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发表于 2008-12-25 20:10:24 |只看该作者
Kinetic Kill ) x- e& G" J' s$ E; XVehicle ! c# l, y5 Y) E0 v9 W3 h) E: ^0 f3 sIntegrated7 [8 O; C! V( F Technology $ _* s/ H# b* A& fExperiment % |$ T9 Z0 C! r) T(KITE)8 o1 |) j0 l: z1 I7 x- S0 u A series of test flights at WSMR to demonstrate HEDI technologies. 6 |/ p7 i7 n# |1 pKITE (1) Kuiper Infrared Technology Experiment. (2) Kinetic Kill Vehicle Integrated 5 z5 m& _# D& |, lTechnology Experiment.6 J, b8 R2 W$ V/ t$ i KKV Kinetic Kill Vehicle. ; O4 w; M5 Q! R% j/ h$ h* V& fKKVWS Kinetic Kill Vehicle Weapon System.2 r- v' ~$ [8 \( {4 R- K* e KL Kill Level.& r9 d8 K* B. n/ w Km Kilometer. + \! i0 C O1 m+ @ X) a$ KKm/h Kilometer per hour. + l: n: C2 T M8 uKm/sec Kilometer per Second.! F2 \' Q( c$ ^* n( [ KMCC Kwajalein Mission Control Center.2 F" o6 F/ ?+ Z- P KMR Kwajalein Missile Range. 9 w6 z$ j3 |& O0 `KMRSS Kwajelein Missile Range Safety System. : G9 ~+ H1 Y- R, q7 g! oKPP Key Performance Parameters.; x, B) }9 C7 L! a8 i MDA GLOSSARY, VER. 4.0 K - ]- U: w/ ]* p6 U8 g1593 P( `- n$ }. b/ b Kr Krypton./ P/ a1 b2 Z1 f2 M: x; N# Y' B KREMS Kiernan Reentry Measurement System.; s i/ ]. m5 O KSC Kennedy Space Center, FL.0 l% t% L6 `9 f: v% p4 l Kt Kiloton.: }5 h" x8 r* D6 [$ Z KTF Kauai Test Facility, Barking Sands, HI./ w+ D/ X- L$ x; i6 k KTP (1) Key Technical Partner. (2) Key Test Partner (3) Key Technical Parameters. 8 V% B( \) R$ y6 z; XKts Knots.. y g! v# k$ Z KV Kill Vehicle. ' l [6 i/ d; G$ xkw Kilowatt. ^$ P. |* B7 y6 t5 } KW Kinetic Warhead., q) C1 G' N; y0 @" B MDA GLOSSARY, VER. 4.0 L ) `! A r6 }% b& l$ k) W+ f: J2 c161 $ @( x! @; h* N, r4 F% i/ i- ]L&TH Lethality and Target Hardening.9 s& M" Q R% S, i4 \* H! ~2 z: f L1SS Level 1 System Simulator. ; N* ]* M" j F) K+ c$ wL2SS Level 2 System Simulator - NTF.4 f* _1 F3 y8 ]. l1 x0 Y0 m LAA Limited Access Area.; a, a0 s/ ^) I& y9 X LAAD Low Altitude Air Defense.% o) A* t, k/ C# I LAAFB Los Angeles Air Force Base, CA.+ k7 H7 i7 }( Y LABCOM Laboratory Command.( {2 c$ k/ h- g LABM Local Area Battle Manager.$ |9 U6 D% \6 J& R( T8 j4 A LABP Look Ahead Battle Planner& s c9 l# }( ]4 d# I% B LAC Low Authority Control. % l. P. f( l4 }' l$ w0 BLACE Laser Atmospheric Compensation Experiment (an SDIO/NRL satellite launched O' a% ?) C+ \) z, KFebruary 1990 and turned off July 1993). 0 L' ^# h9 `# F) K/ N" B& ^8 M, ELACM Land Attack Cruise Missile. * G: [- P9 R2 h+ R' n! M* \LADAR Laser Detection and Ranging.% i$ I0 z3 x2 O Laddering Down A hypothetical technique for overcoming a terminal phase missile defense.# ?9 X& a" T2 H( } Successive salvos of salvage-fused RVs attack. The detonations of one salvo9 g; `% v+ ^5 p8 d7 V" S# \ disable local ABM abilities so that following salvos are able to approach the 7 Y: j4 q- J' \* etarget more closely before being, in turn, intercepted. Eventually, by repeating 9 V9 Z' J6 | B; |/ b6 Uthe process, the target is reached and destroyed.) X& l' i& o0 {5 g/ n4 D LADL Lightweight Air Defense Launcher (USA TBMD term)." E% p! z( z! ?! n% s0 X LADS Low Altitude Demonstration System.4 @4 G; D8 L6 B$ y' C' d LAFB Langley AFB, VA. " @" M8 w' U: V9 {" Z. `LAMP Large Advanced Mirror Program.% G8 A/ L' C, u( J& ^ LAN Local Area Network.) o6 K6 `. A3 i- o. Z Landsat Land Satellite (NASA program’s satellite).' ~; n: k2 C( x9 q& @ LANL Los Alamos National Laboratory, NM.4 [' [6 h2 y/ r+ Y+ m6 d& Z6 Q, q LANTRINS Low Altitude Navigation and Targeting Infrared Night System. 0 s+ X) x% ^& v7 j! i8 ]LAO Limited Attack Option. 0 ?* [( k5 Y- t& N5 Q& pLAPL Lead Allowance Parts List (Navy term). 7 x% h. H0 h* @5 n: cLARC Langley Research Center, Hampton, VA.* ^, A% d4 j$ H, x MDA GLOSSARY, VER. 4.0 L+ m5 |$ m- @( ^2 V5 R0 P3 E 1625 F4 G& y! E6 u( l Large Optics The technology of constructing and employing mirrors over 1 m aperture to direct( p Q. } @) h+ O K and control high power beam weapons/systems with large coverage, or to : D5 g4 c+ b: D7 T$ i* z0 a7 T8 ^% Bprovide high resolution or high sensitivity for detection and/or imaging.