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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.5 k5 X: `! ~. {, G2 b3 v& @8 _7 j ELS Earth Limb Sensor.% X m+ B: p% `+ h ELSEC Electronics Security.3 k( o" `5 S$ B9 \+ E ELSI Enhanced Longwave Spectrometer Imager.' M! |0 y" S* B2 b3 n8 X ELV Expendable Launch Vehicle. % J) }- N! W+ h0 ]& |, k9 OEmanations& x1 _0 t9 X: o7 r# [3 ]) L" v/ F Security # O, I# k+ H: N. q+ U' F* i# T(EMSEC) & ]3 R7 n/ g `4 ~The protection that results from all measures designed to deny unauthorized; q- ]7 J# s: s3 S persons information of value that might be derived from intercept and analysis of0 s* d% L {1 e5 u* g' Z5 B8 T6 l+ D/ E compromising emanations.7 d6 }( o* _" z8 C5 @9 S) G EMC (1) Electromagnetic Compatibility. (2) Early Midcourse.8 i. Y. l! S( k! Q- ^! J. [% z EMCON Emission Control 7 R; e2 V4 @5 Q9 \% S1 |9 REMD Engineering and Manufacturing Development (previously referred to as FSD). 5 e% \' Y" U; `: f& X6 b' l8 tEMDCT Expanded Memory DCT. ) n% j! X7 ]1 r: N' A1 gEME Electromagnetic Environment. & D" R, O! b( t5 L- cMDA GLOSSARY, VER. 4.0 E " `, ]8 W5 Q$ e( X8 i93 - c- }7 | g( O& S8 @Emergency 2 ] \- ]0 h8 r# r' ?8 ?, \Capability % e8 [% Y D! Y/ Z(replaces1 ]+ R2 @4 I+ R- s- } Contingency& p# w* E- j+ u9 W' { Capability) & e: @! ?. J1 o# U, S* pBMDS elements or components that are still in development or testing that " A' P! m$ P1 t8 M+ {5 ~5 Bprovide limited ballistic missile defense capabilities. MDA, working with the$ ~' [% F2 J0 ~ Services, will develop plans, which cover the potential use of prototypes and test 3 ^/ \( X2 F6 y0 Cassets for contingency deployment should the SECDEF determine that an' d+ S( V. s0 G( n8 R9 M* ] emerging BMD threat requires emergency fielding of a BMDS capability.* `6 Q: Y4 i! `( N% l EMF Electromagnetic Field.4 |' Q* A( P: G3 t EMG Electromagnetic Gun. 5 i) c8 j2 H, @# t# Z8 v kEMI Electromagnetic Interference.# v$ |; w7 R0 u4 m- w EMIP See Exoatmospheric Midcourse Interceptor Program. 6 K( U1 N2 u; ~7 w6 S. FEmission Control: r/ o% ^1 l) O" }$ \' I2 b (EMCON) + r" {5 d8 R" {6 g* w8 CThe selective and controlled use of electromagnetic, acoustic, or other emitters* Z+ F8 C9 {' U/ j4 {3 \4 ~5 s/ j& N to optimize command and control capabilities while minimizing: a) detection by O. E# l+ \6 c$ G' `! Oenemy sensors, and b) mutual interference among friendly systems. EMCON : t I1 |" g; A6 g( s/ }can also be involved in military deception plans. Also called EMCON.. b2 y( _' N2 G7 ] EML Electromagnetic Launcher. A device used to launch hypervelocity particles. ; ^' `6 O$ x* e+ H1 JEMP Electromagnetic Pulse.5 U5 y4 f0 M5 Y2 O EMPSKD Employment Scheduling (USN term). , T6 k; p' m2 \EMR Electromagnetic Radiation. # a" Q' h2 ^! W" x# eEMRLD Excimer Moderate Power Raman-Shifted Laser Device.& h4 \) U% X5 W" N7 L/ Z/ ~& h EMSEC Emanations Security." [3 Q$ K7 u4 E3 L EMSP Enhanced Modular Signal Processor. & h+ M- y ^7 x' G0 T {7 e9 }. XEMT Engineering Management Team. . y F4 U8 g4 f2 c' u% vEMV Electromagnetic Vulnerability. ; W" _0 ~% j6 d" xENA Engineering: Architecture and Analysis. * ~, N1 i( E' G8 u* ~" B! d5 vENCATT Engineer CATT (US Army term).' p- s! U' R; v. l f; F0 y Enclave Isolated resource – an SDS asset that has lost connectivity with other SDS, p) b9 }7 y, v assets with which it normally has connectivity, but is still capable of coordinating : J" p7 N* }7 j2 Rwith SDS assets to conduct ballistic missile defense. Various combinations of* n; M; q2 a+ \/ @; M, `* k connectivity losses are possible; for example, (1) an operations center has lost 2 S' A3 w$ h; i# ]2 Cconnectivity with Higher Authority, yet can still provide sufficient C2 and can still 4 g# H0 _+ _: j& c; X% f- Aconnect with sufficient weapons and sensors to conduct an engagement and (2) 6 b. i4 f3 v0 F3 m3 ^+ M: ^an operations center has loss of connectivity with another operations center with' A1 H7 K4 G* i7 j& T6 g9 N which it normally shares data, but can still conduct an engagement.0 x. @; w) |9 q ~+ O- F$ ] Endgame FOV The field of view of the interceptor’s sensor during its final maneuvers after target# C% c6 F- ]! T- S$ A5 _2 ? acquisition to intercept the target. May be less than the acquisition FOV.6 H' S& P: B) ^ End Item The final production product when assembled, or completed, and ready for 1 p8 j- ~, B; ~8 Z4 W. Kissue/deployment. 7 I) W( y; B+ E5 e, I7 bMDA GLOSSARY, VER. 4.0 E6 L. z z" p1 f! v5 ^5 A 94 & P, N1 G/ v1 o2 ?Endoatmospheric Within the earth’s atmosphere; generally considered to be altitudes below 1001 _; t2 @) [6 d4 d7 I6 A/ h km. An endoatmospheric interceptor reaches its target within the atmosphere. $ |# x, y3 Q9 r% Z, tEndo- 1 q( c& T' @8 R6 R9 YExoatmospheric3 ?( Y* E$ Q$ z+ G5 t$ z# D Interceptor (E2 I)0 v+ |: C- h% |5 u, E6 [ A ground-based interceptor capable of engaging RVs either endoatmospheric or0 x9 l5 g6 D: S y( X) m exoatmospheric. (Successor to High Endoatmospheric Defense Interceptor- b5 m. E3 Q# v, }1 h- O (HEDI).)0 b* z( @: p9 [% X- u) A# } ENDOSIM Endoatmospheric Simulation.7 w% }. a+ E0 c Endurance The time an aircraft can continue flying, or a ground vehicle or ship can continue, _5 ?" S% G6 b- n) B7 p# b- @ operating, under specified conditions, e.g. without refueling. $ T: a; v1 y+ ^ENG Engineering.; `& w, }# L( O* P! Q6 k ENGAG’T Engagement.5 P7 t+ R0 B+ K: s6 e+ u Engage (1) In air defense, a fire control order used to direct or authorize units and/or a4 f7 [8 ~8 m. z2 B7 ^! ` weapon systems to fire on a designated target.# `1 [% Z# z; a4 I' E (2) In air intercept, a code meaning, “Attack designated contact.”9 u& g$ D, R4 r8 l& S5 O Engagement (1) A period of hostilities beginning when the first ballistic missile target: X6 K0 I, Q9 d9 R) _4 z undergoes fire from the first defensive weapon.6 O/ V- X' J9 |7 \' I4 ` (2) A period beginning whenever any hostile object is identified (designated) 9 r7 L- Z" O5 @( x5 n1 kas hostile and ending after the last hostile object has been attacked. * L$ K8 y- n$ I! {( R% J3 _1 v(3) In air defense, an attack with guns or air-to-air missiles by an interceptor 4 R6 q' L* \0 c$ Y; p _aircraft, or the launch of an air defense missile by air defense artillery and" i4 O$ C0 d/ X$ I3 @: u the missile’s subsequent travel to intercept." V; I8 I2 @7 c" d9 u9 D0 A; a Engagement2 m7 U8 S8 r( V! z Authorization+ F: V; v% q8 R# o7 S# v! D" Z The authorization given to USSPACECOM to use weapon and sensor systems2 Z- s* U2 e( M4 [: P. W8 ^ under previously coordinated and authorized rules, procedures, and conditions. 0 T: l- `/ F. p, Z* z) b; zEngagement( Y# T& ?2 j/ G Control ( c% l T8 F6 n0 P(1) That set of coordination, assessment, decision, and direction functions - O8 T) q" i8 G' q0 O; Mnormally implemented automatically to execute the selected battle plan,$ ^" _: n% }1 _8 p& U military strategy and tactics within partitioned battle spaces (i.e., a% `2 H. D. [% _+ Y% u$ v spatial/functional subdivision of battle management). Includes the % K$ z4 e: F$ X }* k3 {determination of: what specific objects to intercept in order to implement 1 D& I( ?* D# g+ p# ^! o( c9 p4 ?" ethe selected military strategy, and which specific interceptors to assign to6 q. m( O& l) \ c' @: ~) R each attacker to implement the selected tactics within the rules of# s( e3 l8 I& L$ a) I% R engagement. / I' Z: l& U8 B6 E(2) In air defense, that degree of control exercised over the operational% h. ~* y) @4 m$ [* [" ?7 w functions of an air defense unit that are related to detection, 8 u" X1 ^- c- A& zidentification, 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 i( u$ e5 m2 gPlanning# q) \3 z6 u& B5 w A set of rules and parameters to be used in developing weapon-target ( |/ s1 E* j! M9 u* h$ s fassignments and for sensor resource management. (USSPACECOM) 4 b: k/ j' W, hEngagement1 @; d+ K( [4 g; S* x Surveillance. G. D% K( c4 S2 G" A8 t The surveillance required to support RV negation in the midcourse tier. ( K( D2 o8 X4 uEngagement 6 B! b3 H1 q% p5 W! |Time - ~# o" I6 E0 `& U7 X' |1 VThe time that a weapon takes while engaging a given target. This includes not 3 |% a7 K% h0 n# m8 }9 p/ @! ponly firing at the target but all other necessary weapon functions involved that! T+ [& [6 D$ O2 W$ H5 u9 q are unique to that particular target. 8 L3 ? c( @ n% ~( QMDA GLOSSARY, VER. 4.0 E* W: S4 b* M. w) j3 W7 @ 95 " G# L6 b g% mEngineering and " B, I) j; F* W% [6 Q: UManufacturing) G7 t; Y* s( T% j" V; b w0 M Development : ~& V9 l. U2 ^: W3 P4 r$ \) L(EMD); @, C. a3 \8 e+ \$ |9 r! Y The third phase in the acquisition process, following Milestone II. The system; U6 m+ \& h9 ]0 b* j& s: v and its supporting items are fully developed, engineered, designed, fabricated, 6 d; s3 m1 F* Ztested, and evaluated. The intended output is a pre-production system that) O/ D% y7 @5 M6 z' T closely approximates the final product; the documentation necessary to enter the 7 S( z2 X# Q' J1 pproduction phase, and the test results demonstrating that the production product " N: q- {7 I) D& J9 M, [! pwill meet stated requirements. ( J% f& J3 X F1 QEngineering/ s7 F1 i, X. p& q7 v Change Proposal# E7 B2 ~8 b( l) z; D. L (ECP) 9 M7 i \( ]- p3 p. q2 b. ?. fA proposal to the responsible authority recommending that a change to an: z* O' b7 k# L+ d& q3 N original item of equipment be considered, and the design or engineering change* N- M5 X- `4 M, F a }, ^ be incorporated into the article to modify, add to, delete, or supersede original7 M6 R9 Y* L5 H ?- P4 Q parts.6 b- W; A+ i" V. R Engineering8 a P3 n) ~5 X0 n8 A) V/ e Development6 v Q% V* [/ s4 ~% Y0 Z' w A funding category including those development programs being engineered for# T% w1 Y( f* A9 `+ u service use but which have not yet been approved for procurement or operation. ( r% E0 C& N# ]. j* ] cMoney under budget activity 6.4. 7 _6 y; ~1 M: ZEngineering : d8 o) n y6 n+ oDevelopment, Z+ |* Y" y4 @4 p! ` Model. [/ C8 `+ D' P3 g! y& t Enhanced Target7 f P7 f Y/ X5 E ] Delivery System' m) D1 W' f9 Y2 u6 U) E (ETDS) $ t% O O% E7 u: CAn advanced prototype used during the Engineering and Manufacturing1 g* d4 D6 c) r& r% V Development phase (EMD) to resolve design deficiencies, demonstrate maturing 1 u/ Q' Z3 n; Q5 M5 S% a/ Pperformance, and develop proposed production specifications and drawings.8 U2 F g9 k" f$ k5 l/ F Target delivery system being developed for future GMD testing that will. i7 L# y8 }8 n. t. p- U complement existing systems, provide flexible, modular configurations, and will4 |' g# ^. _; { be launchable from land, air, or sea modes ; d9 h) _7 J6 q3 e1 n4 EENNK Endoatmospheric Non-Nuclear Kill. 1 E1 n+ O$ b4 L, l0 K8 H: c/ \ENSCD Enemy Situation and Correlation Division (JFACC term). % z- } C% y! e" e0 U1 ]Environmental # r% {7 T9 a+ nAssessment (EA) 8 c2 \- M2 I1 r) H- aA concise public document whose primary purpose is to provide sufficient% _& x: o7 ?5 j analysis of environmental effects of an action to determine whether to prepare % [% \% J/ f- }; @6 K Yan environmental impact statement or a finding of no significant impact.8 C5 g) [. V5 c# e5 `! D Environmental * d& S1 V, {3 U; t/ W6 C$ f( KImpact Statement2 Z+ X3 N7 {; p- g0 ]& \4 r' r( d3 J (EIS) % X6 W! o, C# jA detailed written statement analyzing the environmental effects of a major& f0 k6 ~# j8 g+ [ Federal action.) F2 x f( ?; D2 u3 v2 K Environmental . z" }- b* P2 x/ e" BSecurity % J2 O' V1 {- J/ u6 zA specialized form of physical security that prevents technical penetration, e.g.,' n) u+ ]0 v/ z& Z penetration by waves of electron beams. + P+ v( {/ [6 J$ m) hEnvironments The media, conditions, and/or physical objects in which a BMD asset is immersed5 X6 D% y6 i x m& t3 h6 M# y or surrounded. For BMD systems and elements, the comprehensive ' E. ^$ r& t, C# t- Kenvironments definition consists of natural, hostile, induced, and storage, 3 Z0 Y A. C8 A" j" t stransportation and handling categories.+ V3 S! M+ p8 K4 ] EO (1) Electro-Optical.; L( }* s! h3 a7 o- ^* o0 o# O/ x (2) Engagement Operations. u4 F$ F/ t0 b1 R(3) End Office.# t. T; r$ @6 J j; V (4) Eyes Only. 1 Q, E8 Y# ~& p- L- Z$ cEOA Early Operational Assessment. 7 C1 x" I- g; z1 x) s. ?EOB (1) Enemy Order of Battle. + S3 {) q8 w0 p' j- A(2) Electronic Order of Battle. 1 ^- t9 B" L% e1 jEOC (1) See Element Operations Center. ) K; N3 A6 Q& L2 m) g' w7 {4 d3 o(2) Emergency Operations Center9 ]' ?' D8 T! _) P: H, y MDA GLOSSARY, VER. 4.0 E - }8 o' c6 _ b; P! Z/ n960 E5 J% k6 l3 K. H( e EOCM Electro-Optic Countermeasure. - v7 v& M/ d4 _EOCT Element Operations Center Test Bed. 3 }) ` }0 {: K4 T& s: u2 XEOD Explosive Ordnance Detail* B5 F+ D1 {: A EO/IR See Electro-Optics Infrared. . k+ d9 S& R i$ ~% c: ]* {: s+ lEOM End of Message. 6 r- p. R$ B. O5 e! _EOP Executive Office of the President % H V1 U1 q I2 _EORSAT ELINT Ocean Reconnaissance Satellite (US). . R5 |/ T _% z8 W3 eEOS Earth Orbiting System (NASA term).: ~# D, G. ~3 f0 o! l l) K EOSH Environmental Operational Safety and Health.% ~4 Z* a2 h) C. t7 s, I EP (1) Engagement Planning. (2) Evaluation Plan- b( b& H4 W) W% `, I6 \7 L EP Cycle Engagement Planner Cycle (NMD BMC2 term). 