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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./ l' Y+ p3 f5 F: a+ V, ?" z ELS Earth Limb Sensor. . ~9 v# f5 C( w$ I/ ] d) rELSEC Electronics Security. / k9 t0 A! {6 j& b) J. s$ p/ ^0 RELSI Enhanced Longwave Spectrometer Imager. * E3 w! {4 `' XELV Expendable Launch Vehicle.0 \3 a2 \, a' e+ n, f Emanations' L9 q2 Z3 R. {9 R Security" D" h3 J6 \+ y. r7 l7 e4 ^' j (EMSEC)( a& Y+ N. Q9 B1 n( ^0 g/ x3 h9 R The protection that results from all measures designed to deny unauthorized# n; L4 r2 P8 a/ ^ persons information of value that might be derived from intercept and analysis of : N- Y, k+ W7 N8 h# J2 _compromising emanations.+ B! }( @8 g: x2 U* e4 I! i/ J) R) r EMC (1) Electromagnetic Compatibility. (2) Early Midcourse.! w8 v" w" C6 h0 g- |/ q7 m( g EMCON Emission Control2 h# d* D) X4 ^, H EMD Engineering and Manufacturing Development (previously referred to as FSD).- ^; r: v" i/ w$ z+ {$ E6 ]& U% z EMDCT Expanded Memory DCT. - }, V( ~, f0 |EME Electromagnetic Environment. # ?; Q" f- Q- z; aMDA GLOSSARY, VER. 4.0 E4 L/ `2 ~2 `# W8 ]! H/ `6 G 93 3 b( d/ g9 K, v2 B z! }+ g% u& {Emergency- [) b. _5 L3 @ Capability / B+ s3 W' l8 @6 Q. S8 S, J, `(replaces" \3 z5 \5 t5 h9 R" l5 b" v Contingency7 S1 |/ S8 J. C Capability) ) H+ ~6 Z0 b* K, G2 F4 }8 w mBMDS elements or components that are still in development or testing that 7 P! o$ T; f/ t8 Uprovide limited ballistic missile defense capabilities. MDA, working with the ( ~0 g" ^6 r0 v% q+ O" g5 N3 x e& `& VServices, will develop plans, which cover the potential use of prototypes and test% p; P; s8 i5 [ assets for contingency deployment should the SECDEF determine that an& q& ? k# Z# k2 D% i+ F4 u+ @ emerging BMD threat requires emergency fielding of a BMDS capability.4 W: E% `# _ f4 v* E EMF Electromagnetic Field. / i* J0 Z: i. m: m- P+ b, HEMG Electromagnetic Gun.% |( q6 c* E0 E EMI Electromagnetic Interference. ^0 T T0 a1 ?9 ~) c, u) z+ J1 ZEMIP See Exoatmospheric Midcourse Interceptor Program. ; I( N# H( p' o6 BEmission Control 2 G) H1 p- }, k' b& ?) U) K4 R5 k1 m(EMCON)5 H, i4 U% Z( Z1 S The selective and controlled use of electromagnetic, acoustic, or other emitters / F/ o0 F9 Y: ~) o, a1 Oto optimize command and control capabilities while minimizing: a) detection by" T* d5 j$ Y) v* @9 X enemy sensors, and b) mutual interference among friendly systems. EMCON- `2 V: o9 l+ l; b1 z can also be involved in military deception plans. Also called EMCON. D7 s: r; [! @, KEML Electromagnetic Launcher. A device used to launch hypervelocity particles.9 F# s5 p. c1 b( ?- q EMP Electromagnetic Pulse.3 j8 m* O) @! u2 @; T' H EMPSKD Employment Scheduling (USN term). g E0 j3 ?0 ^/ J/ z( k EMR Electromagnetic Radiation.1 \8 E) b E7 m/ f" G EMRLD Excimer Moderate Power Raman-Shifted Laser Device. * ^( V4 I; T6 R9 s7 C$ N) ^$ WEMSEC Emanations Security. * j) ]2 q* g. }5 i GEMSP Enhanced Modular Signal Processor. $ L& y' E N Y F& [' f; p+ Y5 OEMT Engineering Management Team. % C0 I" L, R3 h* w. u# x* |EMV Electromagnetic Vulnerability.- Q2 s9 i1 ~; T: |' k! U ENA Engineering: Architecture and Analysis.5 s' z: Z% |* X* j ENCATT Engineer CATT (US Army term).% `- c: N1 b* K Enclave Isolated resource – an SDS asset that has lost connectivity with other SDS8 h" k' ^% K1 W7 b3 c& h4 h assets with which it normally has connectivity, but is still capable of coordinating {. H7 t3 A3 Awith SDS assets to conduct ballistic missile defense. Various combinations of 5 |$ F- a, r1 C# G/ p5 z: Rconnectivity losses are possible; for example, (1) an operations center has lost 5 V- m; v& A# k b: @- y* L# x5 Jconnectivity with Higher Authority, yet can still provide sufficient C2 and can still! j/ T) Y' ^$ O7 X* u connect with sufficient weapons and sensors to conduct an engagement and (2): V& E8 B% R- w( V7 ^( c, I an operations center has loss of connectivity with another operations center with ; b% T& ]/ f' q" Gwhich it normally shares data, but can still conduct an engagement. 2 j e. `" ~& h. y7 B+ y- z; q: e8 h+ SEndgame FOV The field of view of the interceptor’s sensor during its final maneuvers after target 9 J( [+ o5 s; B0 dacquisition to intercept the target. May be less than the acquisition FOV. ' d/ @; |0 l; m/ [# ]7 i& cEnd Item The final production product when assembled, or completed, and ready for2 q h. f% s1 w; _6 i issue/deployment. 9 C! L" i/ A2 U1 S1 s: ? }( | `! FMDA GLOSSARY, VER. 4.0 E1 Y0 C1 @8 n4 y6 `. k 94) F% I, |1 P* W2 e* r, ? Endoatmospheric Within the earth’s atmosphere; generally considered to be altitudes below 100 * b k. g+ c( X" s7 e+ t8 @km. An endoatmospheric interceptor reaches its target within the atmosphere. ( o, Y7 @8 i- w& zEndo-! f$ O2 ~9 o3 t* n+ w* M Exoatmospheric % |1 \9 j* W* i2 ~: t$ m& F4 nInterceptor (E2 I) 4 N8 x/ X5 z S6 l4 A( IA ground-based interceptor capable of engaging RVs either endoatmospheric or5 \1 k$ l# l6 y$ Y exoatmospheric. (Successor to High Endoatmospheric Defense Interceptor; v: z5 \$ }$ G# w (HEDI).)& f6 r0 K5 X+ Y ENDOSIM Endoatmospheric Simulation. 2 d- J" P- V% y" N+ I/ V3 \- REndurance The time an aircraft can continue flying, or a ground vehicle or ship can continue- Q2 C6 E0 A7 ]% d operating, under specified conditions, e.g. without refueling. " b& S7 n9 I6 U: x* `- C$ B4 [$ r9 nENG Engineering. 4 M# f/ H2 w' m* J8 n$ fENGAG’T Engagement. V8 s3 H4 T# V/ s6 J9 I, B- ]- _Engage (1) In air defense, a fire control order used to direct or authorize units and/or; d+ ] @# T% V5 {; H weapon systems to fire on a designated target. ! k4 v9 ]5 Y' M(2) In air intercept, a code meaning, “Attack designated contact.”# G, U9 j' M6 I! q [, ?6 G- u6 A Engagement (1) A period of hostilities beginning when the first ballistic missile target 4 u- @) X0 [) u$ t5 H: B- G; z4 Rundergoes fire from the first defensive weapon.* N6 J1 o9 Y( i0 I (2) A period beginning whenever any hostile object is identified (designated) 3 A: n- g/ ^3 A5 N Aas hostile and ending after the last hostile object has been attacked.6 K+ t$ I& }- v' ?9 V0 v (3) In air defense, an attack with guns or air-to-air missiles by an interceptor( ] o9 c0 o% j$ q* Y6 ` aircraft, or the launch of an air defense missile by air defense artillery and A* ]* X0 X. o) x) G9 lthe missile’s subsequent travel to intercept.& J, P1 } P6 L: x( L# S/ h Engagement : M! i( k- Z! }Authorization8 }2 k) [5 D9 e- }3 D The authorization given to USSPACECOM to use weapon and sensor systems1 \+ x+ K' K; B7 M8 o under previously coordinated and authorized rules, procedures, and conditions.- a, t9 @' X# M3 [ Engagement* L/ Q' V5 Q6 }( Z Control& h% ]- l- L- C) A& g7 q9 V (1) That set of coordination, assessment, decision, and direction functions: W% y, H' X- a# w1 d P) f normally implemented automatically to execute the selected battle plan, , h( V8 l- n+ L/ J! Omilitary strategy and tactics within partitioned battle spaces (i.e., a- i+ B. H* F& w) S- W spatial/functional subdivision of battle management). Includes the ) w* g; | N# @/ Hdetermination of: what specific objects to intercept in order to implement + S) F3 E2 o; C; Tthe selected military strategy, and which specific interceptors to assign to 9 t' ~4 J# a; geach attacker to implement the selected tactics within the rules of: M0 l3 x3 y; Z# Y B" C4 [' S engagement. ( L7 T/ p0 O! r' f: e% C, b(2) In air defense, that degree of control exercised over the operational - Y' m8 ~! w! P0 A% Afunctions of an air defense unit that are related to detection, & o& E4 y; m/ qidentification, 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 , @0 {0 [ W8 m! N7 ~3 jPlanning. Q3 J% f( ?" n" Y- K$ c9 v A set of rules and parameters to be used in developing weapon-target1 P' y# l2 N) z* @+ Y: O+ _ assignments and for sensor resource management. (USSPACECOM)7 |9 L! Z" Z4 _. o2 t6 h9 ]8 G Engagement' A, [: S) R' f0 z+ C% I# l Surveillance& ^7 D/ Y9 D( q0 a; S The surveillance required to support RV negation in the midcourse tier.) Y5 ] r" \1 x5 q' ?) [ Engagement : x' a% r1 Q4 t# c& p6 L( ^Time$ h( @( |3 \% H( G* r4 r! I The time that a weapon takes while engaging a given target. This includes not 9 S2 G" S7 {* O8 ]6 aonly firing at the target but all other necessary weapon functions involved that4 Q' F" Q; \5 _ are unique to that particular target./ e y& m( O5 C7 ^1 F' D6 R- d% g P MDA GLOSSARY, VER. 4.0 E# x" d/ u# x4 w: ^; p5 X' D 95 " m ?4 W# [! H: u' zEngineering and: H9 ?/ o: q5 ]* f- l Manufacturing 6 S2 {6 V* z& w3 W) IDevelopment( J4 C. @. @( C g (EMD) 7 M$ ?8 \9 [: j# C# [The third phase in the acquisition process, following Milestone II. The system5 \: B$ N2 s3 A3 y and its supporting items are fully developed, engineered, designed, fabricated, 7 w; H9 s. M; C7 utested, and evaluated. The intended output is a pre-production system that9 @$ o* B5 N4 i6 O: v closely approximates the final product; the documentation necessary to enter the 9 t8 c) P5 j- ^2 F8 ^production phase, and the test results demonstrating that the production product 2 [, B# K: }) ^7 ^' j9 x+ iwill meet stated requirements.9 I/ w- W* r0 } Engineering' F5 }( B6 F2 ?; @$ t0 f1 ^8 @ Change Proposal . T8 k/ Y3 K; p2 z) e(ECP)( g% \9 m1 i1 b0 w* t A proposal to the responsible authority recommending that a change to an/ {" r& w$ i' J; q0 }* l& I9 u0 b original item of equipment be considered, and the design or engineering change * c8 t1 X l1 V& i& s7 Ybe incorporated into the article to modify, add to, delete, or supersede original 6 _" q2 R0 m2 [- \+ oparts.9 L! I2 Y3 J3 _6 g h" K Engineering ! Y+ y# A- h0 q0 g/ |Development& B3 R, e" |* ` A funding category including those development programs being engineered for8 g9 N9 J& a; |/ ?: D service use but which have not yet been approved for procurement or operation. ( ~% O B3 S3 H$ \" N) `Money under budget activity 6.4.8 V0 ~. X1 a4 ?0 Q9 U, _' I# U Engineering/ @5 q' G4 _2 A$ Z6 r, c Development 4 N; v9 T% O7 \Model' `9 r( \7 O5 t. v5 T! S Enhanced Target # @' {1 w3 A! `. X$ E$ y, r4 |Delivery System 9 U& D: a: Z% Z, p3 T" N2 |(ETDS)) ?9 z1 j2 [/ P* T% J An advanced prototype used during the Engineering and Manufacturing : F+ i% Z; {# e \6 ]Development phase (EMD) to resolve design deficiencies, demonstrate maturing 7 q6 U9 J: t* ~) P6 gperformance, and develop proposed production specifications and drawings.0 h# Q5 q" h Z& U) H( j Target delivery system being developed for future GMD testing that will) T# S: J$ S( Z8 k. U$ P$ s7 y4 R complement existing systems, provide flexible, modular configurations, and will % w' l3 k8 s/ i& o* f+ g* u; F; }be launchable from land, air, or sea modes ( O. G d3 V2 u) w! F5 P z, c$ v* eENNK Endoatmospheric Non-Nuclear Kill. 9 x1 [) Z0 P& Q! `# @ENSCD Enemy Situation and Correlation Division (JFACC term). ]8 w2 w5 A' W/ \7 ?! \Environmental7 @6 [0 S+ V: F- i5 g: N0 ] Assessment (EA) 6 j U0 w8 N6 ZA concise public document whose primary purpose is to provide sufficient" ~/ M0 Y r* G2 {$ ` analysis of environmental effects of an action to determine whether to prepare 9 U' r( S! u/ ^7 j8 Q, Tan environmental impact statement or a finding of no significant impact. # I# u f @: c$ v2 {8 q. | P. GEnvironmental9 r/ u# J) {$ c1 a* y Impact Statement 8 q. d6 m" M2 c( l2 I/ P(EIS) C# }- j+ z8 }3 \ A detailed written statement analyzing the environmental effects of a major% @' I' v) v: T8 i! U7 j8 J: ^ Federal action. ( b" J' \& x: `Environmental! x+ ^: Y" ?8 b Security! Y, r" l8 L! _- Q, D3 N4 m. w" E A specialized form of physical security that prevents technical penetration, e.g., " `( W3 e _( C9 n' ]* P" [penetration by waves of electron beams. 5 @: Z8 }) w% g: L) EEnvironments The media, conditions, and/or physical objects in which a BMD asset is immersed ; @; D! `) ~8 _2 \6 e4 bor surrounded. For BMD systems and elements, the comprehensive5 U$ d1 }5 x* e Z4 w( S environments definition consists of natural, hostile, induced, and storage, 7 Y* d/ }2 B' U- N: `% L- N; n) btransportation and handling categories.4 P' |% `6 N' ^5 f' s2 c( r EO (1) Electro-Optical. - E+ z2 @0 b; ~& `- q, {6 g. W(2) Engagement Operations. , P& X* d* g1 o2 ](3) End Office. ; A1 j. M. Y0 w( _3 l7 q2 Y(4) Eyes Only. 3 Y4 L# `& s tEOA Early Operational Assessment. , g7 X4 A0 r, K+ H" a) v; S, {EOB (1) Enemy Order of Battle.$ m4 Q7 J& s9 N X* w (2) Electronic Order of Battle.1 n$ w7 o- \. \% a EOC (1) See Element Operations Center. 6 l: M$ D. B0 Q. C; n8 S `(2) Emergency Operations Center 4 Y( k' j/ t9 _4 wMDA GLOSSARY, VER. 4.0 E- ?2 J& c$ D& | 96. W' Q/ I" i1 Z/ V) E& x EOCM Electro-Optic Countermeasure.3 L. B( k; U: C1 P9 E EOCT Element Operations Center Test Bed.' j" k C/ T/ [0 b, N- |/ g( n EOD Explosive Ordnance Detail/ S% r0 Q8 j8 Z7 b. N" X EO/IR See Electro-Optics Infrared.' r" p. q5 p! W* F/ Z6 w) C EOM End of Message. % f0 J6 [4 u( L REOP Executive Office of the President 2 n9 H' [& N- p; X+ R; tEORSAT ELINT Ocean Reconnaissance Satellite (US). @5 ^3 b" [" I( @8 }6 U EOS Earth Orbiting System (NASA term). ; R) Y+ r, x1 _! O& xEOSH Environmental Operational Safety and Health. # a+ x, A; t+ jEP (1) Engagement Planning. (2) Evaluation Plan ; l# _% W" v/ |" o$ `EP Cycle Engagement Planner Cycle (NMD BMC2 term). 1 ~8 |- u; t8 N+ J: `. kEPA Environmental Protection Agency.6 X* n8 Z( w# _, T6 I4 b EPD Engineering Product and Development" Q. ?. ^4 w5 b: \7 l0 _ Ephemeris/ Q6 { e% @8 B/ R- Y9 h' PEphemerides* e+ X$ S' H1 |6 j7 t (1) A table showing the positions of an object in space at regular intervals of . {3 j( E! r8 h3 {/ Ntime.