- h! ^ R9 v9 D- _0 u$ H7 o LASA Large Aperture Seismic Array.5 ]' z! J& }$ o7 t& N* m Lasant A material that can be stimulated to produce laser light. Many materials can be ! i/ W5 p- }, S* w5 xused as lasants; these can be in solid, liquid, or gaseous form (consisting of/ e9 r4 S4 k0 D! I7 M! s9 q molecules including excimers or atoms) or in the form of plasma (consisting of0 @; a+ e) y. ]4 J- n2 G: V& ` ions and electrons). Lasant materials useful in high energy lasers include carbon6 b3 E) A2 g- f dioxide, carbon monoxide, deuterium fluoride, hydrogen fluoride, iodine, xenon/ H" e3 r7 [$ ^) h6 j: j! I chloride, krypton fluoride, and selenium, to mention but a few.1 V* t) P, I% k7 B9 ^* x' c! S" _ LASE LIDAR Acquisition and Sizing Experiment. 0 w9 O/ S: C/ D1 l- _( c. {( \Laser An active electron device that converts input power into a very narrow, intense. `0 U. e% p, O) X beam of coherent visible or infrared light; the input power excites the atoms of an 8 f) w* w! u- p2 y9 E* `optical resonator to a higher energy level, and the resonator forces the excited* ]! y) `8 h( T3 O, r$ d. }! j* F atoms to radiate in phase. Derived from Light Amplification by Stimulated3 M/ B8 p" k& u. W+ y6 R6 v% N9 q Emission of Radiation and classified from Class I - Class IV according to its & ~, E6 V5 `. y; [* x1 N/ ]potential for causing damage to the eye. * H' u& z# `. ^" vLaser Designator A device that emits a beam of laser energy to mark a specific place or object. . M% H" C9 ?# z; T, V$ s: oLaser Detection + D) q/ D4 ]& E$ L% dand Ranging) a0 T6 i8 S) @. G$ G. v4 v7 u4 d (LADAR) 3 K2 r: R9 g5 J7 L( A6 i3 FA technique analogous to radar, but which uses laser light rather than radio or; c4 I2 _; f% s microwaves. The light is bounced off a target and then detected, with the return % p, G: f0 f4 E" w# A; l+ |beam providing information on the distance and velocity of the target. , N B8 g( z" ]; z _5 d9 GLaser Guided2 y$ X8 k5 _ |7 |1 S Weapon, j) G( ?4 W' G' |, B: U A weapon that uses a seeker to detect laser energy reflected from a laser( r% u# Z' @ g( Y& M marker/designated target and, through signal processing, provides guidance0 W( y: r- N A1 K2 J% { a7 q commands to a control system. The control system then guides the weapon to # X8 s1 Y+ l9 [! bthe point from which the laser energy is being reflected.+ b5 k" g3 o+ Y. Q Laser Imaging" u+ H" e5 K7 Y Radar$ r2 ^- T% H/ H9 `0 A1 {% o A technology whereby a laser beam can be used in a way similar to the use of a ( O, j% H: o4 P T. Y% G5 j) y) ~radar beam to produce a high-quality image of an object.4 n( G- X. a: ~" B; m( `- [ Laser Optics Technology associated with the use and control of laser beams with flux greater# H0 Y7 G' `* x* k( }1 [3 E than 1 watt/cm2. 9 \) \+ B3 W& sLaser Seeker A device based on a direction sensitive receiver that detects the energy reflected5 G3 p# [. ~# _ from a laser designated target and defines the direction of the target relative to , X7 @0 q' e- [4 n2 m3 Athe receiver. See also laser guided weapon., z0 I3 [" }6 s- n, W Laser Target9 Q5 i- |6 O$ t6 i0 P5 R+ g8 v Designating4 ?3 I: L, z# D1 r; | System . T* p! e! a6 [+ [4 ]# fA system that is used to direct (aim or point) laser energy at a target. The + z; v* o' W2 Q C0 d4 A! csystem consists of the laser designator or laser target marker with its display and * D8 i% _3 e1 q0 q7 Ccontrol components necessary to acquire the target and direct the beam of the $ V& z B- v( Z/ T* S0 V* Hlaser energy thereon.+ H* j! p3 f6 F5 n Laser Tracker A device that locks on to the reflected energy from a laser marked/designated 0 D" W$ b' ] M ^' a3 Nand defines the direction of the target relative to itself.1 N+ \) o1 J& a& ?# l' E Laser Weapons Devices, such as photon generators, which produce a narrow beam of coherent* @- Z. t3 h" @/ w radiated power greater than 1 MW.6 p& {5 P! w9 U& j* ]3 j LASERCOM Laser Communications. 