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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.) ~& m% i0 P4 k* O2 U! p m+ V5 O ELS Earth Limb Sensor. 5 t7 t0 N1 i, s. x: G# X" i7 p# tELSEC Electronics Security.; Z: l- @# H7 B8 T' K' |( C ELSI Enhanced Longwave Spectrometer Imager. ! M; g! a D* s% `' m; X) v0 c, kELV Expendable Launch Vehicle.* Q& x0 |. ^. ^6 ? Emanations8 C1 w N1 q9 Q Security & n. A+ o5 g+ _* B0 y6 Q% N(EMSEC)3 n# `5 b0 | H' o4 A" X4 H( i7 w The protection that results from all measures designed to deny unauthorized ' z- w6 c4 K( N" |9 Vpersons information of value that might be derived from intercept and analysis of * q8 `- d& y* Fcompromising emanations.% C6 v) P* W) u0 ?/ w5 r EMC (1) Electromagnetic Compatibility. (2) Early Midcourse. ) J" K( _ w% ]$ A3 U- YEMCON Emission Control! s7 J7 E$ e0 l9 {( n3 l+ K: ~4 T EMD Engineering and Manufacturing Development (previously referred to as FSD).5 W% v' n Q8 _' i0 y EMDCT Expanded Memory DCT.' I( h: ~+ m" o EME Electromagnetic Environment.+ a/ i4 j1 S: x" G MDA GLOSSARY, VER. 4.0 E 0 }% Y. [4 K) [% }- z93* M: h0 w5 X8 o% W. V1 @1 L9 h0 K3 F Emergency - V5 e6 h7 x, v! q& Q3 Z, b4 PCapability 2 w- F8 z$ {8 z3 f(replaces + Y: X6 A' X+ f6 S) e2 V( \Contingency! o b" D; a# W4 |( g Capability)$ g, U. j0 b) i) E& [ BMDS elements or components that are still in development or testing that ( M# U* C3 [ H' x3 l qprovide limited ballistic missile defense capabilities. MDA, working with the V1 n5 K y% ^4 n5 g1 x8 yServices, will develop plans, which cover the potential use of prototypes and test0 _+ s i, r: V3 K2 v assets for contingency deployment should the SECDEF determine that an + g4 n, ~. V% O; Femerging BMD threat requires emergency fielding of a BMDS capability.+ @2 k: h! a( k$ Q+ F9 u EMF Electromagnetic Field. % b. b4 K+ g' E; C" bEMG Electromagnetic Gun. + z/ ?7 J, @, mEMI Electromagnetic Interference.. b4 z* N- R& I: `4 C3 I/ o EMIP See Exoatmospheric Midcourse Interceptor Program. * @) c+ ^; L2 l$ l" DEmission Control( v/ Z a2 {: Q, k7 z7 h H" h (EMCON) ! q" M( B' _/ [: y- r# O: qThe selective and controlled use of electromagnetic, acoustic, or other emitters+ l4 P' `2 h" g. I! U. T to optimize command and control capabilities while minimizing: a) detection by 2 Z" J" z" v' B5 A6 m( Ienemy sensors, and b) mutual interference among friendly systems. EMCON 1 t6 l6 o. x8 v! Kcan also be involved in military deception plans. Also called EMCON.' v+ T6 R6 I. R' F EML Electromagnetic Launcher. A device used to launch hypervelocity particles. ' f @& E6 t4 Y: K2 V; |% E3 j; KEMP Electromagnetic Pulse. 4 l1 S: D4 E9 {$ B- F8 C1 LEMPSKD Employment Scheduling (USN term). 7 F, F7 T- D& v6 z' p1 t5 l0 ~EMR Electromagnetic Radiation.& T) \- J+ G. Q# K/ M EMRLD Excimer Moderate Power Raman-Shifted Laser Device. , }6 j5 ?- l5 |2 g- e6 `" kEMSEC Emanations Security.( N5 g; D' K+ j+ k EMSP Enhanced Modular Signal Processor. & Y6 t2 r) }3 u+ }- S! ^EMT Engineering Management Team. % Z b( t3 a6 wEMV Electromagnetic Vulnerability. % }- U9 K/ ~1 |* o) u, r" wENA Engineering: Architecture and Analysis. * N& N; w+ ]8 x& jENCATT Engineer CATT (US Army term). " \1 c" J" B7 T, ZEnclave Isolated resource – an SDS asset that has lost connectivity with other SDS& d4 N$ S$ w1 h: H9 c assets with which it normally has connectivity, but is still capable of coordinating * I, E$ l0 J: n3 u" Xwith SDS assets to conduct ballistic missile defense. Various combinations of4 V# w& \( E3 @, j connectivity losses are possible; for example, (1) an operations center has lost 6 d( L2 u& K. M5 }& c9 o* sconnectivity with Higher Authority, yet can still provide sufficient C2 and can still ; j2 m6 [) o; G1 B( Nconnect with sufficient weapons and sensors to conduct an engagement and (2) + Z8 U4 Z" g1 B+ ]# j2 Dan operations center has loss of connectivity with another operations center with( W/ Z& m4 k5 F, i. L5 A4 a0 I which it normally shares data, but can still conduct an engagement. 1 i: x4 v/ c, Y5 Z7 d. [# f8 ?Endgame FOV The field of view of the interceptor’s sensor during its final maneuvers after target1 k6 r" [7 u& F9 W5 o( t7 A2 G acquisition to intercept the target. May be less than the acquisition FOV.1 L& {' @9 K) w! K s0 }) j End Item The final production product when assembled, or completed, and ready for % N2 I6 s3 n. q3 H# rissue/deployment.0 m6 }( ?( X& [; }8 d" I. Z$ b MDA GLOSSARY, VER. 4.0 E. X4 a* ?+ O( E2 v" }4 O+ o 94 7 z6 H$ ~8 E6 P3 {6 G% h% z/ ZEndoatmospheric Within the earth’s atmosphere; generally considered to be altitudes below 1003 k1 g ~" E* e* f, [9 i- V km. An endoatmospheric interceptor reaches its target within the atmosphere. ) e' {0 O( J$ M; m+ X6 A t4 YEndo-8 j- F+ Y0 i" } Exoatmospheric+ O2 {3 ]% Q |' V0 A- G Interceptor (E2 I) % v) K( _+ F" M3 s4 ~# Q# I, d8 SA ground-based interceptor capable of engaging RVs either endoatmospheric or7 v8 Z7 U/ O% V0 ]/ B7 f exoatmospheric. (Successor to High Endoatmospheric Defense Interceptor: g) B& r1 A1 m J8 s (HEDI).)( _" j1 o. n M+ j$ b ENDOSIM Endoatmospheric Simulation. 0 S7 ^- F) X. f7 x0 AEndurance The time an aircraft can continue flying, or a ground vehicle or ship can continue7 `3 \# n% ]( `+ c# n; @" E operating, under specified conditions, e.g. without refueling. f1 u9 m1 B5 E3 m% o! t$ Z ENG Engineering.- {; A1 [ ?2 x' ^ ENGAG’T Engagement. ) h* V" S8 t: X% Z' DEngage (1) In air defense, a fire control order used to direct or authorize units and/or. U) C! a0 T; |$ Y7 L; M# w weapon systems to fire on a designated target.. F7 p% S# ]1 Z; O. p. v1 i& r (2) In air intercept, a code meaning, “Attack designated contact.”, U/ s, l# Q; n5 K Engagement (1) A period of hostilities beginning when the first ballistic missile target % h8 W9 }8 H# A8 w* Z- R- B$ x/ Aundergoes fire from the first defensive weapon. ' W- t( a' f) m% x7 B- Z X: q7 ~(2) A period beginning whenever any hostile object is identified (designated)* x. T- s$ i7 {# r/ f0 S# q- C6 b as hostile and ending after the last hostile object has been attacked. 6 X G4 M$ M3 L( o7 V(3) In air defense, an attack with guns or air-to-air missiles by an interceptor ! k/ A4 p/ ] Q6 X2 A0 `+ T4 [' paircraft, or the launch of an air defense missile by air defense artillery and ) }* |. t/ K: t. Hthe missile’s subsequent travel to intercept. % O: P5 j$ Z/ ]) w, }! jEngagement ) F' w c. T: F$ I; z# i: tAuthorization 8 W( t% ]5 ?( fThe authorization given to USSPACECOM to use weapon and sensor systems5 w( T7 z8 G, H9 \4 I1 A7 M under previously coordinated and authorized rules, procedures, and conditions. * m: `# W! a+ W6 O1 v' XEngagement# a8 g8 H2 _2 y9 @8 G- s- q Control ! O8 ^; J e1 R' T+ R1 N1 f0 j(1) That set of coordination, assessment, decision, and direction functions* O; [$ _. Q$ T6 F normally implemented automatically to execute the selected battle plan,- q9 I; U- I) ^' A2 T% ]2 C military strategy and tactics within partitioned battle spaces (i.e., a , m5 h* p2 m6 p/ _3 X T8 @9 a5 sspatial/functional subdivision of battle management). Includes the/ _$ D1 Q! \ G9 Z; Z3 O/ Y determination of: what specific objects to intercept in order to implement9 Q4 T6 b5 k: r0 ~. v" `) @ the selected military strategy, and which specific interceptors to assign to * s. h) |! d" R. Yeach attacker to implement the selected tactics within the rules of ; p- `6 i: y# G6 ~ u. d' `) Uengagement. ?3 i0 [! u1 ~ (2) In air defense, that degree of control exercised over the operational# B$ R$ d( r) m6 n" X0 _, U6 x functions of an air defense unit that are related to detection, 7 |; T/ Z& Q: m0 i: Iidentification, 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% m6 K; t0 j& Q) d% V2 B2 U+ Q Planning3 U' Y7 D3 s! |& i) l4 B2 Z A set of rules and parameters to be used in developing weapon-target% H6 I) w/ C: O: r assignments and for sensor resource management. (USSPACECOM)! {) J; E+ O/ E6 { Engagement$ o6 _$ ^+ k9 I: H3 u! n, c Surveillance ! t/ g2 n% O/ ?) I4 _9 G% DThe surveillance required to support RV negation in the midcourse tier. 1 ?; }: o% l6 J g2 s; dEngagement 7 u, a. Q, `4 M! UTime / {+ z* w/ _5 f jThe time that a weapon takes while engaging a given target. This includes not 7 p/ q' o% c# g2 y8 h" Wonly firing at the target but all other necessary weapon functions involved that 5 W) v. T1 f2 M. J+ \are unique to that particular target. . ~5 v. J9 K/ n0 v' o8 ^MDA GLOSSARY, VER. 4.0 E& z) o3 J& C3 k0 L* }- R, B# a& F5 D 95% E2 g" V# m9 E$ q2 G2 M Engineering and + G( j+ i0 Q" R+ r9 |Manufacturing / ~9 s/ D2 J6 Y' E+ C! }Development - o6 {2 L' b+ C |, T(EMD) " q- Y1 r* x# D/ ~0 R n fThe third phase in the acquisition process, following Milestone II. The system/ q- r8 a3 r4 D! Z and its supporting items are fully developed, engineered, designed, fabricated, - q# J# O* h: }8 _* q3 s+ \; T$ ttested, and evaluated. The intended output is a pre-production system that ' P/ Y( `" M5 R! aclosely approximates the final product; the documentation necessary to enter the: ^4 R/ i6 o6 Z production phase, and the test results demonstrating that the production product ' \/ H0 j( w x) r: o1 Swill meet stated requirements. \7 I8 z" u2 v+ HEngineering. E) D) V e! `; n* W" e8 O Change Proposal& N$ Q3 i1 ?# A: r0 [+ _& } (ECP) . f: H! {0 K. Y7 @A proposal to the responsible authority recommending that a change to an * K5 J' R( o/ v* M; p3 Toriginal item of equipment be considered, and the design or engineering change # N* j; Y5 W& b" sbe incorporated into the article to modify, add to, delete, or supersede original8 k& s$ q, ]/ b parts.: |, k/ P# H5 ^& b Engineering ! G- L6 \9 K- a& R" W" Q+ k7 zDevelopment ' _, d+ [1 a' q# H5 u$ i: fA funding category including those development programs being engineered for/ b/ B1 e9 C" B* A" i service use but which have not yet been approved for procurement or operation. % [' j) [2 u2 N3 j+ J" h5 S* WMoney under budget activity 6.4.% D$ P" S: y; r' I/ [ Engineering; Z% J; F9 N) r. } ~& q. @ Development7 t( |7 l5 a- z8 z X4 ?, n' ~9 v5 | Model, G0 n s8 E1 I Enhanced Target / t& t7 W3 I/ ZDelivery System : @, o5 A" T' n! {/ l# m(ETDS) $ d0 o4 h7 g. O! S9 q2 yAn advanced prototype used during the Engineering and Manufacturing2 R v: G2 ]6 W. U$ G Development phase (EMD) to resolve design deficiencies, demonstrate maturing 6 D% o' V- @$ uperformance, and develop proposed production specifications and drawings. 6 f) v |7 p8 H. Z9 _Target delivery system being developed for future GMD testing that will t9 N/ k1 I- m- ` complement existing systems, provide flexible, modular configurations, and will+ G' X z; d2 W8 ? be launchable from land, air, or sea modes* g. G# B# _4 l4 m ENNK Endoatmospheric Non-Nuclear Kill.+ T, ?; y7 T g, B, h9 x$ b ENSCD Enemy Situation and Correlation Division (JFACC term). " b6 R' U E4 v( MEnvironmental3 z8 n3 P( U/ e$ A Assessment (EA)3 N0 f( g |; o$ V" a A concise public document whose primary purpose is to provide sufficient " J) |9 z% O! i; |analysis of environmental effects of an action to determine whether to prepare u* \% c; j- J" F, e( i3 Ian environmental impact statement or a finding of no significant impact.2 i( g+ N# _2 B6 {& g Environmental4 a5 ^4 G, R+ i/ c% a Impact Statement- B' `! z: { d" n% x (EIS)2 }" K; S& K7 B! _3 g+ d' L* C8 F A detailed written statement analyzing the environmental effects of a major . O4 W" f( O3 |/ h; f& E6 QFederal action. ! O6 ?* K& N% E7 E1 O1 XEnvironmental $ e: G' j6 \4 j) h/ ]Security) x: W3 U) K: X# @) j* M s A specialized form of physical security that prevents technical penetration, e.g.,: O4 P9 I; P- v& J penetration by waves of electron beams. 4 l$ i2 e& \* X: ~8 h g2 s3 W \Environments The media, conditions, and/or physical objects in which a BMD asset is immersed; K, B* M1 h" i% }5 Y or surrounded. For BMD systems and elements, the comprehensive ( m8 d! B l$ j* M9 m) e; f5 P0 Xenvironments definition consists of natural, hostile, induced, and storage, + A* Y1 n- Z8 |$ {2 x: }1 rtransportation and handling categories.$ t v" v# B* A, j# Y EO (1) Electro-Optical. t8 a: i8 y; `( I(2) Engagement Operations.( \! O* }& J, s8 r, G0 F7 ^ (3) End Office. 5 G# C8 L) T- s7 e9 x3 s5 ], i+ i(4) Eyes Only. 0 r g5 G" z, ?. XEOA Early Operational Assessment.8 h2 x* t& x) h EOB (1) Enemy Order of Battle.9 P: m7 }9 C( f. V (2) Electronic Order of Battle. $ Q1 m. C, a; M6 _EOC (1) See Element Operations Center. ) n L ~6 A* l, l. |3 R(2) Emergency Operations Center Z6 h% |! e+ w% s. l; ^ MDA GLOSSARY, VER. 4.0 E# J0 ?' p2 Y6 g3 a- X: t n& F 96 8 @% d. V6 o3 Z$ qEOCM Electro-Optic Countermeasure.5 i0 K0 M$ {/ M$ X. K EOCT Element Operations Center Test Bed. / D$ k8 h8 }$ N; mEOD Explosive Ordnance Detail5 @5 w! a4 k, l& Z EO/IR See Electro-Optics Infrared.4 r1 F7 W5 x9 w' O! G! f EOM End of Message. ; b4 y2 C/ q0 t- Z0 m6 hEOP Executive Office of the President- _* g. c5 H. J$ r/ M* Y EORSAT ELINT Ocean Reconnaissance Satellite (US).3 J% q4 \) @! Q3 A& V EOS Earth Orbiting System (NASA term). ! \3 M" F2 n2 @4 Y) CEOSH Environmental Operational Safety and Health. ) C. W: R9 ~ b" ^: i3 k- uEP (1) Engagement Planning. (2) Evaluation Plan: O" D. {. j) Q6 a EP Cycle Engagement Planner Cycle (NMD BMC2 term). + s. B+ O0 Y8 s% p0 p7 Q$ X; iEPA Environmental Protection Agency. ( L5 |- z2 e1 |EPD Engineering Product and Development2 Q; c3 T' V6 |" c5 f+ [ Ephemeris/, h# \) b+ S0 o Ephemerides ' x0 v, ]& k* X+ [+ ^5 Z: H+ P0 R(1) A table showing the positions of an object in space at regular intervals of : @: |3 R$ X* Z, a( `* Stime.2 t3 F( R4 Q9 v6 K9 v" s (2) A publication giving the computed places of the celestial bodies for each3 c& X# H1 ~% ^* N% q+ R day of the year or for other regular intervals. ) P9 c, B7 }5 v1 y# ]% Y# {EPITS Essential Program Information Technology and Systems.6 y/ y1 b! j( F9 q3 l$ R/ L3 @ EPL Emitter Parameter Listing (USN term). 