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发表于 2008-12-25 20:10:24 |只看该作者
Kinetic Kill " K' c% n4 W# ]3 r" r# {+ v0 kVehicle 6 s t: ]5 M: FIntegrated1 _/ C0 L* ?+ n; F: D Technology 6 H% q6 C3 |* f, ZExperiment ?; n$ u) [& j) ]% t(KITE) / J7 V3 U9 } n0 t2 Z9 Q( AA series of test flights at WSMR to demonstrate HEDI technologies.& U/ \# o- E% H KITE (1) Kuiper Infrared Technology Experiment. (2) Kinetic Kill Vehicle Integrated2 q; E7 Z# e) r1 @# y. k Technology Experiment.3 `$ i- b* Q7 q6 `7 [5 z5 _ KKV Kinetic Kill Vehicle.8 S8 p- H6 h9 P# \1 J( U KKVWS Kinetic Kill Vehicle Weapon System.6 I- |; z( c& F KL Kill Level. . q/ C! y) r+ {5 UKm Kilometer.. q( V j( A( |7 x Km/h Kilometer per hour. / o" S- I$ ]8 l/ Z1 U Z7 R3 U UKm/sec Kilometer per Second.3 Q7 z- e- j3 A+ T) g KMCC Kwajalein Mission Control Center.! C0 G. C, J' Z; K# x; G$ I KMR Kwajalein Missile Range. % i6 e* b [2 g3 Z/ w# G+ MKMRSS Kwajelein Missile Range Safety System.# T e. y! B; P! S4 f KPP Key Performance Parameters.7 w, b$ q+ h$ ~ MDA GLOSSARY, VER. 4.0 K ; \/ J! [! A5 }- o, T159 . [$ `& l6 y% N2 T5 pKr Krypton.+ B# K% X4 M/ N0 j1 b+ C KREMS Kiernan Reentry Measurement System. % O2 R( H3 o: z+ S( jKSC Kennedy Space Center, FL.0 R: t+ _4 i; k* `; a Kt Kiloton." Y$ ` U6 o2 D" o KTF Kauai Test Facility, Barking Sands, HI. & u7 h& U v; X- f/ }KTP (1) Key Technical Partner. (2) Key Test Partner (3) Key Technical Parameters. " z9 y V9 Z# Z1 G# ]; S0 ZKts Knots.( ~' N0 J% ~" @/ @' r e! E; | KV Kill Vehicle. 8 H/ I6 Y1 `3 ~8 j) xkw Kilowatt. # y' u( i- `' K3 EKW Kinetic Warhead.5 d$ q" e& n9 g. d: b) | MDA GLOSSARY, VER. 4.0 L( X$ l% B" S4 a2 V9 x 161# P- k2 E% k$ p! i L&TH Lethality and Target Hardening.! ^% `0 ?( r7 M- R4 ~+ ]. m L1SS Level 1 System Simulator.$ i+ y; t% c, E+ Y" \" R L2SS Level 2 System Simulator - NTF. # }* u' Y9 n1 LLAA Limited Access Area. 4 E& m; l7 w1 h) e* ELAAD Low Altitude Air Defense. " m# C5 v3 l: V, m/ t! VLAAFB Los Angeles Air Force Base, CA.; ^" c7 [4 y+ }" y5 F; s* a* ~/ o LABCOM Laboratory Command. $ }; y4 s% _7 q! A# q2 }LABM Local Area Battle Manager.1 {8 w/ H1 z2 {0 G: B LABP Look Ahead Battle Planner9 h# r, `6 c) M9 A9 D6 w H LAC Low Authority Control. ; Y0 t1 Z& G% e O, [+ CLACE Laser Atmospheric Compensation Experiment (an SDIO/NRL satellite launched# L1 B6 h% U% h February 1990 and turned off July 1993).; u7 M; \' Z- y' M2 ~* G LACM Land Attack Cruise Missile. ( {& m/ W6 g& u4 f* m/ N) L/ ALADAR Laser Detection and Ranging. . y/ Q2 ]. @! F; C: I& x" BLaddering Down A hypothetical technique for overcoming a terminal phase missile defense. % Z+ r0 B8 T% R7 N M+ I0 eSuccessive salvos of salvage-fused RVs attack. The detonations of one salvo- r, I, ]1 o8 O2 G W- ?1 B disable local ABM abilities so that following salvos are able to approach the " s9 [! V* G7 }: [0 _& O& ?target more closely before being, in turn, intercepted. Eventually, by repeating# H8 E. g9 r: h; Z1 T- _ the process, the target is reached and destroyed. / c8 M- u) L8 f, cLADL Lightweight Air Defense Launcher (USA TBMD term).3 Q+ S4 l& L1 J E$ ?. i2 B# V LADS Low Altitude Demonstration System. , `# m }, _" h5 Q, iLAFB Langley AFB, VA.. L7 P# J/ j; G: P$ `( y LAMP Large Advanced Mirror Program. * S7 }- {& |7 {9 Y# nLAN Local Area Network. 4 h$ J% n' E/ y8 ], A! D3 KLandsat Land Satellite (NASA program’s satellite).6 ?$ W1 [1 t3 Q. D* U6 I LANL Los Alamos National Laboratory, NM. 7 { |; `0 X! S4 tLANTRINS Low Altitude Navigation and Targeting Infrared Night System.- ^4 C: k& ^; K, A7 { LAO Limited Attack Option. Y q- K' W" }LAPL Lead Allowance Parts List (Navy term). j6 R4 w" }6 L }LARC Langley Research Center, Hampton, VA. 1 y% i7 `2 {/ C) @3 u* O+ nMDA GLOSSARY, VER. 4.0 L 4 ~$ v9 k. t% ^, o* Y& ^2 @% V162 8 x' O8 q( i$ c/ D- M0 W0 bLarge Optics The technology of constructing and employing mirrors over 1 m aperture to direct* \8 r5 ?: U5 p& B and control high power beam weapons/systems with large coverage, or to+ w5 y3 t8 i; Z; [( F provide high resolution or high sensitivity for detection and/or imaging. . t: R1 {! T1 yLASA Large Aperture Seismic Array. : x' L' Q" c4 {& N2 Q8 O, fLasant A material that can be stimulated to produce laser light. Many materials can be6 s8 O) i: s% G2 n1 F! a4 z used as lasants; these can be in solid, liquid, or gaseous form (consisting of2 c7 l2 C0 ]7 G' ? molecules including excimers or atoms) or in the form of plasma (consisting of + D/ B( X' a# I6 X0 n4 eions and electrons). Lasant materials useful in high energy lasers include carbon ' J- J' r# K9 g* {* D- ^dioxide, carbon monoxide, deuterium fluoride, hydrogen fluoride, iodine, xenon" z" T! @3 |$ N; H' \ chloride, krypton fluoride, and selenium, to mention but a few. - {2 B0 N5 g& V7 KLASE LIDAR Acquisition and Sizing Experiment.* [3 h( y9 S' N; c: z Laser An active electron device that converts input power into a very narrow, intense ' d# Y. ^1 v- s, g( F" K. ]0 wbeam of coherent visible or infrared light; the input power excites the atoms of an8 Q" `" V" n' @- S5 L: u8 V- i optical resonator to a higher energy level, and the resonator forces the excited 6 m1 `, T# z: ~0 V! L- watoms to radiate in phase. Derived from Light Amplification by Stimulated) k) l# W# h7 \0 k% ]6 O+ d0 Q: J Emission of Radiation and classified from Class I - Class IV according to its ( I8 t0 L. p7 i. f B9 p) Kpotential for causing damage to the eye.) `9 k5 ?- _& \6 \! {- d6 G Laser Designator A device that emits a beam of laser energy to mark a specific place or object. $ Z% x- A+ K# H4 K2 hLaser Detection: O' D' k8 Y5 u: M, W' R and Ranging 3 B& H3 p4 r5 `' i2 l5 ~0 u0 U( ](LADAR)3 ^+ c/ @$ |3 }% o: x0 `, q# T& x A technique analogous to radar, but which uses laser light rather than radio or 2 j$ D& z# h: {- p! g" U' Zmicrowaves. The light is bounced off a target and then detected, with the return* [- ?' X' `' A8 m! D3 G2 v beam providing information on the distance and velocity of the target.5 j7 q0 A' d+ b Laser Guided 5 E3 U$ X9 j/ TWeapon0 D: I. J; \3 T( y A weapon that uses a seeker to detect laser energy reflected from a laser/ ?! u+ b' S3 i3 `. ]" J. u marker/designated target and, through signal processing, provides guidance [! C9 y! b6 a4 Y$ a, n0 Rcommands to a control system. The control system then guides the weapon to . W. c- z; u F- f2 P1 y/ |+ j! ethe point from which the laser energy is being reflected. $ i# ?% j% B6 a( X+ jLaser Imaging ) p9 j6 z m' X3 X# b, z4 N# o, nRadar 5 G$ f1 w4 a6 @! ~. F8 m$ C* {5 c# d8 S' fA technology whereby a laser beam can be used in a way similar to the use of a - t' b& f) C( [& B3 C( I0 t0 x# pradar beam to produce a high-quality image of an object." S( y5 L+ k* E' o% i Laser Optics Technology associated with the use and control of laser beams with flux greater 1 ~$ ~$ y( x! |' [, Q0 Hthan 1 watt/cm2. % x y6 E9 K! YLaser Seeker A device based on a direction sensitive receiver that detects the energy reflected8 K* y; P- @& N# s# f from a laser designated target and defines the direction of the target relative to ' M4 n3 [4 D. p- B: V% ^5 Nthe receiver. See also laser guided weapon. $ S; A9 M2 e! f. e' y/ X) k' gLaser Target5 m' O6 E+ z$ Z. [* f Designating% M/ p3 ?: _# U( j System ( k3 b! ?7 f BA system that is used to direct (aim or point) laser energy at a target. The 1 m$ p6 R" J7 L7 p7 N4 @system consists of the laser designator or laser target marker with its display and " p" B2 a3 u% c8 s- b7 m. tcontrol components necessary to acquire the target and direct the beam of the5 ~3 S3 D8 P- |8 H% j8 C. z laser energy thereon. " M4 I( A+ i& w0 BLaser Tracker A device that locks on to the reflected energy from a laser marked/designated ) A, D: v/ ~+ P5 ? I& Band defines the direction of the target relative to itself. 0 ?$ k) r! b) S7 r) }( XLaser Weapons Devices, such as photon generators, which produce a narrow beam of coherent: E& `+ @1 C( i4 f, @ radiated power greater than 1 MW.3 f3 x. u4 V. x' R7 O LASERCOM Laser Communications. 0 R- k( P/ @1 l4 z* k8 cLATS Long Wave Infrared Advanced Technology Seeker/Sensor.