* |+ n/ c$ m. a (2) A publication giving the computed places of the celestial bodies for each o" A; }* S7 r: ]; n! B4 ?day of the year or for other regular intervals. # F/ N T+ M5 g: a' ^EPITS Essential Program Information Technology and Systems. 1 O) P: E* ?5 {: J+ fEPL Emitter Parameter Listing (USN term). _- E: d4 W* N9 g- x/ Y( VEPLRS Enhanced Position Locator Reporting System. 4 N) }: E4 G6 W4 K0 GEPO (1) OBSOLETE - ERINT Project Office (US Army term). (2) Element Program , N" V/ u! n: n4 j' POffice.2 h6 m' {& g' F. ]" m4 E5 a9 ^/ L EPP Electric Power Plant (PATRIOT).2 Y% ~: q. f. o0 C+ e* z8 o. m EPROM Electrically Programmable Read-Only Memory. ' t( Q7 r& F1 D9 aEQEC EurQuantum Electronics Conference (See CLEO). & X/ E# N, k8 N r: Y+ z' gEquipment : C& A0 M. |/ L" ^( s4 C% LOperationally* k, a5 k6 c& L: ?7 A1 D Ready ) N8 n3 f- p: f4 A8 P+ z4 zThe status of an item of equipment in the possession of an operating unit that + v. c9 y: W% R+ A: S; D$ e5 F, yindicates it is capable of fulfilling its intended mission and in a system: c- B2 S( t9 y configuration that offers a high assurance of an effective, reliable, and safe7 I; b( s; ^0 u. [8 X: D6 ? performance.# }# z; P& j7 z9 { ER (1) Enhanced Radiation (“neutron bomb”). (2) Extended Range. 1 ^3 c A: c' [$ J% u5 }: XERA Explosive Reactive Armor 9 N1 Z# d3 f+ V6 l# GERADCOM OBSOLETE. Army Electronics Research and Development Command. (Now 6 W7 Q) O( B0 Z# \Laboratory Command (LABCOM), Adelphi, MD.)$ C0 M3 g8 `, Z MDA GLOSSARY, VER. 4.0 E. l% r( p% E, b 97 % K4 ]- K+ e Z' I& yERCS Emergency Rocket Communications System (US).( T# m2 ~1 A. X; R4 s) A ERD Element Requirements Document. . E+ R4 \' {/ \) ~5 H9 h/ _ERG Executive Review Group. 6 ~' K, o% B* p4 a* g2 M8 t2 _ERINT OBSOLETE. Extended Range Interceptor. Now referred to as PAC-3.( B$ |+ x+ x9 ~# x3 V. \ ERIS OBSOLETE. Exoatmospheric Reentry Vehicle Interceptor Subsystem. 5 R* L2 e5 U1 I(Predecessor to Ground-Based Interceptor (GBI).) : ?+ G' ?$ `8 ~+ IERIS(F) OBSOLETE. ERIS Farm.4 ~, g. N' ?; `0 z* h ERP Emitted Radiative Power. : D/ s( H& B9 _6 _7 x+ o- gERR (1) Element Requirements Review. (2) Engineering Release Record.: @+ z5 n9 Z1 {1 q. F+ G d& u ERS (1) Early Release of Submunitions. (2) Emergency Response System.8 I& J; a/ F" u" L7 Y$ E ESA Electronically Scanned Array. ' U6 Z3 d. P; E) u! f$ ZESAD Electronic Safe and Arm Device.& E4 Z' x) E% K; G) w J ESAR Extended Subsequent Application Review.+ y: T0 c( Y/ b; J1 |) _) h ESC Electronic System Center (AFMC), Hanscom AFB, MA.; E r$ H. r O9 a& [ ESCN Existing Systems and Center Notebook. + b1 B. U$ v1 DESD OBSOLETE. Electronic Systems Division. (Now Electronic Systems Center, i5 u% ~2 F! wHanscom AFB, MA.) + |* J1 ~- Z& oESH Environmental, Safety and Health 8 ?% r: e- o# v( e; RESI External Systems Integration. V- S W* a# a+ \& b) HESI ICD External Systems Integration Interface Control Document.6 ^4 o! K; x0 d1 i0 O2 l ESM (1) Electronic Warfare Support Measures. (2) Electronic Support Measures.3 J, d8 G# H( [$ i3 e' f% _ ESMC Eastern Space and Missile Center, Patrick AFB, FL.8 Z5 O& U8 |, N0 D, J( M$ r: X ESNet Energy Sciences Network. % r8 r8 z8 r# Y3 ?1 j7 \+ Y7 ^ESPRIT European Strategic Program of Research in Information Technology. 8 w( t1 h6 y5 ~7 [3 g9 sESQD Explosive Safety Quantity Distance.) V% n- B; O: E: m) p ESSM Evolved (Enhanced) Sea Sparrow Missile. & B' w: E$ ]* Q cET&C Extended Tracking and Control. 3 J2 V. q1 O/ Y: a' BETA Estimated Time of Arrival. ) q$ D( ~5 f) g; {ETC (1) Electro-Thermal Chemical. (2) Estimated Time-to-Completion.+ ^* U+ j: K7 B) x- k9 T+ x ETD (1) Estimated Time of Departure. (2) Electronic Transfer Device.# c7 [7 a3 d0 [* n0 F* }' j! k MDA GLOSSARY, VER. 4.0 E) i( {( }, U& M5 t: Q. q, B+ l 988 @" b- \5 J$ w ETERTS End-to-End Real Time Simulator. * m p( V" H" C" |0 s" U o7 cETESD End-to-End Sensor Demonstration.6 |6 A. s1 v0 z) z ETI Estimated Time of Intercept. : m; M/ K/ M: {5 A) L' s+ d6 A5 b! WETIC Estimated Time for Completion. * l- F& n# R" h/ ^- T6 FETM Engineering Test Model : U' |$ a+ E, y1 Z' a E( ?ETR (1) Extended Test Range (Pacific Test Bed) (2) See Eastern Test Range. (3)$ Y9 D( G' t; J8 J Environmental Test Round. (4) Estimated Time to Repair.. _, C" ?# _9 g4 K, d& a ETS (1) Experimental Test System. (2) Experimental Test Site.! A4 i' R5 g9 x& x EU European Union [formerly European Community (ECI)] 4 _, O0 b" p$ `- S2 S0 |EUCOM European Command. See USEUCOM. $ _8 s7 ]) c6 u1 p1 u' R( ^ L+ MEURATOM European Atomic Energy Agency." K) }3 f N; y$ P5 _ EUREKA European Research and Coordinating Agency. 1 |: k+ O4 M- t1 T# X- t& TEUT Early User Test./ R1 o0 s/ g' b3 Q h, D/ A EV Experimental Version" ~* N6 M- e+ ^7 F8 ]# Z EVA Extravehicular Activity. " [8 E& y+ f8 u& ]2 {0 wEvasive MRV A reentry vehicle, which maneuvers for the purpose of evading defensive, g' ]2 O+ n# s: {, S4 Q: n( ~! l weapons. ( C& a m; S) N2 KEvent Based3 W! n* c3 _9 L8 Z3 `7 Q8 C o. Z+ s Contracting 2 \0 A! \5 |9 p, ?9 u0 r/ qSupport “event driven acquisition strategy” by linking specific contractual events ' S3 d+ m" u: t6 n; H# bto the “exit criteria” for the acquisition phase, or to intermediate development* k9 [% K6 b7 l/ n- [3 Y events established for the acquisition strategy. - z( L5 }, v: G6 {% U6 C$ BEvent Driven; e6 M( @- T4 I: X/ x9 l) Q% M3 ] Acquisition& ?4 a4 P3 s0 y% ~7 W P7 \ Strategy % I4 N" @7 U6 @, i ~An acquisition strategy that links program decisions to demonstrated6 B4 b5 N( P3 ~ m* X accomplishments in development, testing, and production. 7 Y3 P0 Z6 e. V: r8 i; bEvent Validation A sensor element internal process that results in a determination by the operator ! Y. V6 {: Z# p- E; ]1 u. Othat 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, Z3 \1 e# j6 y+ M Verification * u* ^, F( g4 O( l6 ]; T, aThe process by which it is decided, from SDS external data, that the event : Z. ~( ]4 p! L+ w$ P6 U. Mreported is real. 7 |) U( S7 S) g: r7 W6 WMDA GLOSSARY, VER. 4.0 E # k9 R, p% g: p5 W99) f7 s" t# g' L9 Q! b Evolutionary9 q) ?* F4 x6 g; O0 u& b0 l, t Acquisition ' `; T: J6 A* \! P! g(1) An approach in which a core capability is fielded, and the system design has & C# p) ^# t4 s' K* y- Ia modular structure and provisions for future upgrades and changes as; l0 e9 S$ H' h. \ requirements are refined. An evolutionary acquisition strategy is well suited to9 }" _6 B% s7 n high technology and software intensive programs where requirements beyond a: Q& m3 G$ v. v& |6 T g core capability can be generally, but not specifically, be defined.1 B% I+ K, L4 ] (2) An acquisition strategy that defines, develops, produces or acquires, and & l H D8 @7 r9 F3 |0 G. ^fields an initial hardware or software increment (or block) of operational capability. & m0 a% T% @. A, F- A( j& A# q, a# JIt is based on technologies demonstrated in relevant environments, time-phased* g$ h7 _: Y, S4 F6 | R0 ` requirements, and demonstrated manufacturing or software deployment ; ]3 l' e4 S }* b: e* N3 rcapabilities. These capabilities can be provided in a shorter period of time, 2 _& q1 W' Y3 a7 N0 u- Vfollowed by subsequent increments of capability over time that accommodate " p* |" ^9 R1 x! {. Simproved technology and allowing for full and adaptable systems over time. Each 1 _- W7 I- _; \' o" e# p) lincrement will meet a militarily useful capability specified by the user (i.e., at least5 f- b0 I7 R# b the thresholds set by the user for that increment); however, the first increment! I* f6 B3 \7 r. s O: d( P* s may represent only 60% to 80% of the desired final capability. (MDA Lexicon) 6 l, u" k& |* E3 V! g. N9 kEvolutionary ( B u% b) d0 t. ?Requirements . M- o& W h, v3 ?$ S# `Definition3 `- V, o; z* z( Z, k" W' o, E Mission needs are first expressed in broad operational capability terms, and then8 F3 {4 ?/ \( B" b progressively evolved to system specific performance requirements.+ y* K. M* Q. B EVPA Experimental Version Performance Assessment.5 l4 W1 O! B: R# o" w F O EVPA/TEVS Experimental Version Performance Assessment Test Environment System.* ?# O2 k" [$ m7 I4 d' M7 t EVS Enhanced Verdin System. ' t* u0 S ^2 l5 p qEW (1) Electronic Warfare. (2) Early Warning. F/ U4 C, Y: y9 y _# C2 Z EW/AA Early Warning and Attack Assessment. 5 }! `+ \$ E6 J+ c" mEWCC Expanded Weapons Control Computer (PATRIOT)." \. ?. k6 C1 p; \ EWDA Energy and Water Development Appropriations (US).4 n! v, ^( T, i9 v EWG Event Working Group. V0 x) N6 S2 {( t9 g- n% L EWN Early Warning Net.9 n( |; z" L f- m- { EWO Electronic Warfare Officer. 5 `: T2 }' c1 ^EWPE Electronic Warfare Pre-Processing Element.4 B8 ^8 Q$ K0 l4 R0 k3 M EWR Early Warning Radar. . B d) ~9 i8 Q% ^$ @9 Y \EWS Early Warning System. 4 f% l: A/ l9 NEXCEDE Electron Accelerator Experiment. 3 S, b2 U# n# n: X8 ZExcimer A contraction for “excited dimer”; a type of lasant. A dimer is a molecule / J* g+ G. o! L1 }consisting of two atoms. Some dimers (e.g., xenon chloride and krypton fluoride) ( b1 v \/ l0 X" [6 b8 f8 Uare molecules, which cannot exist under ordinary conditions of approximate / e3 R" K: R3 {! J" pthermal equilibrium but must be created in an “excited” (e.g., energized) condition& F" S9 p1 u) z9 t3 p# N! k F by special “pumping” processes in a laser. + ~# b& N9 ?4 p+ @: CExcimer Laser 1 b# U$ Y- k0 E8 [(EXL) 5 t( ?# v# E9 aA laser in which emission is stimulated when a gas is shocked with electrical3 E# R6 h' f6 @/ u energy and the excited medium emits light when returning to a ground state.. j6 k: W6 n) _2 k! o MDA GLOSSARY, VER. 4.0 E& Y! Y# w) @% t4 A5 Q 100 ( W3 f& C8 z. t; }EXCOM Executive Committee.. L5 u- N: Y+ J9 c Executable }) h2 N3 o. i9 RProgram+ f2 q! D6 I9 |' B1 S. u A program is executable if the PM has adequate near-term approved funding. % v3 ^2 R+ S6 H# j* f: y" q2 eExecuting Agent The individual within the executing element assigned responsibility for managing ' q) `/ Q0 o1 w6 T2 g4 dMDA funded programs.$ w0 Y" C5 \8 l6 Z0 N9 W# t# U* h Executing1 Z7 T: s4 A( L* i. V% W$ q3 \ Elements / y3 R( k" i# ]7 M! y E* U2 l: zAgencies or organizations (DoD or non-DoD) that are managing BMD-related 2 A% O" }" j% T0 tprograms.9 }; t$ h' E) v' n Executing5 _5 }- D* Q7 D1 b* [ Responsibility ; b% S: e/ Q1 E# {* `: ~Program Manager responsibility. ' ~' g" c6 `0 f; p4 `. d" wExercise A military maneuver or simulated wartime operation involving planning, . s3 Y9 p$ \1 ~6 b6 L, { Rpreparation, and execution. It is carried out for the purpose of training and : ` K- w% h4 a3 N6 ]evaluation. It may be a combined, joint, or single-Service exercise, depending* Z8 U3 z" I3 \ on participating organizations. See also Command Post Exercise.6 x; V* B E9 A2 ^9 H6 Y+ L Exit Criteria Program specific accomplishments that must be satisfactorily demonstrated / v) O* E3 K) t( M: j% N7 E: f1 Qbefore an effort or program can progress further in the current acquisition phase; W- z- r4 v6 V( z) g9 i+ ` or transition to the next acquisition phase. Exit criteria may include such factors ) I% a# y/ b: j5 B( B$ n( {" |as critical test issues, the attainment of projected growth curves and baseline- A: o- k2 P& T& c9 K parameters, and the results of risk reduction efforts deemed critical to the, t+ W, T/ M1 D4 P& |: u decision to proceed further. Exit criteria supplement minimum required ) V/ p; w4 N; p* B4 jaccomplishments and are specific to each acquisition phase." y. F2 Q! y9 F6 ^9 |6 j& I EXL Excimer Laser.. p! v# K3 ]9 ]5 k# e2 S1 B7 r' T Exoatmospheric Outside the Earth’s atmosphere; generally considered to be altitudes above 100$ l e* k0 |4 e" ]. S2 J, t km.# m* E2 A @$ b0 v, n Exoatmospheric ) X% V' l6 q0 I. D( _2 iReentry Vehicle' Z5 ]/ E# v6 a5 ?2 v# \ Interceptor & d7 V0 r( M5 K; c7 CSubsystem. V/ W( n1 H: U' K8 x z (ERIS)3 `2 U* l8 S$ A- Y0 Q: n OBSOLETE. Interceptor designed to provide functional test validation of GBI.8 v6 l: G! c% R Exoatmospheric4 C' {& o3 j; ] Test Bed (XTB) 3 y- s/ ^: H/ B3 RFlight qualified and range integrated vehicle to support other programs such as; `3 E7 ?4 r! Y3 B$ ]1 e8 ^ GBI-X. 9 ~5 w, U( i4 ~" i2 q# NExo Decoy A decoy that matches RV signature exoatmospherically. Exo decoys can use1 m" B S. E% H& F radar and/or optical means to deceive sensors.; ]% V: D j; ^: S8 D Expert Systems Software programs, which use artificial intelligence techniques to capture and' T5 l3 M7 t$ k) k5 V9 ~4 Q apply the non-algorithmic knowledge and procedures of human experts. 0 `- @* A7 Z' @0 vExpired / _ d3 ~+ L8 m. l( x ?4 o- J/ `- vAppropriation ' [. U; s- [' J. i# vAn appropriation that is no longer available for new obligation but is still available& J9 N, F+ O/ z3 @9 p$ e' |) n for disbursement to liquidate existing obligations. Under current legislation no9 x# n7 t9 m$ I6 \& o disbursement may be recorded or paid after a five-year expiration period.9 K9 g- i& }; r% H7 W% c Maintains all original accounting identity, e.g. FY, appropriation, PE, etc.! T \6 I" M1 _" k+ M" L T% W EXPLAN Exercise Plan.