5 _6 O7 J8 v/ Y; [* `8 ~7 gLATS 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 L 8 ]! D U$ F0 Y+ M' d9 G163 ) c1 V3 X. D6 S$ g9 b+ g2 yLaunch Azimuth Missile launch location measured in degrees clockwise from the local northpointing longitude line at the launch site. (USSPACECOM) ! m6 R: C/ V9 P- i5 z8 B2 RLaunch Detection Initial indication by any one of a variety of sensors that a booster has been 1 W7 A6 g8 f- ^' h: @ }launched from some point on the surface of the earth, with initial characterization0 C% c* i4 M( K$ z$ r2 N of the booster type. (USSPACECOM) * C. s: A/ K! |- gLaunch Point3 j) O7 a: z3 A0 M Determination& F5 D/ m. z7 v5 z With computer methods, uses missile track observation to estimate the point on 8 i4 A( Q6 D L3 Mthe earth’s surface from which the missile was launched, expressed in terms of: e, N+ r0 x, H' V8 X# A1 Z circular error probable.- r" i! I# f4 w. E- l Launch Under# j% o" T2 l7 T& g3 y" a8 P Attack (LUA)) {9 N2 M) Q/ \0 x& n Execution by National Command Authorities of Single Integrated Operational & H$ i. b( X: ~' c7 y+ | aPlan forces subsequent to tactical warning of strategic nuclear attack against the : j k# }1 `4 _+ M, H: s6 F/ JUnited States and prior to first impact. 6 f' v, g/ j) ~0 yLaunch+ M$ P @. r8 k0 `6 V Verification & s4 D$ i( O( A- |1 Z, ~2 U. xConfirmation of a detection of a booster launch by receiving a report from a; D+ D6 j5 W: P: [5 q sensor separate and independent of the sensor that initially detected a specific/ I1 d( L3 A5 s' j0 n booster launch.5 \( \! X- j* E) C! R Layered Defense A defense that consists of several sets of weapons that operates at different9 j$ l6 d2 O0 D3 K" s/ D0 s6 N phases in the trajectory of a ballistic missile. Thus, there could be a first layer& I$ J, @' C& W0 [+ { (e.g., boost phase) of defense with remaining targets passed on to succeeding # J4 b- |! a2 @, \; Nlayers (e.g., midcourse, terminal). * w' U; U7 ^. u8 J' V- ~lb Pound.2 h% d" _# {2 A: b, A5 B LBL Lawrence Berkeley Laboratory, Berkeley, CA. ; g+ j& j% ?1 g5 H9 [LBM Localized Battle Management/Manager(s).. s) X+ i/ D! K0 l" J% P$ f. | LBTS Land Based Test Site. $ n( _; ^2 L [LCC (1) See Life-Cycle Cost. (2) Launch Control Center.0 U1 t. y n# T) B LCCE (1) Life-Cycle Cost. (2) Launch Control Center. (3) Land Component 0 a% L, c7 z2 d. M9 e' F# }1 ACommander (JCS term).* L& I7 t/ W% Y- ~ LCCS Life-Cycle Contractor Support. % W( }% t+ ~$ n3 y9 MLCF Launch Control Facility.6 Z7 M- ?' m$ H! W LCM (1) Life Cycle Management.( f' w* J3 v4 l& x (2) Lightweight Communications Module (USAF TelComms/Computer term). ' c6 Q0 L) v) }& cLCN Logistics Control Number (ILS term). ( }! {* h% i" U( ~3 i+ c7 MLCOM Logistics Composite Model.3 i! E* s3 H& G: U M' n d, f LCN Logistics Control Number (ILS term). 3 x8 b2 T: A1 o0 x: V+ h; L/ oLCS Laser Crosslink System.! d9 r+ x j& O; [ LDC Less Developed Country. & V) W$ f/ l6 X5 ^5 kLDS (1) Layered Defense System. (2) Lexington Discrimination System. (3) Limited ) I0 q! f. w2 c- C j: X- ~3 v7 ?( y5 CDefense System.! G$ Y. p1 o# F d% Q MDA GLOSSARY, VER. 4.0 L q0 H1 d. F5 X3 u2 c8 b 164 " S7 M5 |; d9 f }- `% yLE Lethality Enhancer (PAC-3). , T% p L% T* d& h; mLead Component/1 i) s% S; ]2 ~8 h Service$ h& E B# v9 r% C; Y The DoD Component designated by SECDEF to be responsible for management1 o! j# ]$ \' K+ `2 b# k of a system acquisition involving two or more DoD Components in a joint 6 x3 N; J1 Q! J- B2 R: n+ d; mprogram.* d: \& E' T2 d2 r8 {" P' e; M LEAF Law Enforcement Access Field. ( C, X2 n: w! }0 Y, y: H& @! ILeakage The allowable threat objects passing through a BMD system expressed as a9 o9 m8 ?4 B( K4 O; I percentage of the threat. To ensure overall system performance, permitted % ^3 Z% m" n6 m/ j& C& Qleakage is “budgeted” among individual BMD phases and functions. 