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发表于 2008-12-25 20:10:36 |只看该作者
MDA GLOSSARY, VER. 4.0 L4 B( m* ]5 B1 j# [$ l* b8 x% E 163 ' q4 N6 N# j1 u9 m5 WLaunch Azimuth Missile launch location measured in degrees clockwise from the local northpointing longitude line at the launch site. (USSPACECOM) ) ?9 P) q9 g( }2 RLaunch Detection Initial indication by any one of a variety of sensors that a booster has been 6 a+ W8 B% h. p) {3 @" y; @% [* dlaunched from some point on the surface of the earth, with initial characterization . Q3 }+ @( f) n$ |9 ]6 ^of the booster type. (USSPACECOM): A/ w6 C; K" F: Q4 o1 X7 P Launch Point ' m4 |7 [8 @( P' D2 g& jDetermination % R9 U. f8 Z# E% wWith computer methods, uses missile track observation to estimate the point on + }. ]& h9 D! z, W% h# F$ kthe earth’s surface from which the missile was launched, expressed in terms of( h5 ~4 T3 S1 w6 T1 n5 p circular error probable.+ K+ D/ t4 A4 ^/ A Launch Under. t' V' ~0 ~, E h4 J7 Z Attack (LUA)2 T- ]( j& P. _5 O1 F' [ Execution by National Command Authorities of Single Integrated Operational# v% e/ V0 {" B- M, c% z: {0 `1 N6 P Plan forces subsequent to tactical warning of strategic nuclear attack against the/ j$ j& Z* B' G! N. j$ h United States and prior to first impact. % R$ I1 r) [' b: p; s& vLaunch W9 M, [1 m; y0 ~/ V9 G7 F Verification/ B' g8 g& ~! p- G& u8 f5 N Confirmation of a detection of a booster launch by receiving a report from a$ i, t0 Y2 t+ y L3 Z sensor separate and independent of the sensor that initially detected a specific1 L6 m1 N% h3 B" e9 I) B7 m booster launch. # u2 u" ?7 o1 n/ H/ L3 X2 A0 sLayered Defense A defense that consists of several sets of weapons that operates at different 1 ]: ^+ [+ ?+ {0 j% zphases in the trajectory of a ballistic missile. Thus, there could be a first layer 3 K, [' ^. Y: S(e.g., boost phase) of defense with remaining targets passed on to succeeding ' k' j ?2 `% F2 C- |8 i9 ^0 f& Ylayers (e.g., midcourse, terminal). & m) g3 j2 f8 n hlb Pound.: t4 @% X1 R; {4 D, ^. K LBL Lawrence Berkeley Laboratory, Berkeley, CA.! y7 v1 E, T; F8 ` LBM Localized Battle Management/Manager(s).9 e l. x# a$ k2 M \; V LBTS Land Based Test Site.( @3 K5 e7 Z% i8 S% X LCC (1) See Life-Cycle Cost. (2) Launch Control Center. 6 e% P* Z9 p: M, j Y9 @LCCE (1) Life-Cycle Cost. (2) Launch Control Center. (3) Land Component . F) G! f# P1 q4 s7 h, l, ACommander (JCS term).9 r; Y* C0 M5 ]! R LCCS Life-Cycle Contractor Support.% Q t( \5 _1 \+ F% k7 ]2 K0 r+ O LCF Launch Control Facility.) K: \1 O! c" A3 P) E4 |0 _ [0 z LCM (1) Life Cycle Management.) h, D1 D5 _7 ]: U6 G (2) Lightweight Communications Module (USAF TelComms/Computer term)./ Y4 Y# w/ |# Z2 _2 h LCN Logistics Control Number (ILS term).8 S' N" F6 } ]( ]% g0 {* K LCOM Logistics Composite Model. 5 \5 s$ v& w$ n& x% `* d# O( oLCN Logistics Control Number (ILS term)./ ?; L9 H& U1 }* v- a k6 i, Y) j LCS Laser Crosslink System.7 F# m7 x, A4 t% h9 } LDC Less Developed Country.% A8 u. x9 r9 c( d: M LDS (1) Layered Defense System. (2) Lexington Discrimination System. (3) Limited2 B* |& k1 q, ~! U. N4 H$ _ Defense System.! |; V: l* M: b MDA GLOSSARY, VER. 4.0 L $ ]9 Z% X, d& z; U0 k9 P164 & z' A# `" l. G1 zLE Lethality Enhancer (PAC-3).6 l. d% U! v0 h' F Lead Component/8 n+ _0 D% K" h/ G; Y$ L g0 z( j Service : E4 I8 s/ e8 I. d. oThe DoD Component designated by SECDEF to be responsible for management% w, ?; w% M/ {3 k of a system acquisition involving two or more DoD Components in a joint" l# w8 ?- _% X, e2 q: o8 c- K3 T p program.- f5 A5 K3 \ i% Z2 J: ~ LEAF Law Enforcement Access Field.4 E# a- k' a+ @8 m9 i, D2 k Leakage The allowable threat objects passing through a BMD system expressed as a: ?- X+ ^& d/ W9 V percentage of the threat. To ensure overall system performance, permitted- n4 \) k/ d; s2 `: v/ K3 | leakage is “budgeted” among individual BMD phases and functions./ g4 \: h" \/ r, H4 c j* G Leakage (Max) The maximum allowable threat objects passing through a BMD system expressed . I5 m1 \0 _% o' \$ L6 {* Oas a percentage of the design-to threat. To ensure overall system performance,9 i2 _( [% R& h5 @# S+ g4 }/ }, \ permitted leakage is “budgeted” among individual BMD phases and functions. * j1 I: m( D( |4 |& k* y4 r2 kLEAP Lightweight Exoatmospheric Projectile. : o" I& v4 N8 ?LEASAT Leased Satellite.+ @7 @2 v1 G" r+ @8 {' H Least Privilege This principle requires that each subject in a system be granted the most0 O- c, C0 J* a6 I: i5 M) g- l, G restrictive set of privileges (or lowest clearance) needed for the performance of; p0 w0 o$ \) D, u9 \ authorized tasks. The application of this privilege limits the damage that can 7 q+ o* k' ` \ ~3 j0 Jresult from accident, error, or unauthorized use.0 |- Q5 N3 u: t2 X5 S% _4 J LED (1) Low Endoatmospheric Defense. (2) Light Emitting Diode.4 r! D; ]" r) m* P. R LEDI Low Endoatmospheric Defense Interceptor. ; c3 V4 j8 g- x, ?LEDS (1) Low Endoatmospheric Defense System. 0 D+ M5 r$ H0 ?6 z2 x(2) Link Eleven Display System (USN term).1 W5 Y0 @2 c0 L4 j LEI Low Endoatmospheric Interceptor. ! y# K, f& P1 m7 g. uLEIP Link Eleven Improvement Program (USN term).2 P y4 h) x& z6 f0 }" I. e: r' v- y: u LEL Low Energy Laser.) B( |: |* O5 A* [9 Z LELWS Low Energy Laser Weapon System. + v" s* E8 r3 f1 @/ lLEM Logistics Element Manager (ILS term). , E$ _: h4 y* ^9 |LEO Low Earth Orbit. " I4 |6 ^" E/ `+ `; v0 i2 Y# x* @LETS LWIR Environment and Threat Simulation.; ~) v" \: t+ f( F+ ` Level of Effort C# A+ `' P! z* h8 J B(LOE) 9 v9 c, V& E% L2 v9 U: D' P& z2 jEffort of a general or supportive nature that does not produce definite end: o. Z8 ^5 j9 |( S products or results, e.g. contract man-hours. 9 D4 I: X- R1 [& Y0 F9 sLeverage (1) The advantage gained by boost-phase intercept, when a single booster # N6 v* U& O: h8 t! [# }1 Akill may eliminate many RVs and decoys before they are deployed. This 8 D3 T0 h* X0 s5 l, ^. N& Bcould provide a favorable cost-exchange ratio for the defense and would # e) m9 A/ ]9 y6 ?; L, I9 ?reduce stress on later tiers of the SDS.: [( F4 Q1 H! T4 p/ x (2) In general, the power to act or influence to attain goals./ K2 L/ x$ J! Q+ r LF (1) Landing Force. (2) Low Frequency.5 V3 I. ]5 h# }8 P# n" x MDA GLOSSARY, VER. 4.0 L4 c" ^6 ^3 p! A6 Y8 K; C+ G7 ? 165' q8 T- a P) ~) H6 U9 h! ] LFIE Live Flight Integration Exercise. / W, |8 {* b9 ~- V" p7 E. l( aLFOV Limited Field of View.# `# H( f) j& ~ LFS Loral Federal System, Gaithersburg, MD.0 l1 z0 o! J9 m2 v! S LFT&E Live Fire Test and Evaluation.# t* \; H6 V b& V, F: J+ g6 s LGB Laser Guided Bomb. ; p- s+ L$ a% r$ qLGM (1) Laser Guided Missile. 7 u: k! \; i: r' G' @(2) Loop Group Multiplexer. 0 l' g. [4 m( z( p! o: _: l6 y. eLGSM Light Ground Station Module (USA CECOM term). # N- I( _+ w# x1 }5 z! a' X7 }3 d5 _LHO Amphibious Assault Ship.: r; p$ }" z4 a& y( v0 c' ^9 U Li Lithium.$ e/ L9 O( X$ O& z LIC Low Intensity Conflict. }2 \0 S/ i) ?) \4 @& W% fLIDAR Light Detection and Ranging.# y: |' w: e. a2 R. x r2 m+ p0 _' T8 H Life Cycle (1) The total phases through which an item passes from the time it is initially5 y7 K/ E1 K6 z+ X1 Q developed until the time it is either consumed or disposed of as being h+ |" s5 S2 F" g o0 sexcess to all known materiel requirements./ f8 s7 P- y( o7 p (2) (Software). All the states a software or software related product passes ( ^& n% m! Y' |7 h9 W1 `& sthrough from its inception until it is no longer useful./ E+ e# A$ z* e) n& `0 a Life-Cycle Cost7 O9 D: D6 a& y (LCC) 2 w, O( G* v& k% A: KThe total cost to the Government of acquisition and ownership of that system ) J0 i- w1 c9 |over its useful life. It includes the cost of development, acquisition, support and,% m+ f( }5 \ W9 Y4 ~8 l where applicable, disposal. 4 n0 u2 }& e! }Life-Cycle * P: [: q. ~- t$ IManagement 4 z- n* y! c0 w L( a. ?% l3 SProcess for administering an automated information system or hardware support $ p# P* o1 a* Rsystem over its whole life, with emphasis on strengthening early decisions which + e9 a& f5 {$ H% Z* x& vshape costs and utility./ n# S3 O* [; [$ G Life-Cycle Model A framework containing the processes, activities, and tasks involved in the9 v( z! B& k w) P development, operation, and support of the system, spanning the life of the9 r) d! C4 b6 ^7 m5 a system from the definition of its requirements to the termination of its use. ) n" ^9 u/ t# `. Z$ cLife Cycle of a3 E3 I0 |* {+ f, b8 l( Y Weapon System $ x) E7 q' Y; EAll phases of the system's life including research, development, test and; k2 S, h$ q0 ^% t" n" F2 `' H evaluation, production, deployment (inventory), operations and support, and2 V& l; i: O1 d disposal. ! }0 S+ z: q% Y4 b/ Y: o4 ILife Jacket The life support storage container for a Brilliant Pebbles singlet. The life jacket6 l5 W T# }! P7 L, O1 e$ P contains subsystems that perform power, communications, and environmental * f+ O) i8 Q( s+ {protection functions. * V) q6 n N; m3 o$ ]4 N9 w- R2 {Light Detection' c- F: K$ m: @) a1 B8 K and Ranging: X$ o# I6 j' h" V' I% k& ^ (LIDAR) % `' {) X, `; O" CA precision probing instrument used to measure concentrations of different 3 ?. [: g. R) t4 p' T* Zgasses or particulates in a given amount of atmosphere.