3 {, G* C; S8 J! ]- s8 WEPA Environmental Protection Agency. 5 q/ a. V. c9 s) yEPD Engineering Product and Development 1 g7 ^. D3 g* O$ DEphemeris/3 ~ t- X& n% o' n& N2 h2 n Ephemerides 0 p$ q% U" b( i9 D! ]! B3 ^(1) A table showing the positions of an object in space at regular intervals of ; s# d1 x' p( y5 ]time. 9 \7 ?, ?/ A. R1 ~(2) A publication giving the computed places of the celestial bodies for each/ b& ]# N! @0 U/ ?+ M0 e2 D day of the year or for other regular intervals. A1 Y. B% s) b) E" ~EPITS Essential Program Information Technology and Systems. & ?2 c1 D/ R4 PEPL Emitter Parameter Listing (USN term).7 N! [) K8 a# z" V9 ~8 Q! A5 k* i EPLRS Enhanced Position Locator Reporting System.) x; V" A6 T9 v! Z EPO (1) OBSOLETE - ERINT Project Office (US Army term). (2) Element Program + c# k( U/ E2 f" B/ s: _Office. 2 R$ Z' I5 \& z0 M; REPP Electric Power Plant (PATRIOT).% L4 v( a$ T# l5 v EPROM Electrically Programmable Read-Only Memory.2 T- K# r1 |) X EQEC EurQuantum Electronics Conference (See CLEO)., ~2 j' G: K( J0 \% B Equipment: t2 b2 v( S5 {1 x6 d3 Q: j Operationally 9 R/ }* T: }$ W! q; SReady3 O0 O0 j- f6 `- \9 o% w! k The status of an item of equipment in the possession of an operating unit that( R1 Z6 {* H% X! Q indicates it is capable of fulfilling its intended mission and in a system + I6 w" J" ~6 ^6 mconfiguration that offers a high assurance of an effective, reliable, and safe 8 X$ m2 k& O# P4 V6 f$ y, Lperformance. % j) t1 f0 @) B9 @ER (1) Enhanced Radiation (“neutron bomb”). (2) Extended Range. 1 [# G+ y0 g- W* a4 k/ l# ?ERA Explosive Reactive Armor6 Z- g1 H1 c; c+ q4 y; r0 @ ERADCOM OBSOLETE. Army Electronics Research and Development Command. (Now 4 V- F' [& {6 s4 V5 V1 D9 aLaboratory Command (LABCOM), Adelphi, MD.)! I6 r% D# D" q4 \+ j MDA GLOSSARY, VER. 4.0 E 3 q5 D7 F7 t' Z& h1 a976 O, ]. d& L9 j3 M0 Y ERCS Emergency Rocket Communications System (US).1 W. P( d" a( x5 F) g1 P ERD Element Requirements Document.: a' t+ A# `1 n ERG Executive Review Group. # h/ | w0 e' P- Y9 t5 ]# N" IERINT OBSOLETE. Extended Range Interceptor. Now referred to as PAC-3. % B! k4 K V+ _ERIS OBSOLETE. Exoatmospheric Reentry Vehicle Interceptor Subsystem.2 m' g) z; l' K; K5 K (Predecessor to Ground-Based Interceptor (GBI).)2 V1 J3 e: p$ Z ERIS(F) OBSOLETE. ERIS Farm.& W; ?9 w* R- ] q ERP Emitted Radiative Power.. Y5 i1 u5 }# e3 g! x/ R ERR (1) Element Requirements Review. (2) Engineering Release Record. % [! T% `! n$ H9 r8 g7 v" J2 lERS (1) Early Release of Submunitions. (2) Emergency Response System., l% N( C/ t( c8 M( ^. R! D ESA Electronically Scanned Array. . v, V9 h# ^ Z) S, R# j8 UESAD Electronic Safe and Arm Device. / A+ H. m1 f, x* I' XESAR Extended Subsequent Application Review. " S7 f! D8 o' OESC Electronic System Center (AFMC), Hanscom AFB, MA.+ D0 G( W5 ]8 P# M0 z; S8 _; y ESCN Existing Systems and Center Notebook.6 ~2 k5 y" Q" P/ _ ESD OBSOLETE. Electronic Systems Division. (Now Electronic Systems Center, 1 @2 q/ q3 e7 j2 v8 QHanscom AFB, MA.) ; W1 \- X' g8 ^4 v: OESH Environmental, Safety and Health0 z/ B* e: x( Y/ P ESI External Systems Integration. 8 x4 b0 B; s6 ?( }6 Y3 oESI ICD External Systems Integration Interface Control Document.( S: P8 J% @: m9 s ESM (1) Electronic Warfare Support Measures. (2) Electronic Support Measures./ @( o0 `9 a4 B, ^' d ESMC Eastern Space and Missile Center, Patrick AFB, FL. , Z2 f' R+ e7 m f$ w! H6 HESNet Energy Sciences Network.3 s& l8 K3 [3 Q U+ @$ Y ESPRIT European Strategic Program of Research in Information Technology., [" }" v9 Y0 v! I ESQD Explosive Safety Quantity Distance.& P. a Y1 E4 X' [! v( H! y- h( v ESSM Evolved (Enhanced) Sea Sparrow Missile. T* q& d# r* L* w+ L4 ?ET&C Extended Tracking and Control.. ^, q" ~5 T2 H( {3 n ETA Estimated Time of Arrival. ( b2 I4 j; x( x2 n. Y N0 t ]0 s& @ETC (1) Electro-Thermal Chemical. (2) Estimated Time-to-Completion. ! \. D2 J5 j4 S+ \1 rETD (1) Estimated Time of Departure. (2) Electronic Transfer Device. ; R/ x% I8 Z' E' a$ [/ Y, D, YMDA GLOSSARY, VER. 4.0 E 6 e+ ?( @8 L* M0 H98 5 Y- u6 R' o8 N+ x% [6 o' `; yETERTS End-to-End Real Time Simulator.) ]4 l# S! B4 d ETESD End-to-End Sensor Demonstration.- q2 J9 j- T- R# Z4 G6 ~" ] ETI Estimated Time of Intercept.: c" }7 q+ t# H$ Y ETIC Estimated Time for Completion.$ X8 h) F* \3 P# _ ETM Engineering Test Model & S1 H0 S! r/ I( @ETR (1) Extended Test Range (Pacific Test Bed) (2) See Eastern Test Range. (3)8 e Z! z3 O- e- `7 u Environmental Test Round. (4) Estimated Time to Repair.0 Y( a- S c% X( s+ s/ V: L9 H7 D" N ETS (1) Experimental Test System. (2) Experimental Test Site. ; @5 A/ M% v( f: z5 K$ s) g3 w3 \6 YEU European Union [formerly European Community (ECI)] 6 o2 T5 C2 G, @+ c, D' t; yEUCOM European Command. See USEUCOM.8 H5 ?4 Y, {; `5 l% o* n- d# C EURATOM European Atomic Energy Agency., T- A* L, @2 l8 u0 q% o EUREKA European Research and Coordinating Agency. ' C& [ t% Y9 c ]2 ]3 SEUT Early User Test. & U9 V1 K0 V: u" R9 CEV Experimental Version* ?* r' v6 o' N1 k& f) e EVA Extravehicular Activity.% l4 n- f1 G+ m- H( J Evasive MRV A reentry vehicle, which maneuvers for the purpose of evading defensive 3 j2 I% m9 J) t. W/ G. Y2 M, p+ g$ bweapons.0 f3 L: v( Q" N$ r Event Based [0 C/ D, ~! `' n! sContracting . B0 S/ f% e- f1 d8 v/ e2 pSupport “event driven acquisition strategy” by linking specific contractual events; m) g( y" l. G" M, ^; n" J, w% Y; G9 k to the “exit criteria” for the acquisition phase, or to intermediate development ( H* A8 Z$ J2 }5 R S a; B- v6 Hevents established for the acquisition strategy. ) g6 [! o9 T- X5 `7 y$ qEvent Driven' A1 _: Q4 {$ d! V; ^9 A Acquisition & Q- w0 p, \2 y! ]7 nStrategy ( Z. q4 Q7 U) Q; WAn acquisition strategy that links program decisions to demonstrated# ~6 H0 {; Z# y7 P1 e accomplishments in development, testing, and production.( e3 y/ r$ u5 E8 w$ W8 u2 g2 j$ d* G Event Validation A sensor element internal process that results in a determination by the operator# F9 ?* l* B; 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 / n" i h6 o- g d) yVerification ; i5 l8 f) z2 N# n) Q8 J8 @- MThe process by which it is decided, from SDS external data, that the event , i" W7 B: v) b4 \reported is real. 0 n6 c. V# N* e: o$ S( l# CMDA GLOSSARY, VER. 4.0 E 2 t- L9 N/ j" R9 N99 ; {# e& a1 S) `1 _+ Q8 pEvolutionary$ U# ^, q4 i7 Q, b' a3 H0 J8 L Acquisition 6 h5 Q7 e# v# H- }: [1 F0 O(1) An approach in which a core capability is fielded, and the system design has 4 v- W* D6 }- sa modular structure and provisions for future upgrades and changes as6 V: z; Z+ R0 A! d+ E$ G requirements are refined. An evolutionary acquisition strategy is well suited to 8 c5 }: g3 W8 K" _3 @$ B) O5 Bhigh technology and software intensive programs where requirements beyond a ! l+ d5 ~+ |6 D9 \" f7 S+ a1 kcore capability can be generally, but not specifically, be defined. ; w- _. V/ w! y$ h$ e: Z(2) An acquisition strategy that defines, develops, produces or acquires, and% M' P- U+ m- j. C fields an initial hardware or software increment (or block) of operational capability. " } S2 X: J9 ]- y8 _2 }# M! e# q1 jIt is based on technologies demonstrated in relevant environments, time-phased' h# h9 k) P' s: F0 C requirements, and demonstrated manufacturing or software deployment8 P7 m5 O2 A; ]$ m capabilities. These capabilities can be provided in a shorter period of time, ; w2 J6 M+ Q4 J* H! U+ S! |followed by subsequent increments of capability over time that accommodate7 W" d5 t) O; @0 H improved technology and allowing for full and adaptable systems over time. Each 7 f& O5 Q! q1 ^$ ~, V1 qincrement will meet a militarily useful capability specified by the user (i.e., at least+ X9 Y* g7 f! r" Z the thresholds set by the user for that increment); however, the first increment : q8 K/ F/ U/ O8 |may represent only 60% to 80% of the desired final capability. (MDA Lexicon) - A. w) M; Q( b! @Evolutionary : i3 X& {1 p. \% `( m$ H1 w2 h' v3 R4 ]Requirements ! q [: M% S: m/ \Definition2 C: h+ A; B4 d \ Mission needs are first expressed in broad operational capability terms, and then' a/ z% X* y1 L+ J0 Y1 z' {2 p3 p progressively evolved to system specific performance requirements. ! R; K- r' U' ~; l# _+ w6 Y# _EVPA Experimental Version Performance Assessment. . I4 G5 S& s: u2 d# a9 m' uEVPA/TEVS Experimental Version Performance Assessment Test Environment System. 6 K( K, i( j) \3 O, D6 @4 D4 `" wEVS Enhanced Verdin System. " n2 I' f! B/ M9 q, I0 o, tEW (1) Electronic Warfare. (2) Early Warning. ! ]1 \4 \& b1 AEW/AA Early Warning and Attack Assessment.! s& q# d& D; G EWCC Expanded Weapons Control Computer (PATRIOT). # Q; r( m0 H8 A" G' b6 y' tEWDA Energy and Water Development Appropriations (US).$ `. \6 P6 a0 x" t9 E. C5 I EWG Event Working Group.1 n/ S$ u* ?$ x# ` EWN Early Warning Net.- c* `% `" K# u# E8 K! N( o EWO Electronic Warfare Officer. 4 u M7 }) i$ b+ uEWPE Electronic Warfare Pre-Processing Element. 0 ^$ g, l& w3 ~+ [4 cEWR Early Warning Radar.: X9 C4 K( }' I) X9 n0 u) ~; Z EWS Early Warning System. - N8 g7 B" F( x# u1 ^ GEXCEDE Electron Accelerator Experiment. 0 w" D# C0 G! o) u$ `' B' B; `' UExcimer A contraction for “excited dimer”; a type of lasant. A dimer is a molecule) _1 ^! e3 S6 `% n consisting of two atoms. Some dimers (e.g., xenon chloride and krypton fluoride); D5 y* k' d" ?; l& _ are molecules, which cannot exist under ordinary conditions of approximate. K, [2 L& t2 F' Q thermal equilibrium but must be created in an “excited” (e.g., energized) condition: C$ x7 ]$ k9 r; s9 E by special “pumping” processes in a laser.0 L+ S | u- X! ~' ~1 f Excimer Laser * v, C% S: Q. I/ p(EXL)6 ]: i7 {3 ~0 p% r A laser in which emission is stimulated when a gas is shocked with electrical 7 f8 H/ g M. R0 V- K# Henergy and the excited medium emits light when returning to a ground state.: o1 F' Q; c$ O0 }# [ MDA GLOSSARY, VER. 4.0 E: O1 n% s0 L; |6 O# m 100 ^7 a. ]/ r! A; I2 t EXCOM Executive Committee.1 q" X9 D4 e0 h Executable& V1 j7 ^. ?- X [8 @ Program/ m/ \: x6 a. `: r A program is executable if the PM has adequate near-term approved funding. 5 ^5 N# J E B" m8 B: pExecuting Agent The individual within the executing element assigned responsibility for managing 4 L/ l* p q: P3 R/ UMDA funded programs.7 V: T# S3 {* z Executing & d! |$ q c! n( z8 P+ U0 j/ W* xElements5 {9 s, A0 m2 g3 d# r, D( v1 v Agencies or organizations (DoD or non-DoD) that are managing BMD-related) g4 p% K# R1 o+ y0 m- a programs.) Y( m7 m, z+ j, A Executing / S' z3 [" {1 VResponsibility! \0 L Z% r+ W) p4 G Program Manager responsibility. % r1 |4 \; b! C, d* CExercise A military maneuver or simulated wartime operation involving planning,2 J$ k0 C5 m3 `# ~6 P4 y* L W preparation, and execution. It is carried out for the purpose of training and + j+ U; l% F' eevaluation. It may be a combined, joint, or single-Service exercise, depending + q3 }& N; L/ ]! X& mon participating organizations. See also Command Post Exercise.; v* w& h, r- i' A3 w0 w" [2 n4 T Exit Criteria Program specific accomplishments that must be satisfactorily demonstrated 0 z. c. a2 w( a& r* k9 p3 }before an effort or program can progress further in the current acquisition phase2 {) v% l/ x, M+ x or transition to the next acquisition phase. Exit criteria may include such factors2 V/ d1 Q7 g. g3 R9 d as critical test issues, the attainment of projected growth curves and baseline/ s# d. d- R& |- K' c1 [& ~% {" H parameters, and the results of risk reduction efforts deemed critical to the 3 q3 o2 O( ?$ K2 @1 N, ^3 Idecision to proceed further. Exit criteria supplement minimum required + E/ ]9 _( j Iaccomplishments and are specific to each acquisition phase. ! y. e- d, N* a* W' k/ DEXL Excimer Laser. ) U+ B) a: S) j6 u: HExoatmospheric Outside the Earth’s atmosphere; generally considered to be altitudes above 100) h/ Q. c/ s/ W9 H; u3 [' p1 r% s- N* U km. 0 m9 c: F, p+ ~3 S5 ?Exoatmospheric! K: H' V$ Z% E* i7 r Reentry Vehicle8 m" ?9 P5 j/ w- F8 ~! W5 | Interceptor 8 P4 L3 ^- O6 d. ?Subsystem + s }6 G* z0 d1 L( \9 {. n(ERIS) 7 T1 N; w) C) ]. l6 d( r7 jOBSOLETE. Interceptor designed to provide functional test validation of GBI. 5 R$ u& J- V: w P. u EExoatmospheric + j& \' t* K) I; t8 s- oTest Bed (XTB)" k' F% n) E. I. F( V Flight qualified and range integrated vehicle to support other programs such as1 A2 z8 y) ?+ }2 o GBI-X. . d5 V' F- C+ U/ r; lExo Decoy A decoy that matches RV signature exoatmospherically. Exo decoys can use- s: J$ e9 L* E" b radar and/or optical means to deceive sensors. : j/ g$ E' E# w7 X: RExpert Systems Software programs, which use artificial intelligence techniques to capture and % T& |9 w8 _5 eapply the non-algorithmic knowledge and procedures of human experts. : K! l3 E5 f! \* A5 vExpired * w# N! c3 r. X* q, x2 E- ~Appropriation . p3 ]) Y! U9 E1 W- \, cAn appropriation that is no longer available for new obligation but is still available8 A. t* p) D3 H3 a* \) s ~! \9 r for disbursement to liquidate existing obligations. Under current legislation no - d" Z' _8 ~! c! c( E' Udisbursement may be recorded or paid after a five-year expiration period. & l: D" n+ K, [( d0 u6 CMaintains all original accounting identity, e.g. FY, appropriation, PE, etc.! ^/ v: _+ S8 @& \) O" E: o EXPLAN Exercise Plan.0 Z, M+ Z; I. R* e& r Explicit" k/ U0 P. P+ g3 Q: c, { Coordination $ B6 T4 t, [& h* E. n. }A battle management technique which communicates results, decisions or2 a* O& Z1 T) a4 L! r# W" ^! o command from one battle manager to another, usually from a higher command: Z0 k) o' h* I, K to a lower command.