information received by a1 ~6 R, L2 r5 r, }" b9 h8 [ guided missile is used to effect proper flight control to cause timely ! ^6 ?) d9 Y* L! O) }direction changes for effective target interception.. x# e8 W% Q! Y N Guidance 0 y- a% V6 |" j/ |2 K2 HEnhanced H$ b2 f9 ]+ I: U1 @4 q6 ?7 }Missile (GEM)) \7 L I4 p; n% R0 b J+ u A companion program to PATRIOT PAC-2, which includes enhancements to the+ l1 c+ l: e* { q) h3 @5 @ radar to increase intercept range and performance.! r d; }, M4 x, A4 q Guidance 5 I3 c8 J7 k2 ~; ?2 ?$ P9 NSystem (Missile)! `- l) s i. h, b' ~ A system, which evaluates flight information, correlates it with target data, - v6 Q d! E/ Gdetermines the desired flight path of the missile, and communicates the ! ^! o0 g3 L5 Y5 r' g1 rnecessary commands to the missile flight control system.; E$ Y( S1 B6 c# K* w! l6 t1 N Guided Missile An unmanned vehicle moving above the surface of the earth, whose trajectory or0 Z7 C4 [9 q6 x9 d3 } flight path is capable of being altered by an external or internal mechanism.& x' j% g- w& |9 ]# y GVSC Generic VHSIC (Very High Speed Integrated Circuit) Spaceborne Computer. 4 _8 }! E8 l2 t$ d. j" VGWAPS Gulf War Air Power Survey, 1994 [a DoD-sponsored survey].7 ?* Q% q# M* N Gwd Giga watt-days.9 K- ^6 A& j; S, }/ {: i GWEN Ground Wave Emergency Network.0 M* m7 c' R& D9 B GZ Ground Zero. / `% {/ y3 J. d+ ^; a$ {MDA GLOSSARY, VER. 4.0 H, v/ M c1 R) s2 u( T* o" @9 I8 g 124 * W0 p( u5 {# gH Hour. 7 q P( C8 }5 A# y( q4 s6 VH&S Health and Status. - T- a9 U, T( e4 s, Q, b& |& `H/W Hardware.) b; q+ ]9 n7 y0 ^2 B/ g8 m, x HA Higher Authority. 1 E7 e( |6 v4 j' { H% g2 HHABE High Altitude Balloon Experiment. . y3 t& F/ D6 c0 \1 y4 kHAC House Appropriations Committee (US).4 d; r/ ]3 h0 @. h! z HADS High Altitude Defense System. ) c0 O. G% t; p' \' I" gHALE High Altitude Long-Endurance. & Y. _* |: G; y* V& wHALE UAV High Altitude Long Endurance Unmanned Aerial Vehicle.! r) o' d. Z+ S Half-Value$ |# y( R* c! S, |3 C Thickness (HVT) ; g9 m' j, b% C w' J% ^* GThe thickness of a given material, which will absorb half the gamma radiation ; L( t. O+ X4 @6 I- tincident upon it. This thickness is inversely proportional to its density and also6 R+ G% {2 r( Z4 T depends on the energy of the gamma rays. * N: K1 G" X/ _ F, rHALO II High Altitude Observatory II ( w$ }. {; Q) A6 aHAMS Hardness Assurance, Maintenance and Surveillance.9 b3 t, X$ n/ L. ^" k3 d! J Handoff This occurs when information on positions, velocities and tracks are given by one4 ]' W; s" g) u: F3 Z) {1 M sensor or system to another and the first sensor or system continues to track the( p8 j- m; F- k+ k objects. f, Z1 [) T4 A2 f- ?8 B- t Handover This occurs when information is passed on to another sensor or system in which . a/ p7 n& ^2 Z2 S8 ^" `# kthe first does not continue to track. 1 ] I0 Q4 O8 J8 I; ]HAOI High Altitude Optical Imaging.