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发表于 2008-12-25 20:10:47 |只看该作者
Light Replicas0 G' Y$ G' Y3 n( p (LREP) - p2 W! c# j- P- O& O% G+ I X& lDecoys that, by virtue of shape, closely approximate an RV’s signature with little! ~- R! d9 P- B# x& }; G off-load penalty. ! \: _. x# ]$ uLIMIDIS Limited Distribution." P! P9 e U: P' c- W z MDA GLOSSARY, VER. 4.0 L * j4 N) b2 d- B3 j D6 t166 1 o) t8 Z a+ l4 H4 ~/ c, vLimited Attack An attack on the U.S. and its allies, which provides a stressing timeline, and is7 }5 r+ S* K0 {- Y0 b- P: O geographically distinct. Not an all-out attack or mass wave.9 t/ f* T; @8 E) H Limited Defense ! {* V& q. P' u8 b/ b( V& vSystem (LDS)8 Y% r' y; P5 }1 I! y5 _ The development of systems, components, and architectures for a deployable* Y9 O1 x8 c5 W7 }- y4 m8 _ anti-ballistic missile system (as described in section 232(a)(1) of the 1991 Missile 5 K' m' O5 g$ O. _% M2 X- y9 x, IDefense Act, as revised) capable of providing a highly effective defense of the - @$ |- U) ]5 g. O6 LUnited States against limited ballistic missile threats, including accidental or 3 D( }, t# T1 E( Vunauthorized launches or Third World attacks, but below a threshold that would. [0 o/ H1 K F9 N, x' z4 |/ ^! Z: j bring into question strategic stability.4 g, q, z2 D+ f! s- Q( } Limited) v0 B) @% ?" k Operational 2 O2 o- c6 R7 a7 qCapability (LOC) 0 N9 e, x; j5 \1 G7 ]0 A; RA point in time when the first set of sensors and weapons can be employed to5 w! K, J8 Q) x) n/ F2 J& v7 g provide a limited protection system. * a0 E G+ [+ D5 B' {: |) b1 HLimited 4 n$ Y3 z H- l2 v0 C" @1 {4 qProduction* q7 t* L6 a5 s/ @* Y# m The initial production of a system in limited quantity. Part of an acquisition 9 x) d. f4 r3 f+ ^1 Q- bstrategy to be used in test and evaluation for verification of design maturity,) S' ^8 F& D# R( }5 V manufacturing process final proofing, and product engineering and to verify a " E' g0 p* W ]; C. rfactories capabilities prior to a decision to proceed with production. Decision V7 I t: K" _" ]# {8 J7 Iusually made near the end of EMD or at Milestone IIIA or equivalent. (Also 7 ] P+ O0 q/ | mcalled Low-Rate Initial Production or Pilot Production.) + i) j+ F. H* M) \, B1 {Limited Test6 Q7 A+ l* `$ e! y5 F# Y Ban Treaty8 J) B5 u7 ^) _; H9 j9 f! a The bilateral Treaty signed and ratified by the United States and the (former) : G1 M. Q# r1 KU.S.S.R. in 1963, which prohibits nuclear tests in all locations except, K3 t8 N: q3 P2 A' S underground, and prohibits nuclear explosions underground if they cause * }% b" r$ _7 d. r7 Cradioactive debris to be present outside the territorial limits of the state under9 V: @1 @# s3 S+ L: z) W whose jurisdiction or control the test would be conducted. 8 g, l+ ^0 `4 n4 x( s. p: jLIN Line Item Number.6 \3 g4 N1 S! [% P, ]) R( V1 y. f Linac Linear Accelerator.! n3 ?1 t% S. D: Y1 [ Line Item " Y, x u) q5 H2 P(Budget)! M, r# V6 `( r, l- h A specific program end item with its own identity (e.g., B-1B Bomber).9 q( w! o, e; O+ w8 [' T$ x Line of Sight - q! ]% w# |1 h0 ~: f: _: t: W(LOS)4 _, e. Q& C* p% \, F- U* }; G The line from sensor to target necessary for the commencement of the detection,/ q9 }4 B" [% k6 ^5 d acquisition, track, and identification of a target. " \ j' {; c. w3 ?' CLine Replaceable + e( e. X/ R& D" P; ZUnit (LRU) 7 q; R, a- T& { }- F$ S0 L9 |An essential support item removed and replaced at field level to restore end item; w5 o* R- Q0 W( ~4 u$ I to an operationally ready condition. (Also called Weapon Replacement0 G0 q& l6 s' D$ F9 y* K9 r0 B& \ Assembly and Module Replaceable Unit). , ?8 i$ r; E% c% O+ r4 T' M. v7 jLink-16 TADIL-J. * ]% Y$ V$ x5 G) w' E: g& j- W8 W4 ]Link Quality / I; S5 F6 u+ I# G0 ZEvaluation 0 J: P* g! G1 j. b/ Z$ c* I2 wThis testing of links to create bit error estimates and monitors natural or induced, _) k, Z! y) l2 R link interference. - v. S- M) L/ w& ILIP Lethality Improvement Plan.. i; [1 j2 u! e& ] Liquid Fuel : Q9 @. F) H) t, h: y3 |/ TBooster (LFB) ; F/ G `- z! S+ W9 M# _Target booster being developed to mate with current reentry vehicles and + ^. S% D( \1 Z4 s! U/ _2 o7 ]emulate the short/medium range threat. 1 U& R; a1 g! r6 W+ n: @' m0 }LIS Laser Isotope Separation. " q( z8 j* h$ w* X' `) C. A" @9 @LITINT Literature Intelligence. 9 ^' c1 n. O( Z5 mMDA GLOSSARY, VER. 4.0 L & z/ {/ k0 u% K& U6 ]" H2 v8 p( F$ f167) g3 z" n- h" l Live Fire Test $ z8 U2 Q4 J1 Z5 }And Evaluation6 [ K2 \0 A! ?8 V) I" G3 \ (LFT&E) # Y B. V! C/ P* R+ U/ r. G ZSurvivability testing and lethality testing required before full-scale production.5 L/ O+ m! G6 `7 F: | Must be conducted on ACAT I and II programs for: (a) A covered system (a! c# l' k& T- b conventional weapon system designed to provide some degree of protection to$ [8 {* ^; \# E" @5 F. e% d) B! [ the user in combat); (b) a major munition or missile program; (c) a product& c/ N7 J8 ^- P7 f2 v improvement program that will significantly affect the survivability of a covered# U% [1 B1 X" p system. 3 _5 `3 z& d/ n2 v+ s# ELIVEX Live Exercise. $ n7 m1 L/ X5 V! ?* W: }$ O5 oLIWA Land Information Warfare Activity. 7 l1 W' ]3 d9 }* ]7 n" w }8 BLJ Life Jacket (BE term). + t# q( `( E& H; }LL (1) Lincoln Laboratory, Lexington, MA. 6 `7 Z4 i; N6 Y1 t) h6 W4 d(2) Legislative Liaison. + N+ U0 w8 o: u8 Z! t% o5 D* [LLM Long Lead Material.+ j/ R% Z$ N8 X% A/ j LLNL Lawrence Livermore National Laboratory, Livermore, CA. ! E( w6 E3 E u: O" l1 J3 SLLTIL Long-Lead-Time Items List (ILS term).5 O& M/ F J2 X/ u1 L1 d! }; d LLUM Low background LWIR Uniform Mercury Cadmium Teloride (HgCdTe). j1 x; W4 Z9 z# m3 V+ KLM (1) Lockheed Martin, a defense industry contractor. 6 z" `/ D J0 f2 t2 ^+ a0 l- B/ s(2) Logistics Manager (ILS term).