9 u3 Q4 r2 v0 e5 y0 z8 Z5 d* ?EPLRS Enhanced Position Locator Reporting System." r3 m+ }( a3 E3 k+ e( _7 h, E EPO (1) OBSOLETE - ERINT Project Office (US Army term). (2) Element Program 0 H7 n: ~. i# n, A% P n, m/ A1 dOffice. # W/ W7 u# \7 w, r9 k/ eEPP Electric Power Plant (PATRIOT).$ I4 ^: l, @; F( z3 K; Q EPROM Electrically Programmable Read-Only Memory. 2 P4 l0 p, A7 { G" wEQEC EurQuantum Electronics Conference (See CLEO). 5 |; F: V# M* E2 w* zEquipment& O% S1 X+ F9 n0 y" O Operationally8 o- D/ }4 Y* V. S7 U0 @/ M6 o$ a Ready+ c& Q4 c: X$ O- V; z$ ` The status of an item of equipment in the possession of an operating unit that 4 [& s1 r4 O! y0 J1 qindicates it is capable of fulfilling its intended mission and in a system / D/ c9 d7 I3 \( m0 L1 @5 W+ h* econfiguration that offers a high assurance of an effective, reliable, and safe : R/ @( n. t# a, p9 Vperformance. c$ q. q/ R: D; LER (1) Enhanced Radiation (“neutron bomb”). (2) Extended Range.1 u# i% k; `5 ~7 \3 U. r: x4 T! k ERA Explosive Reactive Armor * K+ [/ m- A) [& t& v3 x( JERADCOM OBSOLETE. Army Electronics Research and Development Command. (Now9 j; [7 M- }) c+ @! I Laboratory Command (LABCOM), Adelphi, MD.) * z) F+ u0 E( T3 L- I0 [# I4 gMDA GLOSSARY, VER. 4.0 E `$ c, a3 O9 x# b- R0 Q+ B6 b 97 0 j6 A2 m3 K. ]" _, NERCS Emergency Rocket Communications System (US). : V. P/ r( q! a" tERD Element Requirements Document.% z! I2 R" L+ ^ ERG Executive Review Group. ! \2 P. E+ [6 n7 r. ~, YERINT OBSOLETE. Extended Range Interceptor. Now referred to as PAC-3. & h5 h# O9 i* c) V3 ?ERIS OBSOLETE. Exoatmospheric Reentry Vehicle Interceptor Subsystem. $ X; i$ P- Q) q0 N- U! W! x6 j5 }(Predecessor to Ground-Based Interceptor (GBI).)* y* F3 `( s. ]/ p- X# A$ R0 ] ERIS(F) OBSOLETE. ERIS Farm. # Q* g6 H2 K( ~; E; D3 p& n2 NERP Emitted Radiative Power.+ Z6 ^3 p6 V/ r. v4 O ERR (1) Element Requirements Review. (2) Engineering Release Record. t& F2 h: o$ M# k0 O9 K& d ERS (1) Early Release of Submunitions. (2) Emergency Response System. 5 z" g* |2 m# N9 DESA Electronically Scanned Array.# x% F. n& Q3 K ESAD Electronic Safe and Arm Device.; t$ C. \' Z+ Z1 m# s9 z ESAR Extended Subsequent Application Review.+ {3 w$ H4 D" e( @% e- v& S ESC Electronic System Center (AFMC), Hanscom AFB, MA.1 ~( J' A* g7 V7 n- C. G* j$ k ESCN Existing Systems and Center Notebook. & P1 t+ r/ m- b5 P% fESD OBSOLETE. Electronic Systems Division. (Now Electronic Systems Center, - M) e1 b5 v! {. R- [( }Hanscom AFB, MA.)- g0 p2 _' }/ @7 w6 O6 v ESH Environmental, Safety and Health ' r% D4 z3 o0 Q$ m/ U+ a6 UESI External Systems Integration. 8 c- I: U# ^$ L6 Z. VESI ICD External Systems Integration Interface Control Document.5 ~& h6 f9 ~) P( u ESM (1) Electronic Warfare Support Measures. (2) Electronic Support Measures. 8 ]3 @( v( P' @: F3 c2 ^ESMC Eastern Space and Missile Center, Patrick AFB, FL. 2 @1 O- i1 E2 x+ d) P- qESNet Energy Sciences Network.$ G+ n2 H3 a' f$ m0 x ESPRIT European Strategic Program of Research in Information Technology.& r9 e- f& [- w5 g ESQD Explosive Safety Quantity Distance.# Z' c8 N. q, O- ~3 n' e1 v ESSM Evolved (Enhanced) Sea Sparrow Missile.* J8 h7 r! F- {' Z$ s3 H ET&C Extended Tracking and Control. 2 y v$ z% O7 h: j! SETA Estimated Time of Arrival. 5 s9 Y o$ K. [. }ETC (1) Electro-Thermal Chemical. (2) Estimated Time-to-Completion. ; e. M: |$ }% \ETD (1) Estimated Time of Departure. (2) Electronic Transfer Device. 3 v @) b# J! B z9 S$ p3 EMDA GLOSSARY, VER. 4.0 E. e3 i0 a$ ?3 R. f 98 Z$ D+ l; k8 T5 d; W8 j ETERTS End-to-End Real Time Simulator. / j+ \2 i, k! [% [7 gETESD End-to-End Sensor Demonstration. 1 i' |! Y0 d% E) WETI Estimated Time of Intercept.! @: d/ ~$ Q. ]% L3 [* o ETIC Estimated Time for Completion.7 U9 [" P( c# B1 P3 w ETM Engineering Test Model K. Q9 V( }3 H: D! V8 ]& k% KETR (1) Extended Test Range (Pacific Test Bed) (2) See Eastern Test Range. (3)4 k8 H* m( s* Y Environmental Test Round. (4) Estimated Time to Repair.4 k8 M. K& F1 o! Z& r3 |6 T1 M+ k ETS (1) Experimental Test System. (2) Experimental Test Site. 5 R: M, R# ? g- _EU European Union [formerly European Community (ECI)]3 o* T: x" L' d/ a4 h EUCOM European Command. See USEUCOM.) o; @0 H! E4 E, g3 N$ o. S6 a! r5 h EURATOM European Atomic Energy Agency." K6 a! D# A7 c. R EUREKA European Research and Coordinating Agency. i) {2 K) A9 S! d' y- E: g, ~EUT Early User Test./ k4 ?$ ~* r: Q EV Experimental Version D' }! i | |9 A0 P EVA Extravehicular Activity. & N) |: G5 x& Z9 j; Y' DEvasive MRV A reentry vehicle, which maneuvers for the purpose of evading defensive6 i6 t; T6 v* C weapons. # H6 H7 | ^8 b- V5 e) C' P OEvent Based $ s+ C6 y7 r1 a6 kContracting 5 y) H$ b& U3 s6 g# ^/ TSupport “event driven acquisition strategy” by linking specific contractual events 2 P! ^6 V9 {& G! `: E2 jto the “exit criteria” for the acquisition phase, or to intermediate development5 R9 k4 c* v2 A) P- H events established for the acquisition strategy.3 E4 i9 J' s9 @9 t( F; g- d Event Driven 1 _! V$ ] r6 a, x) G, ~0 KAcquisition & u2 }! \) X8 O2 Y. ]5 J; tStrategy) a, c( c: v( g7 h An acquisition strategy that links program decisions to demonstrated z# f) N1 v/ ? accomplishments in development, testing, and production. 2 K: }7 s( G* Z5 E1 \Event Validation A sensor element internal process that results in a determination by the operator & T+ v% ^% B( S& } o- c, x% |that the sensor is healthy and the event reported is real.

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发表于 2008-12-25 20:06:02 |只看该作者
Event 2 l4 L9 z! l) O' uVerification # r7 V- {, p: NThe process by which it is decided, from SDS external data, that the event/ f3 X9 e2 S% E4 u: j reported is real. - C$ k+ g4 x* K- f7 {0 R! SMDA GLOSSARY, VER. 4.0 E- \& N, u/ U4 L1 i& } 99) g& A: Y* s& N3 h) y Evolutionary 5 ^' K# e7 ^7 {# D% B u* xAcquisition 1 G3 ^0 ?$ B& K" V; o; _( v( N(1) An approach in which a core capability is fielded, and the system design has1 k6 v+ l! e" A a modular structure and provisions for future upgrades and changes as+ y) U' E' D" {; D/ g1 O requirements are refined. An evolutionary acquisition strategy is well suited to) E9 _1 G e9 k7 q+ \; ^$ X4 e( m high technology and software intensive programs where requirements beyond a 9 S# _9 m% z% ?core capability can be generally, but not specifically, be defined. " [* J# O9 V/ |6 `4 S7 u! ~" F(2) An acquisition strategy that defines, develops, produces or acquires, and5 X3 i3 X9 y! W fields an initial hardware or software increment (or block) of operational capability. # D$ f& \% M+ F8 N- yIt is based on technologies demonstrated in relevant environments, time-phased * ^/ I: H. f* Q$ A" M8 Krequirements, and demonstrated manufacturing or software deployment ; a1 l& t- b* ^/ |! d% rcapabilities. These capabilities can be provided in a shorter period of time,- t% Z& _( ~6 F followed by subsequent increments of capability over time that accommodate ( | V! r t" [) M0 Z0 c, _' dimproved technology and allowing for full and adaptable systems over time. Each 7 ?8 ?% a5 O3 w, E, bincrement will meet a militarily useful capability specified by the user (i.e., at least ; p( s4 P- m" A. I1 z6 K/ k: Gthe thresholds set by the user for that increment); however, the first increment0 T1 u2 q1 p5 b2 R( G3 ]5 Z+ F! W may represent only 60% to 80% of the desired final capability. (MDA Lexicon)4 f& ]8 ~ l- _" k: v0 g( x Evolutionary8 R- Z2 W9 X8 h0 ], X9 E: h+ r Requirements ! r- r: Y/ R t& c2 Y0 lDefinition5 R$ c$ [; K( l; L9 [ Mission needs are first expressed in broad operational capability terms, and then; F- H! O/ @ V8 {3 m progressively evolved to system specific performance requirements. ; A9 l1 u8 d2 cEVPA Experimental Version Performance Assessment. " J7 R5 ^# C' ~/ d& V" X" B7 T9 YEVPA/TEVS Experimental Version Performance Assessment Test Environment System. - m4 K* Y* I. u3 e- f0 lEVS Enhanced Verdin System.. D9 f1 v! l, p EW (1) Electronic Warfare. (2) Early Warning.# C# e# ]; Z+ n- `1 c3 A EW/AA Early Warning and Attack Assessment.) O$ @" q1 N" _6 U. v6 j+ O EWCC Expanded Weapons Control Computer (PATRIOT).9 B. w8 @$ t+ y8 d c# I EWDA Energy and Water Development Appropriations (US).5 J; R5 d$ a5 N% n8 v& l0 v0 Z EWG Event Working Group.; y# S$ |2 X0 X EWN Early Warning Net. 7 v' j" W* x, i4 bEWO Electronic Warfare Officer.3 j5 q% L6 m- c: G7 U EWPE Electronic Warfare Pre-Processing Element.+ V) m4 _% k D9 r EWR Early Warning Radar. ; g% n+ f3 w0 mEWS Early Warning System.1 J0 w7 N0 `& F# X$ _ r: k1 K EXCEDE Electron Accelerator Experiment.2 o* C! Q7 p7 B2 m8 X Excimer A contraction for “excited dimer”; a type of lasant. A dimer is a molecule, g5 Z, _7 @% h consisting of two atoms. Some dimers (e.g., xenon chloride and krypton fluoride)8 r! S, I+ D% L# w are molecules, which cannot exist under ordinary conditions of approximate % `( Y. ^) v5 L% y# }% P1 Gthermal equilibrium but must be created in an “excited” (e.g., energized) condition( v6 R- X q5 n0 B6 m' Z2 K by special “pumping” processes in a laser. 1 b( c) y: k' V" \) ~" zExcimer Laser7 b8 @/ m, o' N6 r0 x (EXL); t& q2 \) ~* }, h, a A laser in which emission is stimulated when a gas is shocked with electrical7 O+ H5 p( S3 _4 g" @) X7 H; }& s energy and the excited medium emits light when returning to a ground state. C2 g* U5 K4 H# d MDA GLOSSARY, VER. 4.0 E / p3 T0 s$ P1 }# J. L100 " t& n6 q/ o8 X% MEXCOM Executive Committee.1 W; M- ^) ` _& V1 g Executable9 a+ u( [, F6 h Program" `2 H/ q$ D2 @2 l A program is executable if the PM has adequate near-term approved funding. 5 d+ V# E( }, G/ u$ AExecuting Agent The individual within the executing element assigned responsibility for managing. i0 a, c' P2 P MDA funded programs. / r H7 X/ a6 S! dExecuting- R5 |% `1 L/ ]+ n$ u Elements " {! R- K2 t2 zAgencies or organizations (DoD or non-DoD) that are managing BMD-related , q7 X, F; f) B6 h+ Oprograms.0 D: ]# G* ]0 x5 M- o- u9 ` Executing 6 ?* A+ Z v0 MResponsibility2 j1 j2 _# B* I& g5 J Program Manager responsibility.5 Q9 p: j" y7 q+ { Exercise A military maneuver or simulated wartime operation involving planning, + v) a4 l6 ~+ i8 \4 Vpreparation, and execution. It is carried out for the purpose of training and 1 M2 }: l5 J# Z" O8 E' b% {' }! Wevaluation. It may be a combined, joint, or single-Service exercise, depending 0 S3 y9 y ^* g* T1 uon participating organizations. See also Command Post Exercise. \$ S5 U$ j' R+ ]Exit Criteria Program specific accomplishments that must be satisfactorily demonstrated 2 n/ r0 j' R/ rbefore an effort or program can progress further in the current acquisition phase : S7 X g9 Z9 A, I" Dor transition to the next acquisition phase. Exit criteria may include such factors+ W G2 h$ Y& r' @ P as critical test issues, the attainment of projected growth curves and baseline 7 M# X# T( j8 e, a" sparameters, and the results of risk reduction efforts deemed critical to the 3 {, ^& n" x+ T$ r: L# H8 Sdecision to proceed further. Exit criteria supplement minimum required 7 n0 m9 T8 `) |2 h+ p' Zaccomplishments and are specific to each acquisition phase.' p( t. N; V0 ~/ L+ t' | EXL Excimer Laser. 3 K9 ?# ^8 G; U7 H6 V! z8 x8 pExoatmospheric Outside the Earth’s atmosphere; generally considered to be altitudes above 100 % y; k* }9 Q) y0 J! V, T# V3 C; E0 K" Hkm. 2 ^' k2 t% X: eExoatmospheric . Y. v$ q) \ |# d3 g: X6 a+ xReentry Vehicle0 O0 D6 y) P8 R$ ^- T/ c Interceptor' H) m9 z8 V6 [3 O% r0 Z& ]% M: b Subsystem+ n3 V- q/ I& ]; g, h) F' \ (ERIS)7 D* u$ I2 [! [( A: k OBSOLETE. Interceptor designed to provide functional test validation of GBI.9 h' P2 F9 K4 F7 l" T Exoatmospheric ! m( a' s2 p% B5 ^7 C! nTest Bed (XTB) 1 U7 z+ b% |6 N3 t3 W$ }Flight qualified and range integrated vehicle to support other programs such as6 T$ z" y f6 L/ D- n$ _0 x$ P GBI-X.! s0 z4 p. V7 \- Q Exo Decoy A decoy that matches RV signature exoatmospherically. Exo decoys can use2 @/ o' A% a$ m2 _& H7 E- `9 b( z radar and/or optical means to deceive sensors.. d) v: u( z* @/ N6 { Expert Systems Software programs, which use artificial intelligence techniques to capture and 3 ?% G1 u0 }) w; C3 yapply the non-algorithmic knowledge and procedures of human experts.' ^' w; c. ]: E' n Expired, _4 Q1 {7 _3 A& r: T- D Appropriation1 i& Z ?. R) x4 {9 g ]/ C) N An appropriation that is no longer available for new obligation but is still available 0 _2 f* ]- y: u6 K- J* |for disbursement to liquidate existing obligations. Under current legislation no ; N; g% B# f; k3 k" c9 o6 B1 e" _disbursement may be recorded or paid after a five-year expiration period. 