* ]. n$ Q2 o& b: _5 G Explicit! u3 j3 @9 F z, z: F# I8 k Coordination4 J2 ?4 ?9 S0 c8 B A battle management technique which communicates results, decisions or* L0 X5 h. Z% \' r4 N7 {( a' H command from one battle manager to another, usually from a higher command # ?0 `. o& z8 U ]/ Y Ito a lower command. & H2 \5 d" ]2 J% t' PMDA GLOSSARY, VER. 4.0 E 9 j% z0 s% `5 I& l( _ C- ^- Y1014 g4 K. h, L' P# z9 Z# t Extended + C9 V$ B, j" CPlanning Annex) |% ^! j W0 B' } A document providing program guidance for an additional 10 years beyond the 4 f D0 ?4 f# ~1 x+ D. L" _4 B. Y6 bPOM. ! e- A8 _4 g$ o. [& BMDA GLOSSARY, VER. 4.0 F - g1 h1 w4 m2 X2 s u) P# i103! ~, d+ A! p$ c6 g! n/ Y F (1) Fluoride. (2) Fahrenheit.3 W, m5 `6 m- L& Y) k* E F/O (1) Fiber Optic. (2) Follow-On.8 p! M' v- a6 [1 H N5 o, I. [ FA (1) Field Artillery. (2) Feasibility Assessment. / O5 A9 t1 K, _FA/RD Functional Analysis/Requirements Definition.9 d& p5 }* ^1 S6 l4 J9 R0 T0 j FAA Federal Aviation Administration. 7 b, g$ F5 l9 H' i4 ]/ ~! @ LFAAD Forward Area Air Defense (US Army). 2 U& i4 |, I% R# P( c' yFAAD C2I Forward Area Air Defense Command, Control and Intelligence. ( {9 y7 G5 V+ y! W* P6 O( w4 hFAADS Forward Area Air Defense System (JCS term). 6 Y+ i3 ?4 a; RFAAWC Fleet/Force Anti-Air Warfare Commander. K4 B) g# M) pFAB Fly Along Probe.9 n! h5 d/ f) A3 i& \! O G" C Fac Facility (MILCON term).+ b7 J9 a: A, O2 y0 G FACP Forward Area Control Post (JFACC term). 9 p+ C# K& j; yFACSPMF Federal Agency Computer Security Program Manager’s Forum.6 X0 h( t4 u% }5 r1 b/ }$ ]' F FAD (1) Force Activity Designator. (2) Feasible Test Date. 5 j) O6 W) E) l" |6 X# u- Z1 A( jFADEC Full-Authority Electronic Controls.: W* J) V1 i! e; ~ FAFB Falcon AFB, CO. d9 r2 }- d: Y# s- S, h FAFBR Falcon AFB Regulation4 X, i' `; W( `$ k# M9 X7 U6 Q) p; U Fairing Structure to protect the payload during ascent phase. 8 ^' \# m; H' uFAIT Fabrication Assembly, Inspection/Integration, and Test. 2 u4 }$ `, e: O/ I* cFALCON Fission-Activated Light Concept.' J! D3 v1 t0 u FAM Functional Area Management.4 |9 w! `. V4 m4 Y* k- y) _8 Y FAMIS Financial Accounting Management Information System. # _- W: ]2 X% L* b. OFAMP Facilities Acquisition Management Plan. ! c0 u) F4 M* [& ZFAMSIM Family of Simulations (USA term). 9 c9 J+ V* z- w3 ?FAR See Federal Acquisition Regulation. * e. I9 u# v" R) |' M$ d% tFar Field The region far from an antenna compared to the dimensions of the antenna and/ }9 G7 t0 o* x6 C4 C5 P7 W the wavelength of the radiation.: R0 U4 c) f, V: ]( n7 q FAS (1) Fly Away Sensor (TCMP).. z) \4 K( W% Y5 K2 K" f/ k (2) Federation of American Scientists. ' p* }' x! `; Q4 h% Q7 y; o kFAST Facility Allocation Study Team. 6 r/ O J6 K& [( h1 XMDA GLOSSARY, VER. 4.0 F ' g+ ^8 B( W( a( ]0 R3 N- z' f8 L104 * R" W0 z% i: n. K( T! BFast-Burn1 _: Q$ i0 V2 @$ Q Booster (FBB); _. G7 J& _, R A ballistic missile that burns out much more quickly than current versions, e2 R1 h9 C/ G9 V' N) U* Spossibly before exiting the atmosphere entirely. Such rapid burnout complicates 0 S, r, b$ K" Ya boost-phase defense.. w! A' j5 L, P* c* ^: | FAT (1) First Article Testing. (2) Factory Acceptance Test. " z9 B, f" |- x2 g; O' r! h% rFault Tolerance The ability of a processor to maintain mission effectiveness after some/ L. W7 Q; G+ I( c) [$ I* V/ r& n4 D subsystems failed.* X0 H& Y# D) {8 Z8 _ Fax Facsimile.! \+ |- |% K& `9 g+ v0 p1 | FBB Fast-Burn Booster. - q/ u: R2 O7 c" K; }FBIS Foreign Broadcast Information Service (US). ; k8 ~; n1 C! J' m, GFBM Fleet Ballistic Missile.- W, R% d) W$ S% E FBMS Fleet Ballistic Missile System (USN term).6 m5 A' H1 W$ ?, a& ~, c* }$ g% x FBP Forward Based Probe. % }. w x5 ~6 K! @FBR Forward-Based Radar (US Army term). , I+ B c2 r! ?- IFBS Forward-Based System. , J9 e/ E ^8 E. E. @/ b7 W) [FBXR Forward-Based X-band Radar.5 t( W l+ q( ]1 n, [1 H FC (1) Fire Control [of weapons].$ W1 e$ Y: |3 L. x3 ? (2) Fund Code.( a0 r' b; A& M6 F S FCA Functional Configuration Audit. 8 M9 K+ [0 w& N4 r' `, O# F4 _FCC Federal Communications Commission.0 @; G* C& P' s2 b FCCM Facilities Capital Cost of Money.2 r, J$ r; W- F e0 X FCN Fully Connected Network. / I2 O, L0 t9 M; L8 T4 G+ n! YFCO Field Change Order.; d7 R7 n7 d3 m/ G# M FCRC OBSOLETE. Federal Contract Research Center. , O1 `7 `! q2 I+ VFCS Fire Control Section.

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FCT Foreign comparative testing. 0 f3 _0 R; ~& NFD First Deployment.2 A' R4 a/ p0 I FDA Food and Drug Administration. 9 A* z2 V4 V3 {4 ^0 K# oFDC Fire [of weapons] Direction Center. 1 ?, l( L V8 o3 CFDG Foreign Disclosure Guide. n: [" |& D8 O( [+ C# L' C FDM Function Description Manual.3 i2 D& ~$ W0 d9 P FDO Fee Determining Official. & i! n' \, E. U& ^MDA GLOSSARY, VER. 4.0 F ) Y) ^8 X \0 L$ W }; M: t: |5 E105' p- y4 ]; v, u% i' R1 k8 O4 a FDP Flight Demonstration Program. R3 ~+ _; W6 k) U/ G+ xFDR Final/Formal Design Review. ; H/ D' R9 T3 K& T& WFDRU Final Design Review Update (MDA PAC term).% a- l9 C c4 V/ [0 t FDS (1) Flight Demonstration System. (2) Fault Detection System.* E" G. U2 e/ Z2 e7 y/ M FDSV Flight Demonstration Space Vehicle./ V7 P3 i/ y I# [7 D0 i FDT&E See Force Development Test and Experimentation (US Army)., P& y( p& w2 \+ _2 e& y FDX Full Duplex (Telecomm/Computer term).& d6 `: P/ Y1 J" m0 F' h FEA Functional Economic Analysis. + g/ Q3 n. Z, ~) uFeasibility Study A study of the applicability or desirability of any management or procedural 7 ^2 `* a! k, S9 g1 E3 k4 lsystem from the standpoint of advantages versus disadvantages in any given 7 X* }1 m' k0 m& W" mcase. $ b/ l$ V' U9 g% e) u& r, ^FEBA Forward Edge of the Battle Area., L, `# W; n7 r; m! t" ?! Z4 C! z3 X FECA Front-End Cost Analysis ! X2 ]$ K c5 u: TFED Federal.( |. h2 v# {" a$ J" H( y FEDAC Federal Computer Acquisition Center. $ q" k" P1 ?, H m8 X5 ZFederal& N4 i6 C: ^, ~- ` Acquisition' _; Y7 Q! g2 F- @; Q Regulation% A( q5 m5 X1 u g The primary regulation for use by federal executive agencies for acquisition of . \2 X& g' s+ N' vsupplies and services with appropriated funds. It directs the defense program' i8 p2 X, g* `1 i p/ Z) M9 l manager in many ways, including contract award procedures, acquisition ' M, h* {% N! x& }9 P/ D# mplanning, warranties, and establishing guidelines for competition. The Military6 i$ k, F" t+ e4 H ], d s) q: M Departments and DoD issue supplements to the FAR. The DoD supplement is7 ^+ t0 I, `7 w called DFARS (Defense FAR Supplement). 0 K" {; F: g7 i$ V9 q, }FEDSIM Federal System Integration and Management. " C5 L! E# F1 z' } ?9 c# bFEL Free Electron Laser. : N& f" w5 g/ LFEMA Federal Emergency Management Agency. 3 g& v3 p6 O3 G6 v8 r2 V7 y2 x$ W" MFenced Funding An identified aggregation of resources reviewed, approved, and managed as a / E, H8 C/ z$ D/ L) _! V1 Z* Q7 s+ edistinct entity. The proposed program must be implemented within specified5 S3 }2 x5 T! K' x1 K resources. Examples of fences areas are: Intelligence and Security, Support to+ H5 t/ O5 w7 S5 V f0 a Other Nations. ; ^6 Y! _1 U+ C* \3 oFER Financial Execution Review.* p: _. T) G1 N }/ R FES Facility Engineering Surveillance Plan.+ D7 a% r+ U. M! \* B# a FET Field Effect Transistor. * o/ N4 k6 L9 PFEU Flight Evaluation Unit.: b2 ^! F1 j- p$ a1 z2 Y/ P FEWS Follow-on Early Warning System. " E; E5 s) g* A3 t2 QFF Fire Finder Radar (US Army.- u/ g: \3 [# U7 R( k; @6 | MDA GLOSSARY, VER. 4.0 F % O; h9 H. m2 F ~2 t: _) S1064 d w* H b* }$ Q! `3 E7 ` FFBD Functional Flow Block Diagram. ; N8 Z6 G( H: M2 \; m' g* X2 y1 zFFCD Full, Final and Complete Disclosure (Treaty negotiation term).! E9 ?3 u1 s. l2 d3 X* \ FFD Fraction Failure Detected.) ?6 B4 C8 |5 X- Q: K* W0 l FFH Fast Frequency Hopping. 8 t3 i: P) ~& I$ l" p* fFFP Firm Fixed Price. ( h S& q8 a7 v: z2 z1 T) r ^FFRDC Federally Funded Research and Development Center. 9 |+ c4 a5 ^4 k" J N6 d6 M) JFGC Functional Group Code (Navy ILS term). 1 h# @# u, E2 y2 o* y' e- nFGEP Fixed Ground Entry Point. 3 f3 G. o9 T7 l. q1 EFH Flight Hours.6 K" w, ]/ S9 E; H FI Fault Isolation.5 L5 Q( y$ u) B' S FI&A Fault Isolation and Analysis. : k% i/ [& b9 D5 B# uFIDO Fighter Duty Officer (JFACC term).1 N& ?; f8 j! b7 x Y4 W$ \ Field of View . F, Z: z2 c: y6 L( `(FOV), |$ A4 s. M, U5 W The angular measure of the volume of space within which the system can + @, i& r; P- y* P E, `. M" f& Arespond to the presence of a target.. Z* L' V5 Y7 r8 G5 Y. q ~ Fighting Mirror, M: [( m- L0 C- g: e) b% O (FMIR)3 t6 E a# @, W" f! n: j0 G, o Part of the GBL System. The low orbit mirror, which receives laser energy and + {" ~; [ V E3 Y! f: D" Ereflects it to the target., w; f5 [, h7 V Figure of Merit ~! X+ ]8 B& E% l/ j9 ~ (FOM) 6 s, J; f) O: w/ D" O; OThe numerical value assigned to a measure of effectiveness, parameters, or. o: k/ U# O6 {; ^2 T+ ?! M- U other figure, as a result of an analysis, synthesis, or estimating technique.8 H# D& N. o1 F FIP Federal Information Processing.$ o X& W# ^- ~- C FIPS Federal Information Processing Standard.. H/ m3 p ]* S! T4 Q Fire Control The control of all operations in connection with the application of fire on a target. / l' J# J/ {; n! R9 W( JFire Control i5 t5 ?, [. v2 L. j% {, zSystem 9 U" M/ e. T+ \A group of interrelated fire control equipment and/or instruments designed for' W% i# z6 ]4 v7 t5 }. ?4 C use with a weapon or group of weapons. ! h% P- T: y" D* K8 f* }Fire Support ! o* i. o5 ]) E0 o7 t. q8 Y, z+ G9 GCoordinating 0 A( S) s+ z A# ~Measure( Y' B* {* H9 L/ Z! p" P. r! W& B3 t3 f8 M A measure employed by land or amphibious commanders to facilitate the rapid . j; P2 R. b! ~% Dengagement of targets and simultaneously safeguard friendly forces.& H6 i, w8 R) Z. v9 G2 R# } Fire Support 5 ]" E" P: Y+ c8 C) c- h5 n! m% `' |Coordinating Line N& j8 @3 ]; z0 G4 T3 u(FSCL) , O: T( M3 i) E( Q+ TA line established by the appropriate ground commander to ensure the / e2 w$ k* b# }" S3 r- P! fcoordination of fire not under the commander’s control but may affect current+ f8 K( {2 g g tactical operations. The fire support coordination line is used to coordinate fires+ X5 a2 U i8 E$ l! ~9 o of air, ground, or sea weapons systems using any type of ammunition against* `7 h4 E# _# K8 R* I1 V. { surface targets. The fire support coordination line should follow well-defined7 l- L% X/ {4 }9 a- | terrain features. The establishment of the FSCL must be coordinated with the7 {+ G' q2 ^. s1 P appropriate tactical air commander and other supporting elements of the FSCL , R+ ~9 O9 e) _3 e9 _% K- Rwithout prior coordination with the ground force commander provided the attack - l- O. }# H! q* N4 iwill not product adverse effects on or to the rear of the line. Attacks against / t- Q4 ^6 c8 h; j8 m2 Ksurface targets behind this line must be coordinated with the appropriate ground 5 O7 ~; E& a" dforce commander.; v: D8 D- L Q. k3 A; E7 q) n4 f) T MDA GLOSSARY, VER. 4.0 F) |4 p' W4 I4 j7 u( I& J9 n 1072 B% K9 _6 `; L, w- @ Firing Doctrine The ratio and manner of assigning numbers of interceptors against given- p! B) _) r& \8 w0 Z attackers. One-on-one, salvo, shoot-look-shoot, shoot-fail-shoot, etc. are& M& g) K2 ?& Y/ g/ g4 C examples of different firing doctrine. The priority of targets being defended and8 b: }, L8 n9 ?: A Q) _1 o5 @ the number of interceptors available relative to the number of attackers drive2 d* a. L6 R8 y5 x' }- N2 k doctrine.1 r; n8 A8 M; z6 o Firing Rate The number of missiles fired per site per minute.$ l5 I. d/ z' C z% s! E5 K FIRMR Federal Information Resources Management Regulation.% x' E) ~0 X# Y/ r( Z( q FIRST Forum of Incident Response and Security Teams. . X* k* e3 T2 h& }. c% U. j$ V: N) oFirst Article First article includes pre-production models, initial production samples, test" v. C* w7 z( j7 q samples, first lots, pilot models, and pilot lots. Approval involves testing and - F$ e0 V9 _8 M/ gevaluating the first article for conformance with specified contract requirements8 y+ a6 f# W( f: P, c" a; i before or in the initial stage of production under a contract. . U+ M* l! t" [$ gFirst Strike The first offensive action of a war (generally associated with nuclear operations). / n; r, G1 a+ j( `- l8 oFirst Unit3 n q" a. v( w Equipped Date 4 o: T3 H3 W9 ~" P2 i, L8 dThe scheduled date an end item and its support elements are issued to the ; u9 H+ [" d4 ~( e9 ]6 ninitial operational capability unit and training in the new equipment training plan8 x5 p+ O: ]! i0 Z5 E% A. Z has been accomplished.1 S9 H2 A8 P& a( s( m FIS Facility Installation Standard.0 Q b1 t. t5 B7 I: ~6 T Fiscal Guidance The annual guidance issued by the SECDEF in the Defense Guidance which + J$ `7 r- A* d( H! Sprovides the fiscal constraints that must be observed by the DoD Components in' O4 d+ l% B" u1 m9 F the formulation of force structures and the FYDP, and by the OSD in reviewing # x& g2 ~. T2 Wproposed programs. 8 G/ L8 P0 v) Q& L. V- E/ MFISSP Federal Information System Support Program.# G- f" ~5 b/ h* V' h F FIWC Fleet Information Warfare Center (USN term). ' F; |4 {7 q" u9 O2 m0 }. qFIX Site Firing-in-Extension (Target Launch site in White Sands Missile Range Northern; R# z" y9 s; A Extension). 5 O# }) X# N, Y/ K* P4 oFixed Costs Costs that do not vary with the volume of business, such as property taxes,; Z" W) }( [* m insurance, depreciation, security, and minimum water and utility fees. # i. _! R6 _ ?7 ]& u0 X- cFixed Ground1 N @' N% ~: H! V2 G Entry Point * U* n" g+ z/ v0 [(FGEP) $ J2 v$ F& X/ @/ o1 Y7 kThe subset of GEPs, which are not transportable. GEPs provide the / E5 m [/ R* o( e' L4 c. p1 Wcommunications interfaces between the SDS space orbital/sub-orbital elements - v/ W; ]( j( F- B% d- ^4 zand the C2E.