3 X5 M- R3 ?0 n8 F: K, K/ HLeakage (Max) The maximum allowable threat objects passing through a BMD system expressed : E: ]- Z9 p. ]7 Q [/ `as a percentage of the design-to threat. To ensure overall system performance, 0 s* d3 Z* ^5 M$ K& zpermitted leakage is “budgeted” among individual BMD phases and functions.. R/ q) a2 S4 R7 o LEAP Lightweight Exoatmospheric Projectile.' e3 K8 n1 A7 z: @+ u% I LEASAT Leased Satellite. - r% c1 o% b0 q# k8 xLeast Privilege This principle requires that each subject in a system be granted the most : L& d$ H0 P1 y( R2 ^1 R- l+ Frestrictive set of privileges (or lowest clearance) needed for the performance of + q/ ?) L# _" d W/ y7 wauthorized tasks. The application of this privilege limits the damage that can6 M0 Y: S/ I2 n' p( R" H result from accident, error, or unauthorized use.6 U5 R% O6 h0 S2 c5 E$ E' y LED (1) Low Endoatmospheric Defense. (2) Light Emitting Diode.& ?5 @/ h1 e" L$ M* Y LEDI Low Endoatmospheric Defense Interceptor. ]" S5 [4 n2 V LEDS (1) Low Endoatmospheric Defense System.5 f* Z- V! O$ @+ z( N (2) Link Eleven Display System (USN term)./ O1 {! M3 U- T8 W) N2 A" y LEI Low Endoatmospheric Interceptor. 3 l" E! p" }5 Y' P& ?9 f( MLEIP Link Eleven Improvement Program (USN term).+ D, P9 j' y- M, J3 ^ LEL Low Energy Laser. % d- D+ {$ l1 V* {2 r1 f1 {2 bLELWS Low Energy Laser Weapon System. - k, s6 E0 ~0 W# T( TLEM Logistics Element Manager (ILS term). J; U/ e3 {- M8 A LEO Low Earth Orbit.6 Z* [) _) D% Y$ S LETS LWIR Environment and Threat Simulation. + c8 u9 O! f9 n8 ~" s$ p# a. e9 C7 uLevel of Effort 4 Y0 g# [5 |) G2 m6 c(LOE), p1 x# c( i: ]% x' S! U Effort of a general or supportive nature that does not produce definite end0 X3 R' G' z, d. X! ] products or results, e.g. contract man-hours. 5 T) A: r9 k `5 y3 n* b8 DLeverage (1) The advantage gained by boost-phase intercept, when a single booster ! ^ @# T! l% k) f/ Y) Lkill may eliminate many RVs and decoys before they are deployed. This 1 u4 }" y7 c! b: Y( u1 lcould provide a favorable cost-exchange ratio for the defense and would 8 b* k+ |8 G1 E+ E6 ?. w" W( q( o" kreduce stress on later tiers of the SDS. 6 u( T, `9 `4 ?* B: e) k6 j(2) In general, the power to act or influence to attain goals.+ T) z: I9 W4 T; V; T. ^ LF (1) Landing Force. (2) Low Frequency. 5 ~+ I( H; M$ a5 ?/ f( C9 eMDA GLOSSARY, VER. 4.0 L 5 t9 T& b* k' R `! r) A; S: |) W) i165# R# `$ n8 Z9 g LFIE Live Flight Integration Exercise.! W4 U. F2 \# Z' i3 L# z LFOV Limited Field of View. ( S2 s+ }! N3 L" Y2 HLFS Loral Federal System, Gaithersburg, MD./ p' p+ g6 v- ^" P LFT&E Live Fire Test and Evaluation. ) N x8 ?+ N: f, S" N& y2 S* eLGB Laser Guided Bomb.# L& q% M1 q$ C* \: Z LGM (1) Laser Guided Missile. ; L' f& F _. R- q& p(2) Loop Group Multiplexer. . l, P# b1 L1 H* N/ d: x- KLGSM Light Ground Station Module (USA CECOM term). 8 N+ T4 b- h/ P, _# s( Z/ o9 kLHO Amphibious Assault Ship.' a' U- b- |9 I1 b& d7 G8 o Li Lithium.: u$ O1 _% `- u3 C6 |/ G LIC Low Intensity Conflict.. r* P( E/ F/ j LIDAR Light Detection and Ranging.4 d! R- ?0 |2 {2 c3 b' e( R Life Cycle (1) The total phases through which an item passes from the time it is initially H) _/ h% e- y: S, f developed until the time it is either consumed or disposed of as being. D& ^- Z7 f4 f @ excess to all known materiel requirements. 9 `- \! G. t$ d( w(2) (Software). All the states a software or software related product passes0 |% Q. j4 K; d- J- x9 O through from its inception until it is no longer useful.2 a" ^- k4 u, h' w! j" J ~3 u Life-Cycle Cost, f* ^: w7 J2 a) k3 v, Y (LCC)* I+ J7 k. C' y& j6 @) K/ ~0 G The total cost to the Government of acquisition and ownership of that system # ~# L+ |8 {9 P+ O" Uover its useful life. It includes the cost of development, acquisition, support and, S u. ?) R/ `8 L/ m where applicable, disposal. " k# K) B |: c: N6 g- ?Life-Cycle 3 R$ A2 \ x$ f7 M' y sManagement 7 N5 W7 \) j- F5 t3 w J1 TProcess for administering an automated information system or hardware support , q3 e0 s# H* O1 B) B* e3 Tsystem over its whole life, with emphasis on strengthening early decisions which8 K. ?