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LM/GES Lockheed Martin/Government Electronic Systems. " F- b, n; d$ D' _LMA Lockheed Martin Astronautics, a defense industry contractor. # U3 Y+ P$ u1 F3 wLMANS Lockheed Martin Aeronautic and Naval Systems.+ y" | r, F- F- C1 G4 v( `/ H0 Y LMC Late Midcourse. & q4 }+ J+ J9 P* S. \LMFBR Liquid-Metal Fast Breeder Reactor.# j0 `6 M& A" y) F4 B2 S8 B" ]4 L LMIS Logistics Management Information System. 3 Q/ Z% Q/ f0 v/ FLNA Low Noise Amplifier. ; u2 l+ P" ~5 k: l& f/ eLNC Local Network Controller.- G3 A& R% A) @- ~7 ? LNE Low Noise Exciter (Electronics Engineering term).; e! v9 m Q4 o LNO Liaison Officer. ) B% I; Y: O) p& sLO (1) Local Oscillator (Electronics Engineering term).2 n1 ?; p8 `# Q4 f) T& o( z% |5 R (2) Low Observables (LODE-related term).6 ]% Z8 ~$ d _ Z LOA Letter of Agreement. + r6 u3 |- y2 G% {1 ELOAD Low Altitude Defense.5 y- r3 _5 g6 x' k: [, L. Q, s LOC (1) Lines of Communication. % o- {" S: @; k+ d(2) Lines of Code. 8 g0 w1 {# T- w1 w+ v% A(3) Limited Operational Capability.; l0 v( B, _% k$ y4 P MDA GLOSSARY, VER. 4.0 L) L9 Z! N5 \ u 1684 U& O# ~2 H. S- A' I8 ~ LOCAAS Low Cost Autonomous Attack System (USAF term). ( x# a+ c- w& ]. W" t9 q3 wLocal 2 s$ I, E; _: I. J" y6 V9 _6 [Assessment of& w( w: j; v! c; v3 f. L/ y Engagement 1 \- }: I: A4 j& X# r: ~5 HThe assessment of an engagement by high-resolution fire control sensors.2 z2 U; G& ]4 \! ]1 } Local5 e2 z9 I& a* A3 G1 _ Environment& D% k1 {- u; v' c+ [4 W6 P The ISTC Local Environment contained within each node simulates the element - m! Q1 G: F7 }0 V7 ?to the degree necessary to generate a realistic input to the Element Processor of ; U; y0 V, z" R# T2 mElement Processor Emulation and provide a realistic response to the Element1 H3 r; H! K5 L, D Processor or Element Processor Emulation. 4 F% G# h# I# {Lock On Signifies that a tracking or target-seeking system is continuously and7 n/ B+ ^1 S O; _4 [* @ automatically tracking a target in one or more coordinates (e.g., range, bearing,$ G" a! S8 f" r! K: U elevation)., m- E( ?6 c* C6 W LODE Laser Optics Demonstration Experiment. 3 x- u) S$ R" S9 m- l0 _- xLODTM Large Optics Diamond Turning Machine.3 l. D5 _3 z0 d- w# B* u/ H LOE (1) Level of Effort. (2) Letter of Evaluation (AF). + M3 L7 F7 k+ hLOF Lifejacket Orbital Flight (BE term).9 Q- `, J, {0 Z& r5 x7 p Lofted Trajectory Trajectory with an apogee greater than the minimum-energy trajectory to the& I# }+ L' q0 |* V6 b6 G same range.* z$ ^) A* a# q$ @* r' s LOG Logistics. + r2 _3 R2 d% a% u" ~# S1 tLOG.WIPT Logistics Working-level IPT ; u/ h7 P2 s6 d, BLOGAM II Logistics Analysis Model II. 7 y: K2 O* _5 Q" z+ X6 \LOGFAC Logistics Feasibility Analysis Capability. W: h: s. |6 n; _ LOGFOR Logistics Force.2 }7 U0 M3 J3 q2 |) b& j3 B Logistics The science of planning and carrying out the movement and maintenance of $ v7 Q8 r" w- ^6 \+ n% o* l3 iforces. In its most comprehensive sense, it includes those aspects of military 0 }- F! C5 X8 m0 |: `1 s9 Noperations which deal with: (1) design and development, acquisition, storage, 4 I5 A' X( u# ]# }movement, distribution, maintenance, evacuation, and disposition of materials;% ^- E) m& r& |* | (2) movement, evacuation, and hospitalization of personnel; (3) acquisition or- D4 }; \ r/ z3 r construction, maintenance, operation, and disposition of facilities; and (4) 4 }0 q7 [1 W7 H' h7 |acquisition or furnishing of services. ' H' D- Q4 {2 ^1 OLogistics Support The supply and maintenance of materiel essential to proper operation of a 7 R7 b: H$ l1 ?system in the force.7 n( \! A4 L& _7 H; A1 ]( ~* E Logistics ) B& }1 a; F. n8 |Supportability3 C$ R c" B; K The degree to which planned logistics support (including test, measurement, and , `/ w( X& F+ o4 m4 V. `- S% b( odiagnostic equipment; spares and repair parts; technical data; support facilities; # ~6 n6 d5 \! Z. a8 Etransportation requirements; training; manpower; and software support) allow 8 h6 K0 K" J! _; N% Tmeeting system availability and wartime usage requirements.0 v: Y/ y! j4 \; Y; t1 ]# Y MDA GLOSSARY, VER. 4.0 L ; E1 i) O9 v, y3 X169 & P0 P0 ^& I* U( s; S4 SLogistics % K; @( y0 d( ]* uSupport Analysis 3 b9 g1 v' P1 L5 y+ E# A0 v(LSA) $ h5 J/ T* C, {" gThe selective application of scientific and engineering efforts undertaken during : A1 J$ h: H% i( y1 uthe acquisition process, as part of the systems engineering process, to assist in: . [( r, ]* P o6 f Ycausing support considerations to influence design; defining support( d6 Q# s* a9 q, ?, g; f requirements that are related optimally to design and to each other; acquiring ' |2 q B" m) t0 I8 athe required support; and providing the required support during the operational4 l* G$ m0 }' P phase at minimum cost. # j/ }% R. A6 j' X7 dLogistics Support 9 ?0 h% G6 S, K/ {; S6 kAnalysis Record . L) h) w$ ]/ M) v(LSAR). ^7 ] W& }' X& Z4 M A formal tool under MIL-STD 1388-2A that uses records/forms to document 8 ?: v) n! p r- Goperations and maintenance requirements, RAM, task analyses, technical data, 5 o6 F: y: F2 `+ Y* vsupport/test equipment, facilities, skill evaluation, supply support, ATE and TPS, & g7 r6 b0 l8 ]5 Mand transportability. LSAR is the basis for training, personnel, supply8 }! x. Z# D3 s$ v provisioning and allowances construction, support equipment acquisition, 6 U& O( N- Z" C$ t# a6 e( `# x* i) afacilities construction and preparation, and for maintenance. ) @/ j/ g& k( ^; @( PLOGPLAN Logistics Plan.: j4 n A; H1 W2 t' d LOGSIM Logistics Simulation Model. 2 y+ Y% Y$ Z9 R5 o' dLOI (1) Letter of Instruction. (2) Letter of Intent. 8 q2 X; a* `3 }! NLOMEZ Low Altitude Missile Engagement Zone. 2 d' N# j" _* y; h, o1 \Long Lead Items l# O, _& M: T9 ]# \' `Long Range Air' O4 `: g) t0 b% V' i0 k1 q/ D Launched Target $ K5 W2 k/ |. W& q(LRALT)/ K" b! H& t& W4 u0 l Those components of a system for which the times to design and fabricate are . z' M% d* Y5 {# hthe longest, and, therefore, to which an early commitment of funds may be : ] I% z5 l+ Y; X& V* ~! ~, Jdesirable in order to meet the earliest possible date of system completion.. ]2 l: D3 Y, \, U y Two-stage, air launched ballistic missile target being developed for MBRV-4.3 N8 b: i) T- R, x Long Wavelength# o* G* Q# x6 ~4 ? q6 q. O' h Infrared (LWIR) ; h W! Q, d* {( l8 x H3 VThermal radiation emitted by a source in the electromagnetic spectrum. c" {! h( e: q+ N9 t encompassing infrared wavelengths of 6 to 30 microns.2 V/ c4 k) l% L* ? C* I6 d r LOR Level of Repair Analysis (ILS term). 9 k1 O% j. a, RLORA Level of Repair Analysis (ILS term). 2 i( j; {9 m, y- ]' y0 M" b3 }& o/ K& DLOS (1) Line of Sight. (2) Large Optical Segment. D$ D5 Y' B, J) T LOTS Logistics Over-The-Shore.; V) i6 L3 A3 Q LOW Launch on Warning.

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Low Altitude, ]- @+ E& x" B. v7 a Demonstration1 F1 }$ ?, I7 h System (LADS) 7 r' T9 H5 z' ?Part of the SBIRS Low Program Definition and Risk Reduction (PDRR) program) N% ]4 |2 l1 F \- K+ J2 Z; ~ phase. The LADS will consist of a flight experiment and extensive ground2 J/ @( S$ ]2 j' H& R5 n demonstrations by Boeing North American. The LADS flight experiment will be ! _ O3 d- Y8 k# [8 Z Mlaunched in late FY99 to demonstrate the sensor performance of a SBIRS Low+ [9 S2 K2 y9 N% ^6 P R! ?! C% d concept and collect phenomenology data. ) ^' I) l2 @# b6 JLow Earth Orbit2 {: F' n2 T6 p (LEO)/ H5 a/ {4 N) f; x9 e( }- G These satellites are at altitudes between 100 and 400 nautical miles. They / i d/ w- \ v0 f7 k; [/ whave short duration revolutions (about 90 minutes), short visibility envelopes (2.50 d( V3 s, R0 d6 w8 L minutes up to 10 minutes over a tracking station), short life spans, and are most4 m" a, r) G) m subject to orbital perturbations due to atmospheric drag and earth gravitational' r9 p7 t x% T& l# D anomalies. 8 F/ _! a X% }8 E7 DLow 2 x; y$ C, T" U0 k' k! S* gEndoatmosphere- t* a( F' M" E& V. o That portion of the earth's atmosphere, generally below 40 km altitude. 7 c5 A2 u7 H+ V' [" gMDA GLOSSARY, VER. 4.0 L( Z4 _' B* D+ _! F$ F% ] 170 4 B' q0 p2 T$ J: s+ BLow-Rate Initial $ @' |- r/ P, W; w7 eProduction (LRIP) , c+ j7 W1 l4 C/ lThe production of a system in limited quantity to provide articles for operational$ e2 R. _/ f' h6 v' {- r" E test and evaluation, to establish an initial production base, and to permit an# n8 X2 ^' c5 V. C* }: x* p! @ orderly increase in the production rate sufficient to lead to full-rate production& W8 X& l% B0 D9 X/ } u upon successful completion of operational testing. : Z6 M! y1 U3 M# `# ULOWKATRER Low Weight Kinetic Energy Active Tracker. ! U1 y* N) ~/ TLOWTRAN Atmospheric and Interstellar Background Signature Model. C6 e G# F# u% E& N) H LPAR Large Phased Array Radar.7 G2 F9 S9 T8 X# M3 ^ LPD Low Probability of Detection. " m* {8 G! _3 U+ N8 E$ ^$ {/ ILPE (1) Liquid Phase Epitaxy. & }' ~0 _5 E( W! g. c(2) Launch Point Estimate.$ r i1 Y% Q2 w7 W0 O LPI Low Probability of Intercept., ^2 o4 ?- o, b& v' q# w LPS Limited Protection System. & Z3 E7 }, V2 ]" _* {$ m& uLR Long Range.: C, }% w4 a4 o+ Z5 H* v LRA (1) Line-Replaceable Assembly. (2) Launch and Recovery Element. 2 x! y+ _' p4 d; ~6 N. T6 ]LRB Liquid Rocket Booster.1 E' M. h( o# u2 z7 {2 A LRC Lewis Research Center, Cleveland, OH.7 Y( w4 I0 H( L5 F2 K0 k* y4 i LRE (1) Latest Revise Estimate. (2) Launch and Recovery Element.% R) N4 [ n; k! M' a, W# d LREP Light Replicas.) M$ B6 f0 N4 `6 |2 f LRF Laser Range Finder. 7 x2 d/ Y, N9 ~ u% e( `LRINF Longer Range Intermediate Nuclear Forces. . O7 l; `" H) I" R5 g% n) N+ _LRIP See Low-Rate Initial Production.+ J! W/ _1 _& \; G/ U, [. K5 U LRIP-OT Low Rate Initial Production – Operational Testing. 6 t8 K, H- x7 NLRTBM Long Range TBM. : J4 H) r' |7 H- v5 }% U6 a; a4 ?LRTNF Long-range Theater Nuclear Force.+ K* C: T' V( U( W; g. N c3 T LRU (1) Line Replaceable Units. (2) Line Replacement Units.$ |8 _8 U( g9 l LS Launching Stations (PATRIOT). Y0 J) X3 j3 W) v3 e) \LSA Logistics Support Analysis. # w G! ~$ ?; x+ D Q2 QLSAP Logistics Support Analysis Program. % m2 R/ J( u6 K7 `1 t2 dLSAR Logistics Support Analysis Record. 6 o7 w! }8 C9 W7 P4 aLSART LSA Review Team (ILS term). 8 ^2 T( A+ X6 mLSAT Laser Satellite." k# A2 w, V3 N; V$ u MDA GLOSSARY, VER. 4.0 L% V8 V% u: n: y' x, v 171 6 L3 ~: q) H8 S# b! {' T- nLSAWG LSA Working Group. 2 _2 }0 ^, u l! J7 ~9 z! b+ b5 SLSE Lifetime Support Engineering (ILS term). - W, n9 y b" O$ \6 O1 v+ g- |6 ^LSEA Lifetime Support Engineering Activity (ILS term).2 k, L, J1 \6 {) @& B LSI Large Scale Integration (circuits).+ r& G- R; m' ]/ ]$ l' E8 P8 r LSRS Loral Space and Range Systems, Sunnyvale, CA. 3 V) R- ?* Q6 B* Z* U p- N$ ILST (1) Laser Spot Tracker. (2) Landing Ship, Tank.8 S. H5 ~9 d1 h; f LSTS Launcher Station Test Site. # b/ D6 U* N( y# @# { HLTA Lead Time Analysis. % M, @" D" |5 `7 H& I1 bLTBT Limited Test Ban Treaty. " r' e. [* S$ I+ \3 l# wLTD Laser Target Designator.5 b5 K P; S! A5 H LTH Lethality and Target Hardening. 5 B) x! u9 z7 f+ \% CLTS Low Temperature Superconductor 4 I) u# c2 p6 V( J2 j* ], ^: f c: I% ULTV Launch Test Vehicle. : P- ~9 \5 ?! h* c& r% Y* D: j* kLU Launch and Update.- S/ S* j2 {* e# u! ~9 x$ l LUA Launch Under Attack., |% W# J& U, j9 a5 M# d' g LUP Limited U.S. Protection. : Y- N' p$ n8 k3 ~3 hLUT Limited User Test. ( W( D" G6 T4 P% _4 r$ eLUT/OA Limited User Test/Operational Assessment. 3 T- w# r; _$ ?LVS Loral Vought Systems, a defense industry contractor. 9 r0 z' N1 [8 W3 f" FLVT Low Volume Terminal (USN/NATO/Telecomm term). " X- i. y, N3 Z; R6 sLW Laser Weapons. : l9 J. f& v' I- BLWAN Local Wide Area Net.% E6 S: F( x) L6 p- ?5 { LWIR See Long Wavelength Infrared.3 G- q- p8 l! f; j LWIR FPA (PET) Long Wavelength Infrared Focal Plane Array (Pilot-line Experiment Technology). - b2 m1 D/ ]2 r# j3 K* mLYTBT Low-Yield Threshold Test Ban Treaty.9 {7 ~4 W- m9 s! H! S) \ LZ Landing Zone.