+ m# m( ~# r$ S+ v9 Q Fixed Ground! ?1 T% A) g }4 D v( R) s Station* [4 q+ I( V; @/ d% n All hardware, software, and facilities located at a fixed ground site necessary to& G. }3 S) j; ~ receive, process, support, and analyze mission status and data, and disseminate& ^4 Q/ A8 s6 `: C p, _' L! \: \ operational messages. s, e- L/ a- O: n7 F) gFLAGE OBSOLETE. Flexible Lightweight Agile Guided Experiment. (Predecessor ) H6 x- N+ a, L$ \/ C' y7 a1 Kprogram to Extended Range Interceptor (ERINT).) 6 M( R- ]5 H. lFLC Federal Laboratory Consortium. 4 Z( [6 G. Y4 d' U$ N; {+ W' BMDA GLOSSARY, VER. 4.0 F* L) [, ~& [- d! L6 z8 F1 {% y 108$ x8 U# \! u8 b1 Z Fleet Satellite . T6 E' U2 }' C2 y; zCommunications / l7 J: \. b5 W0 Z7 O9 j& j, V2 xSystem4 y; U9 r" a. ]5 M% u' S (FLTSATCOM) $ u0 D3 K. u8 k8 }9 YOperating at ultra high frequency (UHF), FLTSATCOM allows relatively low-cost" J9 y7 [# d' h3 c2 w6 @( V terminals with simple antennas for use on highly mobile platforms. It has a( v! ^# I5 Z/ C- K. m relatively small capacity because of its much lower operating frequency. It + V9 |0 Y9 M* b" G' I8 l4 vprovides a satellite communication system for high-priority communication ; h, O7 c) e+ `8 O, A0 ^: wrequirements for the Navy and Air Force that encompasses almost the entire . Y; y, P8 O- |world. It supports other DoD needs as well. It consists of satellites in geosynchronous equatorial orbit, each with 23 communication channels in the UHF& c/ v! w- S7 ?0 [% p and SHF bands. The Navy has exclusive use of 10 channels for communication. D: F: y! @. ]) W# r- q with its land, sea, and air forces. The Air Force uses 12 others as part of its1 \9 a, h% J! C5 A9 C+ n: u; M AFSATCOM system for command and control of nuclear capable forces. The% S b3 H+ \# W' S# T8 S; F' R. j. v0 r5 y system has one 500 KHz channel allotted to the national command authorities. $ k7 [/ W& G5 P0 tFlexible+ n4 N, Q# m5 F. Q Response 2 j) T0 O( f& }7 `The capability of military forces for effective reaction to any enemy threat or . S9 c$ `) z( h0 e: F7 ]attack with actions appropriate and adaptable to the circumstances existing.) w H. y5 h& o% f2 r. ? FLHER Funds and Labor Hours Expenditure Report. ! ?+ O7 B. K6 C+ _Flight7 q/ S }: }6 Y: T* @ Demonstration : ^9 w: V5 `5 k4 u7 r* BSystem (FDS) & v4 H% u" u. k4 N. s& f# e, fPart of the SBIRS Low Program Definition and Risk Reduction (PDRR) program 3 t0 n7 y! \6 D- {, I6 x" ? o+ ?phase. The FDS will consist of two satellites and a ground system being built by8 l, H% X6 k8 Q; Z! ^ TRW/Hughes. The FDS satellites are to be launched in FY99 for a two-year test- v9 s- ? z* t) z$ i program to demonstrate operations and performance of a SBIRS Low concept,/ s3 F6 I" ?% L! i8 q collect target and phenomenology data to support the objective system design, : E" L3 V J, b6 S% Y7 Zand validate cost estimating models." ~, p1 H' Z6 _/ m, f6 ] Flight Path The line connecting the successive positions occupied, or to be occupied, by an! B; Q' p& w! w4 D1 K( g aircraft, missile, or space vehicle as it moves through air or space. (It is more2 e( a, i# a+ \ L7 W2 U' r1 Z* K commonly referred to as trajectory for space vehicles, especially ICBMs.) 3 C9 @# e; i: w0 ^' X/ hFlight Readiness% p! R6 ]! ?1 K( T( x2 y) [ Firing, Z6 s, E& I8 V5 _3 s A missile system test of short duration conducted with the propulsion system 4 B/ |5 N% T+ n. Hoperating while the missile is secured to the launcher. Such a test is performed $ i: u- O- }6 Z8 o1 s# qto determine the readiness of the missile system and launch facilities prior to 0 V/ d+ p$ o, S. J @* hflight test. . o! s( S6 h$ TFlight Test Test of an aircraft, rocket, missile, or other vehicle by actual flight or launching. 8 _% V( Q- X- A- DFlight tests are planned to achieve specific test objectives and gain operational $ S7 A$ m# R" Z/ ?information.3 n7 b8 s3 `! h) b, S# S, f) r Flight Test7 o; j" G M/ S: T. o Vehicle (FTV): Y1 e: T' j7 C+ w! m Prototype of airborne or spaceborne hardware used to validate a technology; {7 c' R$ d' i( l3 _4 k7 P* n concept.

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FLIR Forward Looking Infrared Radar.8 B, i! K$ Y5 G! l/ E. s FLOT Forward Line of Own Troops. 5 n$ }# J# H. L2 H# jFLT Flight. ( N& F5 K- Z# h% d n$ H: Z! S1 U+ GFLTSATCOM Fleet Satellite Communications System. ) Z( G* B% `2 |' U) t! {Fluence (or# d6 g+ K: n, u! Q5 W; E" U9 i Integrated Flux) ( e8 N# p9 }8 L- P4 W# w$ u3 pThe product (or integral) of particle (neutron or photon) flux and time, expressed - [- T" c! N3 g, F+ `! H; ^% Gin units of particles per square centimeter. The absorbed dose of radiation (in 7 W7 w+ g. h; A; H5 [rads) is related to the fluence. (It should be specified whether this is incident or8 o6 |+ Q7 r) F! B4 k: R absorbed fluence). 0 ^/ H# d; |* ?& xMDA GLOSSARY, VER. 4.0 F 9 r; v4 r( @/ P0 _% r7 t8 ~+ z1096 a( v+ g& g4 j7 C) s9 A Flyaway Cost The total cost related to the production of a usable end item of military hardware. @; [0 X4 W% E' \0 E. R- gFlyaway cost includes the cost of procuring the basic unit (airframe, hull, chassis, 0 `* u! q* F8 y+ G6 Q3 Netc.), a percentage of basic unit cost for changes allowance, propulsion" G2 x+ h- B- Q% w equipment, electronics, armament, and other installed government-furnished ' K: N% E6 X, i0 Aequipment, and nonrecurring production costs. Flyaway cost equates to " r$ r) g' D ~( |( a6 lRollaway and Sailaway cost. + E6 _4 j& r$ U" T3 N/ vFM (1) Flare Multiunit.& j* _8 l4 `: z (2) Frequency Modulation. I4 m3 Q0 q5 I/ U4 X0 j(3) Functional Manger.) G+ Q/ s; g# F6 b (4) Force Module(s).: ^ T P5 P8 m k' W! M4 a' m (5) Field Manual.1 N G- k2 n/ t- s/ z FMA Foreign Military Acquisition.0 U" p( m( Z/ u" g- k' A5 Y# f7 i7 X FMB Financial Management Board. , L/ |- E9 t: A. \FMC Flexible Manufacturing Cell.& i+ l! N5 `: N1 L5 h( E! u FMEA Failure Modes Effects Analysis (ILS term). ! y7 y& v( d! o/ a$ M4 R' ^. VFMECA Failure Modes Effects and Criticality Analysis (ILS term). + ?1 n( r% Z2 K2 h; E5 @FMIR Fighting Mirror.- o6 Y: @+ E3 c' w) A FMP Foreign Materiel Program.' d4 @" z5 i9 U& U# f: X R7 C# l, H FMS (1) Flight Mission Simulator (PATRIOT), Huntsville AL. * V4 A2 L$ v% O# h" I- l" u(2) Foreign Military Sales.; B. ^; M+ W0 l6 W; \ FMTV Family of Medium Tactical Vehicles (USA term). ' U, A" m+ n$ o' ^FNC Federal Network Council / Y3 A+ E# u& ]+ \, N: ^FO Force Operations (PATRIOT).0 H# Z3 T9 z0 q$ x- k FO Link Fiber Optic Link. - F- @1 F; r3 b. h9 I3 P1 C" bFOA Future Offensive Aircraft (UK RAF term).7 F/ [9 @& a; W0 G/ X2 D; M FOB Forward Operations Base.2 c' K; s: h/ ]) n) t FOBS Fractional-Orbital Bombardment System. % X4 k+ V7 j( _$ p4 b. A) zFOC Full Operational Capability. 0 P0 e. R4 r+ {9 l: K' k9 LFocal Plane The plane, perpendicular to the optical axis of the lens, in which images of points5 m ^8 j* B* `# Y$ F' u7 L in the object field of the lens are focused.0 j6 T4 H5 p: {' d- N Focal Plane6 p4 E1 F& g, W Array (FPA) # u; Q* j" A3 f. j7 t; n, oAn FPA is a matrix of photon sensitive detectors which, when combined with low* U3 `( Q5 J9 ~3 ^3 X" q noise preamplifiers, provides image data for the signal frequencies of interest. . x0 Z8 L+ F( l! Y$ aFOFA Follow-On Force Attack. 5 T8 i7 M, i9 T) O2 t1 qFOG Fiber-Optic Gyroscope. 5 l" I! O3 ?, u+ B u/ b7 y8 aFOIA Freedom of Information Act (US).$ I; N2 K1 X' I- }; j% g: P MDA GLOSSARY, VER. 4.0 F . F( B2 _8 @$ `1 k110 ; M0 a e' V* t8 i$ S9 qFOL Forward Operating Location.6 o% _" \ W F# |, T% f3 R FOLAN Fiber Optic Local Area Network.$ l2 I2 ?$ I4 S# F) s y# p9 v. z4 L Folded Optics Any optical system containing reflecting components for the purpose of reducing / ~- O) b6 n/ ~! V! Vthe physical length of the system or for the purpose of changing the path of the 5 d; K% R2 [% K+ ioptical axis. % s' e. C" J4 _' |Follow-On5 o) E; O- a( s% ]+ S1 ]/ E Operational Test [% X& I) O, D. G2 Uand Evaluation 1 g6 ~7 |% L, X. F& Y(FOT&E)1 E3 Z) B6 J# u7 a9 M That test and evaluation that is necessary during and after the production period6 J+ L2 P, K, q$ j3 r6 W to refine the estimates made during operational test and evaluation, to evaluate 1 F9 [5 I5 I* ~ ?6 E1 F. b% Schanges, and to reevaluate the system to ensure that it continues to meet* e- K1 K, g! A operational needs and retains its effectiveness in a new environment or against5 k3 P8 x: S' W' O1 z; U1 e a new threat.3 O9 o& q1 y" {4 [ FOM Figure of Merit.5 [/ c% m; a# R, _. z FON Fiber Optic Network.+ h- g; x6 L8 k) _7 N- F% K Footprint (1) An estimated area of possible reentry or the solid angle of a detector or ) l5 u: h1 U/ ]! f2 L# M; d6 ?linear area of a detector at a certain location.; l& D% F2 x) A% {% ?* y3 W: Y (2) Geographic area in which a focused satellite downlink can be received. / e- f- V1 k" [% V4 @/ ^ ]' S7 pFOR Field of Regard. : g7 D" ]6 \0 EForce Closure The point in time when a supported commander determines that sufficient5 J/ N4 \: U4 }) F! `' U personnel and equipment are in the assigned area of operations to carry out* a* z4 D8 k" [" q assigned tasks.+ W7 }7 y9 {/ v' g5 n- S Force Development Test and . U0 a0 A% y$ `# Y5 {* oExperimentation% G2 }# j. B- [4 y" a Tests employing representative users to examine definition of materiel9 F1 R# V- j" o1 D7 ]0 g: j requirements or support/assess development of doctrine, training, organization,+ f: J' `3 \1 X6 C8 b( ~ and logistics for system acquisition. (U.S. Army). ' \) h0 t4 d; v& A* GForce Direction The operational management of the forces.; ?. ]0 o& i+ p# O7 p Force Integration 5 U" W* R9 P1 _Staff Officer 9 o% x; F$ {1 z* D! \Army individual assigned to ODCSOPS to serve as HQDA user representative for : z& l+ T2 O& E3 la specific system. Provides continuous coordination necessary for integration of $ u$ T1 k" a0 f7 P# u* Ta new system into the Army force structure.' |" v: U. N( | Force / d8 F6 N& D3 A6 S- ^Management 1 z& W% Z5 V5 J9 E+ m, CThe assessment of the effectiveness of the defense forces throughout an 9 u. \( L+ X7 Mengagement and adjustment of tactics and the system configuration as5 X. S9 [- e) g& C necessary to effectively allocate resources to satisfy mission objectives. 3 l8 s0 Q& x9 l0 \1 V1 dForce Reliability The percentage of the missile force that will successfully detonate within 3.5 $ e0 [ |- [7 }: [& DCEPs of the target." c, _3 i2 v& R FORDTIS Foreign Disclosure Technical Information System. & E8 y1 n! {4 P* ?, q1 L: bForeign : D% F$ R5 f- \0 s; |) fGovernment, L) i \6 A& ~' z/ ~ Information 5 o" `* \ ]' l% iInformation that is (1) provided to the United States by a foreign government or % [4 _8 t$ _/ x. O5 f" _governments, an internal organization of governments, or any element thereof7 G4 Q: c P5 [5 h4 E b with the expectation, expressed or implied, that the information, the source of + G0 J6 w' E3 {the information, or both, are to be held in confidence; (2) produced by the United . T+ F* m/ a. G* N+ [$ j8 j1 @ DStates pursuant to or as a result of a joint arrangement with a foreign , j$ R% E" n( Pgovernment or governments or international organization of governments; N: F# _, h5 ^1 _" \1 Y% m( Q requiring that the information, the arrangement, or both, are to be held in / O& U6 }+ J% rconfidence.1 I/ M) Q$ a' b' P. k @' Q9 h' R MDA GLOSSARY, VER. 4.0 F2 ?/ ?- f7 ?8 o' C/ P7 p7 M3 D. o 1111 {( g& \7 d: v& _1 O9 K) M+ ~9 ] Foreign Military; w* n- l# y( @/ U( B+ @- K Sales (FMS)3 q* J$ }! H9 U: G0 h8 A That portion of U.S. security assistance authorized by the Foreign Assistance Act# ~1 J" `9 g+ j3 `$ h0 ?' U- `% e# p of 1961, as amended, and the Arms Export Control Act, as amended. The0 _; [) s' H2 a5 ]5 S$ C recipient provides reimbursement for defense articles and services transferred 1 W: \2 {8 L9 e i3 dfrom the U.S. Includes case sales from stocks (inventories, services, training) by4 @$ O9 { c2 |9 Z% Q. U: L, C3 s& ~- K the DoD defense services.8 J2 D, v6 H- r- p$ j! y Foreign Security ! Q T1 B, F( ?" o& ZPolicy Model# y5 L. P3 z% ` A mathematically precise statement of a security policy. To be adequately / C6 W: J0 {8 E' w, gprecise, such a model must represent the initial state of a system, the way in7 A' N6 E. d4 u! q* y" _5 U& K2 f which the system progresses from one state to another, and a definition of a 3 @; s+ B V0 j( x9 g“secure” state of the system. 5 u0 M; r" w9 FForm, Fit, and 4 C# K0 o$ Y* E6 ` q9 wFunction Data8 z6 x0 f3 e y* D Technical data pertaining to items, components or processes for the purpose of' E! @3 n/ s$ L! `: a identifying source, size, configuration, mating and attachment characteristics,7 e3 I+ S5 L I. E/ i' y functional characteristics and performance requirements. ' n' [' z6 E' @' k8 J1 i% A% PFormal! B' P2 Q" m5 @ Qualification 8 ]2 `" Y* ?. D3 `. {3 G4 ^2 eReview 8 i( b1 P% F% h. VA systems level configuration audit conducted after system testing is completed 5 d6 i4 @# S4 y- Pto ensure that performance requirements have been met.: O3 m3 }) h* Q7 ^/ C& u2 e, | Formerly: `$ c, T2 {7 V7 V& Q# {1 v Restricted Data 2 j3 ~7 {2 F# `5 d+ V* V3 O4 m. K+ EInformation removed from the RESTRICTED DATA category upon joint ; X2 |3 C( z) A7 t7 jdetermination by DoE (or antecedent agencies) and DoD that such information5 w" a) `1 u8 e2 g3 e relates primarily to the military utilization of atomic weapons and that such , W( a0 F0 V t) i; O( binformation can be adequately safeguarded as classified defense information. ( ^9 ]" n2 ~' }) b: ^FORSCOM U.S. Army Forces Command, Ft. McPherson, GA.2 W, @5 x) a) I% g: w. z; U' |4 n3 V FORTRAN Formula Translation Language.