% J+ k- J3 `5 o2 I% [ MDA GLOSSARY, VER. 4.0 E, k% {4 N/ j# h8 y 101 ! }1 ]4 ~* ]' ^6 kExtended / M2 V4 K0 Z" A" HPlanning Annex : o# G3 t- ?4 B; m* f5 vA document providing program guidance for an additional 10 years beyond the 9 X: _. M4 g& t$ C! U, pPOM., a1 W' O6 M& K" Z MDA GLOSSARY, VER. 4.0 F - @+ C$ ~8 S6 m: ]103 * G3 A8 w( r0 ?9 Z! F- R, K9 O% hF (1) Fluoride. (2) Fahrenheit.- @; X) i+ ]- k# H( P2 Y F/O (1) Fiber Optic. (2) Follow-On. - @1 C- b' w. K: C8 G) QFA (1) Field Artillery. (2) Feasibility Assessment. ( X5 r2 w ^: e! fFA/RD Functional Analysis/Requirements Definition.+ ]5 n \2 G) ? B$ I FAA Federal Aviation Administration.6 ]: H4 B2 H. L, x6 O7 }2 t- N FAAD Forward Area Air Defense (US Army).7 v6 ~" {' p8 f FAAD C2I Forward Area Air Defense Command, Control and Intelligence. ?; f4 P( E8 F4 [( v5 ZFAADS Forward Area Air Defense System (JCS term). ( y p. O; L" `' c, O' FFAAWC Fleet/Force Anti-Air Warfare Commander.: l# d, v0 j2 k9 X5 }- ^3 C( g FAB Fly Along Probe.) v, w. Y2 Q# A$ s/ ? Fac Facility (MILCON term).& D# O% H) h" |- D" h% p FACP Forward Area Control Post (JFACC term). ; Y$ Z2 J& y6 B7 Q; i/ _9 CFACSPMF Federal Agency Computer Security Program Manager’s Forum.* A( m% N/ d0 z: n FAD (1) Force Activity Designator. (2) Feasible Test Date. , p# c4 Z1 a) J# z7 aFADEC Full-Authority Electronic Controls.( u3 h! n( a) o. u FAFB Falcon AFB, CO. , f6 G+ w3 r8 @. d C i9 e7 JFAFBR Falcon AFB Regulation - O1 h1 R: O; D6 F( U' j9 {0 HFairing Structure to protect the payload during ascent phase.5 h2 i$ A( r% J8 }, d, k$ l" Q0 Q FAIT Fabrication Assembly, Inspection/Integration, and Test.0 }5 g- C% {& |6 y1 R9 u8 _+ a+ ` FALCON Fission-Activated Light Concept. ; ^; d4 x& f; ]5 L5 w NFAM Functional Area Management. 1 ^& T9 Z! a, |+ a vFAMIS Financial Accounting Management Information System. 7 Z* [ F+ N; f7 y$ |( UFAMP Facilities Acquisition Management Plan.+ B& j# I/ p" M0 P5 C1 v0 ]" z/ K& q FAMSIM Family of Simulations (USA term)." p' |0 E+ c; o2 E1 \! C2 z FAR See Federal Acquisition Regulation. 6 Y* q8 X4 S& e3 F, ~' D/ x2 RFar Field The region far from an antenna compared to the dimensions of the antenna and0 ?* R# P& P( c, R the wavelength of the radiation. ( ?& ]# g/ ]! \. h% sFAS (1) Fly Away Sensor (TCMP).9 W4 Y2 Y, U# R8 a (2) Federation of American Scientists.* U# E# _& W5 C, h* @ FAST Facility Allocation Study Team.8 F. P. z( r( a7 u% M+ L: \' [ MDA GLOSSARY, VER. 4.0 F, m' T9 j8 R+ D' `8 f: [* K1 e 104 T: Q: [5 w F1 n9 MFast-Burn* v: z6 o+ E8 E5 `4 ~ Booster (FBB) 7 H( \, [: k( h" h+ pA ballistic missile that burns out much more quickly than current versions,$ V1 S+ [( d8 B- n9 ]- K possibly before exiting the atmosphere entirely. Such rapid burnout complicates ! {" @+ _0 e; ua boost-phase defense. & O. l; U! Y/ m( z# MFAT (1) First Article Testing. (2) Factory Acceptance Test. , r/ k$ `8 n ?0 t( WFault Tolerance The ability of a processor to maintain mission effectiveness after some2 X0 ^" m( S+ ~. m5 W/ h subsystems failed. / R8 T1 L1 T1 qFax Facsimile. v. u; C$ {! y& R* n& gFBB Fast-Burn Booster. - W l% K5 ]" f$ x7 |/ zFBIS Foreign Broadcast Information Service (US).! Y! K2 n0 f) C& S% Z6 a6 ^; G FBM Fleet Ballistic Missile.5 I" G. s/ Z6 g FBMS Fleet Ballistic Missile System (USN term).4 A3 O7 d+ T( m( Q9 e& I5 h FBP Forward Based Probe. " h6 U% n: G1 @FBR Forward-Based Radar (US Army term). 1 g f! K! ^. D" c- T, W; J) E+ n6 [FBS Forward-Based System. 7 E! p: l' n/ l8 k7 aFBXR Forward-Based X-band Radar.. R2 D% U% g% j FC (1) Fire Control [of weapons]., y& |7 \6 n4 i5 z) H+ K (2) Fund Code.9 X$ Q" ^% b+ b# D FCA Functional Configuration Audit.5 v7 I6 z% v6 d7 s FCC Federal Communications Commission. % s! _7 W6 L% o) u: VFCCM Facilities Capital Cost of Money. ' P) Y' K3 f- p# ]" L' U" [FCN Fully Connected Network.5 n" d4 T! L1 I- m% b: y% \ FCO Field Change Order.: y+ F1 ]: r, V/ v. ? FCRC OBSOLETE. Federal Contract Research Center.* m& f% v" Z% r& `9 q+ W D FCS Fire Control Section.

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FCT Foreign comparative testing. ; r* S' W3 Q0 q- R) o; lFD First Deployment.6 ?' j& p/ `1 L/ L7 A FDA Food and Drug Administration. 2 B: H% L" X" f- x QFDC Fire [of weapons] Direction Center. 3 \8 Q" @. H- D! B0 TFDG Foreign Disclosure Guide. . ^5 U5 Z: k8 c- u( ]* K6 \1 qFDM Function Description Manual. . u* Y, S+ S' g$ k/ r3 `! x& PFDO Fee Determining Official.- F. t |6 C. o3 J* X1 D5 A6 K9 X& r MDA GLOSSARY, VER. 4.0 F 8 r% N. \. U: n! W- \105 ) @. ^1 G; m# ~; LFDP Flight Demonstration Program. ; Q$ m ?4 K- T) ~6 e3 QFDR Final/Formal Design Review.( I8 J0 G* x% g/ x) \, o FDRU Final Design Review Update (MDA PAC term).9 Q d7 q- T; W; }- O) H, s6 y8 t9 N FDS (1) Flight Demonstration System. (2) Fault Detection System. ' i; I( e/ p0 h$ k; oFDSV Flight Demonstration Space Vehicle. E. Y5 L2 ?) F9 y4 {0 [ FDT&E See Force Development Test and Experimentation (US Army). " O* |4 @2 J* rFDX Full Duplex (Telecomm/Computer term). 8 }: v0 j* s- ^" HFEA Functional Economic Analysis.3 t1 n% \8 h1 S/ X m Feasibility Study A study of the applicability or desirability of any management or procedural" M% Z$ i5 W+ k" m9 J/ J system from the standpoint of advantages versus disadvantages in any given , M2 B! w& v7 Acase. W/ t, x( z8 D! KFEBA Forward Edge of the Battle Area. 8 t2 K% f" R0 P' T! V1 SFECA Front-End Cost Analysis 5 p) |4 w: s g; f0 _4 \, eFED Federal.: @/ _8 z$ I6 l; M; F FEDAC Federal Computer Acquisition Center. ) ^6 q& j0 S( ^( W/ lFederal # S9 W. v3 c7 ^8 R* N5 G" K1 {% ^Acquisition 8 u$ F# S0 F! z, hRegulation( G" o1 X5 W4 |% [1 h% _ The primary regulation for use by federal executive agencies for acquisition of& j( ]% C; x5 n9 ?2 V- M supplies and services with appropriated funds. It directs the defense program ) _! q! a! p, W( t @1 p- `: cmanager in many ways, including contract award procedures, acquisition & m0 ]% M$ U1 ~/ t) }( Eplanning, warranties, and establishing guidelines for competition. The Military: w* a9 `2 A/ r! a Departments and DoD issue supplements to the FAR. The DoD supplement is# a* @9 m1 O* c. u" e" T4 }) N called DFARS (Defense FAR Supplement)., n1 \$ c, i- z' _( s( O3 G+ B" P FEDSIM Federal System Integration and Management. 9 ~7 A1 ], k+ U0 I3 VFEL Free Electron Laser. * X9 N2 b( g5 {0 G0 xFEMA Federal Emergency Management Agency. : w G- r$ a2 x) K6 R; A# @. K# |2 w8 @ `Fenced Funding An identified aggregation of resources reviewed, approved, and managed as a8 d- O1 J' _* P5 J( m distinct entity. The proposed program must be implemented within specified " \- ~. x/ E1 p( { R. A2 s2 |resources. Examples of fences areas are: Intelligence and Security, Support to. ]' m3 t" k/ G3 n0 @: e! K Other Nations. ' V0 T6 J! K$ ?+ ?FER Financial Execution Review. + n5 j- G! F1 I7 A' G r \5 XFES Facility Engineering Surveillance Plan.9 e C; n# z& _3 x1 Y5 f/ ] FET Field Effect Transistor. $ E7 W9 K2 d# e# m4 aFEU Flight Evaluation Unit.: `; Q8 R, i* m! O- Y4 Z: M' a FEWS Follow-on Early Warning System.- r A. B* f/ u FF Fire Finder Radar (US Army.! g/ ?% h5 N! i MDA GLOSSARY, VER. 4.0 F: X( j5 f( w5 z& C0 n% R3 G8 B2 z 106 , |) \% m( c" C+ m6 z; e! j) uFFBD Functional Flow Block Diagram.2 n/ R/ W1 h" Y( R- r! z2 V FFCD Full, Final and Complete Disclosure (Treaty negotiation term). % c4 R5 Q6 H$ q+ D: t; ]' F! PFFD Fraction Failure Detected.2 L; Q, j1 Y9 `9 l* B FFH Fast Frequency Hopping. 9 j0 s: w% {# Z3 q5 cFFP Firm Fixed Price.: c+ }8 O. h! T% W- s( n FFRDC Federally Funded Research and Development Center.5 m' `% N* Y0 K: Z9 [* y9 R) u FGC Functional Group Code (Navy ILS term).0 ^: L, ?: L/ t- b& d FGEP Fixed Ground Entry Point. Z9 ~- u+ @7 B7 O" m+ [: X$ f+ n9 yFH Flight Hours.2 s9 s, W1 U+ J4 F+ W/ o3 y/ T& q FI Fault Isolation. " {( P6 F8 s! P5 {FI&A Fault Isolation and Analysis.& J6 _/ U0 B0 i9 J0 J# f4 F FIDO Fighter Duty Officer (JFACC term).; m$ v" F- t0 s/ z5 X, L* W5 l4 g Field of View # w) n- f4 [1 l7 g( y4 W [% a(FOV)' y" `4 r6 b; [ The angular measure of the volume of space within which the system can7 T9 ?9 o- I% S* H) Q4 a respond to the presence of a target., a7 X* p' e# {" a Fighting Mirror* n N4 S* _# n (FMIR)0 a2 r$ f [/ U( R Part of the GBL System. The low orbit mirror, which receives laser energy and# W# y0 ]4 G6 u; Q" f reflects it to the target.) L3 F5 B _' r! J% o# h8 [/ A" z; w Figure of Merit # @/ s& x& o2 T7 b2 c5 O( I(FOM) ( m% z- i1 {4 U# x- X! [The numerical value assigned to a measure of effectiveness, parameters, or + f1 V$ Q. L# Mother figure, as a result of an analysis, synthesis, or estimating technique. * M% G; l7 F! r( l! pFIP Federal Information Processing.$ n& k5 V5 V7 h+ _ FIPS Federal Information Processing Standard. 8 C! l8 o( a& A% fFire Control The control of all operations in connection with the application of fire on a target. 5 A R) g/ L* [) R& b/ M; aFire Control 9 v. ^! L6 V) a+ N; jSystem, H0 P8 [% v, U' J A group of interrelated fire control equipment and/or instruments designed for: W/ j) \/ b3 \ use with a weapon or group of weapons. 5 Y; W2 u4 y, E& Z0 E' M) }Fire Support 5 Z" S; n5 k2 K! `" Z* aCoordinating 5 I( W5 T$ ?) GMeasure# R8 K. A7 C0 q% w A measure employed by land or amphibious commanders to facilitate the rapid6 [: k( N* Z. c# g- o4 ` engagement of targets and simultaneously safeguard friendly forces. 9 f* ?6 H9 Z0 F. w5 B6 G& E+ tFire Support: P! f( \& L& s, m Coordinating Line " e3 S" t3 {% s8 k h8 D(FSCL)6 ]2 ^0 z+ |! K+ J A line established by the appropriate ground commander to ensure the7 ]# c* I) u2 y/ Z( [! Q coordination of fire not under the commander’s control but may affect current 2 l5 L$ T4 U+ K: K* e8 p! ntactical operations. The fire support coordination line is used to coordinate fires * C6 f! L" R* q3 C+ U3 E5 C8 rof air, ground, or sea weapons systems using any type of ammunition against1 E. u, H [. y: m/ M surface targets. The fire support coordination line should follow well-defined W' B3 Q2 u4 p g: u terrain features. The establishment of the FSCL must be coordinated with the& B) r; T. A. T/ I0 ~ appropriate tactical air commander and other supporting elements of the FSCL4 \+ u+ X) h. F4 F1 \ without prior coordination with the ground force commander provided the attack ; q0 Z$ X* t' l5 N4 |will not product adverse effects on or to the rear of the line. Attacks against ' I' L/ X" _( t3 Tsurface targets behind this line must be coordinated with the appropriate ground . _$ G$ [( }7 [( eforce commander. " `- N' n; i d5 S+ ^! DMDA GLOSSARY, VER. 4.0 F2 I" s$ {5 t# x. n8 w 107 $ S4 v3 M: K# DFiring Doctrine The ratio and manner of assigning numbers of interceptors against given( C b+ V( u5 n6 t4 d- A) _; f attackers. One-on-one, salvo, shoot-look-shoot, shoot-fail-shoot, etc. are7 \, O6 \$ v1 X# ~ examples of different firing doctrine. The priority of targets being defended and; u8 g, d" J2 S the number of interceptors available relative to the number of attackers drive4 K2 P' N0 ~1 e9 g. Q% v' i: Z' i doctrine.6 A9 n2 J" o. p" i2 t& K Firing Rate The number of missiles fired per site per minute. & n0 E" b; y8 v* |/ s4 UFIRMR Federal Information Resources Management Regulation./ D# M% _1 A: { FIRST Forum of Incident Response and Security Teams.4 K( M; _: ?8 C First Article First article includes pre-production models, initial production samples, test 2 |' }: h0 O8 C" {samples, first lots, pilot models, and pilot lots. Approval involves testing and9 y9 K0 Y8 _3 a# ^. z evaluating the first article for conformance with specified contract requirements & K0 h( B ^- u5 W- X8 j3 F xbefore or in the initial stage of production under a contract. 8 @- R2 G4 n6 Y- J& V$ L8 o8 A% o# S1 TFirst Strike The first offensive action of a war (generally associated with nuclear operations). 8 t4 k, m) W3 W! IFirst Unit& Y" \$ [" F4 t: y) p. R! @( V2 z Equipped Date6 W- m) r8 o* f6 P# E$ U5 w, R The scheduled date an end item and its support elements are issued to the; S# z% @8 Z( Z initial operational capability unit and training in the new equipment training plan x+ \9 i% j; V% a1 W2 a) \% k1 lhas been accomplished.7 [; D+ y. i/ H% u% s! N3 Z FIS Facility Installation Standard.. t, }0 v1 K, O5 v: A4 P Fiscal Guidance The annual guidance issued by the SECDEF in the Defense Guidance which , X9 Q5 T$ K: u, U" l: L5 I3 H8 d: Mprovides the fiscal constraints that must be observed by the DoD Components in $ e: \" b4 x4 X$ ethe formulation of force structures and the FYDP, and by the OSD in reviewing K7 Z8 ]% r& g+ v d% D' jproposed programs. / b$ u9 e9 b! U+ RFISSP Federal Information System Support Program.2 m& X+ q% a: P* y u FIWC Fleet Information Warfare Center (USN term). _$ A" G$ x x! x" j0 ]/ [* \FIX Site Firing-in-Extension (Target Launch site in White Sands Missile Range Northern ! c, h1 z. L+ n3 lExtension). % b) M8 D8 R: s' KFixed Costs Costs that do not vary with the volume of business, such as property taxes, ' g' E& [4 d: Zinsurance, depreciation, security, and minimum water and utility fees.