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MDA GLOSSARY, VER. 4.0 M , ?- b: u- Y4 T# `( V173 ; \2 X4 }5 y: f2 u3 n9 o" xm (1) Meter. (2) Minute.6 e. M- i, E( x, o M (1) Model. (2) Million. (3) Mega.0 P# k0 c ~5 O* E5 n0 @( N M&LC Missile and Launch Control.) \) }- n! }- e4 ?* Q) p9 X M&P Manpower and Personnel. ' @& P! {, t$ CM&S (1) Materials and Structures. (2) Modeling and Simulation.$ ?* @) a, f! E% p M-T-M Model – Test – Model., S0 t- y m3 r! F% Q: O M/LWIR Medium/Long Wavelength Infrared. ( L0 _ {7 K) H. t4 X1 x) M- b4 lM/P Manpower/Personnel. # _4 O" b; \7 M) BMAA Mission Area Analysis. - B2 W7 D! O6 A2 e6 m) k8 kMAAG Military Assistance Advisory Group. ; K0 R& g# N! j6 O) H2 m6 Q$ w; cMAB Missile Assembly Building. [! `; w* B" h% a9 |3 Z4 I) E5 N MAC (1) OBSOLETE. Military Airlift Command. See AMC. 4 N8 ?2 O. ]! \7 \& h9 K8 I(2) Maintenance Allocation Chart.; r. Q- ?0 }% A% C! l MACCK Multi-Application Command and Control Kit (GD term for IVIS follow-on).! o* X4 M$ N3 N: M4 K* B: S MACCS Marine Corps Air Command and Control System. + W0 ?7 |' D4 I7 q7 ~MACOM Major Army Command. 6 n5 G5 b) B" m2 _MAD (1) Mission Area Deficiency. (2) Mutually Assured Destruction.* w2 a, N- I+ Y3 H5 g- ]" X j MADCAP Mosaic Array Data Compression and Analysis Program. / q& U& n( ~7 y4 ~- p% G0 L$ pMADS Modified Air Defense System.: x5 B0 Y2 q# _: T4 ~% p, M MAE Medium Altitude Endurance.! _) r9 g9 t3 q( K4 M6 D D/ m MAGTF Marine Air-Ground Task Force. ( `3 d' I1 L; V# z- uMain Beam The primary directional EMR emitted from radar transmitters.* M" G$ ^( X; S. g% g9 F0 M# P4 o Maintainer An individual responsible for retaining the major defense system in or restoring it / f; J) S3 {$ z B1 F) _7 @4 uto a specified condition. Maintenance activities include inspection, testing, 0 H- i9 B7 v* }7 Y4 Qservicing, classification as to serviceability, repair, rebuilding, and reclamation. e6 [4 U0 e, t6 `1 dMaintenance$ H. N$ N/ E* i Concept/Plan - A$ s& e% ^& w& x5 {1 U1 s4 P7 C, LA description of maintenance considerations and constraints for. z% |$ ~6 W% e7 @7 x! L system/equipment under development. A preliminary maintenance concept is 4 p: s6 k, A9 h, V* Z" O( vdeveloped and submitted as part of the preliminary system operational concept / ^! J: r% }$ w( cfor each alternative solution candidate by the operating command with the 4 H- F2 g: q* O. Fassistance of the implementing and supporting commands. A major driver in2 h9 a! x$ B8 p) q, h; _ design of the system/equipment and support planned for it.* t, V1 T k, C) Z MDA GLOSSARY, VER. 4.0 M, u; G7 _. n" z; y 174 9 ]6 I' U' K8 y* u' S d8 \4 lMaintenance * h% L. ^0 b7 B7 R/ x* J2 `Operations 5 l9 M/ B2 d) L( f% xThe corrective and preventive maintenance operations that do not require a% D1 L; P: \3 M4 T deployment decision; it includes correction and subsequent validation testing - N4 ~! k$ ~/ D- nand the update of relevant status configuration, maintenance, and inventory& _" K; R' r- g! e: ~) K B databases.6 w) _/ c0 ~ T# v Maintenance) `- p4 Z3 w+ N; C Planning w$ O/ H3 Q* X The process conducted to evolve and establish maintenance concepts and; l! P6 G6 j' Q+ l, O! |: {, U! O2 u5 r requirements for the lifetime of a material system; one of the principal elements 1 l4 H/ ` Y% f# Lof ILS.3 ]5 m# [6 ~% `/ M- {2 X ^ MAIS Mobile Automated Instrumentation Suite (USA term). 9 v+ R3 S9 ^* f2 g$ LMAISRC Major Automated Information System Review Council; ?+ h. \+ q2 ?8 F: s4 ?& ?/ f0 u MAJCOM Major Command (USAF). 0 S x: W- I; @# YMajor Automated 9 P* \$ z+ I1 x6 LInformation 7 E d; n: q. q+ ?' n7 |System Review ! h% K4 s, I6 r X8 p! e7 d6 QCouncil (MAISRC) + E" ?3 ]; s; z% z6 ?+ A5 _/ }/ PThe Senior DoD information management acquisition review board chaired by / Y/ i2 @; |# w/ K0 ^the Assistant Secretary of Defense for Command, Control, Communication, and" {5 o4 D+ j+ |" j. o2 { | Intelligence. See DoD Directive 8120.2.

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发表于 2008-12-25 20:11:35 |只看该作者
Major Defense# ]# G3 I" n$ _6 z) _ Acquisition3 i: c; F: h( I8 P, k& @9 o Program ( x& n+ s' o, c& }- \- G# IAn acquisition program that is not a highly sensitive classified program (as H; O0 E+ v8 o, b) @- D/ G% p) e' H& ydetermined by the Secretary of Defense) and that is:1 `2 q* h# @ F% L' h 1. Designated by the Under Secretary of Defense for Acquisition and5 ^5 ~; a3 ^4 A' Z, o5 f& B- y, `! d Technology as a major defense acquisition program, or * h: y- [7 k" [2. Estimated by the Under Secretary of Defense for Acquisition and Technology , F! H- Z {! \* i3 k6 p' C# ito require: 5 i; ~' B2 ]- w! o4 N% |a) An eventual total expenditure for research, development, test, and, b! b5 |) k8 v) A* [ evaluation of more than $200 million in fiscal year 1980 constant " J3 L$ d2 U8 Q4 Q2 [% O+ r* m8 Ldollars (approximately $300 million in fiscal year 1990 constant7 U" ?6 U0 k$ r, J2 M2 L. j dollars), or1 b9 |' T3 p7 l$ x: b, L b) An eventual total expenditure for procurement of more than $1 billion . }# d; N+ Z7 j6 A* e( P" R. [! Ain fiscal year 1980 constant dollars (approximately $1.8 billion in fiscal! ^& g7 x, x( x9 x! q. T" g year 1990 constant dollars).5 Q0 B' T W4 Z# V0 R Major 6 q: X3 a9 O1 A3 k- A5 V2 iModification + a( n* V+ E% VA modification that in and of itself meets the criteria of acquisition category I or II ) Q- b2 \4 g0 {! Y& D3 S: y+ Kor is designated as such by the milestone decision authority. Major modifications ; z+ n6 X' n* J+ I0 trequire a Milestone IV decision unless the decision to modify results from one of: e7 @ r: L5 [' V the alternatives considered as part of the Milestone I decision process.0 v u- n& U0 H' ^, h Upgrades are part of the Milestone 0 decision process. " ]2 R0 K6 V8 V; ^, s: I2 W C$ JMajor System A combination of elements that will function together to produce the capabilities 0 P$ L8 o6 s- Q/ j6 }. l& grequired to fulfill a mission need, including hardware, equipment, software, or any 1 \8 b3 z0 j6 C* ^$ W3 V$ |combination thereof, but excluding construction or other improvements to real # D% V: t; o4 L5 G7 Xproperty. A system shall be considered a major system if it is estimated by the8 T2 T6 o V3 L; J+ `: o Under Secretary of Defense for Acquisition and Technology to require:: u- i$ p9 H: i/ P 1. An eventual total expenditure for research, development, test, and( T* m7 c( y1 q( `$ ~( I evaluation of more than $75,000,000 in fiscal year 1980 constant dollars( A- }6 S L8 {9 B0 t; \ (approximately $115,000,000 in fiscal year 1990 constant dollars), or " Q) ~+ |9 R3 \/ T( m% {* `2. An eventual total expenditure for procurement of more than $300,000,000 in: L% F* P# G8 L0 e fiscal year 1980 constant dollars (approximately $540,000,000 in fiscal year! q' Y+ y) P) |# I3 t1 W 1990 constant dollars).' W- e3 C* K) k6 U. i" Y* Y MAM Maintenance Assist Modules.! o- y# c# Q. \0 w9 V' m6 n MAMDT Mean Active Maintenance Downtime (ILS term).5 [( h7 \# F# Z! u, F! e MDA GLOSSARY, VER. 4.0 M) }9 |3 c, d8 ]& z: ?. U 175 0 [( p/ P8 l: ?7 A+ IMandatory$ P7 H7 s. _1 c* N Access Control) ^+ t4 g9 `+ @2 `9 I A means of restricting access to objects based on the sensitivity (as represented " X8 q" W! \- [# X# r3 Z7 L w2 ^by a label) of the information contained in the objects and the formal 9 C3 h- {; A2 i6 G* `0 Y! F" W) Dauthorization of subjects to access information of such sensitivity.5 H4 r1 }0 D! v5 L" l Maneuverable 1 S2 c5 b; l$ d) ?% yReentry Vehicle 6 s) {! ` t* N- C# p(MARV) * G6 c3 i, e* P: x' Z# |/ J! [A reentry vehicle capable of performing preplanned flight maneuvers during the" A9 I- ]9 A6 S, x3 n reentry phase. The reentry vehicles deploy fins or other aerodynamic surfaces ) V( W( M4 t3 o. \. ]) Q4 o$ ^when they enter the atmosphere, allowing them to turn and dodge rather than 1 _/ l f6 Z) X& r7 w! efall ballistically. They have no ability to maneuver in space.) h. Z, h9 C' L, b: N* _ MANPER Manpower and Personnel ILS term).; d" w- z4 E9 } Manpower2 v# K: r4 y' Q& I- E( I( Z Authorizations6 p# p. a' h7 C6 }! k The billets in the manpower requirements structure that are planned to be filled. P2 N/ V% [$ _9 ?