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发表于 2008-12-25 20:06:48 |只看该作者
Forward Edge of 5 s% G8 \/ @% q; e k V! D4 |0 Ythe Battle Area % K8 W0 i% k9 e/ \! C: X(FEBA); r0 Q& S& \$ f3 ]4 @2 b" Z The foremost limits of a series of areas in which ground combat units are ) n8 ]6 \& Z& n7 _deployed, excluding the areas in which the covering or screening forces are# b1 p% I- e7 j3 i; e8 Q6 g operating, designated to coordinate fire support, the positioning of forces, or the% |/ \* Y; N- \! m* t+ m maneuver of units. % h& g* J* d- f- cForward Funding Carry-over of RDT&E funding into second year of appropriations availability. 5 E/ d2 Q+ P8 ~! Q7 NRequires permission from high authority. - n* G: q3 }$ fFOS Family of Systems (TMD). 2 ^+ V$ K+ S( S: U0 E0 L# `FOSS Fiber-Optic Sensor System. ) h7 Q) ?0 b! b( D* {* e( ]FOT Follow-On Technologies. # K. x8 I' D5 \9 R$ ^ k9 yFOT&E Follow-On Test & Evaluation. 0 b+ p* B1 g& K: IFOTC Force Over-the-horizon Track Coordinator (USN term).6 g: ^7 N, M# Z9 i6 b V FOUO For Official Use Only. i% l3 Q: u! C# }: K Fourth 3 x7 |" R4 O) kGeneration " j; d' m) @- u& XLanguage( a5 T( h# O. s& q" L# ] A programming environment that produces both screen and report utilities for 6 z6 I- r; T8 puse by lower-level programming environments. & G# ^ j, F8 V N8 }FOV Field of View. % j' b( `7 a) EFOV Radar [Full] Field of View Radar+ x! k6 A: g6 f8 N FP Focal Plane. " Y: D3 n8 |7 X/ _. p% i' N" [MDA GLOSSARY, VER. 4.0 F1 D) J F" @/ N+ U4 A$ w; H# r' _ 112 # T1 I, J/ p( J4 ]( x* K! eFPA Focal Plane Array.+ T2 {& D5 H! [7 o1 N, f0 C FPC Facilities Protection Committee.4 v/ P% r) ~+ K6 G) e) |# N FPI Fixed Price Incentive. % {6 f: E. e F% V8 W' I9 E4 ^. sFPS Fixed Radar. i% k5 A0 d' W FPTOC Force Projection Tactical Operations Center (USA term).2 ?. {" h! @& E+ M4 j FQR Formal Qualification Review.5 z. N) A. t- H6 c0 Q FQT Formal Qualification Testing. 0 j% e W( k2 x/ y/ X7 [FR (1) Federal Register. (2) France. " O& R' O+ f5 r. j3 X! yFRACAS Forward Reaction Altitude Control System.7 G/ T$ ]; e* E$ b FRACS Forward Reaction Altitude Control System.- g3 U- e: g f' B4 u9 M( i Fragmentation) _1 Q; ^, ^" D. s7 [# m* a Warhead _5 K% I1 t C: G: {( DA warhead, which releases small solid objects to damage or destroy its targets. : ^4 e. Z7 G) H; H( X9 g5 w6 ]FRAS Free Rocket Anti-Submarine.! D$ l1 S8 \1 v. b r) g FRC Fire Control Radar 8 K0 U0 E: S- Q/ nFRD Facilities Requirements Document. ) d5 @3 c4 F; ~0 jFree Electron5 X0 n* e7 Z8 k! B/ i" K' B' P Laser (FEL)$ c0 B! P* f$ b A type of laser, which generates radiation by the interaction of an electron beam& S) G2 h; b" |. s& }, n with a static magnetic or electric field. Loosely speaking, free-electron laser% b' j/ I ^) k2 ~ technology resembles and evolved from that used by particle accelerators (“atom 0 V% n/ x$ s& B* v1 u0 Q. Wsmashers”). Lasers, which are not free electron lasers, are bound electron " y7 D2 \! F9 M2 G4 d! Slasers. / ]- d' M0 R# i- a+ D3 M$ dFree Rocket A rocket not subject to guidance or control in flight.* W) y4 P% [+ ]! W/ D. G& q Frequency& y/ f6 W$ {/ q3 T9 V Management . O M. X) m, J1 u. Q9 E( bThe act of allocating frequencies, or bandwidths to a telecommunications* B2 u* l+ ~( X4 k system, necessary to minimize the potential interference between * k. y& r% i3 C1 a0 Otransmitting/receiving devices. Governing agencies and international agreement / d. a x/ ^, u5 v$ lcontrols authorized use of a particular frequency, frequencies, or bands.3 q: ]" ^) z- S FRG Federal Republic of Germany. 2 C2 W& y0 H$ J6 D, P! ~, J" @+ y0 dFRN Force Requirement Number.9 _) Q6 L# D. U* @$ Z FROD Functionally Related Observable Differences., S$ {1 S, e# F2 N- P' K FROG Free Rocket Over Ground.2 m& ~. x3 g5 V+ n3 R$ |* ? FRN Force Requirement Number. - K4 a+ K; x" ]9 i3 k% b+ x ~) d) }6 NFRP Full-Rate Production.6 W% ?/ Z) U* l6 S6 { FRS Federal Reserve System.5 J* q8 F. m* C# [( _3 j9 @ FS&E Facility Siting and Environment (MILCON term). " n+ [' Y- _' T' QMDA GLOSSARY, VER. 4.0 F 2 N D- z& @8 c' ^; ^$ [/ X) [" U o113 L' K4 _: ~6 T n: rFS3 Future Strategic Strategy Study. ' V3 B) @% B! ^8 @1 |* @FSAF Future Surface-to-Air [Missile] Family.2 P: ~- D/ V& c/ L9 h! h! Z FSC (1) Fire Solution Computer. (2) Fire Support Coordination. * L( P i. Q. g" l) N1 R) Q0 JFSCATT Fire Support CATT [for Weapons] (US Army term). . e3 n6 ^- T# @2 K0 I! mFSCL Fire Support Coordination Line.9 I+ ~; u' Q2 Y4 R* V K FSD OBSOLETE. Full Scale Development Phase. See EMD. J* N3 M6 N% I FSE Fire Support Element.8 `3 B7 Q/ E1 j) ~) J, W6 L FSM Firmware Support Manual. " N7 f z: }4 `FSP Facility Security Plan. 8 _. B* | s4 V0 ~$ d BFSS Fixed Satellite Service.! N* I x5 s) m FSST Forward Space Support in-Theater.! w4 ^& N+ j' d$ E: Y5 F FST Flight System Testbed.. `9 d: f; n* N( h& ~ FSU Former Soviet Union. 5 @! c: M. ~. K. ^( F3 OFSU Republics Former Soviet Union Republics.% s" }9 @% }3 n% X' \! o FT Flight Test. $ y* x7 f- R. M) [6 G# [/ [Ft Foot9 q0 T" ~( A5 p" M FTC Federal Trade Commission. 5 c1 F+ L$ _' C9 h6 Y8 dFTD OBSOLETE. Foreign Technology Division (USAF), Wright-Patterson AFB, OH. + N/ O z' N" _4 y8 G: iSee NAIC. 8 E5 S2 ?4 @' ]! y& kFTI Fixed Target Indicator * ~, p8 R% ^# `( @4 CFTLS Formal Top-Level Specification.. Y+ w+ ~; a, ^8 ]. S$ U& W* A FTP File Transfer Protocol (ADP/Internet term)., N& i1 i( s, [" X3 Q/ r FTR Flight Test Round. k' e" m5 U2 r+ y9 gFTS (1) Flight Test Summary (2) Federal Telephone Service) z6 v. h* A2 i- V FTS 2000 Federal Telecommunications System 2000.5 G5 a* h* j5 R: k2 }5 Q FTV (1) Functional Technology Validation. (2) Flight Test Vehicle., g/ n2 A: k6 m) C9 @3 p3 I- }3 [- ] FTX Field Training Exercise.: n$ [% h1 B! i. _# P V4 A9 f FU Fire Unit (PATRIOT). % N: V. k7 o' J* K! V' s6 O. M EFUE First Unit Equipped. 0 v/ ~0 M& P8 b3 i" r3 lMDA GLOSSARY, VER. 4.0 F$ e* U9 p* Z# t1 } 114 ' ~4 V V% r3 [' Z" u6 jFull Mission' J3 [9 F% W) b. F! @& Q9 k Capable . I) B5 u! y P6 R, KMaterial condition of an aircraft or training device indicting that it can perform all; h6 S+ J1 U1 ?0 R of its missions. Also called FMC.# h7 P6 |; y, E8 f5 z Full Operational/ E7 N, s( u4 g- E2 x Capability (FOC) " q) c- }. t* d0 W( l& WThe full attainment of the capability to employ effectively a weapon, item of X) ^1 a* C( W* K: L; W4 } equipment, or system of approved specific characteristics, which is manned and3 v# a: B2 k9 i! M' V5 v+ f | operated by a trained, equipped, and supported military unit or force. + ^% g$ ^) r. y1 ?) jFull Rate& r/ u+ D$ K6 T. l( h Production + b- F3 N9 p$ `! m' ^$ yProduction of economic quantities following stabilization of the system design ! p& S# k7 f2 g$ ~! Rand prove-out of the production process. 6 P/ m% q# q" C, K- _# [Fully Configured) @: e/ D5 k9 h. R( G End Item4 T4 k! f6 L7 d# f2 ~ C The final combination of end products, component parts, and/or materials, which5 n8 h- v6 A" w is fully ready for its intended operational use. Normally all production units are8 i# H/ I3 o' }8 I fully configured. Research and development units may be considered fully ! e* O9 r1 f, Q& g5 b# ~configured if they are or are planned to become operationally equivalent to the; i4 D8 R1 z$ D3 U, d" w* l production units.

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发表于 2008-12-25 20:07:01 |只看该作者
Fully Connected + g ^# S4 \% z' {Network (FCN) " r* [% D2 k3 vA network in which each node is directly connected with every other node. . y% A, Q& ]7 m4 @/ O0 K% Y7 ]Functional % B8 M# O# A1 P5 r( M# F$ QAnalysis5 ]* t/ N( l. a An approach to the solution of a problem, in which the problem is broken down $ Q% \ [1 c# f: Z9 u1 |! a3 winto its component function, such as intelligence, firepower, or mobility. Each) i( q' o2 P g9 a2 m* p relevant function is then further analyzed and broken down into smaller + `3 j/ @& U* V* W4 p$ u; Y, Tfunctional components until a level of molecularity suitable for solution of the * L$ z" Y) ]. s4 I! Q1 ?problem is attained.; u8 u6 W5 H2 ~ Functional ; V- I+ N$ z% L+ YBaseline7 ~5 z$ d8 p! n! V (1) Established after the system requirements analysis/design activity has . D! f$ B! e; X: M5 a2 Z' }' dcompleted the definition of the system functions and associated data,4 a" {% m8 y+ O; Q; I9 a+ \+ |; D interface characteristics, functional characteristics for key configuration+ g) [$ l% j3 H; N- G items, and tests required to demonstrate achievement of each specified 3 s0 V# N# y. O. xcharacteristic. This Government normally controls the baseline. 9 A* ?* T* w1 X* d(2) In configuration management, the initial approved technical ( ] B! k1 z- x: rdocumentation for a configuration item.0 I6 n1 ?9 x8 {! w& [ (3) Documentation describing a system’s functional characteristics and the4 ?7 O& @$ D6 P6 m& ~7 X- _ verification required to demonstrate the achievement of requirements./ Y4 M) T. X5 A5 m8 M Functional . Y1 v f9 v, \/ m+ TConfiguration* L- A9 Y( R3 }5 z7 U+ |/ X4 u& ?% z Audit (FCA) % y, z$ G! r2 q3 {! j8 {; FThe formal examination of functional characteristics test data for configuration 0 f- v% f. r; S$ r. ^1 e2 Yitem, prior to acceptance, to verify that the item has achieved the performance : a( G7 N4 A7 p, W; v. fspecified in its functional or allocated configuration identification. ( z9 Y( [+ t9 ?4 w7 `' b8 dFunctional0 U- J+ X8 q$ s5 j3 a Economic4 z+ @2 m7 B# _( `0 j( s Analysis (FEA) / j, O9 ]5 M7 \+ E* @, YA structured proposal that serves as the principal part of a decision package for ) L) i0 a. V7 {# b' A' uenterprise leadership. It includes an analysis of functional process needs or a- G" p2 E" S" ]1 g _problems; proposed solutions, assumptions, and constraints; alternatives; lifecycle costs; benefits and/or cost analysis; and investment risk analysis. It is + C" v9 T5 S; b/ fconsistent with, and amplifies, existing DoD economic analysis policy in DoD. c2 U0 O- h5 a& @, ]. ` Instruction 7041.3.( A/ U6 D# e: A' I5 S0 W i \ Functional Kill The destruction of a target by disabling vital components in a way not& |, a5 a) }, @' X4 `% m, f immediately detectable, but which nevertheless prevents the target from 7 ~. Y# y- F* }) n$ c- f6 {- O2 _functioning properly. An example is the destruction of electronics in a guidance* j/ B/ X2 M) b& ]- f0 m system by a neutral particle beam. Also referred to as “soft kill.”* e' K% B6 Y! S& h- |: u Functional / A/ U* P- O W- dSupport4 h; L0 t4 _6 C) E. q, J- h Systematized methodologies and procedures, or a common set of standards,/ v; u/ s9 s0 u5 T5 e$ P applied to materiel acquisition programs. 4 |. S! ~% r% M9 N! t4 eFunctional) D8 e) C& h' T0 t Technology , v: ?8 E/ w% JValidation (FTV)6 x$ m M( S/ E* ?$ N( j, @+ Y Program with the intent of proving or disproving a technology is useful for a given # f! G4 T/ }- z; xapplication.5 L6 k, l- l6 O( a# l# Y0 \ MDA GLOSSARY, VER. 4.0 F 5 |! e1 v# _! R3 S @* H1 M) F5 U. T6 C115 Z) M7 U7 u8 B0 I! w s) nFunctional8 M" d9 n/ S" Y9 J* g" D8 s Testing7 h/ ^* S8 \3 c. z* G6 T$ t- ? The portion of testing in which the advertised features of a system are tested for- H* O/ y! u& D: J2 R2 b' G* \ correct operation. ( K, j7 ^6 I% iFunding Profile Program funding, usually displayed in columnar spreadsheet format by years, ! p+ [! }7 A5 n/ F2 T/ Ustarting with previous year through current year and out-years. ) ?' _+ N( a7 C) {! HFuture Years& _; T2 u y0 @6 H Defense Program6 j" P( N& Z( ?2 H. c (FYDP) - B* `# H7 e( \1 dThe official DoD document that summarizes forces and resources associated with2 \6 d0 j7 _+ v1 X M# V) l! k9 j programs approved by the Secretary of Defense. Its three parts are the : h2 K; U8 q3 |" Gorganizations affected, appropriations accounts and the 11 major force programs 9 Q5 A/ d6 h: E& P/ q(strategic forces, airlift, R&D, etc.). Under the biennial PPBS cycle, the FYDP is T/ O7 k$ ? A( Supdated in even years in April (POM); October (budget); and then in January $ A2 S- p; B6 Z- B+ U _: P/ _(President’s budget) of odd years. The primary data element in the FYDP is the- L/ w" d0 k: t: { ~: f Program Element (P.E.). Formerly known as the Five Years Defense Program. ' [7 z1 n# [2 a: EFWCA Fixed Wing Combat Aircraft.9 i* ?" i* n9 k. |" [ Fwd Forward.8 F3 \) G5 f/ c& h/ ~ FXBR Forward-based X-Band Radar.2 J3 O L/ p8 |1 V: Q4 }1 T4 p( j FY Fiscal Year. + R- z- K% [5 zFYDP Future Years Defense Program. $ C/ e" {/ h, p# KMDA GLOSSARY, VER. 4.0 G/ R( I; L1 ~6 T& @% F 116# }7 ^/ I V) w5 U% H G Giga (one thousand million).