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HAOIS High Altitude Optical Imaging System.3 L6 s& M, P, C2 O HAP High Altitude Probe. & E/ Y9 A# a5 C+ t3 Y+ `Hard Kill (HK) Destruction of a target in such a way as to produce unambiguous visible3 ~8 _$ l' X5 Q, h* f4 { evidence of its neutralization. 5 N5 d9 Z( f3 H# o; hHardening Design and manufacturing process and other measures, which may be employed 9 c% v% L5 s* p% Y4 `% \to render military assets less vulnerable. ) t( ^# m6 H# c9 g/ P! |HARDMAN Hardware/Military Manpower Integration (Navy ILS term)., H7 D0 w% j& I) ]8 O- R& L& ]" k Hardness A property of a target; measured by the power needed per unit area to destroy1 Z) V! r) Z4 n# ~1 }! Q1 Y the target. A hard target is more difficult to kill than a soft target. # T! g2 t( E# _8 THardware-in-the-- X& q3 o5 L5 C Loop (HWIL) 9 P7 k6 P: a+ cTests in which BM/C3 computer and communication test systems will be in4 n. f# y z7 T. H( l/ T: r6 a. K communication with some of the hardware test facilities developed for other BMD$ }: x6 B I# B5 y technology programs.' }( ]5 x2 @1 U; U% V/ R Hardware/ e4 T1 H8 L- ?# Z" y- M Security" Z% \( g& B; t6 d$ T' S Computer equipment features or devices used in an ADP system to preclude! c2 G$ d+ {8 v) u# v: ~/ h; V unauthorized access to data or system resources. # r/ L- N4 C& {$ B& iHARM High Speed Anti-Radiation Missile.5 z8 j ~* ?+ e$ g MDA GLOSSARY, VER. 4.0 H" {# Z7 `( }5 b* \ 125" ?7 ~4 T0 P, u0 e1 j HASC House Armed Services Committee (US). 0 P5 {' z, a8 I9 c7 n/ }HASP Hardened Ada Signal Processor. * l+ T/ B/ F% N qHATELM High-speed Anti-TEL Missile. e' m+ N5 P2 w0 ~- O2 @9 tHATMD High-Altitude Theater Missile Defense. (U.S. Army): C, {6 V& g* n {" G$ S- J& \& @5 N" z HAVE STARE Name assigned a proven sensor capability. - V9 A% S7 Y$ iHAWK Homing All-the-Way Killer.) ^! C) n1 A6 Q% @ c HBCU/MI Historically Black Colleges and Universities/Minority Institutions. 2 L* f% b3 o5 I1 C9 BHBHO Hard-body Hand-over [algorithms]. 9 Z+ v' B4 V/ s( a7 ~3 Z' eHCO High Consequence Option (Safety Engineering term). ( `6 m1 B/ n2 L& M. q; ]$ `8 B; T- fHCT Mercury Cadmium Telluride. ; [% S; C/ O- C$ @: pHDA Hybrid Detector Assembly. ) x9 W9 v4 I+ d* P5 eHDBK Handbook.# k7 i1 K5 H- |! c: S HDR High Data Rate./ p! b* X8 a4 O: i; ~$ l5 T5 p4 Y HDX Half Duplex (TelComm/Computer term)." t! C& f( ]# k" v* x$ _, ] HE (1) High Explosive. (2) High Energy.' T- k6 ?0 {6 e1 ^: ~ Health and Status/ n5 b. v! b- J! e0 m) W (H&S) " C( Q8 g8 ?, X7 PHealth and Status pertains to a unit’s ability to assess the conditions of its # s; b# w" E8 K% Z1 W8 vsubsystem functions. The term H&S is used for units in remote locations, such 7 r& U# L7 X! C0 s$ r8 e+ yas satellites, where ground controls must interface with BITE to determine. I% r% z, @. W# o- j0 H operational status of the satellite and its equipment.6 H% g4 Z- z' l8 @$ S+ } Heavy Replicas1 P9 H9 D3 M& V: ]; l (HREPS)0 Q7 ~, U1 l* d ]$ _0 P7 W Decoys, which by virtue of shape, size, and mass, closely approximate an RV’s * H' S; G4 ?' {3 O) X4 V2 Ysignature. HREPS have significant off- load penalty. 