4 P+ a7 W* T8 |6 tMaintains all original accounting identity, e.g. FY, appropriation, PE, etc. " Z8 G7 E: B$ Z4 j/ L8 iEXPLAN Exercise Plan., }! t2 f' a4 h9 f3 u Explicit 4 h4 Z; C3 d4 m& ^% ECoordination 6 Z/ L- \2 {0 @% _% @+ n* HA battle management technique which communicates results, decisions or : P' x8 @- E4 D% ?command from one battle manager to another, usually from a higher command/ Q8 y+ o0 o* z& o/ d V9 i4 r+ I to a lower command. ; ?" |/ z4 m) }# t. B- S) M qMDA GLOSSARY, VER. 4.0 E + P) d1 o: G" m! l- @101 " C2 C5 _% a5 k& n' K' |Extended$ H: N2 B7 d; b& j g Planning Annex# q" ~8 C$ I, ] n( M; C4 N( X" F A document providing program guidance for an additional 10 years beyond the & P4 Y+ [2 W) O& Y0 Z, SPOM. * z/ O, c7 r+ H% pMDA GLOSSARY, VER. 4.0 F. \2 w6 @4 B/ |9 O0 v, J 103/ ~$ ~5 d; G# Y' ]" \- k7 K2 r6 t F (1) Fluoride. (2) Fahrenheit. u, D$ b& ~5 d7 e1 nF/O (1) Fiber Optic. (2) Follow-On.- [/ v. V9 ^- S2 f7 v FA (1) Field Artillery. (2) Feasibility Assessment.' ?! O7 Y+ ^0 Z) n8 s# ~ FA/RD Functional Analysis/Requirements Definition. 2 e/ j8 y* h$ `2 T( `: ]/ L5 ~FAA Federal Aviation Administration.- Y1 P' e; d! j! d) ^ FAAD Forward Area Air Defense (US Army).( ~' a6 v: V8 s) a @, [2 r3 E9 e FAAD C2I Forward Area Air Defense Command, Control and Intelligence.8 _9 I& ]. j1 d( O, X7 G2 m FAADS Forward Area Air Defense System (JCS term). 5 i' y- m* C# t) f, N3 B; s1 sFAAWC Fleet/Force Anti-Air Warfare Commander. + d" Q% }9 j5 S( ^) oFAB Fly Along Probe.6 n9 C9 v2 z8 K1 n6 `2 C3 L Fac Facility (MILCON term).! s8 P1 z" F, V( R$ D! l FACP Forward Area Control Post (JFACC term). - }9 e( G2 k0 r6 VFACSPMF Federal Agency Computer Security Program Manager’s Forum.: |' q2 k) C' `; |) [# T$ m FAD (1) Force Activity Designator. (2) Feasible Test Date. 1 V0 g7 Z8 M( {FADEC Full-Authority Electronic Controls. % K- F( J9 _* x3 }# [) UFAFB Falcon AFB, CO. 9 X* s* C7 O5 F+ @/ gFAFBR Falcon AFB Regulation5 M9 J+ H8 F) S/ f7 e q* K7 [ Fairing Structure to protect the payload during ascent phase. ! d$ J. R9 U7 r8 ]' D# lFAIT Fabrication Assembly, Inspection/Integration, and Test.% C/ u ?* ]( }# _2 b3 b- p FALCON Fission-Activated Light Concept. 5 x" B) R& S- z6 x, ~FAM Functional Area Management. g+ g: R" O' N+ F, dFAMIS Financial Accounting Management Information System. : B# r3 E; ]( `/ JFAMP Facilities Acquisition Management Plan.$ O" }; @7 q, E0 O9 l6 L g C7 ^ s FAMSIM Family of Simulations (USA term). 5 Z* e' ?7 {9 f( t+ b; hFAR See Federal Acquisition Regulation. 8 H5 m2 H, Q& {$ a: H" n5 \& rFar Field The region far from an antenna compared to the dimensions of the antenna and & V/ B' m5 g4 I# a: T( Tthe wavelength of the radiation. 8 B. w( h, W9 j5 _8 w* t8 k- hFAS (1) Fly Away Sensor (TCMP).8 j; S" O1 L/ E8 y% R# Z/ z: E1 j (2) Federation of American Scientists.7 F1 P( L2 r' {: u, G5 @ FAST Facility Allocation Study Team. , Z$ N/ b$ c c+ K' l M- n/ wMDA GLOSSARY, VER. 4.0 F : E' O/ h3 _+ ~ I! G. b# f1048 Q7 i+ } z. B Fast-Burn5 D {& ~6 s1 j4 A' _ Booster (FBB) ( r- N- v3 N. _: SA ballistic missile that burns out much more quickly than current versions,+ z& ~1 k8 g" a possibly before exiting the atmosphere entirely. Such rapid burnout complicates* [( ]) B+ a* M: @; @, G a boost-phase defense. : l6 q9 j' t# Q# P2 S# c) g) ]FAT (1) First Article Testing. (2) Factory Acceptance Test. 3 i& m9 b* {* `1 F b: _" U; MFault Tolerance The ability of a processor to maintain mission effectiveness after some 2 n$ @. _1 [! ?* z O. c, `7 w. \. Lsubsystems failed. 1 j+ h7 a; A) n- nFax Facsimile. # C4 V' E3 Z2 VFBB Fast-Burn Booster. ; d! ^: |+ V, l# xFBIS Foreign Broadcast Information Service (US). 1 Z; T1 ~0 d( H% C4 F& x C, W6 ~. |FBM Fleet Ballistic Missile. # p U' Z) E) z% l7 t' w5 D6 I( c7 _FBMS Fleet Ballistic Missile System (USN term). + a/ B) |) F# | k, k3 S1 }FBP Forward Based Probe. ( [; e, }) s( P% r; GFBR Forward-Based Radar (US Army term). 7 k) ^ i! N$ ^6 U9 r9 oFBS Forward-Based System.& P* y* ?* i$ ]; K FBXR Forward-Based X-band Radar.0 Q5 t6 p9 ~) y, t: E FC (1) Fire Control [of weapons].5 K# u3 ^4 Z0 j- ] (2) Fund Code. 9 U( V$ n, R. {( y/ NFCA Functional Configuration Audit.% M# |- [9 j Z" R FCC Federal Communications Commission. , m( j. t6 L% @( B- |& F4 j' N' S! `FCCM Facilities Capital Cost of Money.; v4 Z8 b( E4 G* X& f' u c0 | FCN Fully Connected Network.' K* O8 _. ]6 \7 e# Z1 \ FCO Field Change Order.- l2 Z7 B9 m/ |' H6 \* F w FCRC OBSOLETE. Federal Contract Research Center. + p3 P3 N& x8 k3 o$ D- SFCS Fire Control Section.

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FCT Foreign comparative testing. 9 K- K6 u# p+ ^9 a) S6 O8 `FD First Deployment. 2 N: X5 J! k" B; UFDA Food and Drug Administration. % U# a5 S+ m' J7 z+ RFDC Fire [of weapons] Direction Center. , |- W. d1 }$ A& n9 j- OFDG Foreign Disclosure Guide. 8 U/ r% l& \0 i7 c8 v6 n F cFDM Function Description Manual. - {$ v& q" O1 I5 p3 m% `% ^FDO Fee Determining Official.3 s2 R5 J. u$ l# d1 \ MDA GLOSSARY, VER. 4.0 F/ Q) y- X5 S5 N. {* h# j* } 105 ) G9 ^3 |: q/ `) @& RFDP Flight Demonstration Program.) z! y6 z5 E( g1 G& g FDR Final/Formal Design Review. ( u3 J7 f; q5 g6 m! c6 x. uFDRU Final Design Review Update (MDA PAC term). " l H& F0 S2 a9 tFDS (1) Flight Demonstration System. (2) Fault Detection System.: ~# z2 |8 U: Y4 n6 z2 P FDSV Flight Demonstration Space Vehicle. ( }% x) u! w7 i* s$ v+ CFDT&E See Force Development Test and Experimentation (US Army).7 Z" \7 R; Y3 R& q- j2 \ FDX Full Duplex (Telecomm/Computer term). ) g! q1 S% K3 z4 O: v" L h; C! cFEA Functional Economic Analysis. 3 a( n) E8 _4 I* O* AFeasibility Study A study of the applicability or desirability of any management or procedural1 M' p# [5 z9 Q$ |, v system from the standpoint of advantages versus disadvantages in any given4 t. t2 X9 z# A+ @' @) m case. . J4 W8 T: j6 \' j( [7 FFEBA Forward Edge of the Battle Area., A+ u1 ?- k$ i% z v" l8 J# G FECA Front-End Cost Analysis" a/ i$ z$ H1 N b5 F FED Federal.% h1 A) C- v* K0 G FEDAC Federal Computer Acquisition Center. * @3 H4 K9 g1 D* l* e* ~Federal * c" p+ j2 z* o$ O: ~! aAcquisition% n) W0 f' s$ K7 A8 k& `) T Regulation4 `! S7 F( P( l& k* G The primary regulation for use by federal executive agencies for acquisition of- `0 F9 J- S4 [- U3 j6 N, q supplies and services with appropriated funds. It directs the defense program % [% t; Z) a+ @1 {6 }manager in many ways, including contract award procedures, acquisition 2 p6 p. Q# x# z; x& p& oplanning, warranties, and establishing guidelines for competition. The Military" o: j$ [# R1 P8 Q5 T+ G$ e; A Departments and DoD issue supplements to the FAR. The DoD supplement is8 w2 ^) {2 ?; j; r6 n. I% o/ n called DFARS (Defense FAR Supplement).) j4 ]. z* ? D [# i# Q* i8 D FEDSIM Federal System Integration and Management.7 o7 P! e( m2 B! B2 D) @& ` FEL Free Electron Laser. 1 R: o! |% B: c: f5 F5 k( r, @0 fFEMA Federal Emergency Management Agency. N: Y: E% ^- I8 E8 ] Fenced Funding An identified aggregation of resources reviewed, approved, and managed as a + }3 i. w0 {" S3 A. N0 Pdistinct entity. The proposed program must be implemented within specified & U1 T) v! x2 R) B& ^* l' bresources. Examples of fences areas are: Intelligence and Security, Support to" d& ]3 I" N+ h; `3 G0 _( G Other Nations.3 b; j. m; Y: _ FER Financial Execution Review. 2 f1 j! v8 J4 X: w$ z/ z& H7 s* SFES Facility Engineering Surveillance Plan.$ W) G2 ]; t2 g# ]7 D O. q FET Field Effect Transistor. 6 S- ]) V* v; t& d. e9 mFEU Flight Evaluation Unit.3 t( P/ f* P# r! g7 x7 W6 N FEWS Follow-on Early Warning System. 3 Q: A* d: N% u. H% n+ Y1 X- o0 iFF Fire Finder Radar (US Army. 2 x" C) Z- Y a4 a* @MDA GLOSSARY, VER. 4.0 F$ q( y) x, _8 c/ x! \, o4 k5 j 1066 M8 `' K3 h: H+ j FFBD Functional Flow Block Diagram. 1 r, y0 [) V: ]; M* q" q) BFFCD Full, Final and Complete Disclosure (Treaty negotiation term). - E5 c* [. k! g! w+ M! \ qFFD Fraction Failure Detected. 1 J- \7 f% _! F1 AFFH Fast Frequency Hopping. : N P. j& N$ t: C2 u' i$ eFFP Firm Fixed Price., @/ k2 ]' t/ u! _) s1 ^; K" G FFRDC Federally Funded Research and Development Center. 9 c/ X+ n; @7 n/ t# SFGC Functional Group Code (Navy ILS term). 1 ^9 b6 \/ ~: X) T' yFGEP Fixed Ground Entry Point.1 A/ Y* N/ F) s FH Flight Hours. - C1 ?+ g$ F" X0 w/ f8 \8 g' BFI Fault Isolation. ) M6 L) T9 J% c# |; g( ZFI&A Fault Isolation and Analysis. 3 f" R4 ?3 J0 U T6 f$ c s. x+ X2 L1 zFIDO Fighter Duty Officer (JFACC term)." M1 Z. v \) b% g. } g( w Field of View 1 u, ?; e) X) Y t' E Q% D' M" y(FOV)1 r' j* ? @' v P# i0 p! X) k The angular measure of the volume of space within which the system can 0 P# ~1 P& I% L! z0 m5 q+ n6 M2 Trespond to the presence of a target.# Z! m! O# w9 N/ g' I, K Fighting Mirror8 Q( Y3 D0 t3 _8 a0 z7 J (FMIR)$ { w; }, @! Z7 D' p. G3 l Part of the GBL System. The low orbit mirror, which receives laser energy and/ f9 Q+ n! ~4 v5 R reflects it to the target. 0 W% J7 a5 [8 L \& ZFigure of Merit 6 t2 |. D( K, @(FOM) K5 ?& v% N9 R" X The numerical value assigned to a measure of effectiveness, parameters, or $ {. c; ^1 G1 zother figure, as a result of an analysis, synthesis, or estimating technique. 3 T3 m+ V* }' }+ fFIP Federal Information Processing.' Q& I G! f" \ w* m! h- s/ w FIPS Federal Information Processing Standard.8 y M" s/ l! Q/ h ^4 a2 R+ c i2 V Fire Control The control of all operations in connection with the application of fire on a target.9 r0 s7 s1 P6 t( h1 _! B3 m. M Fire Control 1 K. k2 K, P4 t0 i: @) ?0 a0 JSystem 9 e- Y. R9 @1 A$ C- Z2 iA group of interrelated fire control equipment and/or instruments designed for , z0 i' K: T q* X& ouse with a weapon or group of weapons. # ^; W6 D7 f# m6 t. v. e9 oFire Support. [8 G+ ]1 j% x4 l; Q7 K- R Coordinating 9 r: @0 T' u8 h, @) PMeasure - w8 a; A5 z8 ^0 [5 e* N: l! uA measure employed by land or amphibious commanders to facilitate the rapid$ s! {6 u' U9 g6 Q; e4 M3 J( H engagement of targets and simultaneously safeguard friendly forces. ' C9 d2 B8 u3 S* qFire Support ! e" Q( S" M. _) D8 {& a1 @1 r, \Coordinating Line : I4 X' R3 y; Z) K9 V% E. _; W(FSCL)# F% y. r% g/ s" d4 p3 f2 ` A line established by the appropriate ground commander to ensure the : j2 s6 S5 n, ^& @coordination of fire not under the commander’s control but may affect current : F2 L$ Q$ A" s6 u5 Itactical operations. The fire support coordination line is used to coordinate fires) B7 B. ?9 _, o3 P; z8 w of air, ground, or sea weapons systems using any type of ammunition against# D4 ]% O/ l' A8 L! _- B2 v surface targets. The fire support coordination line should follow well-defined; D4 n$ a% k. ?6 K: d) k+ f terrain features. The establishment of the FSCL must be coordinated with the9 n; \3 M& w7 | Q1 h& w appropriate tactical air commander and other supporting elements of the FSCL9 _# M5 ^ f. m% M+ j8 l without prior coordination with the ground force commander provided the attack , r- b a" h. B: c$ e6 w) |. Swill not product adverse effects on or to the rear of the line. Attacks against 1 N2 H- L) d" |; N) {5 rsurface targets behind this line must be coordinated with the appropriate ground, n9 Z2 t9 d$ P2 T& c4 H0 ^ force commander.& W, m$ S+ n5 ` v- n; _7 V0 x5 ^1 | MDA GLOSSARY, VER. 4.0 F 0 N4 I% |6 X- q1 D4 v2 _0 R1077 ]) z! k7 L0 W# y, p2 K Firing Doctrine The ratio and manner of assigning numbers of interceptors against given2 \8 @& G& h: D6 f& q8 o- S attackers. One-on-one, salvo, shoot-look-shoot, shoot-fail-shoot, etc. are ! S# L4 j0 T# _examples of different firing doctrine. The priority of targets being defended and 1 y8 N4 V/ n3 ^" I+ othe number of interceptors available relative to the number of attackers drive 1 g# l7 H P- Q( c9 bdoctrine.. U, {2 R2 U& L5 x: c/ B: X( p! | Firing Rate The number of missiles fired per site per minute. 7 i# e0 F2 M( I+ h, G; z2 VFIRMR Federal Information Resources Management Regulation. 3 H% Q X* g2 J* n" s7 t8 uFIRST Forum of Incident Response and Security Teams.% s2 T# ]8 T# V3 `* d First Article First article includes pre-production models, initial production samples, test 8 e9 q; S7 E4 U' K( O! esamples, first lots, pilot models, and pilot lots. Approval involves testing and' `1 [5 t7 G# }- A evaluating the first article for conformance with specified contract requirements/ D' y) o/ m. b& L+ M+ e3 J before or in the initial stage of production under a contract.) [$ P/ k7 l! c+ ~1 C" \% N" {1 E First Strike The first offensive action of a war (generally associated with nuclear operations). , T3 b7 N7 e; }First Unit" e' T* ]0 G" x% \: f$ O# I Equipped Date M* [ N: Y) [* T7 L3 LThe scheduled date an end item and its support elements are issued to the ! z. ]% J" J5 c e: V9 _& A4 Y( ]initial operational capability unit and training in the new equipment training plan % t$ {/ l- m0 c# hhas been accomplished.' `' p0 J8 e4 ^- i FIS Facility Installation Standard. 