# C5 B+ f( B2 i0 s; S g Gram.5 j$ ?, D4 R/ e0 f% z* M: {% c' l G&A General and Administrative costs.2 w" j( E' Y) j+ ? G&C Guidance and Control. ; C( l+ c& G) C; jG&O Goals and Objectives.! U* W1 S- K- F7 ~) Z G/A Ground-to-Air; o+ w! m5 q# x5 h, o( m% ~& s' ] G/G Ground-to-Ground. , Y$ z) r9 U P3 U% U' lGaAs Gallium Arsenide.( ~, a# x. g# ^1 P Galosh The Soviet Anti-Ballistic Missile system built to defend Moscow from missile0 \, |, t/ S4 f% ` attack. , x$ W/ ^* c5 t/ s, {1 rGamma-Ray Electromagnetic radiation resulting from nuclear transitions. Although incorrect, ( R# O; i7 v8 y+ |/ ~0 I8 B- E/ o9 @high-energy radiation, particularly “bremsstrahlung,” is sometimes referred to as , ~. r; K8 D# V( f4 Agamma radiation. ) \" S' `# q) u# g5 ~Gamma-Ray% E" Y8 A' q( Q% p! }3 j Laser+ g& r0 s$ y0 W1 p: T6 _+ h8 s4 v. R/ n A laser which generates a beam of gamma rays; also called a “graser.” A, b: F' q( x/ n1 q gamma-ray laser, if developed, would be a type of x-ray laser; although it would 4 }% y& t8 y* h4 M$ Iemploy nuclear reactions, it need not (but might) employ nuclear fission or fusion + e2 \' W& i8 X7 _$ [reactions or explosions. 7 t2 ~+ K) ?4 z5 h7 mGAMS GPS (Global Positioning System)-Aided Munitions. ) H7 [1 [! d" j j! v7 @GaNMPA Gallium Nitride Microwave Power Amplifiers. (A demonstration program to develop . A9 M6 y% @% J f& C9 TGaN based transistors and integrated circuits for power amplifiers in systems( B/ j6 {" v- ] such as Ground Based Radar. Goal is to reduce total weight and size by a / \ ?# N+ c5 v8 S! y0 xfactor of 10). - s# b' n" X# t$ b4 t2 NGAO General Accounting Office. / [% _! L0 F; z- L* KGARDIAN General Area Defense Integrated Anti-missile Laser System.- Q% L2 p3 \6 S9 X+ r' Z GAT Government Acceptance Testing.: i s" K7 F5 A& T1 r6 W7 I3 ] GAT CALL Guidance, Apportionment, and Targeting Call (JFACC term).8 e c- ~, Q1 K GATE Graphic Analysis Tool Environment.3 h' G: w7 h* W/ i8 f2 @$ L( I Gateway An element that contained a node on the SDS backbone network as well as on) @' O8 H4 z, p7 ~3 \- p some other network(s) and would have performed protocol and format% ~8 [! n* f5 e* e3 A2 V8 \ conversions necessary to accept messages from one network and retransmit3 P+ V7 _) p, E( k6 z them on the other.$ Y: m3 c. W J/ | GATS GPS (Global Positioning System)-Aided Targeting System.) C( l& ?' {, D" e& ` GB (1) Ground-Based. (2) Gigabyte.9 u3 r( F1 V* H+ X6 M GBD Global Burst Detector. 4 K/ e4 I4 P! }" k. w, N6 CGBDL Ground-Based Data Link.6 j9 Z0 ?$ [9 d0 U9 h3 b! v2 j, A MDA GLOSSARY, VER. 4.0 G $ }- t7 e( m4 T. i% M( D% k" [117 0 T3 ]1 J6 x+ ]' j% `GBEV Ground Based Experimental Version.6 @$ z1 C4 u& Z% g4 H GBFEL Ground-Based Free Electron Laser.! i% [# z3 S" o% }' G- W5 ~ GBHE Ground-Based Hypervelocity Gun Experiment.* l9 T2 l" J) }7 m GBHRG Ground-Based Hypervelocity Rail Gun. : f5 Q1 m0 l* s" F+ m: ]: MGBI OBSOLETE. See Ground-Based Interceptor. / @3 `( ~& y' i+ w. lGBI-P Ground-Based Interceptor – Prototype. 1 m' y3 y, N0 J9 J, G2 K1 e: nGBI-X Ground-Based Interceptor Experiment. % _& U4 o) Z) @$ |+ C ]3 JGBKV Ground-Based Kinetic Kill Vehicle.) |7 z# H- o. H* T) I- z) O GBL Ground-Based Laser. 0 ~; K4 G# U8 N8 x5 I# c& y nGBLD Ground-Based Launcher Demonstration.! v' {" d& V+ z1 A9 Q% O GBLRS Ground-Based Laser Repeater Station.+ R( c! D2 Z3 W5 S3 L! ?- m+ `0 w GBM Global Battle Managers.9 i+ g- A* H- ~' s0 K0 M GBMD Global Ballistic Missile Defense." J& \6 B4 ?; [/ ^ GBMI Ground-Based Midcourse Interceptor.* I! X- |0 {* h1 I s3 D GBOS Ground-Based Optical System.7 e% R" b+ K) M6 j" n* _ GBPST Ground-Based Passive Signal Tracking.. o) s! M) P: l2 s) ]& L GBR See Ground-Based Radar.) k: c7 T |# u2 v: e& d GBR-M Ground-Based Radar-Midcourse.) u, g0 Z0 J M7 Q# H GBR-O Ground-Based Radar-Objective. : W+ |- A! M2 y# r5 S2 kGBR-P Ground-Based Radar-Prototype. $ g# F' p# H& l- ?* QGBRT Ground-Based Radar Terminal. 1 s2 p- k* |: r! vGBR-X The experimental version of the GBR. 5 ~5 t' V$ _4 `! c# w1 HGBRF Ground-Based Radio Frequency.

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发表于 2008-12-25 20:07:14 |只看该作者
GBRI Ground-Based Rocket Interceptor.- ^' G1 \: F7 o. G |$ ?2 V. P GBRT Ground-Based Radar Terminal. 7 H! _: p- e7 K; X* U$ O1 K8 a: g! UGBS Ground-Based Sensor.# c# K" p, `* x/ h* @+ X GCA (1) Guidance, Control, and Avionics. (2) Guidance, Control, and Airframe. 6 [5 U+ t: {& Z8 Y% | AGCC Ground Component Commander (JFACC term).( _7 p9 f3 t+ d* u GCCS Global Command and Control System.( J4 W! W, o6 s8 z) R: R MDA GLOSSARY, VER. 4.0 G3 e5 R3 @8 G' p3 H0 m, a# y 118. X; P5 w- n! ?7 } GCI Ground Control Intercept. 7 s, |6 R: n$ @8 [/ U- f2 ^GCN Ground Communications Network.2 P& l4 z) B4 ^! l GCS Ground Control Station. 5 S/ q* @& \; m+ U: HGD General Dynamics. * O; @6 L) K! A nGDL Gas Dynamic Laser. F* E. Q! }+ \GEDI Ground-Based Electromagnetically-Launched Defensive Impactors. 2 U" K i: K! M7 } m0 zGEM Guidance Enhancement Missile (PATRIOT). $ ?3 t* x3 h; JGeneral Manager 9 I7 I' L/ G* V& q! ?( VProgram. u) u$ t0 F9 D: v; _& k Management - P3 j# h- m; C& t. A) s9 FDirective (GPMD)4 H, i. z8 a; g0 d OBSOLETE. The primary document used by the GM to direct the Service BMD & i( Q6 ? r8 S1 f$ j5 ^PEO on the specific actions necessary to fulfill BMD program requirements.* P3 j/ ^- f' m$ L- }0 T General & i! B! H1 n; h* K b. _% Q! k9 GSpecifications$ P7 T; N# C3 r7 }3 [6 G A general specification covers requirements common to two or more types, # V+ h6 i# k2 D6 n* b, _. _' W y1 S* nclasses, grades, or styles of products, services or materials; this avoids the ! h$ p, m M/ Y2 frepetition of common requirements in detail specifications. It also permits* n! S I+ \) P changes to common requirements to be readily affected. General specifications1 B- c1 L" A6 Q. \* `! q may also be used to cover common requirements for weapons systems and / v' b6 R& C0 Ksubsystems.+ Z$ _( z/ ~6 T" d5 Z/ g7 p Generic Rest of/ p! j1 q- [) t( ] World Target$ F3 p- a% \ b ~2 j (GROW)" B! d7 M9 }0 b/ f Strategic target being developed for GMD program. 3 e5 H0 \ C( _GEO Geo-synchronous Earth Orbit. ' q4 k8 E3 \0 p+ S! @ V8 PGEODSS Ground-based Electro-Optical Deep Space Surveillance System. 4 y$ F7 p8 L1 [& gGeo-stationary+ F0 p: v- \0 c! p8 P0 i) i4 t Orbit (GSO)5 K) r6 J9 Q- j) M' [ G An orbit 35,784 km above the equator. A satellite placed in such an orbit / Y% ~- y" [- T7 R9 B9 N6 O3 mrevolves around the earth once per day, maintaining the same position relative2 s1 m( ], n7 b1 c: l3 j to the surface of the earth. It appears to be stationary, and is useful as a R+ s, S6 @9 A$ b6 F/ o! [- Zcommunications relay or as a surveillance post. $ x, M5 Z# U+ ^1 ]; V4 O1 AGEP OBSOLETE. Ground Entry Point. IFICS. ' n8 P4 c' Q4 x- g4 CGES Ground Engineering System.2 |3 l2 o6 G% k6 I8 h8 |4 j GFE Government Furnished Equipment. See Government Furnished Property.' Q5 O! `& ~, a, C GFI Government Furnished Information.( X3 i0 u# C. P% p0 v% P! x GFM Government Furnished Material. + F. T, U& j( X+ |6 DGFM/P Government Furnished Material and Property. See Government Furnished9 B3 ]8 p+ Z% R# ?( n% x3 ^3 f7 h- E Property.5 p" \* |; i+ z- C7 { GFP Government Furnished Property.1 L4 n+ o! w: u! y3 K GFS Government Furnished Software. See Government Furnished Property. " d. k( a4 d* ^9 S$ J4 d5 PMDA GLOSSARY, VER. 4.0 G) M* u1 A8 t$ \* G9 P' X 119 8 e: J) l2 \: o" uGhosting This condition occurs when two or more targets reside close to the same plane4 M' s4 T, \9 Q" v+ Z also containing two sensors viewing the targets so they are within experimental: L/ o: M+ p7 K& c$ k7 ], U0 S determination of having the same hinge angle F. Thus, ghosting depends on 1 C7 M0 g* P2 U2 v: |8 oLOS error and positions. 3 g5 f6 Y1 `; V" UGHz Giga Hertz (1 x 10(9) Hz). 8 L& w- w. N0 O" ]GIDEP Government/Industry Data Exchange Program.( A% M2 s; ~# G7 b, R. m( d/ I GIF Generic Interface. % F; c! g. ]1 X6 u% {GII Global Information Infrastructure.: R$ `! _1 m; x2 Q7 G5 E GIP Ground Impact Point. / k& a( Z, h+ M2 v* g" qGIS Geographic Information System. 5 ~) z& V" U6 O: V NGITIS Government Integrated Technical Information System. ; R" e. g. n1 b( \0 n/ \7 yGLCM Ground-Launched Cruise Missile.- i( x* h( H) } GLP Ground Launched Probe. See Brilliant Eyes Probe.& H$ w8 O' `; D8 l7 U Global # T/ Y: m" i8 b' A/ V O6 G' fEnvironment( V3 L* l: I" k3 x! Y The ISTC Global Environment is responsible for the creation, propagation, and# {% l/ D, e+ C/ w) J7 k1 h/ ~& Y) h maintenance of test scenario common knowledge, how subsets of this 5 @% L3 ~& p+ y- i1 c4 F: `* u. Yinformation will be determined, and how common knowledge will be disseminated$ C/ U+ Y% T Z$ h/ ?: f; {! Y to the various element representations (nodes). The Global Environment 3 |, q8 `+ T% S$ w- B% o, u# dperforms functions which are common to the scenario such as timing, health,0 N4 D n" Z% d" N4 \4 u8 D status, state vectors of objects, and effects models.) a9 l, R5 ]4 d2 P4 Y g Global& U: O7 u. r" K# I1 A& g, u% ^ Positioning! S+ c% o* B; A System (GPS) 8 V9 ~. |' v. j' T2 O4 UThe NAVSTAR Global Positioning System is a space-based radio navigation2 @8 E4 _* V6 d3 {' g) u8 w2 I network providing precise positioning and navigation needs of all the military ; N) i4 [9 y6 r- m$ Aservices. In the fully operational configuration, there will be 18 satellites in six8 J/ U" z, `9 {8 b- t" w orbital planes with an orbit period of 12 hours at 10,900 nautical miles altitude. . R9 o. d% J% i, CEach satellite transmits three L-band, pseudo-random noise-coded signals, one / f$ d( r1 U2 I# g0 t8 LS-band, and one ultra high frequency for spacecraft-to-spacecraft data relay.1 S6 v4 X1 {1 Z, h# k V6 y) h0 s Global Protection . ^9 g' X+ Q# ^. DAgainst Limited 9 M% }& ?" X' W& h; qStrikes (GPALS)( x# e' G& ?) E- ?$ d; N7 { OBSOLETE. GPALS was an architecture denoting an anti-missile system ?7 w* k0 W7 |. k3 } ^; q designed to provide protection against limited ballistic missile strikes, be they ! b9 L5 g2 ] e; e# N8 ~% G0 Sdeliberate, accidental or unauthorized—whatever their source. GPALS was, g; t% T, f8 m3 ?8 ?: | composed of three interrelated segments: (1) theater ballistic missile defenses,5 r& c& g$ ~$ J and associated space-based sensors, to protect U.S. forces deployed abroad,% }! I+ @7 E { O# m and our friends and allies; (2) ground-based defenses, with space sensors, to, J3 D) x% J& _8 ]0 u6 L protect the entire United States against long-range ballistic missiles; and (3) 4 h% d% g6 J- dinterceptors based in space – Brilliant Pebbles – capable of providing 8 ^. q9 o4 J/ [% x! h$ I" `continuous, global coverage by intercepting enemy ballistic missiles with ranges . o/ s2 z3 p" o0 J+ K2 M j" {! tgreater than several hundred miles.5 W$ [: U; ^5 ?0 M/ ~# u) j Global Protection 9 g, X1 p0 {5 y& N. K2 }; J3 N) FAgainst Limited 2 y$ @, w% a. ?0 i; CStrikes (GPALS)4 g; |1 _. `2 _/ x. H/ R! z) Z0 r Program + f1 k* ]+ |- _$ F; ?, D. y9 eOBSOLETE. The GPALS Program consisted of six Major Defense Acquisition4 `9 l% { U1 Z+ r- i( w5 p Programs: GPALS System/BMC 3 * R4 u& X5 S* C6 @0 H, National Missile Defense (NMD), Global Missile ( ^1 Z: x/ p4 P$ S+ K* t3 Z aDefense (GMD), Upper Tier Theater Missile Defense (UTTMD), Corps SAM, and; z$ y) ]0 w3 ^ @; E4 Q PATRIOT. Army PEO GPALS was re-designated PEO Missile Defenses in 1992. % d( _, P4 z: j# m; b: }GLOBIXS Global Information Exchange System.5 q, k; t0 ?5 U/ P" O4 G GLONASS Global Navigational Satellite System. L4 I) C4 ]7 J& d2 ^ MDA GLOSSARY, VER. 4.0 G4 S: U S7 u$ A1 t3 V 120 ) V! W: e7 D9 z6 S: P2 ?GLOW Gross Lift-Off Weight. 7 J2 Q! N# E$ y6 uGLP Ground Launched Probe. See Brilliant Eyes Probe. ) s1 j! g2 N( ZGLS Ground-Launched Sensor. * p* J( `! \. j0 W$ ^! \, cGM (1) Guided missile. (2) General Manager.+ t1 f0 u. q( a0 `2 y GMACC Ground Mobile Alternate Command Center. " w' N0 _% B9 R- ^GMAOC Ground Mobile Alternate Operations Center. / e0 |9 z4 d. V y2 s8 R8 c: NGMCC Ground Mobile Command Center.. a9 r( s# e! `+ f% n GMCP Ground Mobile Command Post. 9 e& v, y8 Q( D+ XGMD (1) Ground-based Midcourse Defense (formally National Missile Defense) (2)- }$ B; ?" o4 C( S% L Global Missile Defense (OBSOLETE).9 U* Q, h- K' m2 j* } GMT Greenwich Mean Time.4 I8 s4 r$ ~3 H% Z- g) L9 I GMTT&C Ground Mobile Tracking, Telemetry, and Control., M% d: ?+ K. q/ a; P$ I4 M" x GN&C Guidance, Navigation, and Control. # R: R% m( ~3 X4 n0 y9 KGNC&P Guidance, Navigation, Control and Propulsion.; g6 G( V$ k4 a( e) J. z7 Y1 d GND Ground. 8 ]& F" T3 D+ B- TGOCO Government Owned, Contractor Operated. k2 E' D5 |3 hGOES Geo-stationary Operational Environmental Satellite.# T$ q" E: O( V; _" S* `7 Y GOI Government of Israel. 3 |# ?) _# l2 Y4 ?; _' A9 I" @ iGOJ Government of Japan.