$ e( HManpower+ e0 W! X8 Q" L Estimate Report 1 D5 c9 {) s+ v* Y7 Y2 n3 }$ g(MER)) U2 q% g9 F) N0 Y" w An estimate of the number of personnel who will operate, maintain, support, and3 {! I/ Q( [3 S) u train for the acquisition upon full operational deployment. The Services prepared. V$ W' l# t$ U0 |7 X the estimates, and the SECDEF submits them to Congress 30 days prior to / B; u7 M g# i: ?7 p* M6 I1 ?approval for EMD or production. `9 k \4 d V+ X# T' F; tManpower, ' s2 k! Z* \8 `Personnel, ) E8 ~ d, y2 E" b; ^- wTraining, and 4 C2 U& \6 {% v" S( lSafety (MPTS) 9 B& E3 z) R5 a8 UThe human dimension of the complete defense weapon system. The term ' P9 n. L5 r4 k8 jMPTS also encompasses the concepts and disciplines of human factors * S7 ^6 P/ W4 Y; y2 {7 @& k. Gengineering and health hazard prevention.$ r+ {' ]% f. b% ^" h" S Manpower,' s' R( n* @- ]6 H% f# T Personnel, 5 G) r3 `, h; C r* }1 cTraining, and 9 g& x( B5 X5 X5 E0 Q3 i3 SSafety (MPTS) - i; C, t- z& e1 Z' aProfiles6 W+ L7 k. Y2 C4 u A description of human dimensions and constraints involving a major system4 a) v" _: p, s0 e3 V throughout the system life cycle. This includes, but is not limited to, descriptions& G/ X! d2 ^, h and categorizations of occupations, aptitudes, individual skills and , G5 k0 Q4 m, F. b# `demographics, training system characteristics and components, potential system 5 v% Z& u, [$ \hazards, and other issues affecting the performance and welfare of operators, 0 D2 R% G% S& t' y9 pmaintainers, and personnel that support existing, modified or new systems. 1 j, M. q ?* b6 i: }$ [MANPRINT Manpower and Personnel Integration (US Army).8 E* n9 [4 l, J" Q/ w MANTECH Manufacturing Technology. . V. U: B. B1 G! NManufacturing (or+ Q2 p/ a# a( Q h Production)- L: t" P; a! J, z( ` Engineering 4 B, s e' u' w! s. P9 zPre-production planning and operation analysis applied to specific product 0 B1 h* @* a* x/ |7 F* k1 U5 d, G2 z/ pdesigns. The functions of planning, specifying, and coordinating the application4 p% Z4 j2 \$ y( |' ` of required factory resources including: performing analyses of production ' A2 t- c5 t* O! I- U/ Y; Foperations, processes, and systems; applying new manufacturing methods, & G7 [3 c* Y# T" ttooling, and equipment; controlling the introduction of engineering changes, and / n, s9 z& P/ {6 nemploying cost control and quality techniques from the factory viewpoint.+ r) C% n+ y% ] L: g+ U, g# S Manufacturing A1 a& `( L* ?9 d, OOperations,. Z' p( Z/ M% p& s. R Development,1 P7 Z" ]4 S3 T! O% v2 S0 @9 K6 L6 i and Integration1 o4 [3 ]8 K3 k7 P: o4 g Laboratory ?3 H- ?; j5 U. r( R0 V2 ?* k (MODIL) , l, q4 E; A+ sAn SDS-peculiar integration mechanism to link product technology development! _- |9 E' ~- [+ p concurrently with manufacturing process and control development for a costreducing effective SDS development. $ A- }0 n( h* q4 |" u( _Manufacturing ; r# K% W) m0 s( k% mTechnology/ a$ x) O7 f. { V, |% E (MANTECH)+ L( U1 L2 X% u; T' r Manufacturing technology refers to any action which has as its objective the U) l: W+ L5 a2 V ^0 c0 S/ e timely establishment or improvement of the manufacturing processes, ( L# P |- A5 r! w7 J( D' v$ ~techniques, or equipment required to support current and projected programs, , N0 D9 H& S& V7 m7 Kand the assurance of the ability to produce, reduce lead time, ensure economic4 A5 r+ u3 [+ y% U; j' K availability of end items, reduce costs, increase efficiency, improve reliability, or to ( m# k5 J! V* |5 xenhance safety and anti-pollution measures. MANTECH, per se, is the specific ' X, r2 q m* C; g" v+ r. @DoD program in this area. : |1 _2 J. i. _7 I5 pMDA GLOSSARY, VER. 4.0 M5 a. H, \9 d @$ i* l 176 0 n/ Z0 Z% G4 j, k7 D% M+ EMAOC Modular Air Operations Center (JFACC term)./ Q- A6 W2 H5 Z MAOPR Minimum Acceptable Operational Performance Requirements. , ?" J( E+ i( E4 MMAP Minimum Acquisition Program.# Y( c7 b7 M$ V0 Y* g3 q! W MAR Monthly Assessment Report (BMDO/POC term). . V: q* t# g% D+ G7 w& V8 ^MARCO Marine Corps.

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Marine Air% i: t5 Q3 ^7 K Command and 0 z% `, `; D. [2 b2 JControl System6 |9 |, N9 ?7 Q8 O3 o A US Marine Corps tactical air command and control system that provides the - g# |- p' [7 M2 o: G2 G7 s8 Btactical air commander with the means to command, coordinate, and control all9 I, z: h) G Y$ \6 g air operations within an assigned sector and to coordinate air operations with4 c1 t, }/ r3 p) q) M- }5 D/ b other Services. It is composed of command and control agencies with) P; O( _) [$ ^. C; G communications-electronics equipment that incorporates a capability from manual! _$ B5 m3 ]" r1 r3 s& T0 i through semiautomatic control. - k+ H. [' Y- ?# d5 A0 B$ E, IMark/Markup Line by line review and approval/disapproval/modification of the defense budget6 R( _+ g S: T8 r' i/ d by congressional committees.: M8 d2 r2 L! F8 }7 s& t MARS Multi-warfare Assessment and Research System., U, w- B1 Q: _ MARSYSCOM US Marine Corps Systems Command, Quantico, VA' |0 L6 G8 W6 x$ z- ^ m5 D7 Y MARV Maneuverable Reentry Vehicle.' x( q0 y" B( P [4 T% g MARVIS Mid-Apogee Reentry Vehicle Intercept System. 3 u4 k" r' ~# k3 m) _MAS Mutual Assured Survival.8 H% l5 O7 N% P5 ~ ]2 D7 b MASINT Measurement and Signature Intelligence." F$ O5 I( M0 w- R# D! d) Z MASPAR Massive Parallel Processors (TMD-GBR). 2 ?9 [" s9 X" mMass Raid Many Red ballistic missiles launched toward CONUS from several launch areas.2 ^, K- W3 k$ a A mass ASAT raid consists of several ASATs attacking Blue satellites.8 d) h; _. Z: W9 F. ~8 N3 ] MAST Measurement and Simulation Technology-formerly Synthetic Scene Generation2 G0 }# I. u/ ~! l1 [6 W Model (SSGM). * H1 S7 w1 \' M9 `Matching / u! X' `9 q& g# D! m6 V: r" P4 j0 IBallistic Reentry & Y" R1 m# I s' [Vehicle (MBRV) 2 s; g) R i$ DFour reentry vehicle designs (MBRV 1-4) developed to serve as threat , f5 \3 K( x( i9 l; o! c4 Wrepresentative theater targets./ t1 }+ V* E" u/ i0 f Matching Target) J6 H& q b; g8 c, U Reentry Vehicle- c c, d) @2 _ (MTRV) Y( W3 y% H6 A: B% M/ f+ u& LThreat representative reentry vehicle developed for GMD Program by Sandia2 }% C3 S# c" M' t2 i0 _( f6 B" p8 t Labs. Planned for use on IFT 9-14. / \/ [# J, H A" v9 v0 Q: c1 BMaterial Fielding5 N6 _: Y# S7 q* `$ {2 \ Plan 7 G, p* i# ]% dPlan to ensure smooth transition of system from developer to user. 7 i$ T& ~ y4 [Materials . D, s& M5 V$ rScience # b. h V5 g1 X7 P7 r3 f5 J- Q% J% LThe science of developing/altering and applying materials to obtain a resultant G8 |) e9 B# l' C molecular structure with desirable physical properties and performance % Z6 e* ^$ t7 k* @ Q! A- d+ i6 dcharacteristics. (See Structures.) Also includes applying state-of-the-art ! ^! T% m+ r! j2 Uadvanced materials in the design of new SDS components and end items. : ^8 P) x/ H$ X0 OMATHSFA Manufacturing and Testing of LWIR Hardened Seeker FPA Assemblies. ! y3 n$ o" X3 x g. pMDA GLOSSARY, VER. 4.0 M ) m0 L- j' M: x6 j! |177 % b+ X W% w5 G O# o5 GMatra BAE, d9 M, K7 Z% } Y Dynamics ( T2 t9 R2 _# L0 X/ U& ]9 e GEuropean missile manufacturer formed in 1996 from British Aerospace Dynamics) S' K! Y1 H" `/ h, h and Matra of France. ! X6 t6 u* D$ L8 J7 E2 p1 AMATT Mutli-mission Advanced Tactical Terminal. ' M1 h2 t2 ~6 s; G/ tMATT Radio UHF radio receiver for TRAP, TOPS, and TIBS. & f4 Z4 w3 i1 M! q# O8 g3 [MATTR Mid And Terminal Tiers Review. & v p4 g# [" @! {2 X# k+ P1 RMAX Maximum.6 X( { {# D# H$ P1 J( U1 d Maximum, K% g. ^* f; U O Attrition 1 O4 f3 P# a$ ^. J( _Maximum attrition is employed in a target-rich environment to destroy the5 B `' p0 N7 X maximum number of RVs, regardless of the type, by using all available or3 s2 M& `/ c1 t allocated interceptors. This option may not satisfactorily defend specific or + K* C1 ]( A- p- ?& H" vrequired assets. : b5 y" _, s N( N- ]; K$ _+ \3 LMB Megabyte.) Y( c$ a6 N9 ?" _6 d MBA Multi-Beam Antenna. % Q" Y; S* K! `4 \7 y" yMBE Molecular Beam Epitaxy. ; X. O" O$ D) O" o' G9 v6 V6 IMBFR Mutual and Balanced Force Reduction. 2 @, V: T) _' n+ K& S8 s: [7 u2 lMbps Megabits per second./ z: c9 V2 l2 V) d$ Z7 D' j6 }& | MBRV Maneuvering Ballistic Reentry Vehicle. ( n/ t1 D0 U4 K+ zMC (1) Mission Control. (2) See Midcourse phase. (3) Mission Capable (ILS- D9 I& \$ E4 ~5 ?9 E2 {* g0 F# \ term). (4) Military Committee.7 N; W# i% O' J+ q/ F: [ MCA Micro Channel Architecture (TelComm/Computer term). + |2 I5 C, J- X, nMCAS Marine Corps Air Station.3 u5 O% Q/ g4 T9 _& T MCASS MTACCS Common Application Support Software.+ N `: ]# ^; g& V: T' l! V% e4 l MCBM Midcourse Battle Manager. 6 j5 C5 e. ~: z& d) V: S" }MCC Mission Control Complex/Center/Console. & U2 E# B6 d1 L1 x4 s% ~MCCC Mobile Consolidated Command Center. 9 D2 a' d* R: Z8 YMCCDC Marine Corps Combat Development Center.