7 I1 L; U' C$ FHEDI OBSOLETE. See High Endoatmospheric Defense Interceptor. + d. o# I M5 R, B4 u9 kHEDR High Endoatmospheric Defense Radar. S- E( {: U: T- m7 I. xHEDS High Endoatmospheric Defense System. " ?4 P' G% w$ M) \/ q! U4 {0 {HEI High Endoatmospheric Interceptor. 2 p* i+ U4 h7 d7 [& O( Y' y" g THEL High Energy Laser. % P. v; O. z- ~; w" z* \" L. y4 rHELKS High Energy Laser Kill System. & G9 h4 m& j9 h* M+ ^HELLO High Energy Laser Light Opportunity.; A, ~ I6 M) s( n; P C* k2 F HELSTF High Energy Laser Systems Test Facility. _" |: n2 j+ T) |4 ^ HELWS High Energy Laser Weapon System.. i' l$ g" p2 G& |' N$ Y HEMP High Altitude Electromagnetic Pulse.9 P+ A7 o4 `3 |# t+ Q MDA GLOSSARY, VER. 4.0 H! P2 C8 r* Q/ I+ D 126 . V- [, Z) s: ^. ~- u6 k- w' D8 zHEMTT Heavy Expanded Mobility Tactical Truck (US Army prime mover). , b. ^' Z5 V; ?* m. q7 t+ l/ s6 [Hen House Soviet area defense radar used as a component of the Moscow ABM system 4 x! Q z, t0 |5 k- I& xthat provides VHF coverage of space to monitor orbiting satellites and early7 ], I& @0 X& f+ x$ z warning of ICBMs launched from the U.S.$ {- G3 Q: L/ g( L HEO See High Earth Orbit.$ h9 k. T, o; [/ h8 u HERA (1) An improved surrogate TBM test target. t$ m3 _0 }. }6 D (2) Two-stage, ground launched solid propellant theater target vehicle. (MDA8 ]6 z* P9 e6 w5 R Lexicon)% w2 x/ k7 u: p; o3 [/ w HERO Hazards of Electromagnetic Radiation to Ordnance (SM-2 Bk IVA).9 `' X# M8 \3 R4 B. D. p9 i HESP High Efficiency Solar Panel.* _, f. t7 h7 j, j. s+ i$ z) ? HEU Highly Enriched Uranium.! _- Z2 S) l/ s8 }' [ W HF (1) High Frequency. (2) Hydrogen fluoride. 6 U6 ~1 ^' Z6 N1 e! z) ]/ B9 VHF/DF (1) High Frequency/Direction Finding.* O# W* w. U3 \# l) o% c& j (2) Hydrogen Fluoride/Deuterium Fluoride. (Chemicals used in IR chemical8 d7 }1 {* \. x# q lasers)." G7 b! T5 o; E; S5 k B HFCNR High Frequency Combat Net Radio. 5 Y3 S7 U. M+ d' x1 K- IHFE Human Factors Engineering.* L0 D2 H" O0 a! R HgCdTe Mercury Cadmium Telluride.3 h. H8 r- P* G6 ]; F HHB Headquarters and Headquarters Battery. 0 E8 M0 X! ^8 h) L5 A; pHIBEX High-Acceleration Boost Experiment.7 o1 Y' m `- n: D2 j' l+ V# w' c HIBREL High Brightness Relay.& Q* @4 f+ A! C3 ~2 B HIC Human-in-Control.7 a) u9 G6 O& r9 A0 P1 X+ ]0 ~, r( S HICOM High Command (Navy term). 3 H( U9 [- F9 X2 B8 lHICTB Human-in-Control Test Bed., p' d3 K7 ~( Z; R; \" } HIDACZ High Density Aerospace Control Zone.' Y2 @1 ` y! j4 _ HIDAR High Data Rate.0 S# I* e/ I- H4 v0 ?7 m High Earth Orbit ; N$ r* f, F% S4 {8 h: o" m(HEO)% m w$ r0 @8 w/ k6 h; c( a An orbit about the earth at an altitude greater than 3,000 nautical miles (about ( D, J7 z( m+ g5,600 kilometers).! x* R. i0 B3 H4 O% | Z( S( w High 3 J( r/ L/ B8 v- f. cEndoatmosphere9 P$ y0 @/ d- h2 i That portion of the earth’s atmosphere, generally above 40 km altitude.3 L9 p) L+ M& P0 D8 `7 y) j" r High ( S8 Y1 P6 Q2 k6 m5 O- aEndoatmospheric 1 Z' }+ L' g& M+ tDefense % W9 \; U% _' G3 KInterceptor (HEDI) - P' u; d& A" T8 HOBSOLETE. Interceptor concept designed to engage RVs within the (upper or q5 w* b3 v- Y+ ?