7 O' U& o+ Q o; N- C# ?Fiscal Guidance The annual guidance issued by the SECDEF in the Defense Guidance which6 Z% \1 b* U5 ]+ z& \8 ^ provides the fiscal constraints that must be observed by the DoD Components in+ x" s! X% x' v2 K$ M9 K! ]0 s the formulation of force structures and the FYDP, and by the OSD in reviewing h. _) L& W8 J- J7 {proposed programs. " a9 { d3 B( c, |0 g+ C' e, ~FISSP Federal Information System Support Program.( E @+ B; Z0 T( k, H FIWC Fleet Information Warfare Center (USN term). & }7 a( m' q5 @FIX Site Firing-in-Extension (Target Launch site in White Sands Missile Range Northern 3 T8 a# T) {0 Y2 Y+ qExtension).0 u7 G2 x4 \6 K6 J2 j0 T: I7 G( Z# E Fixed Costs Costs that do not vary with the volume of business, such as property taxes, 0 C1 ]; m' A1 o& X2 p2 u* V; dinsurance, depreciation, security, and minimum water and utility fees. & H1 y! J; C- T. _( GFixed Ground # L0 a( O1 g; L6 T) Y' UEntry Point 1 A& i6 Y2 S% q4 N5 k* l(FGEP)8 C9 G4 N, E+ @3 F2 y7 h, Q The subset of GEPs, which are not transportable. GEPs provide the V5 w3 O$ g ?% g4 m7 K& W2 lcommunications interfaces between the SDS space orbital/sub-orbital elements * L3 t; w3 w" c" [ Z7 j3 t7 x xand the C2E. e( }0 y# Z& R, `0 Q1 c- _Fixed Ground9 F& z6 r- j6 F9 ~& E& F Station 6 k1 F" N+ W9 tAll hardware, software, and facilities located at a fixed ground site necessary to% A% f1 i: a, t receive, process, support, and analyze mission status and data, and disseminate y4 U7 U8 k& J4 K! t! u. U9 A" } operational messages. 0 p. L( u7 D# x$ J- Y J; YFLAGE OBSOLETE. Flexible Lightweight Agile Guided Experiment. (Predecessor4 R4 p; B. b0 f8 D! [1 n program to Extended Range Interceptor (ERINT).) I1 F$ Y% ~# b) V) v) L& xFLC Federal Laboratory Consortium.& h/ R* y# M% v* c! b, i MDA GLOSSARY, VER. 4.0 F$ y# d" l$ E$ S* x 108 % p. W6 B6 ^8 [9 [Fleet Satellite4 Q5 i) p V) G; a& z- Z Communications % u' z: ~2 d( @0 n1 ?System 1 S8 a# S+ o7 m0 c, ]. U" I(FLTSATCOM) ! w6 `" [- N) [Operating at ultra high frequency (UHF), FLTSATCOM allows relatively low-cost # N6 I- k& k& A. q0 P0 ^terminals with simple antennas for use on highly mobile platforms. It has a: O: I$ ` w; P0 c; H) R% w relatively small capacity because of its much lower operating frequency. It6 s* J3 t$ k* m+ b$ H" d6 ~! J provides a satellite communication system for high-priority communication0 g8 B0 t4 B2 W/ ^7 ? V requirements for the Navy and Air Force that encompasses almost the entire. H# k5 e; G9 O. {) d( m" z world. It supports other DoD needs as well. It consists of satellites in geosynchronous equatorial orbit, each with 23 communication channels in the UHF 0 u4 k! N/ @9 @and SHF bands. The Navy has exclusive use of 10 channels for communication& r( G$ {/ b/ }/ ? with its land, sea, and air forces. The Air Force uses 12 others as part of its/ `7 b7 O6 H5 w* ?% J M AFSATCOM system for command and control of nuclear capable forces. The1 G5 G. T- U+ U system has one 500 KHz channel allotted to the national command authorities.# ]% T: X9 x- d* \* f/ Z3 p J Flexible1 u. w! S# O% V& h1 z1 E6 m Response $ ^8 D. O9 w5 NThe capability of military forces for effective reaction to any enemy threat or3 B4 R8 [& Q; b- o5 t- o0 ? attack with actions appropriate and adaptable to the circumstances existing.( j7 v1 `; l L* U a FLHER Funds and Labor Hours Expenditure Report. 6 o7 R F( R3 c( ], _Flight! X3 ]) w+ t" w Demonstration * `0 S* w& m, Y% U; {! I6 P& e4 H' D3 FSystem (FDS)6 m% `3 o+ o) } Part of the SBIRS Low Program Definition and Risk Reduction (PDRR) program 2 s3 B: V0 j9 {. \phase. The FDS will consist of two satellites and a ground system being built by 7 H M) e' S4 g- ]$ aTRW/Hughes. The FDS satellites are to be launched in FY99 for a two-year test . L4 c6 ~+ K1 J9 V3 Gprogram to demonstrate operations and performance of a SBIRS Low concept, / X0 Q) A. d W8 ~% s4 U( \collect target and phenomenology data to support the objective system design, ! E& y! s& o3 D# g3 G eand validate cost estimating models.6 v4 H8 Z7 W, `2 W& L/ Z Flight Path The line connecting the successive positions occupied, or to be occupied, by an M$ f# W% U/ `' ~1 C) _! taircraft, missile, or space vehicle as it moves through air or space. (It is more v- G) F" q! B# I3 o5 l6 k! I0 ucommonly referred to as trajectory for space vehicles, especially ICBMs.)3 n, Y# x- z/ @' u0 D, }* C Flight Readiness" h5 h Y/ s: r+ V Firing- D$ V0 y/ H9 H1 x0 P A missile system test of short duration conducted with the propulsion system7 i. K/ G2 S# d; W$ S9 C operating while the missile is secured to the launcher. Such a test is performed( Q! ]% q2 s# Y& b to determine the readiness of the missile system and launch facilities prior to% O1 N( n, p3 T) s: ?5 T! K flight test. 1 V2 R( g& i+ V) cFlight Test Test of an aircraft, rocket, missile, or other vehicle by actual flight or launching. * R/ t% w" y' }' ZFlight tests are planned to achieve specific test objectives and gain operational; o: h# N6 R3 H1 B& L information. 1 m) w, W/ C8 y2 cFlight Test" n; s' O4 R( T" X) w; N Vehicle (FTV)$ @9 w/ L6 M+ g, Y; R Prototype of airborne or spaceborne hardware used to validate a technology% F$ s: g; z4 X1 U$ X2 q( b$ r concept.

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FLIR Forward Looking Infrared Radar. : M$ d. ^2 `& E, m# @* vFLOT Forward Line of Own Troops. 7 W7 V6 k. a* ^2 t0 YFLT Flight.5 |9 d* C3 `+ l) n* L FLTSATCOM Fleet Satellite Communications System. * }, W- t1 Q bFluence (or/ S5 T) S+ G4 D9 j% ]! G% P Integrated Flux)2 N6 T: X6 [8 b" g2 d0 _, o! ^ The product (or integral) of particle (neutron or photon) flux and time, expressed 5 c- n7 I5 l8 z! j( i7 qin units of particles per square centimeter. The absorbed dose of radiation (in % A( [! E: M/ y2 D* [1 yrads) is related to the fluence. (It should be specified whether this is incident or, v, ~! g2 u2 X6 k+ x0 F5 J absorbed fluence).0 G3 b9 S2 M- H K MDA GLOSSARY, VER. 4.0 F- s3 k, ~, v5 |6 ^% x 109# X. E, [ t& I$ C Flyaway Cost The total cost related to the production of a usable end item of military hardware. " Y: B& g" j+ T, [Flyaway cost includes the cost of procuring the basic unit (airframe, hull, chassis, : N' {' r( Z0 Y6 E9 R2 j% Qetc.), a percentage of basic unit cost for changes allowance, propulsion % u7 E* s `' X; A3 Eequipment, electronics, armament, and other installed government-furnished 7 @: a& {9 {/ E7 ]7 _! z" Uequipment, and nonrecurring production costs. Flyaway cost equates to , J2 E- C W+ ]" L) XRollaway and Sailaway cost./ o$ }9 t# `$ m5 V FM (1) Flare Multiunit. & h' X" E2 u* ^5 t* w, v A(2) Frequency Modulation.- A1 e7 d |. a- B: R2 Z A (3) Functional Manger. ) q$ {( t- Y( W3 G2 b; q1 g(4) Force Module(s). 6 [( k3 V7 Y" d/ N0 }; ~" K(5) Field Manual.$ b% b; E# C& Y/ H& q! K FMA Foreign Military Acquisition. 4 u5 J& Q! X: B! Q- l; ^% p2 MFMB Financial Management Board.- |& Y0 G1 @7 g H% h! D* k# C FMC Flexible Manufacturing Cell. 9 |( W6 ~; R, k' L o9 i4 _4 rFMEA Failure Modes Effects Analysis (ILS term). 3 M$ a! p% k; J& e/ eFMECA Failure Modes Effects and Criticality Analysis (ILS term).0 o9 l8 _* E+ [1 d8 o: R/ E. z FMIR Fighting Mirror. % F( C! O7 x$ H/ B& UFMP Foreign Materiel Program. 8 j7 ~9 d8 n: \2 ZFMS (1) Flight Mission Simulator (PATRIOT), Huntsville AL. * ^0 Y: T' C+ j(2) Foreign Military Sales.9 D, @ y$ Y6 a- k1 r( X- k& ? FMTV Family of Medium Tactical Vehicles (USA term).3 g! {0 X6 G# V& p FNC Federal Network Council ! R6 i3 i6 I0 U% ~0 zFO Force Operations (PATRIOT).' u+ D* A6 @ a9 n, G FO Link Fiber Optic Link.1 J ^' Z1 c8 t u- H" [6 a FOA Future Offensive Aircraft (UK RAF term). ; T/ ? o/ l# C8 C! i$ a+ dFOB Forward Operations Base.* m2 g- h5 r/ `2 v: ] FOBS Fractional-Orbital Bombardment System.* w0 Y' C" f$ ^3 x* } FOC Full Operational Capability. . {7 p% s# u3 n" [Focal Plane The plane, perpendicular to the optical axis of the lens, in which images of points $ Y( {% K; C* H; {6 j4 a) V, f% L" vin the object field of the lens are focused.& j& R- e A ]% \8 N! Z2 ] Focal Plane 1 D: P% ^; a2 v+ RArray (FPA) ( O1 e/ s! Z% X! b5 tAn FPA is a matrix of photon sensitive detectors which, when combined with low ( M5 w4 `( N) ^' _) x' znoise preamplifiers, provides image data for the signal frequencies of interest.) d- b$ D; K" h' y" M4 Y FOFA Follow-On Force Attack.' Z, z' D( i7 [# D3 v( \) m O+ h FOG Fiber-Optic Gyroscope.. K7 F9 u; [3 q" a) Z. s FOIA Freedom of Information Act (US). $ w9 w4 K4 l5 NMDA GLOSSARY, VER. 4.0 F ( I; Z# g1 K8 C9 |1107 G) p4 y0 k. x, P) j FOL Forward Operating Location. 5 h5 p8 i+ ^/ N' E0 L& @FOLAN Fiber Optic Local Area Network. 8 H; q) ^, Z( }7 J; k& dFolded Optics Any optical system containing reflecting components for the purpose of reducing + b/ _0 _" [1 v/ Rthe physical length of the system or for the purpose of changing the path of the 2 c" z& K7 N9 K! L' Z: I7 z$ Xoptical axis. ! l& T/ W$ N2 u3 x# U" B/ |Follow-On ' D) x F9 F7 i( i( o5 o( VOperational Test; c8 z! Q* I& Y4 ] and Evaluation 6 t. @" _* E' X8 ]" D# b(FOT&E)6 F( k& {/ @- r) F/ D. Z That test and evaluation that is necessary during and after the production period2 }+ S8 b/ {* {, N/ ? to refine the estimates made during operational test and evaluation, to evaluate: O- U8 k; E# b3 G3 o changes, and to reevaluate the system to ensure that it continues to meet x( Y' `+ J2 P6 m! O7 L0 q2 x9 moperational needs and retains its effectiveness in a new environment or against & A$ X' W4 ~3 k5 }; {# e1 S$ qa new threat.8 \/ A- S! [6 |9 Y% q FOM Figure of Merit. " P* L2 r2 S6 r+ ~FON Fiber Optic Network./ g8 F! N% n: v. B& U6 ~! J9 } Footprint (1) An estimated area of possible reentry or the solid angle of a detector or 4 P4 s6 G& @2 |" ? }1 Nlinear area of a detector at a certain location. 4 W2 c4 j, l* ? F1 I3 q2 s(2) Geographic area in which a focused satellite downlink can be received. 3 ?5 f. K1 O* w: ]* I5 p: |FOR Field of Regard. [0 j2 W" h2 b! P0 M4 Y+ _ Force Closure The point in time when a supported commander determines that sufficient 2 i' S- r% o/ C' V$ Wpersonnel and equipment are in the assigned area of operations to carry out * X9 g$ U& M+ |# r4 A& T# Dassigned tasks.9 w$ O8 q- A$ E, c$ ~ Force Development Test and 3 B9 n5 l v. C$ LExperimentation6 ` J+ F; G+ f* u Tests employing representative users to examine definition of materiel 6 t$ I5 l! K/ K8 h2 W' C& vrequirements or support/assess development of doctrine, training, organization,) C- n# D. t! i4 Z# G( \ and logistics for system acquisition. (U.S. Army). ; Q0 E4 |4 t$ r, x/ ~) ?Force Direction The operational management of the forces.4 R+ N) b9 \6 s4 { Force Integration 3 q. n1 h6 d$ q/ m1 J* OStaff Officer # D* ]4 p5 s4 e* h. oArmy individual assigned to ODCSOPS to serve as HQDA user representative for6 A5 Q) V. B. b a specific system. Provides continuous coordination necessary for integration of2 g( R; p$ P# ?6 X a new system into the Army force structure. . {/ }/ |# O- dForce9 l- R; w* _! z5 K$ Q( W Management 2 j$ V( y& d l; k2 Q2 eThe assessment of the effectiveness of the defense forces throughout an5 e3 c/ o( V8 f N- \ y engagement and adjustment of tactics and the system configuration as # H: O: y: H. A; Cnecessary to effectively allocate resources to satisfy mission objectives.6 Q# N5 q3 |6 G5 R- G" z! p/ ] Force Reliability The percentage of the missile force that will successfully detonate within 3.53 {. z& c( p/ J CEPs of the target.2 j4 l! E( N$ R FORDTIS Foreign Disclosure Technical Information System. $ f" R& s' K9 oForeign 0 |4 Y% V9 r1 {- t9 \3 `Government 5 I1 ~9 H2 o5 M8 U0 \+ wInformation i0 j8 |# f: N5 t( _ Information that is (1) provided to the United States by a foreign government or4 D. h( f9 \! h: s: T: X governments, an internal organization of governments, or any element thereof0 Z! `! ^1 r3 r+ l) _/ e with the expectation, expressed or implied, that the information, the source of # G3 H0 t* a0 A: v7 M- `the information, or both, are to be held in confidence; (2) produced by the United/ \% e/ _+ i2 D1 g6 j( d- L States pursuant to or as a result of a joint arrangement with a foreign % X% u& a- Z# k |/ Wgovernment or governments or international organization of governments 9 c8 k2 \' f! k/ }8 E( erequiring that the information, the arrangement, or both, are to be held in ' t# g8 B" u( a% O9 Dconfidence., `8 g' ]! [5 ~: U) Q6 S MDA GLOSSARY, VER. 4.0 F ! y @' D7 ?: f8 |/ t v111 * B0 F, b% r) r0 xForeign Military 0 w+ c# x8 j8 }Sales (FMS) 9 d5 b, p1 D1 v, N1 KThat portion of U.S. security assistance authorized by the Foreign Assistance Act1 ~ q: w% }9 Q( B9 q of 1961, as amended, and the Arms Export Control Act, as amended. The # {, W' N5 Y' o& V' m+ p3 Hrecipient provides reimbursement for defense articles and services transferred. z6 J- _: l2 H( b/ b. ^, I9 w9 R5 s from the U.S. Includes case sales from stocks (inventories, services, training) by % U* \1 H) c' }9 t5 Mthe DoD defense services.6 v: i2 j) P7 B* Q$ H" H Foreign Security" X* M) d; L' |8 T Policy Model ; I! l3 E' n% q, c6 p* y* w4 X7 }8 HA mathematically precise statement of a security policy. To be adequately) ]9 O% _0 ?: e5 P precise, such a model must represent the initial state of a system, the way in ; q5 y+ _' W, U& q Kwhich the system progresses from one state to another, and a definition of a 8 h' l+ y( {1 ?