( F5 `; s% k! f9 ]" K Fixed Ground 8 y, y, r. s! W0 {Entry Point$ N; T7 K/ z9 J: g, `: u# b (FGEP)# d: o# U8 z2 P! B4 \3 F The subset of GEPs, which are not transportable. GEPs provide the3 X. ]- y* @ r& e communications interfaces between the SDS space orbital/sub-orbital elements8 g: a, T6 P; `' t and the C2E.0 r, t2 M! k* V" T/ F2 m( `) j Fixed Ground* H8 n8 P! |: F1 [6 }+ ` Station ) O. _7 Y) F0 P8 h2 J3 VAll hardware, software, and facilities located at a fixed ground site necessary to 4 A' \! S- Q ^+ W0 j9 D. t$ preceive, process, support, and analyze mission status and data, and disseminate: I$ T# g$ j. D! B# s$ Q1 ^* r' l operational messages. 8 }+ `+ N p- P2 Z! J) R* XFLAGE OBSOLETE. Flexible Lightweight Agile Guided Experiment. (Predecessor( }6 P: h6 J# p3 D* U* k- u3 D% S+ \" e; ^ program to Extended Range Interceptor (ERINT).) + w6 I+ q; J% o4 O. x: PFLC Federal Laboratory Consortium.7 y$ |- x% v2 V3 U MDA GLOSSARY, VER. 4.0 F 4 c' _% v0 e/ p/ J) E8 U9 R108 8 R: Z2 `4 R* iFleet Satellite 8 v2 T- L, C& VCommunications8 g# ]3 a! H1 s. a* B System 8 r$ P6 L' F* U! E- o* V' x(FLTSATCOM) ! f7 _4 C9 T0 D0 a0 W7 A6 hOperating at ultra high frequency (UHF), FLTSATCOM allows relatively low-cost% A5 A. Q8 x. Z, f6 \4 A+ x terminals with simple antennas for use on highly mobile platforms. It has a6 ~0 `1 f$ `& U$ P! ^! F relatively small capacity because of its much lower operating frequency. It , `9 f0 z! O4 `# _) W$ @, aprovides a satellite communication system for high-priority communication, v& l2 a; a) d% a4 w7 b5 I) J requirements for the Navy and Air Force that encompasses almost the entire , n* d& l0 X+ A6 h% o; C6 Aworld. It supports other DoD needs as well. It consists of satellites in geosynchronous equatorial orbit, each with 23 communication channels in the UHF/ {. Y2 O2 u/ w$ o" l+ c4 @ and SHF bands. The Navy has exclusive use of 10 channels for communication ) a. q, U* N- [+ lwith its land, sea, and air forces. The Air Force uses 12 others as part of its) k, }' P9 c0 Z- _4 q( V/ B. d0 } AFSATCOM system for command and control of nuclear capable forces. The2 e4 ?3 t" W4 V I( w) A8 ] system has one 500 KHz channel allotted to the national command authorities.2 V* W/ @! x+ h: e Flexible; T G1 |- {' J0 g2 y, R3 B2 h Response% N2 }3 S ?; W# \7 }! J1 M The capability of military forces for effective reaction to any enemy threat or* `( h4 P' [+ o( ~- x5 A' l0 u attack with actions appropriate and adaptable to the circumstances existing.3 D/ ]3 B) z; T3 S FLHER Funds and Labor Hours Expenditure Report.+ a' J% W; M: z+ o9 ~$ B Flight9 u F9 Q% F7 }1 J Demonstration1 q2 v0 h0 ]8 F5 E/ I; ` System (FDS)* v: r# ]% e( C3 e Part of the SBIRS Low Program Definition and Risk Reduction (PDRR) program - o* K a% ^& k l, N5 m% c- `phase. The FDS will consist of two satellites and a ground system being built by : Y+ q2 M# d8 h" `TRW/Hughes. The FDS satellites are to be launched in FY99 for a two-year test& _. ~7 A8 N1 j9 U program to demonstrate operations and performance of a SBIRS Low concept, : t! v! W+ y. f6 kcollect target and phenomenology data to support the objective system design,! y- D1 K; L/ k) ?3 Y and validate cost estimating models.5 w4 h0 |. T: j6 D: Z, t( k Flight Path The line connecting the successive positions occupied, or to be occupied, by an ; R/ G% Y/ i" k* Zaircraft, missile, or space vehicle as it moves through air or space. (It is more$ K: K3 ^+ ~$ K; f1 z |! H/ p9 ? commonly referred to as trajectory for space vehicles, especially ICBMs.) ' p) m; N, s4 z8 N! w9 ~Flight Readiness + e! B o4 I/ R* D1 P/ l1 e: tFiring W u( N1 ^( E, Q) M/ G A missile system test of short duration conducted with the propulsion system2 F. ~" }1 T e8 q operating while the missile is secured to the launcher. Such a test is performed 6 t0 ~0 v* c9 S9 F# k; f' fto determine the readiness of the missile system and launch facilities prior to 0 J3 m/ I5 V" M! Nflight test.4 `6 c3 i5 b0 ^' D+ }/ I Flight Test Test of an aircraft, rocket, missile, or other vehicle by actual flight or launching.+ ]. D. V j1 {4 {7 z# J: Q% z Flight tests are planned to achieve specific test objectives and gain operational. X7 d; {( L0 M, z information. $ J. w3 t4 R( n: d: T6 R* YFlight Test% H+ b# `( N7 r8 V Vehicle (FTV)# w0 {6 X& c) g$ L; L7 u# n Prototype of airborne or spaceborne hardware used to validate a technology / ]$ j/ g# `; N0 {concept.

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FLIR Forward Looking Infrared Radar.# `! ^3 _" [( E' z4 u! I+ L3 T J FLOT Forward Line of Own Troops.3 R7 A. J* \) s1 I, b FLT Flight.& Z0 V( ?; x" |9 ~# Q FLTSATCOM Fleet Satellite Communications System. 1 a; w) P4 w8 p7 M: QFluence (or : u% U' V' s- H. h: qIntegrated Flux)9 R, f1 n4 f, F/ U+ w The product (or integral) of particle (neutron or photon) flux and time, expressed$ [. X' J5 c$ k# B) G, }' g$ R9 c in units of particles per square centimeter. The absorbed dose of radiation (in- F q; J7 z6 \1 O& H& `9 W9 d rads) is related to the fluence. (It should be specified whether this is incident or Y. [; I- `/ A& c5 F9 J$ P& ~absorbed fluence). i8 J" N7 U/ w- \ MDA GLOSSARY, VER. 4.0 F* |4 E R- A$ X9 y* T4 D: q+ N+ J 109 P, I! u3 Z1 }8 Q5 YFlyaway Cost The total cost related to the production of a usable end item of military hardware." J3 {# O [: T3 x. F& t9 Q; W: x Flyaway cost includes the cost of procuring the basic unit (airframe, hull, chassis,# t& t$ f q; F, T' s3 p% t( A1 G etc.), a percentage of basic unit cost for changes allowance, propulsion 5 L* U$ v b& K" E1 J" fequipment, electronics, armament, and other installed government-furnished + X: p; p; x+ x; |; kequipment, and nonrecurring production costs. Flyaway cost equates to " _$ M( ^5 B7 X$ BRollaway and Sailaway cost.( H( ]2 o2 `& |+ }3 W2 o2 z% d FM (1) Flare Multiunit. 1 \1 B% Q1 A7 \0 R$ K(2) Frequency Modulation. # S; T7 n9 z# r+ C' y3 O# a(3) Functional Manger. , [& _" u0 I9 j: f( V(4) Force Module(s). ~3 c. W5 s9 a4 @8 C6 o1 r(5) Field Manual.2 _7 _6 d1 s a+ S; g' a8 C* p FMA Foreign Military Acquisition.* c, y; x2 U! ]4 M9 ? k T FMB Financial Management Board.: D1 P* |& Z i# Y2 z FMC Flexible Manufacturing Cell.- R7 l& i* ]( C& M L! I FMEA Failure Modes Effects Analysis (ILS term). : y' V+ n1 Y4 ^8 fFMECA Failure Modes Effects and Criticality Analysis (ILS term). 0 }7 T* C. x8 _8 g) U9 g- _+ ^FMIR Fighting Mirror.! `( j& _- Y! t7 y7 _ FMP Foreign Materiel Program.( B, y# ?' a3 P9 n* ~- ?2 K: k$ | FMS (1) Flight Mission Simulator (PATRIOT), Huntsville AL.( a7 N& S+ l/ }- [% d- u3 u- m (2) Foreign Military Sales. ; g, h0 J+ h5 l1 g X4 F6 V# w0 V: W7 @FMTV Family of Medium Tactical Vehicles (USA term).7 Z/ y) x3 P$ r( S* o6 U# c$ m! K FNC Federal Network Council/ R# r2 Y7 j! S( d# u/ N4 t FO Force Operations (PATRIOT).% a H! s$ ^7 Y8 [( u6 { FO Link Fiber Optic Link.2 J( }8 W1 v2 N' a# B6 P$ ` FOA Future Offensive Aircraft (UK RAF term). 2 X1 q6 {( b* O' M4 v' ~FOB Forward Operations Base.! n! @" a" y) w _7 a' G5 g9 \" | FOBS Fractional-Orbital Bombardment System.' ~- C/ E1 C5 W FOC Full Operational Capability.7 }1 Q. r$ ^2 M1 V1 z' i! w) ^9 x Focal Plane The plane, perpendicular to the optical axis of the lens, in which images of points6 |% `5 O e6 K" ~ in the object field of the lens are focused.+ F5 D7 y# a4 N Focal Plane , V$ v$ U/ ^2 u8 G/ \( B1 V: KArray (FPA) 5 S9 Q5 p. i4 [" }5 AAn FPA is a matrix of photon sensitive detectors which, when combined with low % `& r' q: E$ X/ _7 Enoise preamplifiers, provides image data for the signal frequencies of interest.& O7 y7 q# B9 n! h6 s- N+ E: a FOFA Follow-On Force Attack.# j1 z. Z6 ~9 W FOG Fiber-Optic Gyroscope./ F/ \4 ^2 o' c& B, K8 i FOIA Freedom of Information Act (US). 6 n1 l D# j5 [/ zMDA GLOSSARY, VER. 4.0 F " h% B A" S% W+ Z) p! `1100 [5 a! o! i$ r T0 R# R FOL Forward Operating Location. ; A$ g9 [( Q8 p9 M; Y) P+ W, DFOLAN Fiber Optic Local Area Network.& ~& {6 y2 F h5 Y6 x Folded Optics Any optical system containing reflecting components for the purpose of reducing1 k q+ V6 h7 e( y1 T! ] the physical length of the system or for the purpose of changing the path of the. ?9 x, A; B( I9 m: @8 W3 g3 N optical axis.. x) w+ l. |6 C n5 h f Follow-On ; E: Q* N i8 d7 n3 fOperational Test 4 e# c1 `0 r7 y, A/ ^and Evaluation ) i" ^4 ]7 \# s8 L( R- J; x: u/ P(FOT&E)+ h: `- N. j2 \6 } That test and evaluation that is necessary during and after the production period- ^% p' m' c5 T' O to refine the estimates made during operational test and evaluation, to evaluate 8 \0 F% N: E9 r, J( gchanges, and to reevaluate the system to ensure that it continues to meet 0 t; O6 F( |" K" Qoperational needs and retains its effectiveness in a new environment or against " E, p; i) z7 ca new threat. 3 [8 [5 }$ M* P" ~: y6 @ _) [FOM Figure of Merit.8 |6 q/ p {, i5 h& ]( I; L" ?- } FON Fiber Optic Network. ) O% C2 t# h' A7 ~: M, m, s; CFootprint (1) An estimated area of possible reentry or the solid angle of a detector or4 ]; ^& y2 y+ D* z* r/ Y* F linear area of a detector at a certain location. 3 [2 w1 R' @% d1 u% r ~(2) Geographic area in which a focused satellite downlink can be received. ( r: g, e) @, s G2 C% _# I/ `FOR Field of Regard., p5 ^" a' ?6 R8 z; S) l3 s& w Force Closure The point in time when a supported commander determines that sufficient * f* B7 M$ `8 u- lpersonnel and equipment are in the assigned area of operations to carry out1 w: P) q4 d+ ^- K3 W ^ assigned tasks. & M/ k9 ~7 l; Z$ A( Q& |Force Development Test and ! L. e9 u5 v+ `( r8 v/ A% gExperimentation ! N/ D# q) F) LTests employing representative users to examine definition of materiel3 H" X9 c# u3 K+ ]- W- W requirements or support/assess development of doctrine, training, organization,5 X9 o \3 ~8 N1 F( x. p8 v and logistics for system acquisition. (U.S. Army).8 m8 @& I9 m1 s, x1 t' t Force Direction The operational management of the forces.( | O1 s( t3 r$ M1 c$ c* V Force Integration' `$ a5 A, O9 U3 m1 M% w Staff Officer- n3 ^' h% J: \" {' [# m0 q: u/ V Army individual assigned to ODCSOPS to serve as HQDA user representative for 9 A) ? w3 ?6 o$ k' Fa specific system. Provides continuous coordination necessary for integration of 8 T2 a. ^6 o/ U, ]1 e: Da new system into the Army force structure. 5 W$ J0 F' Y4 [" a nForce : l- G" _: a- zManagement& B% ^% ]9 R* K3 f/ |( D @) H The assessment of the effectiveness of the defense forces throughout an5 p7 ^' i- J# Q4 J- e0 _5 D engagement and adjustment of tactics and the system configuration as & v( x0 w7 @$ Wnecessary to effectively allocate resources to satisfy mission objectives. ! T9 l6 }/ s, C' @Force Reliability The percentage of the missile force that will successfully detonate within 3.5 / j8 s' n( {& Q9 ^2 WCEPs of the target.7 E3 {. S) ?5 W- x FORDTIS Foreign Disclosure Technical Information System." O) o. ? m7 R& V' T9 H Foreign7 C& j1 V4 {7 F) }% A/ ^ Government " R/ x. j7 a. g$ }2 |Information# I% E* Y0 O7 G( B Information that is (1) provided to the United States by a foreign government or$ O# J% k2 |& V( n+ O governments, an internal organization of governments, or any element thereof# v, V0 t1 l# h- _ with the expectation, expressed or implied, that the information, the source of - ~! `; c2 j. R! L0 hthe information, or both, are to be held in confidence; (2) produced by the United / Z: C7 j" c7 G! }! X pStates pursuant to or as a result of a joint arrangement with a foreign) E7 @/ h( J4 H/ n# }( \ government or governments or international organization of governments* X% l3 g; F! E$ H' b+ l requiring that the information, the arrangement, or both, are to be held in 0 E+ y4 ?; W/ a8 _" Rconfidence. , y7 }6 \+ A4 n4 X& f2 `' i( EMDA GLOSSARY, VER. 4.0 F2 e- C" ?) E& O 111 2 Y+ q/ A6 }& u9 {8 {Foreign Military9 R2 h4 P& X. I' o) L( V( _ Sales (FMS) u4 h! t' g/ M% Z8 \+ k/ _8 U That portion of U.S. security assistance authorized by the Foreign Assistance Act) X2 p- g P2 `# g0 O; z6 ~) z8 p of 1961, as amended, and the Arms Export Control Act, as amended. The ; Z+ P: w& R# p9 @' t0 i" Arecipient provides reimbursement for defense articles and services transferred2 Q, [; R$ f. l! T/ K) w) l9 i from the U.S. Includes case sales from stocks (inventories, services, training) by % L( y7 ~7 D7 y2 [" s: @# ~( c" vthe DoD defense services. * k8 a6 K% D' J: C. b. u$ G0 o, W9 fForeign Security' S# r' p: [/ K' C; }/ B1 e1 \ Policy Model 7 U, g; g7 Z" k5 [A mathematically precise statement of a security policy. To be adequately 1 d5 U2 E! N) Bprecise, such a model must represent the initial state of a system, the way in : ^* `4 O4 O. O$ W7 @! xwhich the system progresses from one state to another, and a definition of a' e3 Z7 u9 {5 h “secure” state of the system. ( w2 Y/ P7 ^1 @7 M/ M6 BForm, Fit, and $ K0 A- l' d! B8 f- DFunction Data1 P5 I, \. r e) v/ k" ] Technical data pertaining to items, components or processes for the purpose of $ ]. Y: i" M, e1 d- Cidentifying source, size, configuration, mating and attachment characteristics,- B. q$ y# J/ E* j( n7 M$ m functional characteristics and performance requirements., \! h i7 `. X8 q! N$ T8 S) M Formal 4 u8 a3 c0 A8 T" ^. N( u4 J$ \Qualification - I+ @1 u( D d) |( XReview % z( \; v+ J0 ^3 WA systems level configuration audit conducted after system testing is completed / k6 A0 s' ?" oto ensure that performance requirements have been met. 3 u: B, j; c. z& A. K5 z1 KFormerly . j3 G' J: U" m; {Restricted Data; {( v' ^5 p3 B0 N/ f% C Information removed from the RESTRICTED DATA category upon joint 3 o4 H. ]9 p! Bdetermination by DoE (or antecedent agencies) and DoD that such information . P3 q- l8 ?0 L6 w) W' Srelates primarily to the military utilization of atomic weapons and that such6 ]$ F: m: h$ s+ U h2 }7 E% E7 K information can be adequately safeguarded as classified defense information. 