# l) r% qhigh endo) atmosphere. (Predecessor to Endo-Exoatmospheric Interceptor : m7 L: n5 Q5 @. M2 D(E2I).) 1 V* Q/ \5 J6 F W( B. QMDA GLOSSARY, VER. 4.0 H& X- ?; T2 j7 U" q% K/ v$ w( J 127 9 d& @7 M9 {9 L: A E h( \7 JHigh Density 1 h( e0 t. ~( s' hAerospace 1 b: x% J% r( W* g7 {Control Zone$ l' Q% @4 g! ~9 @# w (HIDACZ) 9 o+ ]9 V/ L; D! l4 }9 k [4 c- z4 mAirspace designated in an airspace control plan or airspace control order, in ' N$ o Q4 G1 r& J- k% v. }which there is a concentrated employment of various weapons and users. A2 w7 \1 j0 {, j7 O& w l0 ^ u HIDACZ has defined dimensions, that usually coincide with geographical - C" w7 K: Q# Z- Ufeatures or navigational aides. Access to a HIDACZ is normally controlled by the4 m5 v$ z/ s* A5 X7 D. m maneuver commander. The maneuver commander can also direct a more : m$ _0 m0 I, U- ?, brestrictive weapons status within the HIDACZ. : B: i9 F! h! nHigher Authority& b1 ?/ V1 {4 ]& @# y) z Interface6 ^' f$ t$ i: @% ?0 R Policy, strategy, doctrine, readiness conditions, and rules of engagement from# ?' y5 w, V( V higher authorities for use by the defense system in conducting system; Y) z7 Q& E& ], Y, ~0 } operations including specific orders specifying actions such as testing, defense4 ^( c# D! J9 i3 n, j5 N enabling, pre-delegation of authority, etc. Also the reporting of situation, T. z; q+ u! O! _ assessment and system readiness to higher authority. e! A; c# u. Y; a) w2 I& t& f; wHigh Order 9 z4 l+ |2 a1 `$ q# p/ _Language (HOL) : T; O: D D l6 gA programming language that requires little knowledge of the computer on which$ s& @. ]+ M$ u a program will run, can be translated into several different machine languages, ) \. s( I6 M" R0 ]1 tallows symbolic naming of operations and addresses, provides features 6 j( R. F+ n( M/ vdesigned to facilitate expression of data structures and program logic, and; R- X' D3 h! |/ F# D. I8 @- O usually results in several machine instructions for each program statement.! O. K2 ~& _ {7 G6 U" Q; | HIL Human In-the-Loop.! K5 j" ~5 c3 O+ m5 K HIMAD High to Medium Altitude Air Defense. , E# S4 b( Q4 sHIMEZ High Altitude Missile Engagement Zone. & k8 d; p0 X/ k j X" q) UHIP Hot Isostatic Processing. 1 t) u5 R7 \' z) u# zHIRAM High Resolution Infrared Auroral Measurements.7 u( H. i9 z6 M$ Z) u HISEM High Speed Environmental Multi-burst Model. ( i2 d1 V: J, _6 N7 T# CHIT (1) Heterojuncture Internal Photomissive. (2) Homing Interceptor Technology.. P$ N" b: O( X' g HK Hard Kill.' N/ }9 ]/ I a/ q HKV Hit to Kill Vehicle. 1 E2 y5 q. S; {1 v% s2 o+ W& l) s: qHLD Hardware Description Language., ?