/ z6 Q( }- h% x% Q“secure” state of the system.! @2 t7 g/ m I+ s Form, Fit, and5 E, ?' S5 N% g( F# {2 @3 M& R Function Data# W' v# l0 h& L! w: o9 w Technical data pertaining to items, components or processes for the purpose of: f9 `6 m( C6 U9 {9 m5 g identifying source, size, configuration, mating and attachment characteristics, 4 ^$ J& d3 c) a# q5 H" R! i( Efunctional characteristics and performance requirements.8 a% C/ c! w8 }/ y5 J% d Formal& `- `( V! d. {( W( |7 x Qualification' \- R3 S0 ~& v' l) p$ E Review' A: H& `$ m3 ? A systems level configuration audit conducted after system testing is completed 8 Q- Y/ k0 `( C! w! {to ensure that performance requirements have been met. - P$ E7 M4 j& \' P, Q+ Z* [1 T2 lFormerly $ v. z( L& J9 \( H7 GRestricted Data 3 s" ]. E. Y4 S3 EInformation removed from the RESTRICTED DATA category upon joint. \- s8 L6 _# ]* ] determination by DoE (or antecedent agencies) and DoD that such information# A6 H1 M9 t" W8 z3 l- T relates primarily to the military utilization of atomic weapons and that such* X+ Q C( F( f information can be adequately safeguarded as classified defense information.3 L8 G# D9 _1 ^1 d+ p, } FORSCOM U.S. Army Forces Command, Ft. McPherson, GA. : R; |$ }% l) _' B4 [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 8 U$ D4 s4 m) n, J2 z3 ]/ M$ fthe Battle Area+ e1 S$ ]6 Z: b) K$ |" V (FEBA)4 f- f5 t& R: I# G& p2 S& N The foremost limits of a series of areas in which ground combat units are 0 Z, c' K2 `6 R. Fdeployed, excluding the areas in which the covering or screening forces are+ U- Q/ K) W$ i8 \; c operating, designated to coordinate fire support, the positioning of forces, or the0 x `/ u7 G9 f9 n- m, D9 m( w4 j maneuver of units.. T2 ^; S) ? _" d/ C/ [$ j; _8 P5 W2 w Forward Funding Carry-over of RDT&E funding into second year of appropriations availability. 8 `7 ?' j( [5 P% W# P4 j. t2 wRequires permission from high authority. . X* ]- w8 ?. w- \* t4 ZFOS Family of Systems (TMD). ( F8 R9 {5 W5 Q X9 RFOSS Fiber-Optic Sensor System. / K! Y& [( l: K6 a5 sFOT Follow-On Technologies.$ Y6 t1 a% ?8 B; y FOT&E Follow-On Test & Evaluation.; m' ^, e) y9 i6 }+ f0 s2 V FOTC Force Over-the-horizon Track Coordinator (USN term).. E: S/ i @3 u @ FOUO For Official Use Only.- I/ d+ s4 ?0 a& ~' ]2 C9 \( v Fourth ~2 R' r. Q$ C% m. n9 AGeneration! X1 T7 ?, B* t/ u4 h Language * z( a# _' p* Y0 J4 k; }A programming environment that produces both screen and report utilities for) c1 }7 \' @/ Y use by lower-level programming environments. $ E, ^8 u" U( n3 I: W0 A, B2 T. [FOV Field of View.1 N# F9 m5 J1 P) w$ g0 ] FOV Radar [Full] Field of View Radar . @6 [1 |1 o4 [8 lFP Focal Plane.4 {% D$ y3 ]' @! M' J% [- u2 I* N ` MDA GLOSSARY, VER. 4.0 F 5 ^, z, Q/ ?. N) D4 Q+ T112! S; |5 _+ d% U6 [4 a9 J FPA Focal Plane Array. / Y8 o/ g+ y8 `! t9 x1 JFPC Facilities Protection Committee.. i m/ G' P7 }) ]8 T8 H! { FPI Fixed Price Incentive.3 ~3 |* A- [$ w FPS Fixed Radar.* S0 r. H) J" ~, { FPTOC Force Projection Tactical Operations Center (USA term). $ Z( d7 J: J- Y& q( H4 D! p" yFQR Formal Qualification Review. + B4 f+ n. S" u b+ N* SFQT Formal Qualification Testing. 8 ^4 ]5 A- V' D0 u5 L6 X* f3 M) AFR (1) Federal Register. (2) France. % j& {! `: G! |8 E% X- [FRACAS Forward Reaction Altitude Control System.- C7 e$ `4 R! u' S0 G8 n- B" Y: W FRACS Forward Reaction Altitude Control System. 2 _" d4 D0 ]) }" l4 _' Z' gFragmentation! T. {5 T5 n' ~1 H- \% @ Warhead 9 U: {; m3 r3 r: dA warhead, which releases small solid objects to damage or destroy its targets. 5 ^9 `- j; D! H! f, R, EFRAS Free Rocket Anti-Submarine. - q$ U# z& I; e* N" _( qFRC Fire Control Radar! l4 n% M3 l6 R A+ @" N+ n: }. t1 R- o FRD Facilities Requirements Document. ( Y$ s Q! {& b. O- h! yFree Electron ! ?% t* h1 P1 h) p* o/ WLaser (FEL) # {. r) ]% Y0 l! @A type of laser, which generates radiation by the interaction of an electron beam; x) l, L$ m- t5 T. a with a static magnetic or electric field. Loosely speaking, free-electron laser$ \ F7 R/ `, \9 a- N' j- w5 ^$ I technology resembles and evolved from that used by particle accelerators (“atom5 Z" D8 M: t( z* y smashers”). Lasers, which are not free electron lasers, are bound electron9 p, o! ^ D9 z- ]$ k lasers.$ I6 x) v4 @3 I% z1 q3 i Free Rocket A rocket not subject to guidance or control in flight.# c( T4 z+ \) ?- c/ N Frequency& m: h3 |$ W' H$ | Management, C9 v) e0 o* e: @* H The act of allocating frequencies, or bandwidths to a telecommunications6 `# j; A/ h( ^# h/ S) J6 Q5 w system, necessary to minimize the potential interference between ; e2 h) \9 g) u* M+ ?transmitting/receiving devices. Governing agencies and international agreement 7 Z; V S' a* Dcontrols authorized use of a particular frequency, frequencies, or bands.8 M" x& _7 J9 p- ^' X: v3 R FRG Federal Republic of Germany.+ u/ @- h1 ?4 q% t" j; Q FRN Force Requirement Number. $ Y. k8 B, V v$ _8 UFROD Functionally Related Observable Differences. 2 X. Q" W: ?( }FROG Free Rocket Over Ground.* H% k( g# M( W$ Q# \& k FRN Force Requirement Number. l$ E4 u7 G2 O FRP Full-Rate Production. 5 {1 P6 Z! N* q* ?' [! X4 \' r+ a/ GFRS Federal Reserve System. ; p( V3 L3 ]2 H" A8 i. c0 @FS&E Facility Siting and Environment (MILCON term). 4 O9 e. B, ~' U! F3 s3 I# e% fMDA GLOSSARY, VER. 4.0 F4 G9 r6 t7 _; }% y+ J- m! k 1138 n/ B" q! A$ Q+ D FS3 Future Strategic Strategy Study.' F; L& K. L. M }! E M FSAF Future Surface-to-Air [Missile] Family.: K$ X+ t+ d! r7 Q FSC (1) Fire Solution Computer. (2) Fire Support Coordination. + w6 m9 H: q' @6 \ @2 I( O) RFSCATT Fire Support CATT [for Weapons] (US Army term). ( W+ h) j A) s% S$ Q& E, hFSCL Fire Support Coordination Line. , y* ?3 l$ P# a9 h* _, ]1 TFSD OBSOLETE. Full Scale Development Phase. See EMD.# t: F& H1 o* n6 x$ _8 q& m FSE Fire Support Element.' r; t' y' X7 Y& x& u" N+ ?# Q FSM Firmware Support Manual.0 B1 C* b3 i* E0 ~ FSP Facility Security Plan. 2 U9 c3 y" F2 `0 R3 e! `$ T, y; aFSS Fixed Satellite Service.6 ^8 Z4 i4 r& q, N: K; Z# d- q FSST Forward Space Support in-Theater. 5 F; k) S5 f ?+ s6 t4 r- K+ P( BFST Flight System Testbed.+ ~, `& a$ f9 r2 X) }9 W- u FSU Former Soviet Union.0 [0 q7 Q0 X4 R1 ^2 H" ~ FSU Republics Former Soviet Union Republics.. v; s4 C. l6 M FT Flight Test./ R1 R. z, s! a9 F" D9 q Ft Foot ! Z9 J6 W/ g8 N# Z% PFTC Federal Trade Commission. ! f3 Y( ^% v. _9 E9 N% f& hFTD OBSOLETE. Foreign Technology Division (USAF), Wright-Patterson AFB, OH. ) i4 |, ^' Q5 k6 ?% S, _See NAIC.% ]; r; y9 d% | B0 q+ [ FTI Fixed Target Indicator D% N. C; S0 r8 q; e5 uFTLS Formal Top-Level Specification.* |. ] I6 T. m0 U FTP File Transfer Protocol (ADP/Internet term). ) V: |7 f; U# s+ V. b8 _FTR Flight Test Round.9 d; W" L9 M7 U" d4 H9 ?9 d FTS (1) Flight Test Summary (2) Federal Telephone Service" J b% G; o2 k% n FTS 2000 Federal Telecommunications System 2000. & b3 x4 d$ P" O6 QFTV (1) Functional Technology Validation. (2) Flight Test Vehicle. 4 p2 y9 R) {2 p3 U8 Y$ a* Q2 XFTX Field Training Exercise. C5 B6 P3 D$ u3 [& Z" h) vFU Fire Unit (PATRIOT). : x% A2 [; i# M& c( MFUE First Unit Equipped.+ N" x$ p' \8 ~4 F MDA GLOSSARY, VER. 4.0 F # Y' i/ X k* y- R: |: K' y6 n114 4 h1 C, s: z( x; n9 T6 Y/ ]1 vFull Mission+ m( q' s: @6 M6 Y) r! m Capable 3 W, |( [& i3 ?: ^9 \+ n& nMaterial condition of an aircraft or training device indicting that it can perform all $ U I. c5 z9 L4 uof its missions. Also called FMC. ( g5 D# |( B: F: HFull Operational! C2 r( r- p- T! W Capability (FOC)' R. y4 q& C# ^- N: z The full attainment of the capability to employ effectively a weapon, item of! R8 d. c: M; E; f) K equipment, or system of approved specific characteristics, which is manned and. j3 N! M2 m7 Y* I7 N. b2 O8 v operated by a trained, equipped, and supported military unit or force.6 T/ q E7 y4 s U& o3 y Full Rate/ o2 L* p7 T* | Production6 C6 z0 K8 ]. Z* Y; Z1 v Production of economic quantities following stabilization of the system design/ \4 N, `, I4 G# G2 [. S and prove-out of the production process. ( r H- `# j. L1 pFully Configured/ j" \( u0 K3 c% L0 q7 E( n& a End Item 9 z+ ?5 @& Z9 s6 N+ x/ K1 x5 yThe final combination of end products, component parts, and/or materials, which/ C9 i6 N+ x0 E; J. E( W( \ is fully ready for its intended operational use. Normally all production units are " D3 V; Z; K* L* P( E5 ^fully configured. Research and development units may be considered fully/ B7 I/ A4 O) L; F% n configured if they are or are planned to become operationally equivalent to the/ ?2 n4 U: n1 K production units.

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发表于 2008-12-25 20:07:01 |只看该作者
Fully Connected 3 y- q/ X( A0 H2 ANetwork (FCN)3 j2 p1 m$ q1 L% u& ^% a: Y A network in which each node is directly connected with every other node. % d" q8 x" R5 s' wFunctional : J/ R1 A/ X% f+ d$ dAnalysis0 C: J' b3 C% V6 J" M7 Y An approach to the solution of a problem, in which the problem is broken down * w4 N* r& [" A: p: Sinto its component function, such as intelligence, firepower, or mobility. Each ' j( E* M; X7 l0 R3 \relevant function is then further analyzed and broken down into smaller , a4 D: V$ J8 J( t6 jfunctional components until a level of molecularity suitable for solution of the; a4 @; m/ l& `" h N* { problem is attained. 6 D1 x# w2 a# Y1 y) RFunctional" `% I+ G8 l" ?& C3 [ Baseline ; m! l3 D c) v' {! [(1) Established after the system requirements analysis/design activity has' x `# e* D2 q completed the definition of the system functions and associated data,+ M! d, I3 b! ^, S K2 B2 F0 v( f interface characteristics, functional characteristics for key configuration 7 Q: b6 a. Q; h5 r5 xitems, and tests required to demonstrate achievement of each specified ' D# S, Q& C( o$ ^characteristic. This Government normally controls the baseline.. z; W! I: c3 O& V3 D/ V (2) In configuration management, the initial approved technical0 k9 T$ t2 t7 Z$ I e documentation for a configuration item. , z, s2 ~3 J- s) O0 @" [ V(3) Documentation describing a system’s functional characteristics and the o( B; Y2 ?! O' g" Z% Q. h verification required to demonstrate the achievement of requirements./ S, l, C8 X: m9 d) u Functional & X9 Y5 H& {# B5 p: W/ d8 UConfiguration- ?, P$ ~- Q% i- P5 n u Audit (FCA) " z2 g' z! f) @+ JThe formal examination of functional characteristics test data for configuration " s% `/ u Q. X' P' ?4 u$ ritem, prior to acceptance, to verify that the item has achieved the performance9 s' S; h" {$ z1 `; e: f! o specified in its functional or allocated configuration identification. 7 g6 p7 q( q: D( g! P5 ]1 nFunctional' z" |: Q2 n* }7 K Economic % Q. _# l: V5 C( WAnalysis (FEA) + {+ ?: `: s: ]4 P( R( R! K/ e5 oA structured proposal that serves as the principal part of a decision package for a1 u: ~3 M$ w/ d5 U& benterprise leadership. It includes an analysis of functional process needs or * m4 {5 u6 j$ z8 B. o4 o( @problems; proposed solutions, assumptions, and constraints; alternatives; lifecycle costs; benefits and/or cost analysis; and investment risk analysis. It is $ M8 l" m( E2 A5 r" M6 g. @consistent with, and amplifies, existing DoD economic analysis policy in DoD0 d% W4 @/ ], e" M Instruction 7041.3. ' {' {4 n& [0 A: _' XFunctional Kill The destruction of a target by disabling vital components in a way not3 Y5 b6 |+ @ U: u! n immediately detectable, but which nevertheless prevents the target from # O4 Q$ E3 I, T( y. Hfunctioning properly. An example is the destruction of electronics in a guidance * `- v; V- d& k9 Lsystem by a neutral particle beam. Also referred to as “soft kill.” 8 U* J* {$ ]: z+ d& ^Functional . x3 G* n9 i' w4 z9 fSupport 8 e Y- N0 j3 ~Systematized methodologies and procedures, or a common set of standards, 6 V; X1 a& f j$ R9 N4 O! Sapplied to materiel acquisition programs. & v. J: t& t& s, `8 q+ @Functional ' u7 s# L# W* D- CTechnology% K' w( Y# U* G Validation (FTV). H/ x( |& L' }3 G" a5 N Program with the intent of proving or disproving a technology is useful for a given, x5 l+ S) L1 G9 y/ W' w% i2 P$ { application.! |" P( q5 H' v2 Z9 o8 ~ MDA GLOSSARY, VER. 4.0 F# r' p4 r. ]* p* N% n2 b- G+ Q% N 1158 d9 J0 j' \4 F1 O& `. d+ S Functional 1 {. F) A6 R, M3 j! [' xTesting ' [8 v0 v0 `7 Z( Y& G) {The portion of testing in which the advertised features of a system are tested for2 ~4 l4 K* G' u5 O correct operation.1 ~9 n }% g5 z7 ^, R4 f2 s4 y Funding Profile Program funding, usually displayed in columnar spreadsheet format by years,+ j# s7 c6 c5 ], Q/ J starting with previous year through current year and out-years. % a5 v8 k$ J$ O$ c7 dFuture Years / t: p( _) L" N. T7 }+ P) aDefense Program . ?6 A% R+ [1 l( C5 F: B1 G(FYDP) , A0 f7 X9 A- m3 IThe official DoD document that summarizes forces and resources associated with ' h7 F% ?3 A3 m0 ^programs approved by the Secretary of Defense. Its three parts are the. j8 J: @1 P1 k0 Z& I# D organizations affected, appropriations accounts and the 11 major force programs: {; H, w, v; y' J9 `' O1 x9 {: i (strategic forces, airlift, R&D, etc.). Under the biennial PPBS cycle, the FYDP is 0 |8 ?