/ v- h; ^ shape costs and utility.5 g; G6 m9 R5 H' b Life-Cycle Model A framework containing the processes, activities, and tasks involved in the / R/ y6 V- K7 B/ q+ v, g1 W5 a) Y& }development, operation, and support of the system, spanning the life of the 5 @; n/ A# |. m: B2 Rsystem from the definition of its requirements to the termination of its use., U, q x, K3 ]1 c Life Cycle of a 3 X5 W; c- P+ ?+ pWeapon System; U6 |) G1 d5 r: e; q All phases of the system's life including research, development, test and ' L. ^ x- j/ n; Jevaluation, production, deployment (inventory), operations and support, and / B2 P( a: f" `% Zdisposal. 2 K) A1 ]( Z& M5 H' ELife Jacket The life support storage container for a Brilliant Pebbles singlet. The life jacket % S- J, u6 S! x0 g2 S6 R) m( ]contains subsystems that perform power, communications, and environmental ) z/ ?2 E. s `; z0 G* Rprotection functions. 9 G }6 L2 D# bLight Detection 9 b! n) ? r0 }- i) P8 H' tand Ranging . A. L2 g, l! p' A5 O, S' `" {(LIDAR) 4 R6 m* [' g8 FA precision probing instrument used to measure concentrations of different. m' L0 M, C @/ U gasses 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 Replicas & q' G1 |7 i- R$ t4 Y5 H(LREP) . A/ Q* F. N/ B, qDecoys that, by virtue of shape, closely approximate an RV’s signature with little 8 T% K4 }; _/ U6 @3 M( D# @off-load penalty. * {. R, S/ r' W/ M9 |LIMIDIS Limited Distribution.% q( l3 j" f+ | MDA GLOSSARY, VER. 4.0 L7 u3 @. S# Q- s* c 166 ! V8 {/ h. m8 VLimited Attack An attack on the U.S. and its allies, which provides a stressing timeline, and is G% [3 l* F" b( r4 w: b geographically distinct. Not an all-out attack or mass wave.0 {2 s& o& C, u6 X' N- b0 [ Limited Defense6 A" C3 c/ n' n5 ]& Z* |6 k& F System (LDS) 9 f1 m4 [& a9 [: n2 ~& OThe development of systems, components, and architectures for a deployable , L5 ^! I4 D6 F7 `5 Eanti-ballistic missile system (as described in section 232(a)(1) of the 1991 Missile2 _5 {* C# ^! s& t* N- ?! r Defense Act, as revised) capable of providing a highly effective defense of the1 Z: s: D- ]3 K- l- C9 Q& U United States against limited ballistic missile threats, including accidental or # i( ]0 e/ l& l9 R dunauthorized launches or Third World attacks, but below a threshold that would+ @) w$ n; l% n* e; a8 U' {* X! } bring into question strategic stability. 0 ]4 s; O& Y/ r% n+ ILimited* J8 s3 Y7 r. V! C Operational : E% h) e( r( fCapability (LOC); R; t! l; Q6 l- ^, M8 g! D1 ? A point in time when the first set of sensors and weapons can be employed to) R9 O+ p: }9 w4 @1 |, m) s P provide a limited protection system.4 h% m4 a9 d( n: l) T# s6 T Limited0 l A0 i' |. |9 m Production( C5 T( v0 X, k4 p1 \; C7 k3 a0 @3 z The initial production of a system in limited quantity. Part of an acquisition. U/ z9 |# V0 k: e+ k0 ` strategy to be used in test and evaluation for verification of design maturity,8 T; Q7 K8 n9 T. q manufacturing process final proofing, and product engineering and to verify a 8 l. z3 t/ K7 r4 Z, s/ f+ t5 _$ yfactories capabilities prior to a decision to proceed with production. Decision # s) ~, u. q8 U* S7 y. `9 Cusually made near the end of EMD or at Milestone IIIA or equivalent. (Also , `: Z! W; ?& bcalled Low-Rate Initial Production or Pilot Production.)0 B+ v, v4 F& y Limited Test$ f0 j0 k- ?1 i; S7 Y/ V Ban Treaty . S; y9 u# j+ ?0 oThe bilateral Treaty signed and ratified by the United States and the (former)/ J6 j, F0 i' O6 A U.S.S.R. in 1963, which prohibits nuclear tests in all locations except2 b: V+ g% w* n! y" b V/ }; B underground, and prohibits nuclear explosions underground if they cause( I; d# B$ G7 h( J0 z6 P radioactive debris to be present outside the territorial limits of the state under* H1 Z' Z3 E8 Z whose jurisdiction or control the test would be conducted.4 J" H+ Y# m) \. }$ ^ LIN Line Item Number. 0 N j: ]' @) }# o9 {Linac Linear Accelerator.( V- k+ m3 a* l$ r) F Line Item / i' |2 S0 F+ O7 I(Budget) ' c7 ~2 A8 F/ m) E0 ]# X% JA specific program end item with its own identity (e.g., B-1B Bomber). . m0 h7 K: ?