+ Z/ f. i, N; T0 F. x B MCCR Mission Critical Computer Resources.) Z) Y' s/ m. r2 O& Y MCE Mission Control Element.5 ~; ]6 f9 @* [3 @# w: H# c# d MCG Midcourse Guidance. 1 o; }' k2 e. _9 }5 T2 K* gMCI Midcourse Interceptor.% G5 b' w' s5 C9 R1 ` MCLOR Marine Corps LORA Model (USMC ILS term)., |( j3 X9 e9 ^& X MCM Multi-Chip Module.. {: Y3 N% h( l MDA GLOSSARY, VER. 4.0 M ; f2 S$ w4 ?4 Y1 p; @, J1 \178 6 a# o2 _' n$ R: DMCOTEA Marine Corps Operational Test and Evaluation [Command].3 {' G7 L0 D2 J# { MCP (1) Materiel Change Package (US Army term).5 k4 `6 t0 @7 w (2) Military Construction Program. 7 ?, k4 Q: S5 f) K: w: ?$ ~: ^% e; \MCPDM Marine Corps Program Decision Making. & I9 C. R0 T' J3 `( `7 ^" RMCRDAC Marine Corps Research, Development & Acquisition Command. , K! L5 |" u4 o2 L! R) jMCS (1) Maneuver Control System. (2) Midcourse Sensor. # r0 v8 R% b4 X8 Y8 K. BMCSS (1) Midcourse Surveillance System. (2) Military Communications Satellite System. + K3 R8 q' Q# T. ^MCT Mercury Cadmium Telluride (cf. HgCdTe).+ p8 J: a$ ~( o) {$ B# M MCTE Mission, Course of Action, Task, and Element Control Directives. 4 x' a& g1 e8 U, M$ O I% WMCTL Militarily Critical Technologies List.3 I% K$ t V& F2 ^5 W MCTR Missile Control Technology Regime. ! ~+ E& J2 E: s: Y+ @. ]MCV Mission Capable Vehicle. 1 X9 a3 N2 V' ~! X# l9 q wMD Missile Defense.. _: X. R) T9 r t$ { MDA (1) Missile Defense Agency. (2) Missile Defense Act. (3) Milestone Decision' r6 O* A7 l0 ` Authority. (4) McDonnell-Douglas Aerospace.# h6 b! ]5 P& U4 { MDAHWG Missile Defense Ad Hoc Working Group.$ g" v) D. ]( x8 S MDAP Major Defense Acquisition Program. ! D* p1 b5 @( A$ R/ V3 iMDART Missile Defense Activities Review Team. 6 b. h( h9 H0 fMDBIC Missile Defense Barrel Integration Center.- j- }6 a& V u! v8 `3 i3 [$ q" W* C MDC Midcourse Data Center, Advanced Research Center, Huntsville, AL. : q+ p2 T& _% G$ b# S- N$ K! uMDCI Multi-Discipline Counterintelligence. ( V9 y) x5 D/ b1 D8 i lMDDC Missile Defense Data Center, USASSDC, Huntsville, AL.

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MDP Manufacturing Data Package.: X2 P; S' W4 ~% u3 K% y9 f$ U, N' C/ e MDR (1) Medium Data Rate (TelComms/Computer term). , X+ l! Y% ?) p' T/ q/ U# z(2) Milestone Decision Review. 0 a( S: v2 M+ N' y Q(3) Multi-national Defense Research. 6 h/ u: x% j5 x& D4 a6 @& Q cMDSC Missile Defense Scientific and Technical Information Center.- @4 f: f, S3 @. F- x, v MDSTC Missile Defense and Space Technology Center. - N/ S- s3 [( B4 JMDT Maintenance Down Time.9 e4 ?, |- S" P6 e MDTD Mean Downtime Documentation (ILS term). 9 H1 t, v9 }) E% a7 IMDTOA Mean Downtime for Outside Assistance (ILS term).8 { s& ^4 {$ g MDA GLOSSARY, VER. 4.0 M * @4 y' ?! s0 j! O3 g3 U$ ^( w179 5 m% Z8 T w4 K4 s% f- F! w( a; J6 yMDTOR Mean Downtime for Other Reasons (ILS term).0 j' I( d. U0 M( l" A! Z MDTT Mean Downtime for Training (ILS term). 7 q, P/ ]2 H sMDW Mass Destruction Weapons.2 P2 M. H! l# e' b! k ME/VA Mission Essential/Vulnerable Area; z; y* ~* H( M. }+ U% r MEA Mission Effectiveness Analysis (JFACC term).( W, r) R! c7 o/ r: |) n MEADS See Medium Extended Air Defense System. 7 l* P2 D+ w$ ]& a" p8 n4 |Mean Time8 r" j8 g3 n7 l Between Failures 0 ~' G% }. q% u" b) g) O% C! J. g(MTBF)( t1 {5 c w1 | A measure of the reliability of an item. Defined as the total functioning life of an7 z+ p" M C1 n$ S ~ item divided by the total number of failures within the population during the ; x1 @$ g$ D! \8 h$ e5 J; U- j" ?measurement interval. The definition holds for time, rounds, miles, events, or! E( |. ?1 C' u other measures of unit life. MTBF is a basic measure of reliability. 5 z" m7 f p3 d$ \: \* BMean Time To 2 }9 w3 n* ~4 i6 R; @# DRepair (MTTR)3 Q7 J. K( `7 |. m The total elapsed time for corrective maintenance divided by the total number of ( H' y, C" a! ?" k6 g& t- ?corrective maintenance actions during a given period of time. A basic measure5 G6 s" |, A9 B% U of maintainability.- {4 e0 U' G' G+ S2 y Mean Time to8 H% o' {# N+ ?' X0 c& R Restore System , K5 p# ~# b- J$ K; n1 S(MTTRS)' i" ^9 ~0 C* E0 Y8 L/ r A measure of the system maintainability parameter related to availability and " M/ m8 l- e) z6 l& R; O* ?readiness. The total corrective maintenance time associated with downing% g6 Z$ S. e6 O M+ Q events, divided by the total number of downing events, during a stated period of# l( L9 I9 _8 Y0 V) a; F) m# A time. (Excludes time for off-system maintenance and repair of detached & J0 q/ g# O& X. ^& K( V0 Ecomponents.)9 R) \" c1 `+ _& B7 ~ MEASAT Malaysia East Asia Satellite. ! z8 Z7 w+ d, v ^& aMeasure of 2 u' |9 z& k! j$ nEffectiveness 9 }& T! h0 ~8 I/ a* Y( M& t- C1 Q(MOE)$ k* i% h( x0 n$ [% T3 u) c The quantitative expression (sometimes modified by subjective judgment) of the % }1 Z/ O, ~- t& ^1 ^8 [' [3 r5 I5 Hsuccess of a system in achieving a specified objective.( ^* a/ b1 a: d: w( B% f MEC Mission Essentially Code (ILS term). `9 T6 u, X, R7 B T3 F, LMedium Earth4 G6 {* D% l( `( _$ ~/ C& G Orbit (MEO). h( _( O3 L) y1 R Space vehicles characterized by orbits between 400 and 10,000 nautical miles, 9 _ g! E. z7 [! ?4 W4 W( Dlonger duration revolution (2 to 12 hours), longer visibility envelopes (10 minutes o9 `/ _0 Z$ dup to approximately 1 hour), and generally longer lifetimes. This region contains * R% P4 t, `" r- s+ O; D$ Ythe Van Allen radiation belts where electronic components need special 0 e3 H! T" y0 L$ H4 G" Cprotection. ( E3 a1 d; j+ M2 J8 AMedium( Y% t/ a- c% U# Z' H- I; q Extended Air % d" m. b' L) mDefense System, C2 x+ j0 s: R; o4 Y (MEADS); h' Q9 F3 j3 w A lightweight, highly transportable, low-to-medium altitude air defense and7 Y1 C* t8 G1 ? theater missile defense system designed to protect critical fixed and8 |. ^2 b5 ~3 Y# C# S9 | maneuverable corps assets. MEADS superseded the Corps SAM program in# H0 N9 K& z3 e' x; Z 1995.- g' m1 T' L' F+ O2 s Medium Power1 e7 i5 ^' V) \6 { Lasers4 Q0 N& I; v% m: Y; m' q* L+ g: G; n Lasers that radiate power less than 1 MW, normally used to detect, identify, / O! |% G! E; [, Strack, and designate a target vehicle. ) N. c* c; \' sMedium Range1 J3 T9 l$ X0 E4 t Ballistic Missile - Y' w0 {" E% F" \1 Z- l(MRBM)4 Z" y# j% D3 {# q: U8 K8 _" F A ballistic missile with a range from about 600 to 1,500 nautical miles.; i9 Q6 |) i% { z' J, Z Medium% o. h& K# t' z Wavelength. S; j3 }. O5 R% F1 w$ a. g Infrared (MWIR)& \( J( M; G1 [# Z! u: a) Y" Z Thermal radiation emitted by a source in the electromagnetic spectrum p- M4 c$ l& T- ?* f4 bencompassing infrared wavelengths of 3 to 6 microns.' R& p/ b5 o9 Z( A MDA GLOSSARY, VER. 4.0 M$ E# T1 G% f& Y) c& l 180 - C! T; p& `2 j9 KMEF Marine Expeditionary Force.( k: ] F+ z% w7 r/ i MEILSR Minimum Essential ILS Requirements (NSA term).7 Z5 k6 q& o9 ] MEL (1) Maintenance Expenditure Limit. (2) Mobile Erector Launcher. 4 Y2 B7 p. {; t- x! w: @; OMEM (1) Mission Effectiveness Model. (2) Mission Equipment Modernization. 4 u5 h7 g+ Q2 RMemorandum of9 @, F1 i7 y: k( S Agreement (MOA) 9 M Q/ Q3 n) L7 R+ u. T: {(1) In contract administration, an agreement between a program manager$ Q# V+ l3 I" J& Y7 M5 j and a Contract Administration Office, establishing the scope of E J+ z; r# {+ x' ^% [. \. x& D1 @7 Lresponsibility of the Contract Administration Office with respect to the 7 Q, V y* T! |( M' q0 a; v* g. zcost and schedule surveillance functions and objectives, and/or other+ f d5 o# T" l2 j0 M contract administration functions on a specific contract or program., z3 y) B% G9 f/ ~" k1 ? y (2) Any written agreement in principle as to how a program will be/ P, I: D* C5 _3 [4 |9 B3 L administered. 6 t* r2 {; g' n) Q, h* @Memorandum of - v! S' K* J/ p- UUnderstanding + }- \' j, D0 @) G: F$ O: w(MOU) - X! ?+ j2 D. n, ^/ GOfficial agreements concluded between the NATO countries' defense ministries $ ~; @3 U& b7 L% @1 Rbut ranking below government level international treaties. De facto, all partners6 }% \( o& u: {, P/ U generally recognize such agreements as binding even if no legal claim could be5 {% ^+ v6 ]8 [/ o: ^. J based on the rights and obligations laid down in them. 9 Y( P% N" f8 HMEO Medium Earth Orbit.# R# w5 \- r0 M+ f- O4 V MER Manpower Estimate Report. 4 ^5 c g$ d* L" K* fMercury / K( u& ~4 [0 ?& V( B. NCadmium5 ]+ v! b: A: g6 J' X- \2 a Telluride (HCT)8 y) A' c- T; ~. w v2 @ Infrared sensing material.7 c1 }0 B4 x- R6 q* }7 M# j MES Military Essential Support.