( y1 E3 w1 N+ {: [updated in even years in April (POM); October (budget); and then in January 8 t5 [$ t7 E- L* ^, L(President’s budget) of odd years. The primary data element in the FYDP is the & n* E2 y* L4 Z" Y1 v4 mProgram Element (P.E.). Formerly known as the Five Years Defense Program.2 z% o9 w$ V3 f! m2 F4 I0 j FWCA Fixed Wing Combat Aircraft. 9 I) X: q( ~. k7 V/ ~Fwd Forward.5 p0 g8 E6 m4 L* R( D2 E% @ FXBR Forward-based X-Band Radar. 3 ]0 l- c: M3 Z) AFY Fiscal Year. ( n" _# o b; AFYDP Future Years Defense Program.% {" z' i9 C/ N' e7 t MDA GLOSSARY, VER. 4.0 G7 J; K5 J9 n* f# t" { 116! j c: L& o( U% o G Giga (one thousand million).7 [% n, c. _1 X. n& @2 b5 p g Gram.& E' M! D+ U- \: r! b G&A General and Administrative costs. * D/ v' D$ f7 A/ m" UG&C Guidance and Control. L2 ^- g8 Q8 o) Q: M! }G&O Goals and Objectives. / L& {9 z: N! z5 h0 _G/A Ground-to-Air5 i: \' v+ E3 [ G/G Ground-to-Ground.6 d+ T4 Q! d% Y0 e3 ~ GaAs Gallium Arsenide.& q: v F" l5 e$ v# P( H# s Galosh The Soviet Anti-Ballistic Missile system built to defend Moscow from missile & ?9 z0 c7 \# B7 g+ O; Jattack. + y! T0 I' R. y* JGamma-Ray Electromagnetic radiation resulting from nuclear transitions. Although incorrect,# \( U* X4 T" K4 P% h( |' J high-energy radiation, particularly “bremsstrahlung,” is sometimes referred to as 1 S& R- p& R/ }- C* @. z/ wgamma radiation.' X6 @' Z+ [' S: B5 I! c Gamma-Ray @: [" l4 A: O$ KLaser8 W5 e" F9 m7 K' j: ~ A laser which generates a beam of gamma rays; also called a “graser.” A - i5 B! `6 b: X( igamma-ray laser, if developed, would be a type of x-ray laser; although it would 7 @. J( N! I4 D2 I3 {1 cemploy nuclear reactions, it need not (but might) employ nuclear fission or fusion$ e: M1 T; F" H2 J* [ reactions or explosions.; A, w2 ^+ k3 H k4 N( s, q GAMS GPS (Global Positioning System)-Aided Munitions. % K1 z7 r/ _1 e6 X, D# WGaNMPA Gallium Nitride Microwave Power Amplifiers. (A demonstration program to develop 9 N$ W/ F' l# V1 R) [& T5 wGaN based transistors and integrated circuits for power amplifiers in systems 2 h. i: Q) R! f2 ?such as Ground Based Radar. Goal is to reduce total weight and size by a * p- H5 x; O% O% e8 |( z! I; C$ I! \factor of 10). ) H2 c; g; s% \2 dGAO General Accounting Office. ! j2 C% M, G$ l3 YGARDIAN General Area Defense Integrated Anti-missile Laser System. 5 x+ V) i" b$ K; SGAT Government Acceptance Testing. ! l/ j; J( N' Z$ ]GAT CALL Guidance, Apportionment, and Targeting Call (JFACC term). 7 U1 [) `: E; Z7 r# y9 [3 jGATE Graphic Analysis Tool Environment. 7 w6 X6 a) h; t1 YGateway An element that contained a node on the SDS backbone network as well as on % I. X o1 _3 bsome other network(s) and would have performed protocol and format2 R# I7 Y3 H( l7 B conversions necessary to accept messages from one network and retransmit) b0 g$ g8 y% l' u1 O them on the other.$ w9 J8 v: X* W. v GATS GPS (Global Positioning System)-Aided Targeting System. / E9 z7 f# X( @: A( NGB (1) Ground-Based. (2) Gigabyte.. h" @9 |5 y% w6 W$ y' o2 V GBD Global Burst Detector. , W: I7 o* ?0 UGBDL Ground-Based Data Link. ' Q5 j! f$ F2 {3 o9 { \3 sMDA GLOSSARY, VER. 4.0 G; o* B% H) F4 c! ?$ t p 117( M+ o6 o8 \6 b) ~; H/ c) z GBEV Ground Based Experimental Version.- [" J4 t7 t$ M( R Q GBFEL Ground-Based Free Electron Laser.$ Q. m& F& k! d! Y. z. P GBHE Ground-Based Hypervelocity Gun Experiment." A( k0 m) o- m) U GBHRG Ground-Based Hypervelocity Rail Gun. L- d8 H: }& T* d+ Z GBI OBSOLETE. See Ground-Based Interceptor.) h8 I, F( A/ c9 W9 v7 | GBI-P Ground-Based Interceptor – Prototype. 3 f2 ~8 K6 m1 H5 x0 [* ZGBI-X Ground-Based Interceptor Experiment.) s4 ~- }3 G8 C9 b3 N' _ GBKV Ground-Based Kinetic Kill Vehicle.; S! b4 N) W4 n$ K GBL Ground-Based Laser. 6 J6 ~4 h2 m! i4 k3 D n6 f& k+ AGBLD Ground-Based Launcher Demonstration. * I0 u7 k' P& BGBLRS Ground-Based Laser Repeater Station. 2 N; D$ H4 o! pGBM Global Battle Managers.. C y. r# T2 H' ^ GBMD Global Ballistic Missile Defense. + d5 |2 S* W$ @5 |1 u$ SGBMI Ground-Based Midcourse Interceptor.- ?6 y0 S0 l% f- t7 w GBOS Ground-Based Optical System.8 _( W6 i/ h7 K" d J, B GBPST Ground-Based Passive Signal Tracking. / D! h) \+ T: |# Q+ o u6 YGBR See Ground-Based Radar. , Z5 Y! E8 l! f0 j6 F: ?/ u: WGBR-M Ground-Based Radar-Midcourse. # t# D0 }4 H& f+ p' U8 O6 Y" X8 eGBR-O Ground-Based Radar-Objective.5 c8 j3 ^6 N0 Z" T, `/ E GBR-P Ground-Based Radar-Prototype. $ t! c$ H9 |7 U3 b# y. qGBRT Ground-Based Radar Terminal. " u, ^5 n1 _9 X/ q* D3 t0 nGBR-X The experimental version of the GBR. 8 z- T6 E/ f: ?7 n7 lGBRF Ground-Based Radio Frequency.

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GBRI Ground-Based Rocket Interceptor. / _# q# g% k4 D, e4 KGBRT Ground-Based Radar Terminal.7 A/ M: M4 P2 T7 w: ?: }6 r- m GBS Ground-Based Sensor.2 x; f/ m+ E$ G; x' x GCA (1) Guidance, Control, and Avionics. (2) Guidance, Control, and Airframe. 3 u( _0 a" C' O4 [$ ^GCC Ground Component Commander (JFACC term).' H6 g% s1 ]; \. Z! @ GCCS Global Command and Control System. 2 S j# e3 U' V' _MDA GLOSSARY, VER. 4.0 G # e! T: w3 }4 ~118+ w8 w6 r) R1 K3 W5 n8 j' ] GCI Ground Control Intercept.9 z/ d! e2 v% q# z4 C GCN Ground Communications Network.1 G& O1 \2 w V- w GCS Ground Control Station. 9 s2 e5 M4 N$ v0 ]7 e; GGD General Dynamics.+ n% m4 ]) E, d& w* A& q GDL Gas Dynamic Laser. P W5 j4 R, E6 K6 R& i& }) E+ S GEDI Ground-Based Electromagnetically-Launched Defensive Impactors. 1 v) e6 s: @$ JGEM Guidance Enhancement Missile (PATRIOT).# U v) F3 k+ W1 ~ General Manager( {. f2 l6 Q! s Program 4 `# U1 d: w. G" {Management 0 j# D7 {9 d9 m3 \Directive (GPMD)0 ?" C9 x+ c8 k' G& ` OBSOLETE. The primary document used by the GM to direct the Service BMD8 h, r! G; d, r/ S$ D PEO on the specific actions necessary to fulfill BMD program requirements.8 W% C2 t# U% M' B1 b" { General* U: T- w1 S9 s6 ? Specifications ) L+ v# B8 ^- p4 V- x, p2 OA general specification covers requirements common to two or more types, ! l7 G E) ^* o- L* C0 p2 [8 h1 c2 zclasses, grades, or styles of products, services or materials; this avoids the : R; _& y) J# ]. o |) Rrepetition of common requirements in detail specifications. It also permits6 w. _7 m9 w- V changes to common requirements to be readily affected. General specifications 0 q2 o6 u% [' @may also be used to cover common requirements for weapons systems and: S2 B1 ?2 U, D* n subsystems. 2 H+ [! P; F5 {0 a5 bGeneric Rest of G1 g3 N* T3 n. N: ZWorld Target * q% `$ {% p! D(GROW)0 E6 M3 U% f( s1 X$ ]2 X( _: y* g! w Strategic target being developed for GMD program.$ W5 P% i* f7 ~3 f1 o$ _% Y GEO Geo-synchronous Earth Orbit. 0 w. @$ N1 H' Q) n1 N8 ?GEODSS Ground-based Electro-Optical Deep Space Surveillance System. 8 }5 m9 K9 L# f5 bGeo-stationary! t) p9 E+ J& A% m Orbit (GSO) 0 L! P% J9 c, c8 E: zAn orbit 35,784 km above the equator. A satellite placed in such an orbit$ {3 J, |; ~6 |4 p% K7 N9 p: r revolves around the earth once per day, maintaining the same position relative 9 D% H1 l8 R' l/ R4 ^( vto the surface of the earth. It appears to be stationary, and is useful as a0 e% R! u' p1 _. Y communications relay or as a surveillance post. $ C+ J. R0 W2 r4 I# U/ q, VGEP OBSOLETE. Ground Entry Point. IFICS. I: H2 q {& zGES Ground Engineering System. - | ?9 Y- Y+ |1 j: NGFE Government Furnished Equipment. See Government Furnished Property.5 P+ b: V0 q- d. \& N GFI Government Furnished Information. % z3 y c3 X! d: }GFM Government Furnished Material. % X" R# t" z; }9 b; zGFM/P Government Furnished Material and Property. See Government Furnished7 a$ H; C5 \ z+ F Property.$ O; _) H+ \( |6 `1 C5 b GFP Government Furnished Property.- j ]: u$ A2 i9 o& p x GFS Government Furnished Software. See Government Furnished Property. + I( G9 C; d/ D5 p p0 M" z2 V- fMDA GLOSSARY, VER. 4.0 G # q; R; a( e, g' Z119 6 M9 I& ?6 i+ ~5 q. qGhosting This condition occurs when two or more targets reside close to the same plane( }6 v/ s9 g Q' w% w2 J) e+ T( [6 n also containing two sensors viewing the targets so they are within experimental V6 A& l2 i& E% P1 }8 U! q determination of having the same hinge angle F. Thus, ghosting depends on - m* N- p# H$ [9 |8 ZLOS error and positions." ?! i5 ]) z' M m6 c GHz Giga Hertz (1 x 10(9) Hz). , Y3 K4 Z; R3 W" l: NGIDEP Government/Industry Data Exchange Program. # v2 z' c1 O5 Y3 WGIF Generic Interface.( D0 x* r# Z, v" P* O$ ], G1 W GII Global Information Infrastructure. 9 \4 W' Y: r* j) Q( @GIP Ground Impact Point.9 R& |5 G" y& n" } \# u# M GIS Geographic Information System. 5 s( i+ [2 Y, |8 s6 zGITIS Government Integrated Technical Information System.: |/ K2 y W% d0 W) m GLCM Ground-Launched Cruise Missile.& Y' j! ?1 c4 Y+ s3 Q3 `' | GLP Ground Launched Probe. See Brilliant Eyes Probe. # V/ C) I. E6 M# RGlobal! N* V8 d* K0 L- O: c2 ^ Environment5 V1 \7 y0 G" `! |- w* j3 K The ISTC Global Environment is responsible for the creation, propagation, and X; r4 I+ F; b maintenance of test scenario common knowledge, how subsets of this' ?9 K o: b" j% k! w# n" e2 k2 | c information will be determined, and how common knowledge will be disseminated ) o ~0 H4 O4 G" q& V( ~1 ato the various element representations (nodes). The Global Environment / q, R6 E. d Z+ S2 X4 v1 |2 @performs functions which are common to the scenario such as timing, health, 8 J& d2 e1 K8 Z$ }3 Vstatus, state vectors of objects, and effects models.& I/ d+ h) B2 B, Z Global 7 w! y6 l2 \' a% o9 ^% L" K/ ]Positioning 6 C1 K. u' Z9 |' JSystem (GPS)) B X. a/ w1 ^ The NAVSTAR Global Positioning System is a space-based radio navigation# v+ H: _, b' w( D; Q, F network providing precise positioning and navigation needs of all the military # T6 p9 v7 Y/ Dservices. In the fully operational configuration, there will be 18 satellites in six0 ^. u2 G3 T2 E# o' P orbital planes with an orbit period of 12 hours at 10,900 nautical miles altitude. . D# e3 K: T/ j1 S |Each satellite transmits three L-band, pseudo-random noise-coded signals, one5 ^/ X, b$ \2 U2 Y S-band, and one ultra high frequency for spacecraft-to-spacecraft data relay. ) _$ Z4 s& r: t- e9 a7 a5 HGlobal Protection ) A) k" F4 J, NAgainst Limited \7 n' v" B0 T: E Strikes (GPALS)9 ~6 v; b! |( z* s( ^, |7 a OBSOLETE. GPALS was an architecture denoting an anti-missile system2 O- G* N! u9 d' }9 V# K designed to provide protection against limited ballistic missile strikes, be they" Y5 M& D8 s' V7 J' x8 z deliberate, accidental or unauthorized—whatever their source. GPALS was4 V( S, o) l3 t- ~* q6 X. S m composed of three interrelated segments: (1) theater ballistic missile defenses, , U8 E7 ^/ k4 Eand associated space-based sensors, to protect U.S. forces deployed abroad, 7 m" z7 k2 \! w' |; v7 mand our friends and allies; (2) ground-based defenses, with space sensors, to, j+ q) p) r3 @* c- w! c protect the entire United States against long-range ballistic missiles; and (3)4 @ q5 Q. n# ~+ i' Y9 T! E6 Z interceptors based in space – Brilliant Pebbles – capable of providing ' J8 x4 j0 ?! M; V$ X, ^continuous, global coverage by intercepting enemy ballistic missiles with ranges \3 m- X0 I1 a# P greater than several hundred miles. ! o! e! U# t5 yGlobal Protection& P5 p, D* _5 {( y* L+ g$ ~ Against Limited 9 c0 J" Z1 a5 oStrikes (GPALS) * z# X& m5 x8 o; p( C( I. ]) NProgram ; ~$ v2 W$ }9 i7 B# P4 @) X8 y6 C+ eOBSOLETE. The GPALS Program consisted of six Major Defense Acquisition ' h/ Z# I; T# k' Q- ]8 ~5 U' qPrograms: GPALS System/BMC 3# e# @* n6 W$ h6 G , National Missile Defense (NMD), Global Missile1 J) \- E' U+ ~% _6 x8 \ Defense (GMD), Upper Tier Theater Missile Defense (UTTMD), Corps SAM, and ' K) Q- M3 G# d& M; vPATRIOT. Army PEO GPALS was re-designated PEO Missile Defenses in 1992. , r( s& _' u6 r: i1 ?; P) dGLOBIXS Global Information Exchange System.$ {3 f+ e Q. }; e+ C" l# a$ w GLONASS Global Navigational Satellite System. : N9 j' X' v' E* IMDA GLOSSARY, VER. 4.0 G) |) O* b9 ^/ L5 |: ~8 d4 X 120 p* c( G5 L9 X# b GLOW Gross Lift-Off Weight." ^9 g, n/ p' q. I GLP Ground Launched Probe. See Brilliant Eyes Probe.7 \- }" W! E& J GLS Ground-Launched Sensor. 8 R \+ T/ A; u) i5 @% A- i, XGM (1) Guided missile. (2) General Manager.5 U" `0 B: m. G8 n* U GMACC Ground Mobile Alternate Command Center. : h" F. D. a- K1 i0 K$ ?GMAOC Ground Mobile Alternate Operations Center. & p; `6 W7 {9 u3 C/ a! p/ M8 TGMCC Ground Mobile Command Center./ e) |: Q7 B- { GMCP Ground Mobile Command Post.7 \/ f5 b, ]* r" I" k GMD (1) Ground-based Midcourse Defense (formally National Missile Defense) (2)& L! X. l2 t+ _4 l' J5 p/ f Global Missile Defense (OBSOLETE). " o& E0 g( l! j& v$ _8 @5 MGMT Greenwich Mean Time.1 {3 F" ~: ^0 s: n GMTT&C Ground Mobile Tracking, Telemetry, and Control.+ Z5 b/ y% T! j8 o. d GN&C Guidance, Navigation, and Control.9 L) N" s; h) e: K GNC&P Guidance, Navigation, Control and Propulsion. N* B& D0 w4 ^5 c9 l$ VGND Ground. ( x; \2 h1 }' EGOCO Government Owned, Contractor Operated. _+ |3 F* [' ^GOES Geo-stationary Operational Environmental Satellite. % B! E8 t- b h1 J% o) W3 {2 o zGOI Government of Israel.% Z" u! N5 [- n/ {: T GOJ Government of Japan.