- a; `. c3 J0 [Line of Sight0 P% ?: W3 p0 S (LOS)3 ^' H* k) X1 J" i7 Y3 [: r) I The line from sensor to target necessary for the commencement of the detection, - X* t" t3 y" n3 |6 Y2 d7 xacquisition, track, and identification of a target. 7 V# T( J' p+ fLine Replaceable$ n& E) S: h; U% O* h( c Unit (LRU) ! x( l' n K# P# H8 LAn essential support item removed and replaced at field level to restore end item 1 ]0 j5 g9 ?3 _! @; ]to an operationally ready condition. (Also called Weapon Replacement- \6 q) O, u7 H0 C Assembly and Module Replaceable Unit).- `6 ~9 j+ T. f% X; Y4 E# G Link-16 TADIL-J. 7 I5 ~ a& C ?" }- e t( E" nLink Quality & G; U" `2 o9 g8 p+ B+ m4 Y' JEvaluation * G. t0 a3 z9 h/ y% LThis testing of links to create bit error estimates and monitors natural or induced1 K! E2 T# D, ^ link interference.& g) l( ^$ h* O) m! V LIP Lethality Improvement Plan.3 }" k* H/ g6 }+ h+ r Liquid Fuel$ k* p* D' { Q; E* f Booster (LFB) # }: s( I4 L4 _5 ~) [" I8 A9 {" u+ e0 j: vTarget booster being developed to mate with current reentry vehicles and4 y8 J" T5 \) ^ emulate the short/medium range threat.3 u# u/ h* V4 t7 A8 s( B* v7 L3 g- A LIS Laser Isotope Separation.5 v( I' f% x1 k; t( z' t LITINT Literature Intelligence. 9 Z* Q0 r6 Z r/ G" KMDA GLOSSARY, VER. 4.0 L 1 N. s, M4 ~! u' u6 e% Q167 8 r6 Z/ S+ T! E$ I! vLive Fire Test" `: `' ] N: q; P% \ And Evaluation # B9 f" H+ I& L/ a' T(LFT&E) & i7 Q7 Z9 ~+ R, lSurvivability testing and lethality testing required before full-scale production. " ~: N2 S R. q7 N, {Must be conducted on ACAT I and II programs for: (a) A covered system (a 0 e9 M% ~& x5 |5 x( rconventional weapon system designed to provide some degree of protection to3 f- j7 ?. S/ L& {# n' q3 K the user in combat); (b) a major munition or missile program; (c) a product& J6 e2 i( `# |2 Y! i/ y% j improvement program that will significantly affect the survivability of a covered 6 Z. r1 j2 y% ?! E2 v2 Lsystem., O# Q" ]1 J d. x+ O LIVEX Live Exercise.# y$ K- v( `; A: h2 t% W1 a, I9 i LIWA Land Information Warfare Activity. ; s) }3 E* z! M3 ~, R9 Q; MLJ Life Jacket (BE term). 6 K- u3 J3 @+ S# t9 B; j( N! x# ILL (1) Lincoln Laboratory, Lexington, MA.) l! M7 U+ t ^8 K' m. ]; x. o4 p (2) Legislative Liaison. 0 F; }: a5 Z, H% K: NLLM Long Lead Material.) O C2 k; s8 p% B LLNL Lawrence Livermore National Laboratory, Livermore, CA. 8 D& Y4 ~! S% b2 C' L: xLLTIL Long-Lead-Time Items List (ILS term).2 F5 K, C# W% J2 Z2 {+ N+ T LLUM Low background LWIR Uniform Mercury Cadmium Teloride (HgCdTe).2 [; U: e% q5 H' {: C LM (1) Lockheed Martin, a defense industry contractor. + o% i* B$ `' n5 n O* x(2) Logistics Manager (ILS term).

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LM/GES Lockheed Martin/Government Electronic Systems. ' w8 v, _1 ~% j/ U' D) zLMA Lockheed Martin Astronautics, a defense industry contractor. 3 ^3 @% c7 p0 H* i- PLMANS Lockheed Martin Aeronautic and Naval Systems.4 u3 e' \/ _- t' J5 p LMC Late Midcourse./ r, r, H% g2 E4 r LMFBR Liquid-Metal Fast Breeder Reactor.1 M9 x" G4 w) s% ] LMIS Logistics Management Information System.5 b$ s6 T0 k; ] LNA Low Noise Amplifier./ V6 [# k/ i( o. v LNC Local Network Controller. # }; P$ C. q t$ |LNE Low Noise Exciter (Electronics Engineering term).9 }9 k- f6 X5 L- i# T- X0 a0 | LNO Liaison Officer. ( N2 {+ Q, x# B/ ~! T8 }LO (1) Local Oscillator (Electronics Engineering term). + _5 F( J( S i. u(2) Low Observables (LODE-related term).! c1 y7 Q6 U7 S1 q R9 o LOA Letter of Agreement.7 a) |2 F4 r0 P% u R X6 w LOAD Low Altitude Defense. 2 ~) T! {8 l" A6 ^) \% i `LOC (1) Lines of Communication. 