6 n; ~4 s n9 w0 F2 H2 QFORSCOM U.S. Army Forces Command, Ft. McPherson, GA. ! _6 B6 r5 t8 N% ^0 o: }( {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 " e: `7 F: u: Z4 P) E- u$ kthe Battle Area 1 w% E# ^, V& i2 X) t- }(FEBA) 2 U) N* h8 e+ F8 B# V- s" ZThe foremost limits of a series of areas in which ground combat units are 3 N6 S J9 e4 J; V2 V) sdeployed, excluding the areas in which the covering or screening forces are 4 _( t/ G1 s, T8 S6 V& @operating, designated to coordinate fire support, the positioning of forces, or the % c3 y& j' }& j( E/ f |9 o3 Omaneuver of units.7 R w6 @1 `- B$ A Forward Funding Carry-over of RDT&E funding into second year of appropriations availability. 0 ^- d* Q& `' ~5 R( HRequires permission from high authority.9 L1 j" k. F* h/ p1 j$ c1 Y) n3 K FOS Family of Systems (TMD).5 s1 m! s2 ~' I FOSS Fiber-Optic Sensor System.& f9 n9 k- [8 Y q6 [! s. V FOT Follow-On Technologies.0 s+ T; w) ^9 h6 c: s( n k! h( M FOT&E Follow-On Test & Evaluation. 1 ~- m5 P3 l5 ~8 e3 d/ U4 n! Z SFOTC Force Over-the-horizon Track Coordinator (USN term). " M+ |' \7 K; TFOUO For Official Use Only.' R9 u( }8 A7 X3 L+ {/ ? Fourth2 ?! s* i" c: u" y. M; t1 H Generation , P( }$ C- Z+ |7 S3 _: dLanguage 8 k, e/ f, g" ?( ^3 E# hA programming environment that produces both screen and report utilities for 0 \4 Q. _& _1 K p: @% _! }* Y! }# fuse by lower-level programming environments. 2 I3 g3 {5 w3 R( d( x& aFOV Field of View.) e3 n& e5 r$ y0 n FOV Radar [Full] Field of View Radar$ J/ [. Z: I5 g, ^5 h9 V. p. G0 a FP Focal Plane.3 c: M) K# u7 ?- ] MDA GLOSSARY, VER. 4.0 F % s$ {4 m$ u, N7 U% e112 " U) ^8 o% Q" G* ?4 n4 Y1 GFPA Focal Plane Array." H0 h: i; i% O) k4 h& K& x FPC Facilities Protection Committee." \" h, T& R: N" j3 B7 f FPI Fixed Price Incentive. " T8 x# X0 [ ^) u! U1 kFPS Fixed Radar. / K+ J) }3 Y- U* Z) nFPTOC Force Projection Tactical Operations Center (USA term).: O% A! v& Y2 l: t FQR Formal Qualification Review. * F/ @" X. {# q/ b) t/ cFQT Formal Qualification Testing.1 m) v6 [# d" u FR (1) Federal Register. (2) France. 6 P' ^. n9 d; N' i% Y) hFRACAS Forward Reaction Altitude Control System. 6 U5 S' A, x0 |* c Q& u' LFRACS Forward Reaction Altitude Control System. & O# x+ P: K4 N8 T( X+ aFragmentation/ i6 e3 j% d/ f7 K* g3 |. F Warhead ( O5 F, }. |+ _9 Z4 S8 Q8 I EA warhead, which releases small solid objects to damage or destroy its targets. 8 B7 d9 |1 [% R3 L% TFRAS Free Rocket Anti-Submarine.- G( a" w" \# H: J FRC Fire Control Radar * S; n, _: p$ f+ ]: I$ r( pFRD Facilities Requirements Document.5 L& r& B9 T6 Q3 ] Free Electron , N2 s3 w; z, b( Y( @& v( v* aLaser (FEL) 7 c9 F c: E uA type of laser, which generates radiation by the interaction of an electron beam7 R5 q' f8 \2 \ W with a static magnetic or electric field. Loosely speaking, free-electron laser" _' O# j) b2 U$ S$ r technology resembles and evolved from that used by particle accelerators (“atom 2 T* u; r! V0 k" Q# x4 }( ~smashers”). Lasers, which are not free electron lasers, are bound electron- s" D) o$ |" p/ m& v" h! j lasers. 3 q% }& v6 h7 O- z* m. ~Free Rocket A rocket not subject to guidance or control in flight.8 F' W* Q* g! Q! _! N+ J4 O$ X8 c Frequency2 ~4 x9 S- S# }8 X; j Management - J" [* G9 C. N% K% n" vThe act of allocating frequencies, or bandwidths to a telecommunications* _- ~; O3 O5 N! E: d4 q system, necessary to minimize the potential interference between 7 E$ \7 [4 P" B2 n! g0 }transmitting/receiving devices. Governing agencies and international agreement5 P2 v# }. G. d controls authorized use of a particular frequency, frequencies, or bands. + V3 ^2 M$ a% J3 U; QFRG Federal Republic of Germany.; L# F7 S4 j* b9 Q& m3 ?0 b' i FRN Force Requirement Number. , I4 Q( L$ l) b' {3 w4 MFROD Functionally Related Observable Differences.* w6 M( `4 d, D1 }6 c9 W4 H/ G K1 { FROG Free Rocket Over Ground.( x ]- C* E% [* L- k8 o FRN Force Requirement Number." z1 L5 Z+ b0 Q) J9 R; `& {& o FRP Full-Rate Production. _ @& H# \" G! kFRS Federal Reserve System.0 N) p+ g$ i$ F/ z FS&E Facility Siting and Environment (MILCON term). & N- @$ Z: G: @2 A9 l6 |MDA GLOSSARY, VER. 4.0 F" h8 s4 {, @& e+ K: Y1 ` 113 2 r: C( T3 w7 l8 z3 {$ K; ZFS3 Future Strategic Strategy Study. 3 G" G# O0 |/ n* D2 ^FSAF Future Surface-to-Air [Missile] Family. # `: i5 }' p5 B, u' f4 [FSC (1) Fire Solution Computer. (2) Fire Support Coordination.1 X) ~# o% K$ p FSCATT Fire Support CATT [for Weapons] (US Army term).9 J( n2 ^5 c% O, v& o FSCL Fire Support Coordination Line.2 C0 D+ I1 @# T. p" T" \. r FSD OBSOLETE. Full Scale Development Phase. See EMD. % n9 V4 g3 V2 v5 hFSE Fire Support Element.; h) z0 g; r5 Z D' D6 w FSM Firmware Support Manual. 9 a s8 }; {3 m! jFSP Facility Security Plan. - m" e m2 X' q' n# KFSS Fixed Satellite Service.& N) D# Q% f: {, m q FSST Forward Space Support in-Theater.5 m. R$ C: a& e. ?6 K6 c% N: y7 J FST Flight System Testbed.8 ]3 i6 a6 a' |* @& v1 X/ z5 W% C: N FSU Former Soviet Union. / Q$ ?5 ~" [! K/ u' R; yFSU Republics Former Soviet Union Republics.3 m0 O: u+ a& B FT Flight Test.- t; F/ Y* k. |( @0 l/ e Ft Foot! P1 N) l5 s7 g2 ]3 B( Y$ w* K FTC Federal Trade Commission. 4 F N- R$ |1 f# {9 v% ^3 i2 j5 jFTD OBSOLETE. Foreign Technology Division (USAF), Wright-Patterson AFB, OH.7 G/ d; k# Y" O( [9 |: d3 H% l See NAIC.7 ^5 ~1 Z% F1 B2 u FTI Fixed Target Indicator. a$ O, _! j1 @7 D; R FTLS Formal Top-Level Specification." K$ N+ c& I, h5 H* G8 D3 o FTP File Transfer Protocol (ADP/Internet term).* l5 b% [" G u7 P* I' m% h, G FTR Flight Test Round. 4 L7 I; p9 _" E3 t) M+ V. cFTS (1) Flight Test Summary (2) Federal Telephone Service/ g( K. V% Z7 L- m FTS 2000 Federal Telecommunications System 2000. # X1 m- N; H, \2 v) i; `$ C5 vFTV (1) Functional Technology Validation. (2) Flight Test Vehicle.0 i1 m2 w* o4 o# n- ]8 }* D9 ^' ` FTX Field Training Exercise.9 b+ {; [! V+ [4 T5 U$ k1 Z1 O FU Fire Unit (PATRIOT).3 G) N5 f7 N1 j( N2 c$ f# | FUE First Unit Equipped. / z( C& J+ }7 D7 O ^MDA GLOSSARY, VER. 4.0 F* d2 S- Q, w$ ~! h& p 1147 g) i1 L6 @' S+ L `; n Full Mission + q, D/ W) A6 m* q' zCapable- f8 G" {5 x' T! m, ?+ m9 c9 o' r Material condition of an aircraft or training device indicting that it can perform all 1 A# S5 i; w9 zof its missions. Also called FMC. 7 g, h5 ]- k1 cFull Operational " E( Z" V: O$ e9 q6 i1 M+ ?Capability (FOC)5 u/ u. I5 L' R The full attainment of the capability to employ effectively a weapon, item of ! [7 D9 n: C, C2 eequipment, or system of approved specific characteristics, which is manned and+ u- a) }0 K3 ?( l+ w9 y) m$ A3 N4 i I3 l operated by a trained, equipped, and supported military unit or force. }( `& f) y b1 F2 O( rFull Rate- A: a7 u3 S8 N' b3 @ T1 q' T Production ( r/ Q7 U9 Y9 ?+ s/ `Production of economic quantities following stabilization of the system design 6 `* \' X% E$ B" r* rand prove-out of the production process.# {* h1 F" ~9 U6 I; Y Fully Configured 9 n1 w4 b$ @# y; wEnd Item1 |% e2 }$ Q' E) H0 ^ The final combination of end products, component parts, and/or materials, which4 t% E. S! `. ^) N; B; A* l is fully ready for its intended operational use. Normally all production units are+ o' p# T0 s! m3 g+ P' ]* {# M: s fully configured. Research and development units may be considered fully 6 p8 c' u- s& q j! Kconfigured if they are or are planned to become operationally equivalent to the+ g! j0 T3 i6 M6 y+ ?8 i production units.

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Fully Connected! d2 M# |& Z1 v Network (FCN) 1 p' C2 V2 F; |+ [6 n; G* u: ?. jA network in which each node is directly connected with every other node. # g z6 ]& ~7 Q% NFunctional 5 ]7 _, ~# g) t! W' x5 V- @Analysis 6 P4 y& h* }4 c* OAn approach to the solution of a problem, in which the problem is broken down ' x0 i/ r3 r+ D0 _into its component function, such as intelligence, firepower, or mobility. Each 6 A" Q# B: G% H6 }* x, b3 [relevant function is then further analyzed and broken down into smaller' V N- p0 w* y functional components until a level of molecularity suitable for solution of the , `& ?3 x$ S9 Jproblem is attained.$ }, y0 E' W" i! X, y9 K Functional8 L$ ?0 ~5 ?4 ]6 p0 f- n. K- K+ Z Baseline 3 |' m ?7 }9 ^ ^(1) Established after the system requirements analysis/design activity has $ t) X1 e: j3 G. h3 hcompleted the definition of the system functions and associated data,/ @0 o9 c9 X/ F' @0 L. q& _ interface characteristics, functional characteristics for key configuration$ ~0 K( ~; F6 d' h" v) L2 M items, and tests required to demonstrate achievement of each specified: g7 S3 e0 S3 f. T. T1 e characteristic. This Government normally controls the baseline. ^- i1 e6 m* p9 O# K! I0 n (2) In configuration management, the initial approved technical ! ^8 p- {% T# a: @) Fdocumentation for a configuration item. # N% z, @6 E* Q/ [2 p(3) Documentation describing a system’s functional characteristics and the6 X9 p7 m) I6 M/ z$ F$ p% l verification required to demonstrate the achievement of requirements./ x/ u$ o& }7 S# t8 T7 w# c2 B Functional1 M9 n% H: B3 o; y( d- F Configuration # O. N# l# e( O" e+ hAudit (FCA)4 G9 I* L# Z/ ~: C* F" Z The formal examination of functional characteristics test data for configuration' ^1 P) M. X; P. v& q7 g6 p item, prior to acceptance, to verify that the item has achieved the performance) H, O- e& k5 \: ]# z) ^' Z specified in its functional or allocated configuration identification.! E) v2 p$ @% C Functional 6 O& U3 y% D, g- X1 P3 A7 MEconomic3 T- G' M# e: I& p Analysis (FEA)# Z7 o# L* C: }' w5 `0 \ A structured proposal that serves as the principal part of a decision package for" _9 \: q; ]% o4 U/ U) W- B enterprise leadership. It includes an analysis of functional process needs or " R- g' I* x3 X6 Y8 Z# Wproblems; proposed solutions, assumptions, and constraints; alternatives; lifecycle costs; benefits and/or cost analysis; and investment risk analysis. It is 7 l, U7 ?( n4 B" u: f oconsistent with, and amplifies, existing DoD economic analysis policy in DoD5 ~, Z1 n' W$ q! g Instruction 7041.3. 0 k% W7 V( {, Y* T" xFunctional Kill The destruction of a target by disabling vital components in a way not & ?9 D0 G) W D j" Fimmediately detectable, but which nevertheless prevents the target from* d5 k1 F f; h0 ^3 @ functioning properly. An example is the destruction of electronics in a guidance ) h' `% [4 ?) t( T6 n6 ^7 a; Asystem by a neutral particle beam. Also referred to as “soft kill.”' O% O' ^; s3 \ a% d& l) ^ Functional& Y7 b6 M. f+ ?% ~) H9 [ P+ S Support: j2 j r4 w8 n" e0 [ Systematized methodologies and procedures, or a common set of standards, 2 c! K! x: K9 t$ N. y3 qapplied to materiel acquisition programs.6 J$ s1 {1 |5 j" X. ]( l Functional9 F$ D+ {# u! V$ S Technology9 H' H# w! r* G1 F1 E3 C# A' ^9 A Validation (FTV) _8 b' B8 Z* A* f; Y% \Program with the intent of proving or disproving a technology is useful for a given! N0 e* h s0 v: G9 k application.& l, S' `: o M; X MDA GLOSSARY, VER. 4.0 F 4 u$ N, Z" n7 A115/ f1 y' Q" ?; x6 P0 K Functional i4 l. L6 j/ T; bTesting* S' U3 @+ i+ O$ M5 v$ Y5 \ The portion of testing in which the advertised features of a system are tested for ( I' p; `! \9 L# `: g, @/ Q( kcorrect operation.) [$ L1 e" M8 x4 m9 d& ^# t2 g Funding Profile Program funding, usually displayed in columnar spreadsheet format by years, # G' m( l. N* Q/ q6 @" i6 s( C4 _0 vstarting with previous year through current year and out-years. 9 F; v+ ?7 K2 \2 \: X* g1 Q" AFuture Years , i* P8 P# D* hDefense Program " F6 I: J D2 A# t4 |" _# R) \1 e(FYDP). K) t/ j/ w3 I# t# t; X The official DoD document that summarizes forces and resources associated with + T, Y7 [4 Q& A; G1 s3 zprograms approved by the Secretary of Defense. Its three parts are the . Z- y8 o4 l) r2 D7 z% l& _organizations affected, appropriations accounts and the 11 major force programs 0 m8 [& `6 I1 z(strategic forces, airlift, R&D, etc.). Under the biennial PPBS cycle, the FYDP is2 P" y2 s0 J4 B! x! W! w! e updated in even years in April (POM); October (budget); and then in January& x" S/ V" |7 B4 P (President’s budget) of odd years. The primary data element in the FYDP is the , n1 {$ c8 t T# k$ h ?