+ |( c2 m; b& d HLLV Heavy Lift Launch Vehicle.7 n' Y. O8 B1 Z7 K8 a/ D HMC&M Hazardous Material Control and Management.7 U( P7 Z! N, b HMI Human Machine Interface.7 |2 `$ T8 V9 F( S" y! ? HMMWV High Mobility Mutli-purpose Whealed Vehicle (USA term) (pronounced Hum Vee)./ W3 I g5 [* Y2 T HMPC Hazardous Maintenance Procedure Code.* Y" ^5 x5 L% j0 H: s9 G5 } HMSC Hughes Missile System Corporation." v. @( D# m8 E HOB Height of Burst.6 H' b3 @5 P7 k HOE OBSOLETE. Homing Overlay Experiment. (Predecessor program to & `4 i, C1 I& Z4 mExoatmospheric Reentry Vehicle Interceptor Subsystem (ERIS).)% w7 H- A, r# z3 n' ]# V6 Q. ] HOL High Order Language.) X) @3 z! o8 h p4 u/ m7 C% o MDA GLOSSARY, VER. 4.0 H* E$ F5 y# F9 V. W1 h7 j, N" l- { 128& d1 U! Y& u: ~% w2 Z Homing All-the-) Z' y' Y \4 B* p( C9 s1 V Way Killer ; c( `% q% T4 u. k) H/ y$ [(HAWK) : |* ~" _* N) C. V7 ~+ v1 a$ ]( q(1) Upgrades to the HAWK interceptor and radar system to provide the H3 Y( m0 [ g, FMarine Corps with a mobile point theater ballistic missile defense ; y3 I m5 R) q) I: ~# Mcapability. 9 \# g: @1 t& G. s! o5 @(2) A mobile air defense artillery, surface-to-air missile system that provides* S6 P$ t* G5 w7 H non-nuclear, low to medium altitude air defense coverage for ground - @8 S7 ]3 W3 D- E5 lforces. Designated as MIM-23.# p! p6 _' u* w# o- n Homing Device A device, mounted on a missile, to aid its guidance to a target. The homing- v! A- n) r$ W1 p( ^& D h* \ L device uses sensors to detect the position of, or to help predict the future% y9 _) |5 I. u) p8 n position of a target, and then directs the missile to intercept it. The homing' V3 D) r- |4 I+ i device usually provides frequent target position updates during the flight of the 3 ~; o- R# T! b# j" r/ S& L3 @6 ^missile. - |1 w& o* O; w, j: CHoming" n0 g* Y0 P0 j! K* \ Guidance 6 ?4 z$ Q7 Q, @9 E5 M$ j: CA system by which a missile steers itself towards a target by means of a selfcontained mechanism which is activated by some distinguishing characteristics of( L0 A# Y) l- q* C3 W5 i the target, such as an infrared signature." e9 c. }1 _5 D$ a# _/ f- A HOMS Homing Overlay Mission Simulation.- a2 [/ F6 u* \! E, I HOST Hardened Optical Sensor Testbed. 8 `0 {; z5 D8 _5 fHost Installation A designated DoD facility that provides non peculiar SDS support of SDS7 o0 g0 ]4 d- U% ~! d( r- t2 A elements., i2 r- M; I5 H) t, V8 g* o% ? Hostile 2 D7 H. x/ a* H7 OEnvironment u8 K4 G9 [# V5 ]Those environments that result from a BMD system engagement of an enemy 2 h3 G. J# ?. [% |: |+ T6 Cthreat or collateral conditions resulting from deliberate hostilities. Hostile) P m. g! y2 m% r7 o environment categories currently applicable to National Missile Defense are 4 D) N3 S+ Q5 }5 V: S& e2 v; XNuclear, Battle Debris, and Electronic Warfare.9 T( @. z6 z0 S w Hostile Track The classification assigned to a track that, based upon established criteria, is . B4 D( E! q: T) ?determined to be an enemy threat. 