7 N. E6 p) |* y9 [(2) Lines of Code. # V5 J$ `: `# W(3) Limited Operational Capability. j/ O% K& K& S3 x- x- o3 d MDA GLOSSARY, VER. 4.0 L , \# c3 j9 h1 U- T3 A168! x W @. h2 v* e- s7 C" N LOCAAS Low Cost Autonomous Attack System (USAF term).3 \6 u* x1 E c- [ Local% { r2 d. i# N6 @4 a+ D Assessment of6 a. [( j5 x/ d- b Engagement+ n! N9 z/ X" B6 U# f8 n" v The assessment of an engagement by high-resolution fire control sensors. , e& x" k' ?0 x( i3 u6 WLocal 9 M# j: {2 q( BEnvironment & E. t1 \2 U/ m3 I ^* u! ]The ISTC Local Environment contained within each node simulates the element : Z" Q: E" M1 x: D2 W% [' F# \to the degree necessary to generate a realistic input to the Element Processor of7 x# q1 L/ i& j o6 ]- F: U* y Element Processor Emulation and provide a realistic response to the Element9 J# H. Z! W7 u0 b9 ]) P( e Processor or Element Processor Emulation. 7 c: G; M; f% t$ V( {' CLock On Signifies that a tracking or target-seeking system is continuously and; H/ R& y- y5 v$ _6 n9 c3 D/ F automatically tracking a target in one or more coordinates (e.g., range, bearing, ' g/ B3 y ]5 E2 x9 g1 r8 delevation). # E6 a/ h* _. K, I, O: J6 c8 r8 jLODE Laser Optics Demonstration Experiment. I/ {8 ^+ X) i6 ]) \, K- NLODTM Large Optics Diamond Turning Machine.& v" a1 l# S0 s/ @ LOE (1) Level of Effort. (2) Letter of Evaluation (AF). % k* v2 V2 u5 R8 hLOF Lifejacket Orbital Flight (BE term). ; M2 g& F3 k: m- C. z' aLofted Trajectory Trajectory with an apogee greater than the minimum-energy trajectory to the+ \: Y- m# C4 f$ ] same range. 2 |$ T* u. T: `. h+ n! J* |LOG Logistics.9 W( @5 i4 g9 W2 ~, p LOG.WIPT Logistics Working-level IPT 6 B3 ]7 t9 j0 ^+ KLOGAM II Logistics Analysis Model II. f. H; f2 A2 V8 Q% _ LOGFAC Logistics Feasibility Analysis Capability. * Z3 ]6 r; v5 m' L& jLOGFOR Logistics Force.$ ^" X3 r& E! w+ E! k Logistics The science of planning and carrying out the movement and maintenance of& r$ d( t" m. |8 a' \ forces. In its most comprehensive sense, it includes those aspects of military 9 {. l& l- r! _9 H1 n% j! @operations which deal with: (1) design and development, acquisition, storage,5 y' s, R' m# M# P* i movement, distribution, maintenance, evacuation, and disposition of materials;6 i) l) L$ h; ?3 R4 q# j (2) movement, evacuation, and hospitalization of personnel; (3) acquisition or# i2 l" y! f) K. [ construction, maintenance, operation, and disposition of facilities; and (4) 6 v; v( e3 v3 p. i: }3 r0 Cacquisition or furnishing of services.& Z2 h" m. {0 b Logistics Support The supply and maintenance of materiel essential to proper operation of a; |7 v6 u* A: D2 T3 ~* [ system in the force.* z$ @( V/ P; T1 | Logistics6 l$ W. t" |' `* W G0 w K Supportability t0 c" Z9 Z! f' B The degree to which planned logistics support (including test, measurement, and: j8 K, S8 ~7 ~' G- u: R8 } s, @ diagnostic equipment; spares and repair parts; technical data; support facilities; 5 S3 B% P% t2 }2 }$ M# Htransportation requirements; training; manpower; and software support) allow + x# b% d5 g3 Q- f; S+ smeeting system availability and wartime usage requirements. 4 k. b% p) j+ n M# sMDA GLOSSARY, VER. 4.0 L ! g. [5 _8 M& K! c( o' S. v" Q; T# ?169+ O2 I! r' y# A" o' P+ s* V Logistics / N+ H& A: W$ Y: R3 j6 {, YSupport Analysis * d5 x& }2 s# |2 b3 j1 W8 K(LSA) 9 r3 x) v2 R/ N4 p5 iThe selective application of scientific and engineering efforts undertaken during1 q) H6 r# v7 g! {3 S+ e j3 J the acquisition process, as part of the systems engineering process, to assist in:7 F* y8 \$ o# \# ~" B- }1 T7 x causing support considerations to influence design; defining support 3 G" a* F/ [4 Q0 Y9 prequirements that are related optimally to design and to each other; acquiring 4 A7 W- P9 o$ gthe required support; and providing the required support during the operational 5 k% [! W4 H, o8 K: }. z. T6 k* o: ^phase at minimum cost. 1 F( I) D6 E4 O+ B, HLogistics Support + R$ g4 j+ p1 Z1 c/ z0 }5 lAnalysis Record% {6 z- M. R; o* t0 o* n' w (LSAR)8 n5 n" D3 p0 k0 f7 ^/ R* i! L1 j A formal tool under MIL-STD 1388-2A that uses records/forms to document * [' S5 ]) y) |operations and maintenance requirements, RAM, task analyses, technical data, ( l: @( K: f# B( P" w1 Asupport/test equipment, facilities, skill evaluation, supply support, ATE and TPS,; _3 v# [* h$ U2 w1 S and transportability. LSAR is the basis for training, personnel, supply " F5 ^; q) z9 P# Z2 u1 Mprovisioning and allowances construction, support equipment acquisition,2 u$ S7 B2 T' z0 i0 } facilities construction and preparation, and for maintenance.