* L/ [3 bProgram Element (P.E.). Formerly known as the Five Years Defense Program.8 M( _) \& ]- n2 v d: j, t2 l/ | FWCA Fixed Wing Combat Aircraft." P e8 X' {' Y- F) H$ m Fwd Forward./ Q7 W& [5 i! V) i# g3 X9 G FXBR Forward-based X-Band Radar. / ?7 \/ ]) W. h# k" X4 eFY Fiscal Year.& m) I/ b P7 V FYDP Future Years Defense Program. ( h+ t1 B) f* Q$ r! p* Q5 VMDA GLOSSARY, VER. 4.0 G, H+ ?: D* q5 m- K# w 116# L( q/ t4 O; { O, Y G Giga (one thousand million).+ F: K1 M; G# s% J# f* ?" k6 Z1 b g Gram. 1 Q! r1 e7 o @7 C/ QG&A General and Administrative costs.- G' {1 O0 U- R& I1 { G&C Guidance and Control. 5 p: h: K& I5 M0 K: w+ S0 ~! rG&O Goals and Objectives.5 i7 v" e; U j3 R& C. E1 i G/A Ground-to-Air ( l( Q) U! q* W& v1 O& iG/G Ground-to-Ground.; a1 ]& T7 H( | GaAs Gallium Arsenide.- K$ `& m- c6 U Galosh The Soviet Anti-Ballistic Missile system built to defend Moscow from missile / j, V: U; U& \attack. 6 N' O. N" J5 J- P6 E2 PGamma-Ray Electromagnetic radiation resulting from nuclear transitions. Although incorrect, ! A6 N5 K4 I g$ E# n2 D8 ehigh-energy radiation, particularly “bremsstrahlung,” is sometimes referred to as& B) y" ^! z. `4 Z8 q; |8 C r+ ^ gamma radiation. + { A4 O. t" m- S& DGamma-Ray [( [' H+ _8 t ~8 ?. TLaser * a3 B: s% M! l& YA laser which generates a beam of gamma rays; also called a “graser.” A 3 A3 h( w( c" u1 mgamma-ray laser, if developed, would be a type of x-ray laser; although it would p3 i- q# E) ^$ Nemploy nuclear reactions, it need not (but might) employ nuclear fission or fusion7 W, t! b* N- `% H reactions or explosions. , z k' k: G2 G! m: [3 H1 iGAMS GPS (Global Positioning System)-Aided Munitions.7 ?6 t. @7 L/ T; { W+ D* M2 _4 H GaNMPA Gallium Nitride Microwave Power Amplifiers. (A demonstration program to develop. g& X" p. H: _$ p! w' E GaN based transistors and integrated circuits for power amplifiers in systems 8 T2 y' n D8 H9 r" ^such as Ground Based Radar. Goal is to reduce total weight and size by a1 W) X2 S! R' b* L% @ factor of 10). 4 d3 ~* ?) h# A2 Y }: ^8 \GAO General Accounting Office.4 X8 U- u( Q$ s) o ? GARDIAN General Area Defense Integrated Anti-missile Laser System.) @) F' y0 @( a: @3 D9 _! B GAT Government Acceptance Testing.- p& g& w8 V, G- A: B GAT CALL Guidance, Apportionment, and Targeting Call (JFACC term). + ^. s' Y- ^' w- o9 OGATE Graphic Analysis Tool Environment. / D. [/ d9 z. _; d% @: XGateway An element that contained a node on the SDS backbone network as well as on6 |, {, C+ n6 Y) T& Z# ~ some other network(s) and would have performed protocol and format" f1 J" ]* n5 ^ conversions necessary to accept messages from one network and retransmit " {/ K! J3 C" @them on the other. 7 C: r# h* @: Q1 l% h& s2 W" nGATS GPS (Global Positioning System)-Aided Targeting System. ) m; h, \ M/ v8 v; qGB (1) Ground-Based. (2) Gigabyte.% S3 k+ K% X! } A+ P5 l- [" G GBD Global Burst Detector. ' n6 m8 m1 U) u/ }: G: p) YGBDL Ground-Based Data Link.+ k9 x% A: ^2 t. O z2 ~( k MDA GLOSSARY, VER. 4.0 G 5 P" c* {% j" R117 , X' N! g& H# C$ Q, |GBEV Ground Based Experimental Version. . }) F7 I" O6 W: @) ]/ @GBFEL Ground-Based Free Electron Laser.$ m3 H" a5 T- R8 g+ b) B GBHE Ground-Based Hypervelocity Gun Experiment. 1 B) E$ Q [/ L7 kGBHRG Ground-Based Hypervelocity Rail Gun. . Q8 e6 ] L8 r6 JGBI OBSOLETE. See Ground-Based Interceptor. 4 a9 i: l. j1 K* b# O6 _1 qGBI-P Ground-Based Interceptor – Prototype. 0 m/ e j& R0 sGBI-X Ground-Based Interceptor Experiment. 2 z% K3 L) ^# P3 i6 sGBKV Ground-Based Kinetic Kill Vehicle. 3 q3 F" W5 G' g) n6 yGBL Ground-Based Laser.* v7 L8 Y0 A3 x GBLD Ground-Based Launcher Demonstration. + D! X6 ]1 G5 D$ d) u! H) s- SGBLRS Ground-Based Laser Repeater Station. * ~) S8 Y; ]5 W5 }GBM Global Battle Managers.8 i* \, I) ~% a @ GBMD Global Ballistic Missile Defense. 7 S5 L6 |8 c4 B1 o* M; n8 iGBMI Ground-Based Midcourse Interceptor.. c" m0 N$ r6 x$ Q8 n GBOS Ground-Based Optical System.3 [' L" G0 {" Z' g GBPST Ground-Based Passive Signal Tracking. , d5 n5 S' \7 m: p0 b3 ]GBR See Ground-Based Radar. " h9 N# ]6 @: A6 lGBR-M Ground-Based Radar-Midcourse. 8 O1 R- W: H3 k4 uGBR-O Ground-Based Radar-Objective. - G1 `$ S, j D( n" q0 s: S! fGBR-P Ground-Based Radar-Prototype. 0 h w% M$ ]8 G- |# \* `. j: nGBRT Ground-Based Radar Terminal.& g! Y# ^( g4 d" @! r GBR-X The experimental version of the GBR. 5 R% k1 q; ]$ E# s3 r3 M cGBRF Ground-Based Radio Frequency.

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GBRI Ground-Based Rocket Interceptor. 4 h2 f. J) W& G# yGBRT Ground-Based Radar Terminal. , q' x" |& {3 }2 N; I2 fGBS Ground-Based Sensor.0 b! z- B2 {6 b+ q% X { GCA (1) Guidance, Control, and Avionics. (2) Guidance, Control, and Airframe. # a D! i, b7 q6 R0 j. CGCC Ground Component Commander (JFACC term).8 H( {/ |# q- @& y0 F GCCS Global Command and Control System.0 {# Y5 H; }- V- C: `; d3 ^7 ] MDA GLOSSARY, VER. 4.0 G : Q% }: f# u2 Q, L# g: @118$ \3 F$ p2 f" f GCI Ground Control Intercept. 6 ~: S( @0 k, p0 I5 J' TGCN Ground Communications Network. 8 ]* N( X( F, R7 S8 n7 S9 AGCS Ground Control Station. , C; J, _9 ?) lGD General Dynamics.5 f! ^/ T9 d$ ^0 R8 Y! A: n+ w GDL Gas Dynamic Laser.. Z; `/ Y9 Y6 S% C/ o4 z, ~. w+ ^ GEDI Ground-Based Electromagnetically-Launched Defensive Impactors. ; B @4 h! V4 w- o( J! jGEM Guidance Enhancement Missile (PATRIOT).: L4 q1 H$ h3 H; a1 E3 m7 x General Manager - _9 r' \; M% @; t/ ?+ @, H% oProgram $ q" t5 z% f" ^0 DManagement2 s8 l0 _4 E# C( R i3 }3 G" T Directive (GPMD)- o0 O* c, P9 h; B% b; { f) V OBSOLETE. The primary document used by the GM to direct the Service BMD ; }- i( I1 a+ v& a) qPEO on the specific actions necessary to fulfill BMD program requirements.: V5 Y4 ~0 r- @9 V General ) u0 A% ~, l) P* aSpecifications# K( o9 C4 f; @5 _$ i6 v4 v A general specification covers requirements common to two or more types, g) O2 R$ ]: i9 T% }" j, q classes, grades, or styles of products, services or materials; this avoids the 0 o3 m) b @9 x' y8 u& o. krepetition of common requirements in detail specifications. It also permits0 `3 Y3 c& {8 u2 I changes to common requirements to be readily affected. General specifications7 ]% a7 q- d% O( U1 _( L0 X may also be used to cover common requirements for weapons systems and, {6 t; K3 F3 E1 V5 u subsystems. * T7 ]/ L! a: o. j: [Generic Rest of ) S( X* l$ W9 D" K0 J m0 N7 c$ }World Target " i( e1 O# G1 ]" J# p% M$ J(GROW)5 N! J: p3 C; r# {( T Strategic target being developed for GMD program. e: K; W' M( P ^" rGEO Geo-synchronous Earth Orbit.: ^; H+ B ]! B1 T) k- T5 J } GEODSS Ground-based Electro-Optical Deep Space Surveillance System.. X7 p, K5 v) x( { Geo-stationary . n+ R& k% g& qOrbit (GSO) , S, R2 p5 m& `2 Y5 j3 t! A$ h. NAn orbit 35,784 km above the equator. A satellite placed in such an orbit7 w. L% r* D/ n v revolves around the earth once per day, maintaining the same position relative# C5 Z' E/ Z: n* O/ e7 ^, { ] to the surface of the earth. It appears to be stationary, and is useful as a ]7 E0 L5 |" P* \. Q+ Qcommunications relay or as a surveillance post., |+ P+ a$ P5 r, y GEP OBSOLETE. Ground Entry Point. IFICS.4 p9 e+ _7 L) U& i. ^9 ? GES Ground Engineering System.( Q! I j9 x U+ a) Q GFE Government Furnished Equipment. See Government Furnished Property. % H$ l0 z. N8 A2 K: J$ r' z* }GFI Government Furnished Information.& e" W/ `4 G5 o' q+ D GFM Government Furnished Material. 5 B2 j7 L; f1 k9 PGFM/P Government Furnished Material and Property. See Government Furnished ( x% d( ^3 H: r9 v% H: _; z9 |Property. ; t4 ?# ~& C1 K5 y0 @1 HGFP Government Furnished Property.: W- S, n9 W0 q# D" ]% { J GFS Government Furnished Software. See Government Furnished Property.# H: z$ G# o( U% u3 I. ?( V4 ` MDA GLOSSARY, VER. 4.0 G . w) U: ^, r7 g9 N/ F5 H6 a5 m% m119' O7 n* a- k i; t2 X Ghosting This condition occurs when two or more targets reside close to the same plane' s0 h& @" p0 w( v& g* _& Q also containing two sensors viewing the targets so they are within experimental Z8 N; u% H9 K5 ~determination of having the same hinge angle F. Thus, ghosting depends on 6 |4 _3 D* C7 `2 ?4 T, I* mLOS error and positions. 2 ~+ `* w; q, |) U- j& nGHz Giga Hertz (1 x 10(9) Hz). 3 O) D3 N2 L, m9 AGIDEP Government/Industry Data Exchange Program.: x" y" I% {- v( j GIF Generic Interface.1 R z' \: v n8 Y GII Global Information Infrastructure. , }( a* f8 D& K0 OGIP Ground Impact Point. ( c. K# X7 d0 ?% B$ v+ kGIS Geographic Information System. r. u0 f& x- r$ PGITIS Government Integrated Technical Information System.5 E0 H- K2 _5 g) \# `' N GLCM Ground-Launched Cruise Missile. ( ?- w4 ]) O; bGLP Ground Launched Probe. See Brilliant Eyes Probe. ( e1 F! { Y& M. ~9 JGlobal( v" T2 ?* }! |* m/ L Environment; R3 u: ?6 }9 y& x% @ The ISTC Global Environment is responsible for the creation, propagation, and o8 {6 P- l5 c( S# }: N maintenance of test scenario common knowledge, how subsets of this + F8 Y4 H, Z9 s* ninformation will be determined, and how common knowledge will be disseminated: U1 _, B( J8 Q, v, N2 _* l: \ to the various element representations (nodes). The Global Environment2 C$ ~1 x2 p4 {6 Y( `8 e performs functions which are common to the scenario such as timing, health,: G' C7 I9 }& X. f( {& c, U status, state vectors of objects, and effects models. : R" g3 D1 J( o1 s9 ~* A3 ]* pGlobal 3 b0 P h# Z* l3 T, ~Positioning3 b3 X8 a! T! ]# K! J System (GPS) 8 }5 N. P1 ~ z6 S9 T- Q2 S) @! b0 DThe NAVSTAR Global Positioning System is a space-based radio navigation . }2 l5 A! x+ d1 z6 Unetwork providing precise positioning and navigation needs of all the military 4 f8 H" ~3 d# ^4 o, e) z/ Fservices. In the fully operational configuration, there will be 18 satellites in six ' K+ r/ Y H/ Z, Gorbital planes with an orbit period of 12 hours at 10,900 nautical miles altitude.$ W( t9 u( y1 q s6 u Each satellite transmits three L-band, pseudo-random noise-coded signals, one , p, T' ?3 A8 S6 F0 MS-band, and one ultra high frequency for spacecraft-to-spacecraft data relay.8 ~6 ^" |( o5 {0 }) `% x- U Global Protection ! ?5 I# |; L1 C: sAgainst Limited & I( h% @5 U2 c$ k' M4 mStrikes (GPALS)7 V( L: m+ V! ] k5 f( Z OBSOLETE. GPALS was an architecture denoting an anti-missile system5 }6 Y' C4 y7 R+ F. I0 D. v designed to provide protection against limited ballistic missile strikes, be they . G/ g2 e* k q1 V( {deliberate, accidental or unauthorized—whatever their source. GPALS was7 j% g! A, c( I) Y, ^+ J# O1 a composed of three interrelated segments: (1) theater ballistic missile defenses, ! e6 z! [8 c6 L" W s2 D8 G; [and associated space-based sensors, to protect U.S. forces deployed abroad, ) P+ }. V! m" F2 T: Oand our friends and allies; (2) ground-based defenses, with space sensors, to% j# Q8 b) e& s% J% i' {, r/ F protect the entire United States against long-range ballistic missiles; and (3) 3 Z Q1 f- q& z3 p* ], ?interceptors based in space – Brilliant Pebbles – capable of providing6 W- m+ K9 O% z) B0 w# V continuous, global coverage by intercepting enemy ballistic missiles with ranges 2 B) I5 a V: v3 u7 egreater than several hundred miles.+ g6 D6 C9 B; E4 c# \% X4 E Global Protection 1 K y u r/ w U; C3 O6 w% TAgainst Limited. g$ B E' g+ S& I( C& U Strikes (GPALS) ' a0 N1 e- l: ^( I% yProgram1 I5 h0 e& l% p; B* `8 B OBSOLETE. The GPALS Program consisted of six Major Defense Acquisition" \ u0 C8 F" M7 k! i/ T0 Q Programs: GPALS System/BMC 3; @2 J/ f. s9 ^9 B4 ^, I , National Missile Defense (NMD), Global Missile 3 T0 f; i2 s+ ]* l# w8 \Defense (GMD), Upper Tier Theater Missile Defense (UTTMD), Corps SAM, and0 B; K6 z7 {# E, u PATRIOT. Army PEO GPALS was re-designated PEO Missile Defenses in 1992. 1 G" \3 @7 z5 q" Z: A) n% CGLOBIXS Global Information Exchange System. & i6 u2 O1 Q/ j, }" \$ w* hGLONASS Global Navigational Satellite System. " ~1 M" @8 v/ f ^# XMDA GLOSSARY, VER. 4.0 G, r7 r4 @! k) m M# B: K. y 120 % M. R1 S# k; m" R& @7 hGLOW Gross Lift-Off Weight. ) w. D8 l7 S( S# \GLP Ground Launched Probe. See Brilliant Eyes Probe. 8 y" E7 w/ h8 P% S& g$ x4 A+ N0 fGLS Ground-Launched Sensor. 8 V) R) }/ o0 F1 R! E, S- y$ N5 jGM (1) Guided missile. (2) General Manager.: u7 c) u% C9 d5 G* X& ^ GMACC Ground Mobile Alternate Command Center. : J. f2 `- w' r8 rGMAOC Ground Mobile Alternate Operations Center.# Y; P2 A& D& k: `3 ?+ V GMCC Ground Mobile Command Center.2 P% `( W+ I" J0 [ GMCP Ground Mobile Command Post. : _+ p n% ?+ I5 \$ |GMD (1) Ground-based Midcourse Defense (formally National Missile Defense) (2)# ^: k2 H- m4 S" G E$ S6 s# u; A Global Missile Defense (OBSOLETE).) M% X" W& C9 ]4 @# M! q) P GMT Greenwich Mean Time. 7 Y) ~( o" d# @7 PGMTT&C Ground Mobile Tracking, Telemetry, and Control.2 b- u8 k* c5 n+ s( H. ^, c) l. y GN&C Guidance, Navigation, and Control. ) M- q# X, v# p' j% dGNC&P Guidance, Navigation, Control and Propulsion.5 U$ G0 |4 S* D3 {6 P9 ^$ e2 O7 R GND Ground. / V" D* p# C7 a- d% z" b- W, BGOCO Government Owned, Contractor Operated.6 l8 s7 h7 C3 F9 @/ \" s6 X" R0 p GOES Geo-stationary Operational Environmental Satellite., D4 D, _( J9 A. _$ L0 l GOI Government of Israel.. c% [: v5 n5 t GOJ Government of Japan.