8 x5 ?) g7 P* FHost Interface The interface between a communications processor and a host computer./ d& k& I" W* M; { Host Nation. n8 o0 c. n; ?4 H3 ` Support % `! y: Z. S n1 b5 o) RCivil and/or military assistance rendered by a nation to foreign forces within its 2 O: Q! l* Q; \3 Q8 c' I3 S% f( Kterritory during peacetime, crisis or emergencies, or war based on agreements% n3 g4 x" T, q! b; U$ g- Z0 r concluded between nations. r" Q3 _4 x0 M1 @0 a0 v8 ]9 A7 J' |2 Ahp Horsepower. . x" V/ x3 u, g7 B8 [" G# _HPA High Power Amplifier.& A) l7 {3 P/ p. H HPC High Performance Computing.& @8 H+ c' M: n) x8 S- q/ w+ E HPCC High Performance Computing and Communications./ T' b2 Q9 _) C$ p. } HPG Homopolar Generator.( l2 U6 n) m2 }/ y6 Z& Z HPI High Power Illuminator (Hawk). V1 w/ W! p/ V HPIR High Power Illuminator Radar. $ }( L1 v# H; T3 xHPL High Power Laser.. V+ o- A: A# J4 l+ L4 p. P/ W HPM High Power Microwave. - ]* J* x3 [% E8 T/ H1 ~HQ Headquarters. 7 [4 _4 a) B# Y1 sMDA GLOSSARY, VER. 4.0 H & n* ~3 z: n! j% J129 $ e# R9 n9 J% O OHQMC Headquarters, Marine Corps. . V; X, A7 M. \' F2 I5 iHRDS High Resolution Display System.8 y9 S! b v0 K! Z6 e HREPS Heavy Replicas. q7 L$ e# E* Z6 d HRR High Range Resolution.9 v. o1 J9 v: f HRSA HICTB Requirements, Support and Analysis.; b5 \5 |+ u2 E* I! _6 v HSDB High Speed Data Bus (TelComm/Computer term). , ]. l$ B6 T# Y h% H iHSFB High Speed Fleet Broadcast (Navy term).# w3 o; i4 ~: q6 @* V HSI Human Systems Integration. $ h5 i9 o, Q1 z9 a& `; W8 JHSV Huntsville, Alabama.! O* q: m) R; } HTICIA High Technology Crime Investigation Association.* h0 D* n. v/ V w o/ H" d) ` HTI Horizontal Technology Initiative. + C. h" M X( A' B( Q6 |$ eHTK Hit-to-Kill. 6 a3 m6 a2 r% NHTMIAC High Temperature Materials Information Analysis Center. X) a& l2 n" K' x HTML Hypertext Markup Language.0 v% r. { s. L1 [6 ^ HTPB Hydroxy-Terminated Poly Butadiene. ; j0 g$ }' B0 l2 p1 UHTS (1) High Temperature Super-conducting. (2) Hawaii Tracking Station. 2 T5 M' h, |# aHTSA Host Tenant Support Agreement.; s9 q& w2 L/ [: ?: n$ b' H HTSS Hardened- sub-miniature Telemetry and Sensor System.2 J9 s: v# J! H6 P# s+ @ HTTP Hypertext Transfer Protocol.2 E3 h+ L2 x" k1 F5 B HUD Heads Up Display. ' ]% }/ j9 j6 Y% F7 u3 Q5 kHuman Factors A body of scientific facts about human characteristics. The term covers all 8 @ i8 f: t0 d: m0 p% {biomedical and psychosocial considerations; it includes, but is not limited to, 9 Q: Z' c, e% L; ]principles and applications in the areas of human engineering, personnel2 F. y" Z1 p: X3 Y2 l9 x7 K selection, training, life support, job performance aids, and human performance 5 s( M: t! C3 p5 R! bevaluation.+ e- b+ x0 I- X Human Factors ' X5 C1 m& o( REngineering ! l ~; a" t. h8 [' EThe design of man-made devices, systems, and environments to enhance their( ^4 C2 I- c2 c; J" Y) [3 d' ` use by people. Also called human engineering, human factors, and ergonomics.

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