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发表于 2008-12-25 20:12:09 |只看该作者
MESAR Multifunction Electronically Scanned Adaptive Radar (UK). 5 O, j; R8 a% P7 wMESFET Metal Schottky-Gate Field Effect Transistor.1 u7 Y( }; g# @& L: P2 c' y# J Mesosphere The portion of the atmosphere from about 30 to 80 kilometers above the earth.) r! n& @& V9 F7 ^ ?; e Methods, c5 D2 D7 u, c/ G; ~9 |" _ Engineering % x9 w$ q* p0 U4 g* WThe technique that subjects each operation of a given piece of work to close, r8 @4 i5 G$ R, W1 s, K' I! r: ? analysis to eliminate every unnecessary element or operation and to approach( u% _3 a1 R! y the quickest and best method of performing each necessary element or) O# x* ]/ H' A% ` operation. It includes the improvement and standardization of methods, 7 i+ o6 O2 R- Z1 P$ M8 mequipment, and working conditions; operator training; the determination of; E% b( Y8 s; a* ^ C standard times; and occasionally devising and administering various incentive- ?" M" O" j# D% J5 m* G7 T" {: L$ y plans. $ w* ~& \6 f: R4 j& Y8 f7 UMETO Minimum Effort Task Order.3 a8 h6 C2 T4 \! o6 H( l7 Z METOIA Minimum Effort Task Order Impact Assessment.5 S/ s( d/ t' F METOP Minimum Effort Task Order Plan.. f! A+ z4 T `6 t) c METOR Minimum Effort Task Order Requirement. $ j! N4 X1 h& k0 L( JMetric (Software). An indicator, which measures some specific attribute of the software* t) z1 P% G; K+ V7 [% a development process. / x: C: v/ Z% `$ E+ u5 a7 HMDA GLOSSARY, VER. 4.0 M [2 U+ [# N* s( m# ^ c, ~/ @181 c& j6 F5 C% }5 T T& d5 A( T3 [0 ] Metrology The science of measurement, including the development of measurement ; W* ]6 v8 P/ I8 ?3 W# x4 X) z, c9 Estandards and systems for absolute and relative measurement. Used to p8 ~) f' Q, _( `8 B5 Q determine conformance to technical requirements including the development of+ P' k5 w; i$ ]: A1 d! A8 g standards and systems for absolute and relative measurements. 7 E, i0 G6 l6 J: _, \, ?MeV Million Electron Volts. 9 A- ?1 V9 |! v) Q9 `MEZ Missile Engagement Zone.% `8 h' N; S3 K# D' J- V x MFAR Modular Multifunction Phased Array Radar. 0 Z( l, L( h+ D" mMFEL Medical Free Electron Laser.. H* e8 |7 u: }+ T: C MFG Master Frequency Generator. . \4 ~' G f# Y6 x: lMFL Multiple Folded Ladar.+ B; e7 P% p- b5 Y+ Y MFLOPS Million Floating Point Operations Per Second.) \5 N! G1 H0 b: i" J MFP Major Force Program.5 N5 V) W! b1 |- `0 F/ c MFR Memorandum For Record., T# s3 J7 ^& _5 ]8 S4 J- { MFS MFS Communications Company, Incorporated.& Y* n( q9 ?7 D MFSIM Multifunction Simulation (PATRIOT), Huntsville, AL. 8 O" v5 @% x2 B5 i& P+ h+ lMGEP Mobile Ground Entry Point./ B8 ^& f4 A- P- Q1 |! P MGLI Midcourse Ground Launched Interceptor.3 q5 e" K# } B5 a6 d0 p: Q7 s; Z MGMT Management. 7 H; a; J- C* HMGTS Mobile Ground Telemetry Station. / I: [9 ~- c9 e* A9 s" ZMHD Magneto-Hydro-Dynamic. h& F, i% f) q. J& R! [0 N& ]MHE (1) Material Handling Equipment. (2) Mobile Hauling Equipment.$ u0 @* V5 b8 h3 x5 b# {( W# i" I MHV Miniature Homing Vehicle.2 ^9 K8 c( W3 H' o mi Statue mile (5,280 feet).3 Z6 t/ U% h# D& M1 L MIC Management Information Center (MDA). . @6 ^ s6 R4 \! KMICOM U.S. Army Missile Command, Redstone Arsenal, AL./ d7 G# n. U& g9 M" H MIDAS Missile Defense Alarm System (US)., o" x ^$ N l* i& |' s# W Mid-Course ! {0 ?8 a: B8 t; }Defense Segment 9 w: j* s, d: C(MDS)8 [6 y5 r8 f' L; X; z/ { The portion of the BMDS that defeats ballistic missiles during the period of flight: L* d7 n$ s( s# c between boost and atmospheric reentry.- v# q+ P3 @ |# y, s, V Midcourse, g; f+ R3 l3 B2 X5 G3 _$ v Guidance : Y* O% q" I; Z/ n6 Z8 z2 ~$ KThe guidance applied to a missile between termination of the boost phase and ! D2 R9 Y+ ?0 r) H1 q6 Uthe start of the terminal phase of flight. & N4 u+ l( w4 e3 G5 mMDA GLOSSARY, VER. 4.0 M 8 ^* G$ T1 x' e6 n9 F4 C1 F1 G182 0 \% G; k9 r9 I) E) [Midcourse (MC) - G" X1 {3 L9 jPhase / P2 i$ f+ g' f; U. fThat portion of a ballistic missile's trajectory between the boost phase and the9 g! D. T$ _ c! Q, x I7 R/ ~9 a reentry phase when reentry vehicles and penaids travel at ballistic trajectories ( D& ^ K- L2 V9 r0 babove the atmosphere. During this phase, a missile releases its warheads and 3 X. j( N( f: ^: d# G! bdecoys and is no longer a single object, but rather a swarm of RVs and penaids1 l. p- k W. ?/ y2 g; G1 u falling freely along present trajectories in space. 1 e) J3 v* {4 Z( s7 G3 ?Midcourse Space/ u u ^ |1 v( f/ j: v; v r% e Experiment1 b+ c) h' I5 f; K (MSX)1 }) L) ?& s$ v0 }' q Designed to provide demonstrations of midcourse acquisition and tracking from # H- O' w$ A+ J Xspace, technology integration of optics, focal plane arrays, signal processing, * M& W+ u$ T9 u$ }: J# `etc., and collect background phenomenology measurements and target+ h0 n0 l' J' { signature measurements. 2 h1 h8 N x8 i% D; v9 A+ p) Z, nMidgetman US ICBM. $ D& k9 b% ]% T4 v3 y+ ?: ?& a# ZMIDI Musical Instrument Digital Interface.5 }! V! C0 ~( n% r( m' P MIDS Multi-Functional Information System (USN/NATO/Telecomm term). , {& c& L* U% [+ D4 X5 N& ^MIIRD Mission Issue Identification and Resolution Document.: L N$ _/ ]4 }. P' i MIJI Meaconing, Intrusion, Jamming, and Interference." x6 ^4 L( o+ N& N MIL Man-in-the-Loop.3 g7 Y" L% Z8 Z8 N. u9 S MIL-HDBK Military Handbook.6 K# u. g) n4 f: r6 ] MIL-STD Military Standard. 6 j9 Y e9 E; f+ {MILCON Military Construction. / R! u/ L9 [, w }6 qMilestone " n$ r& q9 Z. ~2 DDecision. e; F) s" s7 O3 I2 T1 g Authority/ s* E0 m8 T% s @ The individual designated in accordance with criteria established by the Under 9 A! n0 \9 s' |- w1 WSecretary of Defense for Acquisition and Technology to approve entry of an ( U! H/ o. `! J) A9 jacquisition program into the next phase. . V& y# f( n3 L1 s# C5 O. |Milestones (MS) Major decision points that separate the phases of an acquisition program. * P* M/ V: C) ?# R$ }) WMilitary2 e. h# I& [1 O+ i4 E Capability ' P" f+ t: p, g; KThe ability to achieve a specified wartime objective (win a war or battle, destroy a( r& p3 F' ^" c) c target set). It includes four major components: a). Force Structure -- Numbers, 6 p4 Y) z! e! e- ?' Ssize and composition of the units that compromise our Defense forces; b) " a& d& [/ {4 r0 c$ a4 m0 T5 [Modernization -- Technical sophistication of forces, units, weapon systems, and " |9 f+ d) U# [# E, S2 V4 gequipment; c) Readiness -- The ability of forces, units, weapon systems, or ; |) \+ _; Y# N2 f0 q4 o& Y+ [' Yequipment to deliver the outputs for which they were designed; d) Sustainability7 x. u7 S, e/ i1 n& F4 z -- The ability to maintain the necessary level and duration of operational activity ( d$ j$ U0 ?5 H* t* t8 qto achieve military objectives. Sustainability is a function of providing for and+ V$ k/ }/ H% A) N. m- S1 m; O% V maintaining those levels of ready forces, materiel, and consumables necessary 1 o& P6 [8 }3 @/ b( ^2 _to support military effort.

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