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GOSG General Officer Steering Group. " v' o$ [. W8 L2 D/ H# tGOSIP Government Open Systems Interconnect Profile (CALS term). 3 j3 @9 l7 |4 Q' x1 F$ yGOSP Government Open System Protocol (CALS term). ! i) D: c. `( r7 ^+ ZGOTS Government Off-the-Shelf. s% M4 O/ l5 AGov’t Government. ( f% k/ j% g) [: J sGovernment) _" O& _2 ^1 O Furnished, M5 O: Y8 }6 f7 Q# j* c5 ? Property % ^6 Y: o- ?: c2 q/ DProperty in the possession of, or directly acquired by, the Government and , q. L) J2 R/ Fsubsequently made available to the contractor. (See FAR 45.101.) + b, V2 m/ o: m z. B7 P. [" `Government 2 g5 N) L; o" q/ s1 d NVerification7 _9 I$ x' u w Management9 b5 A0 F5 G5 a! n6 l1 K Plan (GVMP) # b, g9 Q' M1 \+ g8 |6 rA management document that provides the overall framework for BMDS ' y; N' k4 I4 \. L3 o$ I) ~verification. It includes processes for implementation, organizational ! [5 [' B. ^3 c9 C6 h9 wrelationships, and stakeholder responsibilities. It covers the full scope of BMDS3 I0 z \! f \! z4 D verification and identifies how all BMDS verification activities will come together to1 F6 Z; w* D9 r2 ~* d confirm BMDS capability.$ w5 f+ x( ~$ m% z. n) N5 E4 P1 J: T MDA GLOSSARY, VER. 4.0 G 6 h1 d2 Y G" \ u/ ^1212 W6 s& S+ D E' ]8 L GP Group. 0 X% x" C, Z3 u# wGPALS Global Protection Against Limited Strikes. / S* }' Y0 w6 R K) d: n0 NGPC Global Protection Center.% }9 n+ F1 C( d# j; Y GPMD General Manager Program Management Directive.2 l7 T2 F! {: P! J+ b: S& u GPO Government Printing Office (US).2 x2 y2 o% Z1 C; x4 @ GPP General Purpose Processor. 4 p! J# G* I5 |9 h m zGPS (1) Global Positioning System. (2), Global Protection System. 4 j2 L" U' H/ Y$ o% j8 e3 \" ~; ?GPSIU GPS Interface Unit./ \! l0 V7 O2 g/ H7 g+ t: ^- A GPU Guidance Processor Unit (US Army term). # [: |/ f+ a% {. ~/ {* ^; CGraceful 0 b! I- j' V) a. }/ rDegradation 8 }9 J: X1 B. s6 s: r& vA condition in which a system continues to operate, providing service in a N+ _& K' k" L3 a) o degraded mode rather than failing completely or catastrophically.0 W3 [" G% b% b GRASER Gamma-Ray Amplification by Stimulated Emission of Radiation. (See Gamma-+ \4 h$ T& M: m; e9 ]) Q Ray Laser.) 0 e; ] Z/ T6 k0 q" ^GRC General Research Corporation. ( z& ?/ ^/ g1 \' cGreen Code Interface Software.$ u5 N! t, O, ?: g& { Ground-Based. S, d9 y1 _4 S Defense : U# N6 m9 T) J8 t% W7 k* G2 p3 hThe ground-based sensor and weapon systems of BMD.1 X- Z3 \8 Z+ ^$ l# G4 t3 v Ground-Based . @- K' ]+ ?* K0 e8 Z+ q' YInterceptor (GBI) $ h# m, T8 j; x3 A, CA kinetic energy exoatmospheric interceptor with long flyout range to provide, ' Z5 J+ f7 e& N+ Dwhere possible, a multiple engagement capability for defense of the U.S. with a# E; h4 _/ h% v( t; m( T! C: Q relatively small number of missile launch locations. It is designed to engage & G+ O ?3 G7 O! ?+ opost-boost vehicles and/or RVs in the midcourse phase of flight. & |2 M3 b! R" b+ g4 g( w(USSPACECOM) (Successor to Exoatmospheric Reentry Vehicle Interceptor7 T- |! L L6 h+ n) u7 N/ B Subsystem (ERIS).) See EKV.& ~1 V# n; a. C" A1 @# Z4 l' c Ground-Based ' s8 S) R# p; v, s/ {" YInterceptor4 M- {: w; r/ C- S Experiment; B+ {: g* ]1 N- `, s+ H8 O' d/ y1 z/ f4 M (GBI-X) 6 e6 P9 Q4 N0 j( x# x3 cDesigned to infuse advanced technology and promote competitive environment 9 g5 A, }/ n+ j0 ~8 y1 ~for GBI. F, ~# ? U& ]) j Ground-Based& ]) k2 [; [, l3 F8 I) f3 Z- o& \ Radar (GBR) " M8 ]5 X- \* b" @A task-able, modular, multi-function, phased-array radar that provides: u7 G$ {. w! Y0 a% p surveillance, tracking and engagement planning data in post-boost, midcourse, T, a$ C% I- \2 a( Z1 t and terminal flight phases within its capabilities. It also provides target4 p3 [! v, _ p# r. G: @3 ?8 A3 k5 H8 o discrimination, in-flight target updates (IFTUs), and target object maps (TOMs) to 1 C. s- D' c$ yinterceptor vehicles. See THAAD. (USSPACECOM) - R* G0 g- Z7 N! A: D) k6 \Ground-Based( r; f4 G" k1 v7 n1 u7 s1 r Radar Terminal% y2 n4 b8 U, B& d& d" m (GBRT) ' ?9 l: e/ A. G* QThe sensor for the NMD system. An X-band, ground-based, phased array radar g8 R" ~8 W& h" u( @2 ^5 gcapable of detecting, tracking, and providing discrimination information to a# j0 T; P7 C; p ground-based interceptor.0 p: i/ ^4 W9 v; O Z3 v3 l8 y Ground-based4 K4 P! K: s# q* O/ d Surveillance and - i0 u1 Z6 G- I& _Tracking System . i4 G$ M# W7 Y1 j# {: A(GSTS)6 Q% m h' E7 {2 |$ |( ~ A fast-response rocket-launched sensor, which can support the SDS midcourse" N" [! l- p; O sensor suite by employing multiple Long Wavelength Infrared (LWIR) wavebands; ^# I% [ k6 L; X/ _. M and a visible waveband sensor to provide tracking and discrimination of / }4 h) s4 H% l1 \7 `potentially lethal targets. 8 i: q, `* o( R' t0 a4 h! XMDA GLOSSARY, VER. 4.0 G # R; E; r) m$ N3 w: N2 E1224 Q+ e; C2 V" _% N$ [ Ground Entry' ~3 j0 Q" V6 z k Point (GEP); q* o2 ?/ l/ _0 W4 ?0 c0 o OBSOLETE. GEPs provide the communications interfaces between the SDS 3 N: w- R9 u2 e; h! x. J5 Xspace orbital/sub-orbital elements and the C2 E. See IFICS." Q8 V1 \) I0 O# s" R1 ? Ground Mobile8 j4 Y- m2 c, s" U Regional1 Z w9 A7 ^2 t" Q Operations9 _2 F, c. t7 g1 X) X5 V# K" | Center * `3 Q3 p% P6 j$ c$ V! ~* W(GMROC) 2 _3 g- _7 c" X/ \, z nTransportable ground segment of the Regional Operations Center.; \0 e- F& z% M7 @4 j% M) x% r Ground Zero The point on the surface of the earth at, or vertically below or above, the center- s% |. N, C7 v8 i of a planned or actual nuclear detonation.( Z0 C+ G2 z! B" f$ p+ w$ P# J GS Garrison Support (US Army term). 9 s7 j! O: V* N! t" vGSA General Services Administration (US). 5 \* x/ m$ r+ XGSDC Ground Station Demonstration Lab. $ Y" D) ]% t; s; w7 ~5 F3 Y8 ~( j2 i3 {GSE (1) Ground Support Equipment. (2) Government Support Equipment. ) U! z8 H, y1 D2 W$ OGSFC Goddard Space Flight Center, Greenbelt, MD. " y4 r2 C! f* }% D9 YGSII Government Services Information Infrastructure. $ {0 B6 r7 Z6 S- }GSM Ground Station Module.6 q: E7 s" y+ ?3 v- E8 e3 y GSO Geo-stationary Orbit. 8 O2 [4 O4 B5 y4 d1 TGSR Ground Station Radar. % R h6 T& |$ W* gGSTS OBSOLETE. A fast-response, rocket-launched, Long Wavelength Infrared ( \! d- j( k7 u i/ ~9 K(LWIR) and visible waveband sensor, which would have enhanced the & D+ y1 t! |- E* Tinformation available from the SDS’ midcourse sensor suite by providing tracking / r' h7 j+ e! rand discrimination data on potentially lethal targets.) K5 H6 J6 g& [9 c4 E I; G3 e GSTS (F) GSTS Farm. 0 q% d$ u: d4 A- q( ^+ zGTA Ground Test Accelerator. ' J! A& B8 h+ iGTACS Ground Theater Air Control System.2 G4 f' h2 M% |, u GTE GTE Corporation.9 ?+ B& A- G' a" G8 p( A2 |# F GTF Guided Test Flights.; {% K( y2 D; M) U# P GTM Global Track Manager.: A4 M* k- V5 ?0 r( Y; b; t. R GTN General Technical Note.# a1 J2 X: u) {: n7 a' B! i/ _ GTR Gulf Test Range, Eglin AFB, FL.' K. [' S6 W7 L# R: {- d: K GTSF Guidance Test and Simulation Facility (PATRIOT), Huntsville, AL. " g* }$ B2 o4 x: DGTV Guided Test Vehicle.1 i+ a. H. u z# T7 V( P/ j GUI Graphic User Interface.! R0 M n/ _3 h- l/ H" S MDA GLOSSARY, VER. 4.0 G , G3 d% p! d w* k: r7 C1234 ^/ D7 k$ l1 z/ t Guidance (1) Direction, altitude control, and navigation (where appropriate) of sensors0 A$ t4 h, S) V: _& a: e or interceptor vehicles. # ?5 r3 @! M! @" f0 _/ W* F2 S4 h(2) The entire process by which target intelligence information received by a & C+ f: ^% H0 l! X" Oguided missile is used to effect proper flight control to cause timely$ U$ ] b" d5 W6 L: D0 S direction changes for effective target interception. 0 r3 n- \1 K z' P+ p* ]Guidance7 W2 |9 V; [* i! \3 P/ v7 t+ k Enhanced1 J5 q: `% h( R& a6 b0 }" L Missile (GEM)5 X. B7 a6 }9 W% f3 O7 F0 D9 L. s A companion program to PATRIOT PAC-2, which includes enhancements to the4 \* l1 y2 j# R: o' d radar to increase intercept range and performance. ( B5 Z, N; [: _* L s% X/ V, `) L5 NGuidance 6 u2 q* n6 \* f" \% T- _9 PSystem (Missile) 9 T2 E; `/ {7 R, ?4 P9 g' X' l& M4 k9 ^A system, which evaluates flight information, correlates it with target data, 5 X5 M# L" P" C( Ddetermines the desired flight path of the missile, and communicates the , B" R5 u( V9 }3 p. j2 u+ L0 Hnecessary commands to the missile flight control system." K S1 `* s7 \& o. e; u Guided Missile An unmanned vehicle moving above the surface of the earth, whose trajectory or 9 p. l6 ^+ s: J) U) v# _flight path is capable of being altered by an external or internal mechanism. 1 ^+ E n4 C, a3 ^$ N* r- u/ t0 D4 YGVSC Generic VHSIC (Very High Speed Integrated Circuit) Spaceborne Computer. 6 q! z/ t( D4 m# F+ D) S2 F1 TGWAPS Gulf War Air Power Survey, 1994 [a DoD-sponsored survey]. + i; t' Z( O0 u9 u1 dGwd Giga watt-days." a6 r" M5 ?! s: a" |, G GWEN Ground Wave Emergency Network.7 U# l' A: z0 Z) o2 H# t" C, X GZ Ground Zero. 8 p' ]( @8 Z3 r$ qMDA GLOSSARY, VER. 4.0 H. y. e, }" ^0 Z0 @- r7 w+ p( @ 124( A7 u' ], `0 a0 |$ _5 x3 q' J/ _ H Hour. 0 }0 y! n! N0 Q* @ ~) UH&S Health and Status. 4 y2 \4 \- m7 R) G- G. `H/W Hardware.; V5 X5 \% P, I" x4 o HA Higher Authority. 1 m: w; u- B8 c# t: Q3 C- f/ v* JHABE High Altitude Balloon Experiment.' P% f! T) j2 z7 _' N2 Q HAC House Appropriations Committee (US).6 N8 Y( q, g& I" C n+ c" L! i) R HADS High Altitude Defense System.! B: @" S+ d& a HALE High Altitude Long-Endurance. 2 Q+ k0 x; G7 m% j# KHALE UAV High Altitude Long Endurance Unmanned Aerial Vehicle. $ h# T6 N3 ~: KHalf-Value 6 p+ F4 s: {9 ?Thickness (HVT) 7 z! q3 W2 S5 r, KThe thickness of a given material, which will absorb half the gamma radiation + g* a# B4 b' _4 r5 {+ Zincident upon it. This thickness is inversely proportional to its density and also/ _2 W4 q6 D/ Q. H8 X. q! `- i depends on the energy of the gamma rays. ; e3 \9 B) J7 ]( `HALO II High Altitude Observatory II - t) ]* U1 G0 ?$ EHAMS Hardness Assurance, Maintenance and Surveillance. ) {) \4 S8 r9 \0 A8 ZHandoff This occurs when information on positions, velocities and tracks are given by one4 t! p. d( k; h! B# b sensor or system to another and the first sensor or system continues to track the # s$ C$ H& C0 {4 }objects. ( S+ g6 X9 m0 W7 e: H' @Handover This occurs when information is passed on to another sensor or system in which " L5 A4 K9 _5 ^% H: Hthe first does not continue to track. , p* p1 c& }, `4 lHAOI High Altitude Optical Imaging.