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GOSG General Officer Steering Group. / j$ M, d% Z' L XGOSIP Government Open Systems Interconnect Profile (CALS term). + x! x* g' @( g& HGOSP Government Open System Protocol (CALS term)., P$ }* X8 ~4 k- ]2 a( t+ G+ @) Z6 v GOTS Government Off-the-Shelf.5 J! s3 i e$ ^! W" [ P+ E2 w Gov’t Government." u" l. y0 d8 U4 Q Government 8 e g) _( D% y4 ^Furnished 3 T7 W8 j8 k+ Q- E8 Q0 H( X# N1 i' eProperty " X8 y- ]; N, V! m0 hProperty in the possession of, or directly acquired by, the Government and / W, ?! {1 [# s9 T+ o o: Csubsequently made available to the contractor. (See FAR 45.101.) 1 z$ a) A6 s4 B/ |Government , P) Y. |( |# RVerification; C1 M' a, U8 A& z. r! n: x Management , }& n( _( V4 nPlan (GVMP) : [( h4 S. ~0 k, Q7 rA management document that provides the overall framework for BMDS; ]6 h4 i" J% r: z verification. It includes processes for implementation, organizational + x' F8 O1 x+ e2 C' M6 Vrelationships, and stakeholder responsibilities. It covers the full scope of BMDS 3 A ]9 @% _ V6 jverification and identifies how all BMDS verification activities will come together to $ @2 s8 H! o' p9 w8 xconfirm BMDS capability. ' d& ?* E3 H( O0 C; I) [# fMDA GLOSSARY, VER. 4.0 G 0 ]! u2 s9 x1 N! J2 n121$ {7 Z; H) u" @1 ~- a GP Group. ) M. _3 ]# W! c( H4 v7 G7 `4 HGPALS Global Protection Against Limited Strikes. # Z- C# ]* H/ oGPC Global Protection Center. 8 J- T/ n. ~7 Z+ w# Y( xGPMD General Manager Program Management Directive. . |" o. Z' J) B: TGPO Government Printing Office (US).8 K. Z7 V6 w( L GPP General Purpose Processor. % A5 d; G8 M; CGPS (1) Global Positioning System. (2), Global Protection System. ! I; u% o" v. B$ w' ]- y$ DGPSIU GPS Interface Unit. 5 }0 L$ q8 w' B7 V/ F6 M4 tGPU Guidance Processor Unit (US Army term).. o3 b" E6 B: u+ Z Graceful$ W3 j6 m$ X& A Degradation * v7 g- n" k5 U4 l2 @) E) L1 |A condition in which a system continues to operate, providing service in a " f5 r. ]( g% J4 ^) g& Hdegraded mode rather than failing completely or catastrophically. [4 R3 g0 _( {1 ^ GRASER Gamma-Ray Amplification by Stimulated Emission of Radiation. (See Gamma- 5 ]7 t+ B. D- C0 JRay Laser.) $ F$ t2 u8 ]; R4 [; s: D7 sGRC General Research Corporation. 9 d d- U9 f, Q& p, @$ H, wGreen Code Interface Software.7 o! ^5 S% a; v0 }- ]* I Ground-Based N0 t" o$ {9 g2 c& ^ Defense+ y( M3 {, p( T. b3 d8 }# {" i! q; n8 q The ground-based sensor and weapon systems of BMD. }2 Q6 L0 p; B, y Ground-Based 5 Z* r$ T, [' i2 | LInterceptor (GBI) X' U, g5 Q* {0 }# A A kinetic energy exoatmospheric interceptor with long flyout range to provide,6 e2 U; p1 W. a0 h where possible, a multiple engagement capability for defense of the U.S. with a " r/ @* I* O( H7 S, irelatively small number of missile launch locations. It is designed to engage % ^4 {3 O$ w7 [0 y( kpost-boost vehicles and/or RVs in the midcourse phase of flight. 6 S3 N! I6 ]% b" i& S: }* O& z(USSPACECOM) (Successor to Exoatmospheric Reentry Vehicle Interceptor 6 o; E {1 ~& _0 x2 u; K- sSubsystem (ERIS).) See EKV. / h2 Y# y8 P' n9 b% H2 LGround-Based% C' h- ]6 P c- y$ s \# [$ @/ O ^ Interceptor 1 L$ l0 Z# {9 h" ]Experiment# ^9 T1 y+ @5 [" F9 c0 w (GBI-X) 0 L; h: \; g" xDesigned to infuse advanced technology and promote competitive environment % n" Y! p# \6 {; b- xfor GBI.+ Q1 L# d$ H9 H! I" o Ground-Based 0 m1 W. B3 k! YRadar (GBR): N* M6 B$ D) P# B5 W" \8 |+ I A task-able, modular, multi-function, phased-array radar that provides* g5 a& j+ I6 |: x surveillance, tracking and engagement planning data in post-boost, midcourse, 4 Y! s2 E, v8 J2 s6 Z" i' i8 aand terminal flight phases within its capabilities. It also provides target0 D* u3 }0 X* U5 V% W2 n$ \ discrimination, in-flight target updates (IFTUs), and target object maps (TOMs) to2 r; P$ m) e# T& v7 C2 n) X( I0 A0 z interceptor vehicles. See THAAD. (USSPACECOM) ) X% V( O* F" }Ground-Based3 i n) _$ o& B) n3 s' i& r4 z Radar Terminal ( W- ^2 E( t" p2 r4 r9 q(GBRT) 5 T% p/ A4 z1 P5 O% @+ iThe sensor for the NMD system. An X-band, ground-based, phased array radar : r7 ]$ F ^: u# n- Fcapable of detecting, tracking, and providing discrimination information to a + D" h6 Q, c8 m- O# Oground-based interceptor.+ }! l5 ?! B3 Q* J- e Ground-based " p; @& z% N/ l! A1 Y* V6 |1 nSurveillance and& h2 w/ w$ W- L: U- q Tracking System) n$ C! t F' m# ]2 o+ e (GSTS) # G. J/ @2 q3 y0 p) j: x! s' m: m6 UA fast-response rocket-launched sensor, which can support the SDS midcourse ) j2 |' \# K' }- gsensor suite by employing multiple Long Wavelength Infrared (LWIR) wavebands 4 U: x$ j4 ?" k+ [; k G- _. Jand a visible waveband sensor to provide tracking and discrimination of! N' Z) s( K: f: r8 [1 d potentially lethal targets." f: U' T4 u* w1 w+ W4 H! V. c MDA GLOSSARY, VER. 4.0 G# e3 l$ ^4 }: p! C, ] v 122 " D" z9 j" C% W h7 M Q$ rGround Entry* {+ g! H g, i8 r Point (GEP)# ~! ]' X/ R$ z4 v) t; }( w4 w OBSOLETE. GEPs provide the communications interfaces between the SDS0 C3 A$ T; d' _$ W& g2 C$ s space orbital/sub-orbital elements and the C2 E. See IFICS.6 R6 _9 n3 n7 c& e" l1 I d# H. |4 p Ground Mobile 5 A- G9 Y. A3 M; I6 Q1 ^9 YRegional 3 l3 n/ u( Y' n: BOperations( I) s. [& A4 X l Center - P) `5 w0 W* A(GMROC) $ x/ Z s& R2 _6 u* ~6 RTransportable ground segment of the Regional Operations Center.. I4 {: }6 b$ c3 a V, s" I Ground Zero The point on the surface of the earth at, or vertically below or above, the center " o* W- f6 L6 ~& n* i* Kof a planned or actual nuclear detonation.% N3 a. O. T* @( Y3 i3 }, X+ C GS Garrison Support (US Army term). 5 g- T& s! v% D8 F6 WGSA General Services Administration (US). , [ v9 w& X: j8 }! i, gGSDC Ground Station Demonstration Lab. . S1 G0 d/ Y- ?3 U" L7 bGSE (1) Ground Support Equipment. (2) Government Support Equipment.6 @; C: k0 Y h4 Y' k B \ GSFC Goddard Space Flight Center, Greenbelt, MD.% v. m* e+ |4 o GSII Government Services Information Infrastructure.1 U9 {. h0 t7 ]3 G. d" h/ \ GSM Ground Station Module.0 t1 N. d5 E! Q# y4 s; z GSO Geo-stationary Orbit.% _5 h, x2 m5 I W7 j0 @& Z' L3 W GSR Ground Station Radar. 9 e% c6 A0 c' E5 {% ?+ {GSTS OBSOLETE. A fast-response, rocket-launched, Long Wavelength Infrared W' o/ \( C7 H: ?6 u v(LWIR) and visible waveband sensor, which would have enhanced the ' b$ h+ R3 t% minformation available from the SDS’ midcourse sensor suite by providing tracking & K7 U1 G8 ~" J, ^) C& Aand discrimination data on potentially lethal targets.+ G- ]" |/ v5 }; }' J GSTS (F) GSTS Farm.6 K) k( q, x' b5 f; {7 u3 a. L; p GTA Ground Test Accelerator.( W4 l& j. q( I9 c' Y6 P+ j GTACS Ground Theater Air Control System. : F* [% W2 z! u2 @: ]GTE GTE Corporation. 6 v+ z* i/ B, }- pGTF Guided Test Flights. # o1 ^/ |' [& Y9 g/ OGTM Global Track Manager.% O# |9 E G1 t4 ^8 j7 N3 p0 Z GTN General Technical Note.+ G: K, E( g+ s4 [9 H9 U GTR Gulf Test Range, Eglin AFB, FL.& S4 X5 o( H; j- v6 o GTSF Guidance Test and Simulation Facility (PATRIOT), Huntsville, AL. 2 E; G W) t% ZGTV Guided Test Vehicle., b. q: {5 Q- p* f( @9 _ GUI Graphic User Interface.* Q5 B6 [. s6 d* I4 r% V( t( V8 ~ MDA GLOSSARY, VER. 4.0 G * k# M* u) F, o( A2 H9 E; N1234 N; x3 x, l. l/ t7 p Guidance (1) Direction, altitude control, and navigation (where appropriate) of sensors 7 Q; z6 x2 g: P! lor interceptor vehicles. " o- ?9 A( B% V2 [: U0 Q2 J(2) The entire process by which target intelligence information received by a2 s% } O- a7 ?2 k3 s4 M+ l$ l guided missile is used to effect proper flight control to cause timely' N) K5 [% L6 Y% ] direction changes for effective target interception.+ Z# O8 }' x! i1 C/ Y Guidance- N8 y7 ?! s1 n% j Enhanced7 W S7 `& Y3 d' ]+ e Missile (GEM)% a7 t/ F* p% B6 @2 E5 x A companion program to PATRIOT PAC-2, which includes enhancements to the+ p- |4 J& @) _8 d/ d' \& C( J" A- @ radar to increase intercept range and performance. 0 j3 H9 t3 Y$ T: }Guidance! O3 t. d% |6 O; G2 z System (Missile) 6 h9 V8 t4 u5 m6 m% E! @. AA system, which evaluates flight information, correlates it with target data,# @! S0 s) C3 n5 Q2 d6 s% D determines the desired flight path of the missile, and communicates the / A9 Z- Z d8 F" N# X" Unecessary commands to the missile flight control system.3 b1 }3 d4 `- Y4 A% D6 a Guided Missile An unmanned vehicle moving above the surface of the earth, whose trajectory or ) |' J5 W& {, J8 ~. uflight path is capable of being altered by an external or internal mechanism.8 ^, T2 K1 D8 ]1 d: M) g. A GVSC Generic VHSIC (Very High Speed Integrated Circuit) Spaceborne Computer. ) R: i6 p, ~0 G7 hGWAPS Gulf War Air Power Survey, 1994 [a DoD-sponsored survey].1 L; r$ J" O% L) S( B$ e* X Gwd Giga watt-days.+ O, r! f+ L+ F" i3 k GWEN Ground Wave Emergency Network. 9 w! W6 o ?, sGZ Ground Zero. a% v( O* X/ X' R% h MDA GLOSSARY, VER. 4.0 H* z) h& O, d# Q G- p 124 9 r- S( K" N7 O) u- jH Hour.! m) l, H5 l$ {/ T0 R+ ^9 t H&S Health and Status. ( C! T+ G& Q' u% z7 i# _H/W Hardware.% ]" q. V! K/ c6 h$ S8 `3 Q" z HA Higher Authority. 3 k% l" `2 V8 V# Y$ N+ ^HABE High Altitude Balloon Experiment." `: q8 ~9 ^0 |$ b. ^7 i+ g HAC House Appropriations Committee (US).: @; x; s( e. ]8 L" p HADS High Altitude Defense System. 6 E' q: e# G) |& M6 j8 ]4 yHALE High Altitude Long-Endurance.7 Z% {! t$ g- P! T; m2 T HALE UAV High Altitude Long Endurance Unmanned Aerial Vehicle.6 L* k* o5 F9 d# n. A Half-Value 1 u# `5 i6 \( X7 ~* g+ ]Thickness (HVT)2 v+ N/ x- y2 t z2 x The thickness of a given material, which will absorb half the gamma radiation % L" M! b2 p' o& a1 ^1 t: ^incident upon it. This thickness is inversely proportional to its density and also. k1 P: Z& z! C/ T) h, B depends on the energy of the gamma rays. + a& N% F+ P; j+ gHALO II High Altitude Observatory II" h% X3 @& L8 N; T* Q; r HAMS Hardness Assurance, Maintenance and Surveillance. & m+ N% d9 {& F) }2 |" [Handoff This occurs when information on positions, velocities and tracks are given by one , [1 W5 m* {6 r3 C0 X3 ysensor or system to another and the first sensor or system continues to track the4 }3 V% c/ o" u6 U9 I objects. 8 {! e. H8 t! sHandover This occurs when information is passed on to another sensor or system in which ; u/ E, G1 O" Pthe first does not continue to track. # ?& s1 T4 u A& r7 K% CHAOI High Altitude Optical Imaging.