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GOSG General Officer Steering Group. ( _0 ~3 h+ `( v. d3 UGOSIP Government Open Systems Interconnect Profile (CALS term). " N# D. G* ?1 v! X% U! UGOSP Government Open System Protocol (CALS term).% J9 }4 c( o' K, U; I6 w GOTS Government Off-the-Shelf. W- ~! [% @7 M/ O) M# |: L Gov’t Government. ( j' Q8 n( W2 R# |) zGovernment* r& f& K8 n. h Furnished ' X' c5 g8 I$ V* YProperty . c1 I3 ?' e- KProperty in the possession of, or directly acquired by, the Government and$ H3 V$ R1 A/ n subsequently made available to the contractor. (See FAR 45.101.)* g5 Q! f' }" \$ T6 p( U! R& d* ~ Government 6 T4 z4 i, H' s& x2 I: mVerification ) B; P* K: X, N% c3 e8 z, ^Management1 G# w% w# X1 G. E9 q Plan (GVMP) % t; D9 t. }. S9 I7 j+ ~A management document that provides the overall framework for BMDS+ S7 Y& G! D* j F: O3 v0 W& R verification. It includes processes for implementation, organizational ! ]" Q: x6 [/ g7 Srelationships, and stakeholder responsibilities. It covers the full scope of BMDS- M+ C- q9 g! z5 |! z9 Q! n/ A verification and identifies how all BMDS verification activities will come together to 4 U. c' w/ b. W# E& c, V9 c4 T# A/ dconfirm BMDS capability. 2 \1 J/ \+ E6 V8 d( m* o1 t" BMDA GLOSSARY, VER. 4.0 G ! e; Q& y e9 w/ o0 g121: c" g9 i/ G7 H GP Group.& p$ J9 D( H* q5 r& F GPALS Global Protection Against Limited Strikes. w; b* o! c9 E; s4 R3 | GPC Global Protection Center. + ~, C7 _# b8 N/ D9 x" ?/ m3 S$ QGPMD General Manager Program Management Directive.+ v# a' {$ z0 I2 u4 |' c GPO Government Printing Office (US). 5 y. f* s' d0 ^* x1 BGPP General Purpose Processor. : E2 v, A( v5 D. p) xGPS (1) Global Positioning System. (2), Global Protection System.. y, A- C: S. I9 { GPSIU GPS Interface Unit. 8 }" v- @2 B4 @8 T7 m M KGPU Guidance Processor Unit (US Army term). 5 x' J1 {8 |, ?3 |Graceful. T0 o* ]' {2 Y/ r Degradation / g- y' ` B6 f2 w8 g# j8 x0 lA condition in which a system continues to operate, providing service in a! Y: c1 h- S) ?$ x7 Z, i0 i degraded mode rather than failing completely or catastrophically.. ` h9 ^) [! L8 V4 Y" s. L GRASER Gamma-Ray Amplification by Stimulated Emission of Radiation. (See Gamma-$ `2 j; V9 `, ~: p9 [ C* ~ Ray Laser.)" ~: a4 k+ R: c- w% t GRC General Research Corporation. ( N: a6 t9 M" h# h E. tGreen Code Interface Software. 0 j4 V3 F1 m `1 B L- V) ^3 G5 {! bGround-Based. Q7 B# [; d' f1 v- ]5 B Defense* ?5 l/ p, c% L The ground-based sensor and weapon systems of BMD. 0 U/ y( e, ] e) l# s' q& ^4 MGround-Based ( n6 d( q+ J* vInterceptor (GBI)7 C% Y" E8 s! q. z A kinetic energy exoatmospheric interceptor with long flyout range to provide, 6 P4 l( b9 T- f% W0 fwhere possible, a multiple engagement capability for defense of the U.S. with a % N+ }* T2 W( M8 B9 n. {% A& G1 irelatively small number of missile launch locations. It is designed to engage 4 V; l! Q! T# S; lpost-boost vehicles and/or RVs in the midcourse phase of flight. $ X. F4 S' d9 x. T(USSPACECOM) (Successor to Exoatmospheric Reentry Vehicle Interceptor , p# L! g- f0 jSubsystem (ERIS).) See EKV.- G* W8 o" z1 i Ground-Based. d4 F. J6 t) n6 p( u6 I Interceptor" N+ s- G; p" N9 T& N8 n' ~: N Experiment 5 F/ d$ ^# @) {4 H; [( k# v1 l! C7 a(GBI-X) " u) L* E; f- D" lDesigned to infuse advanced technology and promote competitive environment ; [; v* d( b" t- `for GBI.6 m6 I$ @) Y6 Y8 U! P* u& [ Ground-Based ' O2 z5 s) d9 [7 KRadar (GBR)" U- W4 i" @: U, y/ T& o4 L8 q A task-able, modular, multi-function, phased-array radar that provides / v1 Y7 Z* }. ?/ Esurveillance, tracking and engagement planning data in post-boost, midcourse, z% \7 M! r4 [; n4 y$ R+ x3 p and terminal flight phases within its capabilities. It also provides target; i6 @ a4 P5 j+ e2 c2 f; V) D t discrimination, in-flight target updates (IFTUs), and target object maps (TOMs) to ; [5 X1 j% @% ]% y! p- c, zinterceptor vehicles. See THAAD. (USSPACECOM)+ i& s# w( k. C( W6 ` Ground-Based1 p0 `4 e! A6 K( G5 ~3 ? Radar Terminal ! k# B# x v- y1 t(GBRT)! X9 w. X! V& r, g The sensor for the NMD system. An X-band, ground-based, phased array radar6 ~$ _ g1 g3 I) W7 v7 T' w% w6 I capable of detecting, tracking, and providing discrimination information to a * j% N1 ?$ q0 G9 ?% U! uground-based interceptor. & ?7 S4 j5 m8 t) f% h* y( zGround-based ! v# p4 _" U) q- ?. @- ~+ tSurveillance and$ @8 D. l4 I+ C- D4 [ Tracking System % Q4 ^: }" Z% M6 S" A! u3 t(GSTS) 1 Q/ z8 C' W7 y2 ~A fast-response rocket-launched sensor, which can support the SDS midcourse 4 Y u4 P; h9 ]6 Esensor suite by employing multiple Long Wavelength Infrared (LWIR) wavebands ( t1 W+ a3 P" h4 q. E% Y Cand a visible waveband sensor to provide tracking and discrimination of 5 }( |* V* v/ I+ P& P: q# Lpotentially lethal targets.5 q% x" u8 V, a' }% G# b MDA GLOSSARY, VER. 4.0 G% a) D# R0 y# r R0 `- X( k 122) v) V. B" G3 p Ground Entry8 { W! O) G1 E3 C9 j0 B F Point (GEP) 0 n) Q: {# J4 o3 k$ O, I0 q) zOBSOLETE. GEPs provide the communications interfaces between the SDS4 Z5 ~4 i8 x, a. q; [4 } space orbital/sub-orbital elements and the C2 E. See IFICS. , o. M% D7 R! r1 @8 R* sGround Mobile " ]8 i4 u: \+ h5 [Regional" f) x0 M4 Y8 g- Y4 O. V7 S" i Operations1 V% z2 A- v9 M+ r$ v# D- x Center ( ]! k0 d' t8 i* K/ i- k1 z8 o(GMROC), y! N) y E, T `# Q' F5 C, d Transportable ground segment of the Regional Operations Center.! F0 N! E' I6 b4 u& M! @ Ground Zero The point on the surface of the earth at, or vertically below or above, the center- y! E6 J) Z3 B6 K of a planned or actual nuclear detonation. ! n, p* T8 V( X. U/ s; _/ ]GS Garrison Support (US Army term). / D. u% R' d( s3 w! R oGSA General Services Administration (US).& a) v# V+ y9 h# l7 Z8 \* R" A GSDC Ground Station Demonstration Lab.* w0 f7 {$ \. D) d9 y GSE (1) Ground Support Equipment. (2) Government Support Equipment./ S {2 \9 ~, d& ^) J GSFC Goddard Space Flight Center, Greenbelt, MD./ E- E: t- `2 B$ ] GSII Government Services Information Infrastructure. $ l. T& P" y/ V$ v% { H9 XGSM Ground Station Module.* d1 m! `$ i- { GSO Geo-stationary Orbit. , L7 M3 Q# A# CGSR Ground Station Radar.) K: k0 j" `. W3 U! M GSTS OBSOLETE. A fast-response, rocket-launched, Long Wavelength Infrared5 b' R" Z( l) N0 I( K$ T4 S6 L (LWIR) and visible waveband sensor, which would have enhanced the . A0 S' I8 x2 Einformation available from the SDS’ midcourse sensor suite by providing tracking ) S _$ d! g# b/ p$ C7 {and discrimination data on potentially lethal targets. - ]* D' o& h& yGSTS (F) GSTS Farm. ; P5 `, ], i1 @* |GTA Ground Test Accelerator./ Q ~4 ]3 r5 F5 X9 P7 O GTACS Ground Theater Air Control System.8 w( v) T( m! m w GTE GTE Corporation.- }6 }; n6 K9 u* f% o GTF Guided Test Flights.0 S- R' l! e1 k/ ~* p; N3 s GTM Global Track Manager. 6 ]5 V0 f U& {6 R zGTN General Technical Note." u1 F* d' P& ^8 }0 C5 `0 ? GTR Gulf Test Range, Eglin AFB, FL. ; e2 {: { l- I/ A) V' ?GTSF Guidance Test and Simulation Facility (PATRIOT), Huntsville, AL.8 q+ X, }8 o, w& D8 G+ o5 Z- c GTV Guided Test Vehicle.2 W2 ~6 U5 F3 a7 W6 F/ E GUI Graphic User Interface.# Y+ H s. |; H( W( V MDA GLOSSARY, VER. 4.0 G + A' Q3 U8 O/ g. p5 ?! N. U/ T123/ N$ ]9 ?7 |. m4 D; O7 d Guidance (1) Direction, altitude control, and navigation (where appropriate) of sensors" U2 u9 [( L! ?1 a! F/ G9 F' M or interceptor vehicles. 3 L) p, a, j/ G* V! I( y2 a |9 J(2) The entire process by which target intelligence information received by a ; L& Y2 p# R1 C3 oguided missile is used to effect proper flight control to cause timely & x" F& F8 e$ ]6 A+ J4 |direction changes for effective target interception.% [' G3 [. ?: S Guidance # }0 L$ H p8 P% D. g% IEnhanced ; a. n+ `$ w& }5 T# p* d# sMissile (GEM) j9 u' q# w v/ t) p A companion program to PATRIOT PAC-2, which includes enhancements to the * K# A5 E: d; bradar to increase intercept range and performance. ; m5 L m7 @- E/ kGuidance N1 t. `5 Y% H& a7 ] System (Missile); `4 {9 f; N8 I- A# E) W% u4 }7 d0 l A system, which evaluates flight information, correlates it with target data, 1 F: y) j: a+ s: z/ O' U; Zdetermines the desired flight path of the missile, and communicates the6 }/ D5 v- W( w8 M/ u8 Q4 X& X necessary commands to the missile flight control system. & i% n) ]+ ~ {9 M8 mGuided Missile An unmanned vehicle moving above the surface of the earth, whose trajectory or& n$ r. F2 L8 E& d* s flight path is capable of being altered by an external or internal mechanism. # C! F* Z& l. A; E7 J4 B3 z* ^$ h. aGVSC Generic VHSIC (Very High Speed Integrated Circuit) Spaceborne Computer. 5 E1 @7 }7 I) K0 X" {GWAPS Gulf War Air Power Survey, 1994 [a DoD-sponsored survey].3 s7 p) E# Q& Z, M+ O! H- O Gwd Giga watt-days. ) K' F* p- G) w2 P4 D9 r6 r7 j8 MGWEN Ground Wave Emergency Network.$ L; Q5 D$ _7 P' Q GZ Ground Zero.0 z; v- J4 D" _. @0 R MDA GLOSSARY, VER. 4.0 H ; m! |4 M7 Y! N9 t1 H124 6 J# ]$ e: V% X2 `H Hour.0 ?9 `. c: `; W0 M H&S Health and Status.# ^$ a. _0 P: y H/W Hardware. 5 M4 Y4 j8 e% t7 C! ZHA Higher Authority. ) O$ a1 C9 M# P/ T7 QHABE High Altitude Balloon Experiment.( A# a' O: t% b. s HAC House Appropriations Committee (US). 2 [6 A [4 [" n9 B2 hHADS High Altitude Defense System.5 G: a1 T2 `/ s$ |$ i HALE High Altitude Long-Endurance. 4 t$ ?. ]7 K& R# dHALE UAV High Altitude Long Endurance Unmanned Aerial Vehicle. 8 y" L5 j# x+ P. \" [Half-Value # x4 U+ j) j) [- I7 DThickness (HVT)5 a0 Z, X/ i e- U! r( J9 [5 @ The thickness of a given material, which will absorb half the gamma radiation/ j' D6 X* |% u+ M# M incident upon it. This thickness is inversely proportional to its density and also* Q8 W1 {! o, o C9 O6 G depends on the energy of the gamma rays. $ r! z- N/ ~# g# l+ @, THALO II High Altitude Observatory II 8 o* U# l7 [/ r) iHAMS Hardness Assurance, Maintenance and Surveillance.: P' V4 ]0 f& R8 H& c( k9 w Handoff This occurs when information on positions, velocities and tracks are given by one# l, D6 _( ~' ~) Z sensor or system to another and the first sensor or system continues to track the% j5 s0 y7 _; @/ L% j6 N4 R" E. f, w objects. $ h; R6 G; H$ B- f: W( G2 D0 w dHandover This occurs when information is passed on to another sensor or system in which . H7 p) X+ m: S% W& O0 H- T2 tthe first does not continue to track.) `, c; M( M+ h d' s' u HAOI High Altitude Optical Imaging.