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HAOIS High Altitude Optical Imaging System.3 J5 F! a7 o5 ^5 c. @; b HAP High Altitude Probe. ) {- a3 a6 ~: w, e; j" }& KHard Kill (HK) Destruction of a target in such a way as to produce unambiguous visible 3 M* X' g- r6 R! {1 u* Xevidence of its neutralization. ! |% N" a' f/ J. Q" f: |; z3 A, |Hardening Design and manufacturing process and other measures, which may be employed ' B( c" J" f, E& M' Oto render military assets less vulnerable./ s, ^4 E% k" m HARDMAN Hardware/Military Manpower Integration (Navy ILS term).: j2 ~- j. C9 C T4 N/ @ Hardness A property of a target; measured by the power needed per unit area to destroy ' E8 A+ h; s# cthe target. A hard target is more difficult to kill than a soft target." I: A- N0 p/ h: E, `1 N Hardware-in-the- ( t9 b% ~1 ?1 i! _Loop (HWIL)7 e9 R+ K6 N1 s9 j4 E Tests in which BM/C3 computer and communication test systems will be in, o* {3 ?0 H9 L3 { communication with some of the hardware test facilities developed for other BMD : Q. D8 |$ c3 f9 O8 w6 w y* `technology programs.$ U) p% C& E6 T/ x* G! v6 C+ Z Hardware$ P0 E& L. R( `8 h5 |6 N0 d/ k1 h y Security " A9 k6 U6 ]" t- ^& @# ]+ ?# [+ ZComputer equipment features or devices used in an ADP system to preclude0 Q' K$ G- t3 m& o4 B+ i unauthorized access to data or system resources. # _3 Q9 y. n) }0 R) [8 _* A+ yHARM High Speed Anti-Radiation Missile.; a, I" Y! p0 G- L v MDA GLOSSARY, VER. 4.0 H 8 y7 v4 d$ o. l( y& O+ x125 6 Z5 f* F: ~, e4 @) [HASC House Armed Services Committee (US).: l' f) P% `. l6 k! V- u. L HASP Hardened Ada Signal Processor.$ r% W; \+ ~) G: j HATELM High-speed Anti-TEL Missile.6 l, z( Q3 E5 z5 [0 Y HATMD High-Altitude Theater Missile Defense. (U.S. Army) - A3 O7 P( [( p2 H$ nHAVE STARE Name assigned a proven sensor capability.- }, H% g% i) u1 W5 Y* H HAWK Homing All-the-Way Killer. - C( U' O* v# o/ B9 P$ W( R' tHBCU/MI Historically Black Colleges and Universities/Minority Institutions.& o6 i' d; R4 ]! ~ HBHO Hard-body Hand-over [algorithms].' A3 B9 [) W8 Q5 P. x# x6 t5 D( K HCO High Consequence Option (Safety Engineering term). k8 r! F/ u# a; S( w' X" E. Y HCT Mercury Cadmium Telluride.' K+ K6 `1 B% B7 V- d HDA Hybrid Detector Assembly.& B& S/ b$ ^- y5 }7 { p2 ` HDBK Handbook.5 G! {5 G# q. u. | HDR High Data Rate.9 |0 @# t/ Z+ c T, Q8 b1 o HDX Half Duplex (TelComm/Computer term).* {0 F) O9 J y+ F4 B HE (1) High Explosive. (2) High Energy.! |$ p4 ?# R9 h ? Health and Status$ H1 p0 T, ~& C1 d* Z) S' _ (H&S)1 M- i: X; a- M$ Z Health and Status pertains to a unit’s ability to assess the conditions of its ; O- j( k3 |" M) Z/ r6 bsubsystem functions. The term H&S is used for units in remote locations, such6 Z! ?* d9 O& i as satellites, where ground controls must interface with BITE to determine : c: T0 Y. g8 J; z- T7 u2 Joperational status of the satellite and its equipment.+ |/ n, @' Z9 S' l s* z) P( a Heavy Replicas 8 Y2 q0 i7 m/ x8 Y( e% w/ Y(HREPS) # H' S% P5 U7 u+ @2 }& ~Decoys, which by virtue of shape, size, and mass, closely approximate an RV’s 3 i6 X* E+ ~; I& n U. s; gsignature. HREPS have significant off- load penalty.8 @3 A; R* b( C4 G4 f7 K# n V HEDI OBSOLETE. See High Endoatmospheric Defense Interceptor.: f. R& D+ Q4 i! ?) f) L" N1 l1 u HEDR High Endoatmospheric Defense Radar. % { u5 V! e' \; LHEDS High Endoatmospheric Defense System. % m2 e7 @3 I% B' g. vHEI High Endoatmospheric Interceptor. . [' s1 V$ B9 E8 d. A0 ?7 xHEL High Energy Laser.! c3 b+ }' H# p2 B( o2 g HELKS High Energy Laser Kill System. 0 U1 U; w+ |( @1 W( h: xHELLO High Energy Laser Light Opportunity. $ r& h* A( ?1 @ k# B) nHELSTF High Energy Laser Systems Test Facility.2 u& x. F1 I2 z HELWS High Energy Laser Weapon System. f0 d! `5 ?' c/ c! T) bHEMP High Altitude Electromagnetic Pulse./ b' E% v2 x. q J. A1 t7 T4 U) p MDA GLOSSARY, VER. 4.0 H+ A! ?( [9 ?+ r6 p0 X 126 & Z2 ^0 D; |2 N4 jHEMTT Heavy Expanded Mobility Tactical Truck (US Army prime mover). 0 N0 \, ?3 U- XHen House Soviet area defense radar used as a component of the Moscow ABM system ; `$ v4 s9 b$ `8 h5 D; f. N# W" hthat provides VHF coverage of space to monitor orbiting satellites and early" _3 C9 K7 }2 A' c5 |9 ^) \ warning of ICBMs launched from the U.S.7 b5 Z) M1 G. e9 R HEO See High Earth Orbit. Z" M. F7 g+ h- l/ f! X7 d HERA (1) An improved surrogate TBM test target.. m; `- j$ i+ d8 ]; x l. n2 } (2) Two-stage, ground launched solid propellant theater target vehicle. (MDA * O% ^+ y8 O! }1 H! h4 vLexicon)/ ~. V1 W) G& D! w, p( K5 v: d7 V HERO Hazards of Electromagnetic Radiation to Ordnance (SM-2 Bk IVA)., l' ]* O: p6 \' b2 O HESP High Efficiency Solar Panel. 4 J, D3 N; O8 R5 Y9 Z& eHEU Highly Enriched Uranium. 6 ~: G* p2 D4 V. k7 THF (1) High Frequency. (2) Hydrogen fluoride.7 {# q3 {% z4 ? HF/DF (1) High Frequency/Direction Finding.- q2 _/ V; v& `9 f# k7 T (2) Hydrogen Fluoride/Deuterium Fluoride. (Chemicals used in IR chemical! Y% d4 j, A7 q6 `& k/ N3 [ lasers). % W. T# ^% N: g6 _6 VHFCNR High Frequency Combat Net Radio.9 _- g E& l- K$ Y1 T HFE Human Factors Engineering. * \* }2 X/ D( _; \1 XHgCdTe Mercury Cadmium Telluride. 9 M& J) J4 j! uHHB Headquarters and Headquarters Battery. % T2 y8 p% W% L* t1 ] t* SHIBEX High-Acceleration Boost Experiment. 3 @. {! d( j0 z! _HIBREL High Brightness Relay.0 h; W, ]% H, ^$ M: o HIC Human-in-Control.% Y2 t; P, w4 U HICOM High Command (Navy term).7 `7 [% W7 k( n. ?( P$ U5 S HICTB Human-in-Control Test Bed. : _2 k+ e( Y) V3 g5 K. A; s9 LHIDACZ High Density Aerospace Control Zone.; Y* \( R/ P, \9 @3 u( n5 T6 o+ o HIDAR High Data Rate.; r |2 I$ u7 R2 Y$ x% m High Earth Orbit ) d3 W) \& T" N(HEO) j0 p9 t$ C, j0 Z( YAn orbit about the earth at an altitude greater than 3,000 nautical miles (about; n( R$ z8 d% N' [ 5,600 kilometers).) M3 w) B( E% b- G1 f# S High! a* d7 ], b: d Endoatmosphere + f: x9 O8 t2 d7 p* Y% {: M6 mThat portion of the earth’s atmosphere, generally above 40 km altitude. * ^/ P* u! {! s! ]8 Z7 M* OHigh* V+ \& ~. U8 W Endoatmospheric) Z, @6 U9 q& |1 o2 h3 f: p Defense- }1 I( S: P2 {0 A' ^7 Y Interceptor (HEDI) ( l1 q+ g! V' a! S! b1 T" o! pOBSOLETE. Interceptor concept designed to engage RVs within the (upper or # n: ?& T5 }3 c. vhigh endo) atmosphere. (Predecessor to Endo-Exoatmospheric Interceptor+ Q$ ^, T% w V8 G (E2I).) 1 d2 x. _1 b3 D8 X, K; P$ R' ^9 \MDA GLOSSARY, VER. 4.0 H* L" M3 r4 d$ O. a' L1 H M 127& @' n3 o7 B5 v% p4 Q8 r4 K! E High Density4 j# c: _- J- N. E9 g Aerospace 8 s7 U- a* {. n2 ^2 OControl Zone/ J4 ]7 e0 S3 v2 e$ e4 Y, v9 D* s (HIDACZ) + {% x+ f" L; v2 HAirspace designated in an airspace control plan or airspace control order, in# f' N' m" f" t( X which there is a concentrated employment of various weapons and users. A# M! m I5 I+ o HIDACZ has defined dimensions, that usually coincide with geographical 1 I. p# B( w, N2 c Tfeatures or navigational aides. Access to a HIDACZ is normally controlled by the + Z; V- D8 ^7 w# _7 k) I G+ O6 dmaneuver commander. The maneuver commander can also direct a more3 E5 |6 i/ a( _/ N$ ~. H3 S. h restrictive weapons status within the HIDACZ. & b( h1 g: a5 C: e9 bHigher Authority$ j! O4 _0 o/ @/ d0 u3 T# w* i Interface6 f% P" a6 Q3 k$ g Policy, strategy, doctrine, readiness conditions, and rules of engagement from0 l2 G: `( g2 w( c+ h higher authorities for use by the defense system in conducting system% ~5 n' [ h9 p# n operations including specific orders specifying actions such as testing, defense 5 Z8 p, Q+ u4 B, d1 Y0 _enabling, pre-delegation of authority, etc. Also the reporting of situation ; w+ W+ T0 E/ P) s4 i! Nassessment and system readiness to higher authority.# o! U* s. s$ l% r High Order% Z# j# n3 `* N' V6 C! d Language (HOL)$ l- q+ W; J* M8 s: _ A programming language that requires little knowledge of the computer on which % z1 d, o3 q6 N5 [" _a program will run, can be translated into several different machine languages,( J; L0 v, _3 P/ h allows symbolic naming of operations and addresses, provides features ; n5 {9 a2 c O$ W( g5 Sdesigned to facilitate expression of data structures and program logic, and 0 q( q, H% D: tusually results in several machine instructions for each program statement. % M( j" } U8 Y2 c7 {7 {! Y4 k$ UHIL Human In-the-Loop. . e2 D% h9 f, |0 {3 OHIMAD High to Medium Altitude Air Defense.6 e3 d4 L7 b* ]0 _1 u/ { HIMEZ High Altitude Missile Engagement Zone. 0 P! e: A. p1 _8 i2 fHIP Hot Isostatic Processing. - L, B- w; v& O7 h, z+ \; |1 }HIRAM High Resolution Infrared Auroral Measurements.0 ^# C8 R. [* m4 n/ ] r HISEM High Speed Environmental Multi-burst Model." L3 z' E& a" i+ Z HIT (1) Heterojuncture Internal Photomissive. (2) Homing Interceptor Technology.# p1 {) S; e( w- [9 W. P" | HK Hard Kill. ) U% h9 s) Z0 Z- A7 M7 n/ sHKV Hit to Kill Vehicle. ; O# k% m5 Z/ M9 d! WHLD Hardware Description Language.6 U: ~2 k3 X7 N% y HLLV Heavy Lift Launch Vehicle.( `7 M9 {# ~' y; B0 ~# r3 C HMC&M Hazardous Material Control and Management. 7 O, t8 T+ g2 s/ BHMI Human Machine Interface.# v4 `- N8 C& [% d+ a HMMWV High Mobility Mutli-purpose Whealed Vehicle (USA term) (pronounced Hum Vee). ; W$ b5 _7 ?* |0 b2 t' x$ tHMPC Hazardous Maintenance Procedure Code.) n& ]3 \1 I( ?$ ^# z; C1 \7 p! ?7 T HMSC Hughes Missile System Corporation. 4 F% _6 j$ {; @6 C4 Q# Y. @HOB Height of Burst.6 W6 ?& K# ~: H2 d HOE OBSOLETE. Homing Overlay Experiment. (Predecessor program to , K0 _" I! Y" n" I) ~% s% QExoatmospheric Reentry Vehicle Interceptor Subsystem (ERIS).) 9 q; |$ ]+ R3 {" r9 J {( a; R0 q* k+ oHOL High Order Language. 9 ~$ i4 P5 x; m: O7 E4 qMDA GLOSSARY, VER. 4.0 H ~# ?0 F; z0 ~! M0 e# ~$ W! Y128 , i* g# a5 E. DHoming All-the- w3 M5 a, W+ X# l$ c! C( L Way Killer ' v, O" N a# b) C _(HAWK) ( K" c' c ^/ c c- n& H2 S0 [(1) Upgrades to the HAWK interceptor and radar system to provide the3 X! B* X; a" \4 Y; i Marine Corps with a mobile point theater ballistic missile defense 8 A6 M; c$ {- m" K2 rcapability.- z: G6 Q! ?( M W9 W2 C (2) A mobile air defense artillery, surface-to-air missile system that provides1 n( F. e: i1 q2 O, v& g non-nuclear, low to medium altitude air defense coverage for ground 9 B1 `/ ~7 F- j2 w9 Y8 ~' e% Sforces. Designated as MIM-23.# S/ _$ y1 A" |2 ~ Homing Device A device, mounted on a missile, to aid its guidance to a target. The homing / h- i7 B- Z" S7 K5 h I5 [7 W( L" idevice uses sensors to detect the position of, or to help predict the future 6 V, `) D3 B( b, ^) dposition of a target, and then directs the missile to intercept it. The homing' ]5 e1 ?* b* i device usually provides frequent target position updates during the flight of the$ I; }7 W6 ^1 j; C5 ~ missile. 3 a% g2 n1 C0 }) K5 q% FHoming 7 S2 l$ p& O* k* A9 G5 kGuidance7 [8 k u. @! r" V; M. w8 w+ w A system by which a missile steers itself towards a target by means of a selfcontained mechanism which is activated by some distinguishing characteristics of @3 \4 P- g2 ]7 j2 S the target, such as an infrared signature. ' [) j, A- Y7 e1 d- T. W' mHOMS Homing Overlay Mission Simulation.% v) B0 B8 d! w' `: c- s: t/ i HOST Hardened Optical Sensor Testbed." @+ U! m. I) W/ Z6 V0 G Host Installation A designated DoD facility that provides non peculiar SDS support of SDS: [" \2 j4 Z4 N0 m1 f" y elements. ; v! ^- s+ ~( D2 b) x6 k( H6 b, u0 ?Hostile ' k( s* O$ J7 U- _Environment m2 M" x4 B3 m/ {0 R5 j Those environments that result from a BMD system engagement of an enemy4 S0 w o a* @7 _* s5 F( P5 f threat or collateral conditions resulting from deliberate hostilities. Hostile k8 l1 R& {4 L- J0 \environment categories currently applicable to National Missile Defense are # G) Y& w- I7 F7 O) E! INuclear, Battle Debris, and Electronic Warfare. # g s4 ~% w. I) H* I# eHostile Track The classification assigned to a track that, based upon established criteria, is & I/ ^& t4 r: c% N* udetermined to be an enemy threat. , V( f6 }8 O, O: \Host Interface The interface between a communications processor and a host computer. 5 Y0 V B& r9 A& h- W3 ^/ hHost Nation 9 x! o, |2 S: m# p! V( r. b/ NSupport% G3 ~5 Y1 h( R3 l& G/ { Civil and/or military assistance rendered by a nation to foreign forces within its # R. A8 B8 t/ g% A6 [% S, b3 ]territory during peacetime, crisis or emergencies, or war based on agreements ; j. r2 V% S( T7 H4 ~+ c# ]concluded between nations.5 N$ I' v, v9 z6 c+ y hp Horsepower.) n* Z7 c2 }) `% E; \. c5 ] HPA High Power Amplifier. ) i/ S1 s0 A' u0 I8 ^HPC High Performance Computing.' H# ?7 u" i# ]0 p5 \8 D' N HPCC High Performance Computing and Communications.2 G+ R# a+ g" R HPG Homopolar Generator.9 P" |% t4 C; y( j. A _- t+ J HPI High Power Illuminator (Hawk).6 k; Z3 S8 e! N2 d HPIR High Power Illuminator Radar. 7 T2 g1 ?0 C. Z1 u: F8 Q% K5 C' xHPL High Power Laser.+ J* Z4 ?, |* G6 G HPM High Power Microwave.& ~4 F; s& @1 F! v4 U8 E( G HQ Headquarters.' L- r" y1 c1 y5 w# Y2 ` MDA GLOSSARY, VER. 4.0 H / e8 g: C/ ]8 K- ^6 R129 & q+ I# N5 s* L) _5 p- HHQMC Headquarters, Marine Corps.3 F' S9 x P2 X, k: D# o. P+ n/ v HRDS High Resolution Display System. 5 l, M4 b( p5 U+ t# SHREPS Heavy Replicas.! c6 G- q2 i: m; {) |. O8 q9 z HRR High Range Resolution.) V0 v- L- c" F$ a HRSA HICTB Requirements, Support and Analysis.7 q5 w0 }+ ?' M- j( \9 T HSDB High Speed Data Bus (TelComm/Computer term). ' h) i% J: Z8 T% P2 Z; mHSFB High Speed Fleet Broadcast (Navy term). $ e* t/ Q& [# F/ p9 GHSI Human Systems Integration.% b3 I/ q! L; U' P% _) S7 Q HSV Huntsville, Alabama. . `' O4 C# n6 ?" qHTICIA High Technology Crime Investigation Association. * ?0 f# ~. M5 e$ RHTI Horizontal Technology Initiative.! T" L3 b7 `8 p! P, [) S HTK Hit-to-Kill. W% u; }' {# {3 X& d6 u" O& H% C HTMIAC High Temperature Materials Information Analysis Center.' n) w# o. B% w8 X5 \8 ]' L) ] ] HTML Hypertext Markup Language. % L! N1 a# f$ |: qHTPB Hydroxy-Terminated Poly Butadiene.: @" g7 ~" [8 A+ E8 ^: I) c! n5 X HTS (1) High Temperature Super-conducting. (2) Hawaii Tracking Station. O" I5 S; z2 o# p! g HTSA Host Tenant Support Agreement. 7 N/ ~9 y% j7 y, g- jHTSS Hardened- sub-miniature Telemetry and Sensor System.( D. t/ @8 R) M: t$ v, @ HTTP Hypertext Transfer Protocol.: Q% F, c0 g% z% ~7 w3 ?. z d. \- D HUD Heads Up Display. 4 Y4 G* @4 o6 H g4 YHuman Factors A body of scientific facts about human characteristics. The term covers all 2 J ?4 V+ l& a0 U0 J; Rbiomedical and psychosocial considerations; it includes, but is not limited to, / ]0 S x) P$ n% Z5 H) R* Dprinciples and applications in the areas of human engineering, personnel 9 k C* D1 L6 O# a9 D6 pselection, training, life support, job performance aids, and human performance# _+ ?8 V5 p: P evaluation.- m% j) _& V1 P8 z$ h Human Factors0 D4 S% O+ B, n b! t, { Engineering 1 n7 ?7 u9 t' o/ PThe design of man-made devices, systems, and environments to enhance their 5 n7 W. I4 U1 g$ E+ xuse by people. Also called human engineering, human factors, and ergonomics.

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