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HAOIS High Altitude Optical Imaging System.# V* f3 y8 B# C7 F' _8 L HAP High Altitude Probe. ~: _2 J) w2 o) w Hard Kill (HK) Destruction of a target in such a way as to produce unambiguous visible - d6 a8 F+ t. zevidence of its neutralization.5 ^# W! R- A; \ Hardening Design and manufacturing process and other measures, which may be employed( L2 p- }5 G; `$ S! o to render military assets less vulnerable.3 w7 s5 i1 W# ~* v: X& j1 N' x) \ HARDMAN Hardware/Military Manpower Integration (Navy ILS term).3 ^ w2 n3 S+ I6 J Hardness A property of a target; measured by the power needed per unit area to destroy4 P4 ~0 ?, o0 N5 I5 M- i the target. A hard target is more difficult to kill than a soft target.% o/ S3 t! z" ?. F Hardware-in-the- 2 L7 o1 K `3 X* @/ D$ i4 }+ rLoop (HWIL) * {+ h1 [- n- a& n5 yTests in which BM/C3 computer and communication test systems will be in; l7 ]# `2 P6 D7 B4 F. t communication with some of the hardware test facilities developed for other BMD6 _% w* e' b/ z' f# w; _ technology programs.( @- w6 T$ K8 c4 t% z7 [4 w Hardware: C Q: x9 g& t0 g i Security5 Z/ F! O; {1 a D5 G$ q Computer equipment features or devices used in an ADP system to preclude/ G6 H" [% C/ S) r$ N# Y unauthorized access to data or system resources.* L0 Z8 n( w( l& | HARM High Speed Anti-Radiation Missile. % G) ]; s; H7 UMDA GLOSSARY, VER. 4.0 H 2 F; O4 ^: e" z9 h125 \9 ~( ?3 I; U$ ] HASC House Armed Services Committee (US). / M* @* M& e- z4 ]0 S8 v& \2 J. F3 FHASP Hardened Ada Signal Processor. + E" q. [+ z N0 F- |7 j/ E3 BHATELM High-speed Anti-TEL Missile. 1 A( i- C7 N3 u- mHATMD High-Altitude Theater Missile Defense. (U.S. Army)6 A* w& n" Q. T* ^! _3 y9 }( n" V HAVE STARE Name assigned a proven sensor capability.' X" Q' ?% Y! ]3 u* O- v+ r l- l HAWK Homing All-the-Way Killer.+ Z: A2 _( U& B) D HBCU/MI Historically Black Colleges and Universities/Minority Institutions.4 F% H7 E( [; Q: J4 c HBHO Hard-body Hand-over [algorithms]. ! {. m4 y& p; aHCO High Consequence Option (Safety Engineering term). 0 L2 _' E( _* o. G' ~( R4 ]! aHCT Mercury Cadmium Telluride.: W+ ~! H/ D; I! i: f HDA Hybrid Detector Assembly. ) e0 Z1 C% f4 LHDBK Handbook. ( D: [5 r: N" y5 ?0 QHDR High Data Rate. " r3 W+ |& r2 W. KHDX Half Duplex (TelComm/Computer term).; l$ ]/ q+ e- ~ r f9 `; Q HE (1) High Explosive. (2) High Energy. : `8 }5 C- e. t4 h5 l" A; Y9 P: _4 s* UHealth and Status9 z5 o4 Q* r5 B, u, @8 h (H&S) - G0 s4 {& Z: N0 s& T8 |Health and Status pertains to a unit’s ability to assess the conditions of its7 x5 c9 b) i; I) J# G9 S4 o4 H subsystem functions. The term H&S is used for units in remote locations, such* s0 T: ^8 L3 `* n7 `/ I7 m# X as satellites, where ground controls must interface with BITE to determine5 y% O( Q2 j- k6 R& Y+ I operational status of the satellite and its equipment. * \% a5 |% K, y. P! o4 m! sHeavy Replicas : n t7 K; y7 h6 V- W* Y' D/ D2 n(HREPS) ; p. N3 p, |( C$ s3 B6 y# ^7 eDecoys, which by virtue of shape, size, and mass, closely approximate an RV’s! g* ?8 P1 Y/ y signature. HREPS have significant off- load penalty.4 L4 J7 Z q. ]$ K HEDI OBSOLETE. See High Endoatmospheric Defense Interceptor.) l3 `. ~2 l4 A9 m3 j HEDR High Endoatmospheric Defense Radar.9 A6 D( U9 c+ i8 x4 ^$ n# { HEDS High Endoatmospheric Defense System.+ ?! ~6 n% c: o3 P; l6 C2 w5 z HEI High Endoatmospheric Interceptor. ! v$ k* a; D0 N# \3 b- p9 V9 `HEL High Energy Laser. ( X. @( i' A) ?# O {HELKS High Energy Laser Kill System. j( `/ X& \! f- f4 o, [) qHELLO High Energy Laser Light Opportunity. ! p1 Z4 |) M3 I5 F: j; RHELSTF High Energy Laser Systems Test Facility.( t6 V) H. j. V3 D; ^2 M( @ HELWS High Energy Laser Weapon System. $ u4 }! T9 C& ]* VHEMP High Altitude Electromagnetic Pulse.8 `3 H3 u3 G& d/ \ MDA GLOSSARY, VER. 4.0 H 5 _8 K3 G+ x( }! j4 h; x8 b126. h- C/ B5 T- u0 | HEMTT Heavy Expanded Mobility Tactical Truck (US Army prime mover).9 i- n# o# B, m |. f% s" C Hen House Soviet area defense radar used as a component of the Moscow ABM system 3 u0 p4 l! ^$ p' W* ]1 cthat provides VHF coverage of space to monitor orbiting satellites and early3 z$ T G* J- @6 ] v warning of ICBMs launched from the U.S. 6 S! f& d& M1 \9 y# b' o0 lHEO See High Earth Orbit.: U* `) }/ T/ ?5 z. J9 } HERA (1) An improved surrogate TBM test target.1 Y! G- L) L4 ?2 ^" y3 P (2) Two-stage, ground launched solid propellant theater target vehicle. (MDA4 f3 Y/ d$ b m1 h" |: V6 |- ^ Lexicon) 2 W: m/ e, H1 T. f+ h1 mHERO Hazards of Electromagnetic Radiation to Ordnance (SM-2 Bk IVA). 6 D' p+ k) {2 _5 MHESP High Efficiency Solar Panel. 9 Z0 C7 N9 z6 V/ `HEU Highly Enriched Uranium., J7 M! ^* w* i$ G$ k HF (1) High Frequency. (2) Hydrogen fluoride. 6 x9 {8 @0 a: L9 U9 a/ Y& j5 tHF/DF (1) High Frequency/Direction Finding. # S( j& R0 [4 j0 |+ U( K+ u(2) Hydrogen Fluoride/Deuterium Fluoride. (Chemicals used in IR chemical ! u2 I a N r/ N! ~) _lasers). 6 d4 V% k N! D* _0 q* u5 mHFCNR High Frequency Combat Net Radio. k8 Z; g+ m0 Q( c; Y9 |) e" ~ J3 ] HFE Human Factors Engineering.% D# D1 S+ ]' F2 Y* q [ HgCdTe Mercury Cadmium Telluride. 1 n6 S9 C3 B, _4 k+ O# K! [0 g( jHHB Headquarters and Headquarters Battery.3 h! F M6 G' h HIBEX High-Acceleration Boost Experiment. ( \( R) [1 Q: v+ Q" O' THIBREL High Brightness Relay.9 C. q. n1 T; m1 u& f, S HIC Human-in-Control. 0 M5 i" e- m2 I5 ^HICOM High Command (Navy term). % M6 j# v4 S1 UHICTB Human-in-Control Test Bed. . C8 W1 V* `. \HIDACZ High Density Aerospace Control Zone.. V5 S) ]- G" I. h HIDAR High Data Rate.) p7 p' S' f a3 I5 ~, j: c. c q High Earth Orbit& X1 C' |0 v% ^) d$ g- T (HEO) 7 X* T4 q ]! _/ d( lAn orbit about the earth at an altitude greater than 3,000 nautical miles (about 2 D! O7 O C: V6 R( H5,600 kilometers).* a# ]! G& S+ c. O6 q) S; k! O& Y; P High' O8 I. `" r: a9 w Endoatmosphere / g! P( n3 `9 ^+ {1 h/ w4 f1 p) b/ L5 gThat portion of the earth’s atmosphere, generally above 40 km altitude.0 z2 W' d. F- E" A High , ^0 G4 J% m3 G3 {+ b( f: L) j2 uEndoatmospheric1 ?, O0 f) ]1 }' q3 \ Defense3 E8 u( q% G B( |- M Interceptor (HEDI)9 Y. G3 B$ H- l {. O$ q; I; Z OBSOLETE. Interceptor concept designed to engage RVs within the (upper or ( U/ L, k+ M. [0 {9 Z uhigh endo) atmosphere. (Predecessor to Endo-Exoatmospheric Interceptor2 _% A& E6 R/ J, Y. e; C. A (E2I).) % z" }2 a& E; X- ZMDA GLOSSARY, VER. 4.0 H " j4 [; x% o4 r& K& {; [- {1 }1279 e1 {( q& a# [8 e: J' f& N High Density( A3 m: n! C- Y- W Aerospace. q0 q: I6 b9 x/ y2 p8 s6 f1 [ Control Zone / c3 O% O/ c2 t! \2 W1 o4 M9 q(HIDACZ)1 \, W: |$ Y0 ?* p5 o Airspace designated in an airspace control plan or airspace control order, in + L/ K( Q5 ?: ~, Swhich there is a concentrated employment of various weapons and users. A. ~- o" S# p/ i2 U$ |/ Q( Z HIDACZ has defined dimensions, that usually coincide with geographical( D6 U w3 d7 \ features or navigational aides. Access to a HIDACZ is normally controlled by the ' s$ |% g) y, nmaneuver commander. The maneuver commander can also direct a more 0 N: D& B$ e* Y* j' n/ F" Z3 Rrestrictive weapons status within the HIDACZ.+ N) J& Y1 ?8 f: T! |: b9 I Higher Authority; T! Z, g6 N6 Q Interface , d' e7 x4 a" b r* _Policy, strategy, doctrine, readiness conditions, and rules of engagement from6 P7 A9 r" X! i" k$ {, f* W/ i* k higher authorities for use by the defense system in conducting system r) X" r5 d, T9 u7 x4 P operations including specific orders specifying actions such as testing, defense 8 \+ t3 q: d a6 c% [enabling, pre-delegation of authority, etc. Also the reporting of situation! f+ y+ ], W- i6 [: j7 ]' n' S assessment and system readiness to higher authority.9 E( V+ e9 X2 j4 Y5 R! b* T7 ^ High Order/ [* v' w1 w6 R+ }8 b( t# g Language (HOL) ; C; w/ s3 i% E- p* mA programming language that requires little knowledge of the computer on which/ I1 S3 B( W+ V2 q a program will run, can be translated into several different machine languages, P; h" Y8 Y$ n' s r( {allows symbolic naming of operations and addresses, provides features ' v1 d' \( C' k* G! Qdesigned to facilitate expression of data structures and program logic, and ' q( [3 _# ^, ]- t) [* [usually results in several machine instructions for each program statement.- _3 F. G% ]: X+ k4 R HIL Human In-the-Loop. % H+ P# \% ~5 R$ ~2 B6 W" W; {" hHIMAD High to Medium Altitude Air Defense. 3 ? @1 P# z' r: j2 XHIMEZ High Altitude Missile Engagement Zone.: f6 ~7 V% W N- x, ? HIP Hot Isostatic Processing. : e% Q& _) q8 L2 x, qHIRAM High Resolution Infrared Auroral Measurements. + m0 w- A" n+ J5 G" m( X* z% L: b( AHISEM High Speed Environmental Multi-burst Model. + A9 x4 f4 @( A+ LHIT (1) Heterojuncture Internal Photomissive. (2) Homing Interceptor Technology. ' L6 P- }1 Y: R, sHK Hard Kill.9 ^- O! v& z1 ]# u. |8 p HKV Hit to Kill Vehicle. ) g( {0 F( n- y% S& GHLD Hardware Description Language.# Z) R6 D; h% r. P% W4 l HLLV Heavy Lift Launch Vehicle.* R- W g% {' l% z, H; Z HMC&M Hazardous Material Control and Management.) F0 m: @& }0 S- n: D- ] HMI Human Machine Interface. 7 c. ?' Q3 C7 z4 D; `+ [, QHMMWV High Mobility Mutli-purpose Whealed Vehicle (USA term) (pronounced Hum Vee). + J, d, g( n7 t; x$ P, S( AHMPC Hazardous Maintenance Procedure Code. 1 y% m; O/ w" E. P! q; m# w! `, Y$ UHMSC Hughes Missile System Corporation.! m- X& G# w3 B. c HOB Height of Burst. ( k0 C% d, d: T- j( `( ?( ~. [$ ?HOE OBSOLETE. Homing Overlay Experiment. (Predecessor program to & f4 \2 l8 I5 E% eExoatmospheric Reentry Vehicle Interceptor Subsystem (ERIS).) : U4 ?2 C6 Z. M; ]HOL High Order Language. , S" d0 ^! l- V4 I+ _0 p% i& BMDA GLOSSARY, VER. 4.0 H * d& E1 U+ Z7 p# Q) r1280 ?1 s; W b" `6 l Homing All-the-% J- A5 Z" H w+ L: \6 |9 y" A Way Killer, N' i0 @, b1 S! W2 S# ~ (HAWK)- L2 a1 c' x( a( ? (1) Upgrades to the HAWK interceptor and radar system to provide the 5 Q" `+ T* n; Q2 xMarine Corps with a mobile point theater ballistic missile defense3 k8 ~' A! k+ I8 X5 g capability. 1 P9 d- E% k: ~1 V% y3 k8 a(2) A mobile air defense artillery, surface-to-air missile system that provides/ u- s+ C1 g6 y& I+ j' Q non-nuclear, low to medium altitude air defense coverage for ground e- F. m& Q* F. S% G0 n forces. Designated as MIM-23. 4 j4 Q6 U- m. J$ _6 `Homing Device A device, mounted on a missile, to aid its guidance to a target. The homing & e% x, ~9 R2 S& r3 M: xdevice uses sensors to detect the position of, or to help predict the future # i9 L m9 g/ y l/ kposition of a target, and then directs the missile to intercept it. The homing5 G5 l) d; u1 m9 r6 N device usually provides frequent target position updates during the flight of the2 b' y# C9 [( V6 w( ` missile. / U/ {# W) R" W" G4 _Homing: w% Z, \# [3 P6 Z2 u8 }% k, F5 q6 A Guidance , z+ p* D, m5 `; KA system by which a missile steers itself towards a target by means of a selfcontained mechanism which is activated by some distinguishing characteristics of3 {$ l9 @" @7 j- F1 H. v2 v the target, such as an infrared signature. 9 N$ J' @" A" E; l2 Q1 aHOMS Homing Overlay Mission Simulation. ( V! r- @/ ?- B( t4 n' h; G, ]HOST Hardened Optical Sensor Testbed. r# F4 W: B+ n0 ]. j* V; R9 Q3 QHost Installation A designated DoD facility that provides non peculiar SDS support of SDS 2 s) _2 T2 I% q4 jelements.) N8 @ g3 ?3 L( Z% L0 N) Y Hostile1 a; r) T2 Z- E Environment : `, F9 b" d) z6 _9 CThose environments that result from a BMD system engagement of an enemy - \4 G7 G. {+ U* n- uthreat or collateral conditions resulting from deliberate hostilities. Hostile 5 O. z- V7 a) o; k b3 p4 benvironment categories currently applicable to National Missile Defense are & Q: _# L( @0 V8 H) a1 ZNuclear, Battle Debris, and Electronic Warfare. 3 P0 L2 G& K% @Hostile Track The classification assigned to a track that, based upon established criteria, is& d: |% n4 W# h determined to be an enemy threat. ; l$ t9 ^' w" f# lHost Interface The interface between a communications processor and a host computer.+ ~( D! z8 L& f( t8 @3 F Host Nation ; b& n! y$ s( i7 A& z' ]. G, HSupport - d: T6 H9 T1 L g! l( `, H6 Y) gCivil and/or military assistance rendered by a nation to foreign forces within its! z# X7 N- z% i i/ I" H territory during peacetime, crisis or emergencies, or war based on agreements 0 _& [# j! c& N- Qconcluded between nations.& N, H- x6 |5 @ hp Horsepower. ' X0 r9 _ }3 ~, v+ aHPA High Power Amplifier.7 c# I; Y5 ]2 h4 H* s4 v) q& ~& [ HPC High Performance Computing.5 Y; W* d! ^6 ] HPCC High Performance Computing and Communications.$ M1 a4 Z& Q: W. f$ z HPG Homopolar Generator.5 `& N$ V' Z; T$ X1 v$ Q HPI High Power Illuminator (Hawk).8 a* b* R& Z5 ^6 @9 N) m3 g: [ HPIR High Power Illuminator Radar., ?9 x9 E7 ~& M5 z: e; K8 Q) k HPL High Power Laser. 1 Z' b- `; e- O" q0 JHPM High Power Microwave. " \! Y4 `6 V" [% Z; Z, o3 FHQ Headquarters.6 R$ |1 H( I; }+ c- a/ P+ y( S MDA GLOSSARY, VER. 4.0 H; T8 ` S+ T. T 129) u* V8 b$ Y7 m I2 Z0 o4 x HQMC Headquarters, Marine Corps. P) {' E! J3 k5 yHRDS High Resolution Display System. 5 c+ D% ? S+ e7 v) r" } I4 HHREPS Heavy Replicas.# _6 n5 p+ {7 | HRR High Range Resolution." a1 n* R6 [- f( l( e$ C# g% l7 K HRSA HICTB Requirements, Support and Analysis. ! s: X; h) d& D1 t1 XHSDB High Speed Data Bus (TelComm/Computer term).% Q2 }) G( n9 f HSFB High Speed Fleet Broadcast (Navy term).! h" W# Z8 C; K9 E1 d9 E HSI Human Systems Integration., I' G- z/ l( M- [0 p* k+ t7 o HSV Huntsville, Alabama.; u6 a v6 \) q: G HTICIA High Technology Crime Investigation Association. . G8 F- U3 @$ @HTI Horizontal Technology Initiative.+ t8 a3 L) w8 N1 I. _3 P- } HTK Hit-to-Kill.4 X0 k' L9 t' l# h5 M% n) G# ~ HTMIAC High Temperature Materials Information Analysis Center.. w* M' C& c; }7 U; \* D- ?8 y HTML Hypertext Markup Language.' a5 T3 n3 R# S( _" Z HTPB Hydroxy-Terminated Poly Butadiene.& ]% F- |5 }* H+ `# o* w HTS (1) High Temperature Super-conducting. (2) Hawaii Tracking Station. 5 [4 a& M5 o! M4 ^2 R- z0 \3 W; J' |HTSA Host Tenant Support Agreement. ' ?. S8 m8 v6 h1 f- [8 v) c6 ]HTSS Hardened- sub-miniature Telemetry and Sensor System. p3 e/ t0 R5 N7 R' i6 E, R& z# ? HTTP Hypertext Transfer Protocol.0 b: Y; \' j- b0 x/ A0 y4 G HUD Heads Up Display. # _/ C6 [0 q. h2 ^) X8 rHuman Factors A body of scientific facts about human characteristics. The term covers all1 } w4 {# o1 l2 Y; a1 j biomedical and psychosocial considerations; it includes, but is not limited to,9 p8 Y3 ~4 {! B0 U, b: C1 _ principles and applications in the areas of human engineering, personnel : p* y4 E+ G" I4 y" w3 O$ yselection, training, life support, job performance aids, and human performance 7 |( q: v( B7 B) X8 Tevaluation. : i. ]) f! M* QHuman Factors& Y% o8 P( I* M8 b' t! }3 | Engineering # m# s/ F1 {+ C8 oThe design of man-made devices, systems, and environments to enhance their& A( ?0 }! l0 F% B1 U( W use by people. Also called human engineering, human factors, and ergonomics.

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