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HAOIS High Altitude Optical Imaging System.* @0 g$ x2 {; @# l HAP High Altitude Probe. # L Q; k% [/ j/ Y) B2 x, s9 uHard Kill (HK) Destruction of a target in such a way as to produce unambiguous visible7 v; E1 a' g! t4 ~) N% `- v evidence of its neutralization.( ^2 h- \0 u- l$ G8 J7 f+ S Hardening Design and manufacturing process and other measures, which may be employed0 {7 g8 S0 g5 S2 `4 }/ s5 } to render military assets less vulnerable. * x( L) z0 t6 {' ^HARDMAN Hardware/Military Manpower Integration (Navy ILS term). ; M9 I9 i5 O( R0 m" F( o7 THardness A property of a target; measured by the power needed per unit area to destroy $ m8 H6 m, K" I4 y1 u' i" Fthe target. A hard target is more difficult to kill than a soft target.1 U6 g: n$ X- k' D' G3 ?/ O* c Hardware-in-the-# w' c' A. I/ G2 C. G1 z& {' h# t& p Loop (HWIL) , F/ L& o/ G+ S2 y" A+ ~Tests in which BM/C3 computer and communication test systems will be in + r9 Y! U" h( D! P l/ Gcommunication with some of the hardware test facilities developed for other BMD n! a. N) H5 d7 [technology programs. # P" y! L* T8 ?0 D! _! Q. E6 ]Hardware : N" t2 X( ]2 `1 r& c6 lSecurity 6 q A. U) G; Y$ {% Z+ EComputer equipment features or devices used in an ADP system to preclude; E9 } k8 L3 b; N# q unauthorized access to data or system resources.0 `6 ~* R+ g/ q% n o9 C HARM High Speed Anti-Radiation Missile. / }1 J8 c. v1 \4 l7 C4 ?' u) f- gMDA GLOSSARY, VER. 4.0 H - Y3 f4 U7 _" {5 u) E8 G, r1253 I9 b8 `5 H: a7 m# H7 k HASC House Armed Services Committee (US).$ W, I; `% Z* \8 P* Q HASP Hardened Ada Signal Processor. : _+ e. }1 ?, n- D9 n& y6 D# }HATELM High-speed Anti-TEL Missile. 3 T1 ^$ ]8 f8 DHATMD High-Altitude Theater Missile Defense. (U.S. Army)5 q! Z8 G0 g4 g% x HAVE STARE Name assigned a proven sensor capability. * @; o1 @( O; ?, @* UHAWK Homing All-the-Way Killer.. I2 p. { y. f1 d! B9 V HBCU/MI Historically Black Colleges and Universities/Minority Institutions.$ }; ?2 B& D& |; I; Y, g1 A' N HBHO Hard-body Hand-over [algorithms].' M; [! B9 F& \: h% K" I2 C" o HCO High Consequence Option (Safety Engineering term)." `3 L6 |/ O4 R& |- O6 t0 x) K$ v HCT Mercury Cadmium Telluride. ! j' o! s- v5 q9 _1 xHDA Hybrid Detector Assembly.: F* w; R# x: ]4 o' h5 T8 l$ ?" L HDBK Handbook.+ Q7 g4 g, s* X4 J; I; Z HDR High Data Rate. # I$ U. j6 q* y- s8 v+ wHDX Half Duplex (TelComm/Computer term). $ G2 a( G0 m; W0 P) v. Z0 D, RHE (1) High Explosive. (2) High Energy. 3 |0 u+ R& B$ f: l( XHealth and Status 9 J0 I% A/ W1 R, p4 F+ [9 J(H&S) " Y! O6 `. L$ }5 G* ^" R) n3 k! gHealth and Status pertains to a unit’s ability to assess the conditions of its) }6 d! Q/ v- @& H5 r subsystem functions. The term H&S is used for units in remote locations, such" _* s5 Q9 G$ s- ~5 s _. G as satellites, where ground controls must interface with BITE to determine $ U. d9 U) R D" qoperational status of the satellite and its equipment. ; z/ E# \3 J* K/ {Heavy Replicas- S$ t( l% a6 I$ I" m O (HREPS) $ ^! C/ S9 M7 VDecoys, which by virtue of shape, size, and mass, closely approximate an RV’s" R% v6 T+ @2 S) O signature. HREPS have significant off- load penalty.2 m/ K8 T% f9 D0 D' Z4 d1 B( e5 I) B HEDI OBSOLETE. See High Endoatmospheric Defense Interceptor.: l5 \/ v4 @( R1 Y1 q* v7 J2 C HEDR High Endoatmospheric Defense Radar.8 r: V# ?+ r3 L+ [1 |( ]/ H; ^ HEDS High Endoatmospheric Defense System.& i) U4 I/ ?9 G, H4 p3 H3 T HEI High Endoatmospheric Interceptor. 0 |' _) | Q! r3 p: O5 y2 V7 u% QHEL High Energy Laser. 5 Y3 G1 l5 W# @/ VHELKS High Energy Laser Kill System. 6 o, b4 P# M' m" Y0 wHELLO High Energy Laser Light Opportunity. o/ [! ~$ r8 T: j* s. H8 mHELSTF High Energy Laser Systems Test Facility. & f. @0 F H2 ?HELWS High Energy Laser Weapon System. " n$ E9 I1 e% h0 g) }# H& MHEMP High Altitude Electromagnetic Pulse. ; [0 f* w7 P0 ?# H; Z% h8 O1 U# mMDA GLOSSARY, VER. 4.0 H ; l9 O" _- h6 j126/ t# j/ g" a8 D1 X HEMTT Heavy Expanded Mobility Tactical Truck (US Army prime mover).1 z6 Z4 U) B! P* W; k+ ~3 v Hen House Soviet area defense radar used as a component of the Moscow ABM system4 m9 X& z# ?- @+ Z3 W X0 x: m that provides VHF coverage of space to monitor orbiting satellites and early & M6 v) x* Z4 p9 ?8 j$ o% Bwarning of ICBMs launched from the U.S. % `1 ?1 r( F" m7 H4 Y+ h0 m% P6 mHEO See High Earth Orbit. . J# f1 B1 }' W# ?/ y0 Z/ sHERA (1) An improved surrogate TBM test target. ' P8 w; W0 h0 y(2) Two-stage, ground launched solid propellant theater target vehicle. (MDA$ z: _2 o; q% R" L" P* n# H! [- }2 R Lexicon)) p R6 P4 q. F' j8 w HERO Hazards of Electromagnetic Radiation to Ordnance (SM-2 Bk IVA).2 a' L' A% Q/ ]4 x) S. |1 K5 o HESP High Efficiency Solar Panel. : c' e4 w5 Z8 c0 @HEU Highly Enriched Uranium.7 Y7 i( D8 @- ` HF (1) High Frequency. (2) Hydrogen fluoride.+ }- z5 W! B6 j$ m$ c4 z$ { HF/DF (1) High Frequency/Direction Finding.; X3 T, X0 k% V0 o+ p (2) Hydrogen Fluoride/Deuterium Fluoride. (Chemicals used in IR chemical $ k" p7 x& N9 T/ Elasers).' ~/ v' r& M( ?( G HFCNR High Frequency Combat Net Radio. . h. H1 b3 Y( \5 A# M7 @4 AHFE Human Factors Engineering.$ m9 B3 y2 M6 r+ O, g HgCdTe Mercury Cadmium Telluride.. U" {1 E) _3 |6 J) x HHB Headquarters and Headquarters Battery.8 v$ Z& O" j, z; P1 \; z HIBEX High-Acceleration Boost Experiment. 7 A# }" R; u4 A! ^1 V; XHIBREL High Brightness Relay., R( Z4 z* @+ v/ x8 u HIC Human-in-Control. 6 |7 p7 P1 N) C" d$ j5 ]HICOM High Command (Navy term). 5 Q! M' b6 g2 x' qHICTB Human-in-Control Test Bed. 4 A6 K0 s& M+ t( S& k5 n$ |( iHIDACZ High Density Aerospace Control Zone.3 }" `2 X4 ~3 P6 R8 O HIDAR High Data Rate. " Q: o" E; R! @' u; ?* L7 }High Earth Orbit , y) F6 L, B! d- u" ^) u(HEO) ; b1 z2 V+ a6 N b/ m7 YAn orbit about the earth at an altitude greater than 3,000 nautical miles (about 4 X$ @& e# o6 y- B5,600 kilometers). $ Q* d% T; ^* V' NHigh7 }: A* [" ~. e+ J" B Endoatmosphere! X( i! ]' x+ E" Y; m That portion of the earth’s atmosphere, generally above 40 km altitude./ _( n5 f# D9 |- E$ `4 Q High$ k+ A; b, d6 g" i) M! V8 b Endoatmospheric & g. t/ U) ?& B' @; ?: Q; c/ N- ]% UDefense2 f' }# g% }& D) A Interceptor (HEDI) 9 [) o5 e* H D5 S8 t" iOBSOLETE. Interceptor concept designed to engage RVs within the (upper or : k3 h8 s; t, H9 C9 shigh endo) atmosphere. (Predecessor to Endo-Exoatmospheric Interceptor . P8 W: f T$ V* S. t% ^(E2I).)$ J* s5 x6 P( h0 }& x: r MDA GLOSSARY, VER. 4.0 H 4 Q0 A; l# w4 O127. O% R( s; t2 c" d High Density 2 F0 |+ }3 G5 ZAerospace 1 U: X: \$ l1 v. F! q. nControl Zone % ?2 X# X: r6 L4 V% P(HIDACZ) p9 Z2 J! F' x7 p8 p q Airspace designated in an airspace control plan or airspace control order, in$ F# [9 z7 g; j+ Y: ?6 b% ?. L. N which there is a concentrated employment of various weapons and users. A P- _# X8 c4 ?# R+ }, \- E9 YHIDACZ has defined dimensions, that usually coincide with geographical 6 _& x* r8 k- {features or navigational aides. Access to a HIDACZ is normally controlled by the 7 S$ `6 F$ L: Amaneuver commander. The maneuver commander can also direct a more7 Z( W6 A4 j4 W, o restrictive weapons status within the HIDACZ.6 X1 G/ f, n2 k Higher Authority 3 ^0 i! ~4 Y6 C z+ UInterface" @. c5 {9 f5 e" k' U( | Policy, strategy, doctrine, readiness conditions, and rules of engagement from) n0 o \! n( r2 D( o7 b higher authorities for use by the defense system in conducting system/ g/ D! {4 i5 f/ {2 \ operations including specific orders specifying actions such as testing, defense* p! u: j3 g% A5 c, e enabling, pre-delegation of authority, etc. Also the reporting of situation7 e# H' R% i0 V5 k3 L assessment and system readiness to higher authority. 6 y: D' F) y; a& W# O0 j9 }1 bHigh Order 3 y; q1 m7 \1 l! s2 M. o; p, jLanguage (HOL) + l( Z& a( Z' [5 cA programming language that requires little knowledge of the computer on which 2 _. E( O, R6 t# L! o% n0 o$ ]1 Za program will run, can be translated into several different machine languages,8 [& O# d {$ `0 C- W9 h allows symbolic naming of operations and addresses, provides features/ y1 B6 `% ], t h( v designed to facilitate expression of data structures and program logic, and # V7 r# |- F5 s' H3 Xusually results in several machine instructions for each program statement.% G* ^6 u. k7 E6 R- l/ O1 u HIL Human In-the-Loop.5 m7 i$ n: I, O8 j* V# ^2 C2 d& C HIMAD High to Medium Altitude Air Defense. $ l/ C& K b7 W& A7 M4 wHIMEZ High Altitude Missile Engagement Zone. + @% a( j4 A, `9 {! d& k7 Q, ^" k$ IHIP Hot Isostatic Processing. 2 G" U( t" q2 F; v& G7 sHIRAM High Resolution Infrared Auroral Measurements. Z1 [ w2 E) @8 Z HISEM High Speed Environmental Multi-burst Model." h" m4 c' D3 p6 Q HIT (1) Heterojuncture Internal Photomissive. (2) Homing Interceptor Technology./ o6 ^& \9 C- J HK Hard Kill. ; M# Z- g" R2 D: p" Q i: n+ EHKV Hit to Kill Vehicle.% _& M2 o2 E! E5 l! f HLD Hardware Description Language.$ Z5 }2 w% a* D2 G HLLV Heavy Lift Launch Vehicle. 9 p1 ^9 [8 m5 s* m3 c; [& AHMC&M Hazardous Material Control and Management. - X" D* p/ m1 z9 qHMI Human Machine Interface. - O' O0 C9 a! {, q9 t8 P rHMMWV High Mobility Mutli-purpose Whealed Vehicle (USA term) (pronounced Hum Vee)./ k. d4 N+ w8 Z3 m& x; m HMPC Hazardous Maintenance Procedure Code.) C; y4 b) \0 V5 c% O HMSC Hughes Missile System Corporation. 1 T. B' I6 j/ `! I+ n1 }/ I& T$ N) s- Q! jHOB Height of Burst.! u* t/ N" q" \/ e0 r7 G HOE OBSOLETE. Homing Overlay Experiment. (Predecessor program to 3 a- s2 p% M' a5 c4 pExoatmospheric Reentry Vehicle Interceptor Subsystem (ERIS).)% a: y! _( U1 C4 a# F+ ?3 V9 [' i& T HOL High Order Language.$ o: @8 k# i0 K+ R MDA GLOSSARY, VER. 4.0 H c k# z; H2 |1 x) _* e8 E128 1 ]; @3 x2 T! y2 `Homing All-the-' F# i: c4 ^: s9 Q* g Way Killer 3 ^" J1 P6 j& t" T1 `(HAWK) $ ?9 ^" I- P, w& f: G(1) Upgrades to the HAWK interceptor and radar system to provide the / X1 c1 A$ e v" m1 VMarine Corps with a mobile point theater ballistic missile defense 1 Y! k8 u" U% m* C' m P' Scapability.8 S z5 q% D. w5 q: i (2) A mobile air defense artillery, surface-to-air missile system that provides. B7 V; x& `7 g# B4 j4 |* j non-nuclear, low to medium altitude air defense coverage for ground! A s7 O4 D/ r- H forces. Designated as MIM-23. $ P! M1 i; N- Q4 T$ MHoming Device A device, mounted on a missile, to aid its guidance to a target. The homing! P8 C# `( _' o9 }4 E& i# _ device uses sensors to detect the position of, or to help predict the future2 h- \; e8 R3 g. E position of a target, and then directs the missile to intercept it. The homing9 G6 F4 w' s, O6 K! [4 \8 { X device usually provides frequent target position updates during the flight of the( g5 P" G+ j: O \% ]) s missile. ! L' C. x. f4 c7 }6 M8 s# hHoming, n: F' G- S' h! n* \- [& ] Guidance & j2 V) ? G( K& e4 \# _' a6 K/ qA system by which a missile steers itself towards a target by means of a selfcontained mechanism which is activated by some distinguishing characteristics of9 y. V9 T6 v9 z4 a8 Y, F the target, such as an infrared signature. ; l0 M9 H2 C) O. I! i6 h' LHOMS Homing Overlay Mission Simulation. 6 W- q; z2 e. x7 h& oHOST Hardened Optical Sensor Testbed. . n% I9 E, l) z6 S4 T+ VHost Installation A designated DoD facility that provides non peculiar SDS support of SDS ) [2 J# f+ ^: n+ d& o* helements. - b Z" O8 [8 B* _: f6 n- U& E) A$ pHostile) [6 g1 Q7 k H9 }3 H3 @ Environment , v6 ~5 E3 e6 h# f/ P6 ZThose environments that result from a BMD system engagement of an enemy & `" u9 X( J8 ^8 mthreat or collateral conditions resulting from deliberate hostilities. Hostile; s0 z9 t7 e# _2 v8 x* i* p! \ environment categories currently applicable to National Missile Defense are 2 h. y2 I, Q' oNuclear, Battle Debris, and Electronic Warfare. * j4 A0 v5 c/ a/ G" D/ @9 R" }2 |Hostile Track The classification assigned to a track that, based upon established criteria, is 2 C {" W0 x7 U7 mdetermined to be an enemy threat.; S: d/ o9 M2 h4 D6 B8 c Host Interface The interface between a communications processor and a host computer.0 A$ R# E' ]# N( d! p T Host Nation# i" @: m3 d" W5 f9 T$ Y5 ]# J+ ] Support6 P0 ^8 v% ?3 A Civil and/or military assistance rendered by a nation to foreign forces within its1 S' P8 [5 N9 H9 W territory during peacetime, crisis or emergencies, or war based on agreements1 B, I4 M M0 R concluded between nations.) q% X. B5 D+ X) E hp Horsepower. ) I% I& l" _" V6 BHPA High Power Amplifier.1 P$ F T' k$ k) I7 h HPC High Performance Computing.+ n$ ]# M! }: H1 P HPCC High Performance Computing and Communications.$ l) }5 ]( T, _. c/ F/ E# V HPG Homopolar Generator. m i2 J5 T. }8 U/ HHPI High Power Illuminator (Hawk).% o, M2 b, z! a1 Q5 g4 X HPIR High Power Illuminator Radar.& v4 p4 O, w. k, V$ R+ y$ @ HPL High Power Laser.4 h+ c9 J+ S2 U# H# D HPM High Power Microwave.8 c G! H0 s9 O HQ Headquarters.' y# E9 R$ B; `, J l T MDA GLOSSARY, VER. 4.0 H 4 N6 |! x1 O; B. _129) C7 D9 Y% K& p8 b" h* M( c HQMC Headquarters, Marine Corps. $ |9 N" G" Q I( e X0 X8 AHRDS High Resolution Display System. ' ~' F' z, k8 p! K: Y2 QHREPS Heavy Replicas. 6 j6 G5 J( s! m5 O9 X" L4 I5 FHRR High Range Resolution.( l) }- Y: H( ]; ~1 v2 \9 N HRSA HICTB Requirements, Support and Analysis.) X/ {' ]' ~/ s! Z% S4 S HSDB High Speed Data Bus (TelComm/Computer term).: z3 m" [. a$ X! a& h" U$ P* } HSFB High Speed Fleet Broadcast (Navy term). & R- W3 r& }( h j6 W$ H# P1 {3 `HSI Human Systems Integration. 4 P7 b6 [; }* Y3 PHSV Huntsville, Alabama. 8 p0 D2 v' C; s* A, I/ y5 xHTICIA High Technology Crime Investigation Association.8 G3 n! b1 g& B5 T5 P HTI Horizontal Technology Initiative. ! z d# ?# r/ K, Y1 x& \HTK Hit-to-Kill. 6 p2 h* M: I) H5 z# ?" UHTMIAC High Temperature Materials Information Analysis Center.& B6 Y" c" n: i w- k HTML Hypertext Markup Language., R- C6 u) W( B* M. H) w HTPB Hydroxy-Terminated Poly Butadiene.( [ ^% @$ _! p3 j HTS (1) High Temperature Super-conducting. (2) Hawaii Tracking Station.! x0 e: X) k( H; N8 [- X% G HTSA Host Tenant Support Agreement.1 K& t. L, |0 B" [9 a HTSS Hardened- sub-miniature Telemetry and Sensor System." j, V: T! C) w* l HTTP Hypertext Transfer Protocol. ! ~# h# Y B( t, A) H9 v0 AHUD Heads Up Display." G% }( q- _' T8 Z) K5 m Human Factors A body of scientific facts about human characteristics. The term covers all) d+ }, o x' }6 ^1 x% E biomedical and psychosocial considerations; it includes, but is not limited to, 7 D( C, F) l$ [2 x; vprinciples and applications in the areas of human engineering, personnel3 ~7 g0 m4 u1 c- u% f( W5 c i selection, training, life support, job performance aids, and human performance $ s: s6 f* i/ s, O* J% ievaluation.; c! d' [& h& H* d3 I Human Factors) m0 m# z0 X! X( R8 w3 \% d Engineering7 z, Y% S s" C, \6 D The design of man-made devices, systems, and environments to enhance their 2 r2 M; l1 L3 n7 Ause by people. Also called human engineering, human factors, and ergonomics.

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