* ]- F6 x1 Y. n5 Z( K6 M6 V LOGPLAN Logistics Plan.8 R5 y w! Z6 ?) w; y1 O% ~5 S LOGSIM Logistics Simulation Model. , K# y. q2 u! [LOI (1) Letter of Instruction. (2) Letter of Intent.3 w h. O) v1 t: f/ `7 M! R LOMEZ Low Altitude Missile Engagement Zone. ( _3 r d& I, i$ B- O1 rLong Lead Items 9 [# ?- E$ E9 ]7 q% U0 WLong Range Air4 v, j) Y* q: I e/ A+ ^' o* e Launched Target ) N' C7 l8 D; a: D# `3 E(LRALT)3 _8 b) e+ D6 }8 S0 e- X! ~ Those components of a system for which the times to design and fabricate are z7 `& r( b; r0 v- {1 O ithe longest, and, therefore, to which an early commitment of funds may be4 _; L- w8 h: i$ @( M* T desirable in order to meet the earliest possible date of system completion. ; I9 x# h& z6 ^" m; V" p: fTwo-stage, air launched ballistic missile target being developed for MBRV-4. ) ^; |2 T6 e; l6 wLong Wavelength+ [3 h2 U0 d; l Infrared (LWIR) ' L; m# s! p) l6 D5 HThermal radiation emitted by a source in the electromagnetic spectrum + D, h0 i v) m7 G% cencompassing infrared wavelengths of 6 to 30 microns. ! e! H' [9 j2 g7 }% _LOR Level of Repair Analysis (ILS term). 8 w: {# @7 b: d" [+ D. l' ?LORA Level of Repair Analysis (ILS term). ; x& O6 H# g5 dLOS (1) Line of Sight. (2) Large Optical Segment.) T) v5 z8 c! z% { LOTS Logistics Over-The-Shore.7 F6 n% O1 A; Z6 a/ o# }+ F LOW Launch on Warning.

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Low Altitude3 d0 e- V: m* e: ~" \* ?5 [& N Demonstration a" F" P: G# m) b+ j! cSystem (LADS) % Y1 K$ G |! T* n5 hPart of the SBIRS Low Program Definition and Risk Reduction (PDRR) program , P7 n7 D9 b% E4 Zphase. The LADS will consist of a flight experiment and extensive ground ) W' e0 X# \- s- J* K! @demonstrations by Boeing North American. The LADS flight experiment will be# I! g1 W/ W2 J+ O7 ~( F launched in late FY99 to demonstrate the sensor performance of a SBIRS Low# O5 q/ {/ [& L o' h0 Q+ \ concept and collect phenomenology data.+ e P* h' P- I Low Earth Orbit3 r# Z+ k% V( O0 u8 j( A1 c: b7 k9 Z (LEO)6 U4 S8 n1 a5 f" G) T These satellites are at altitudes between 100 and 400 nautical miles. They ; U, y2 J' F, `; o- _3 Ghave short duration revolutions (about 90 minutes), short visibility envelopes (2.5* P, n) E1 O" p. X6 A/ S5 U1 J$ A8 n minutes up to 10 minutes over a tracking station), short life spans, and are most 3 k$ c! V& S( Msubject to orbital perturbations due to atmospheric drag and earth gravitational% u4 }. @' c" s& {/ h anomalies. f5 a& V7 ?. N' z- B8 o0 I# ]Low * ?* Y4 Q6 K7 p8 n4 V7 DEndoatmosphere7 K, t) v- e1 N* K' O' J2 X/ d' h# s That portion of the earth's atmosphere, generally below 40 km altitude.; Q; R& C5 `- P2 d' M8 R+ B8 Z Z MDA GLOSSARY, VER. 4.0 L5 Y, i, p& V' B/ w, ~' A) H+ Z% B 170 # q6 @: u2 a* M2 c# BLow-Rate Initial% @5 w7 K3 d/ t0 i Production (LRIP) : b0 C e% h: u8 ~5 }The production of a system in limited quantity to provide articles for operational 8 j1 i2 o" ^1 x$ C3 ztest and evaluation, to establish an initial production base, and to permit an2 b' p+ z. d2 ?9 ]! V5 R orderly increase in the production rate sufficient to lead to full-rate production ) @ {& u' ?2 _% R6 }$ G5 oupon successful completion of operational testing." l% y/ B. c( ^/ y LOWKATRER Low Weight Kinetic Energy Active Tracker.8 W$ E5 [: ]# v, z* y LOWTRAN Atmospheric and Interstellar Background Signature Model.% d. k3 n5 l8 R& l4 U LPAR Large Phased Array Radar. 4 c* t S& x" {/ u4 ~/ E0 ~LPD Low Probability of Detection. + l2 e5 g- J2 q9 ~/ z6 M; k4 H! oLPE (1) Liquid Phase Epitaxy.5 u6 {- ~* e1 v: m @( c4 v (2) Launch Point Estimate. 1 c9 a+ Y$ [9 U1 } q! hLPI Low Probability of Intercept.- P7 U4 I. Q, }+ m, I- d LPS Limited Protection System.: M+ `! Z0 ? B- ?" R6 M! C LR Long Range. 9 h8 M1 R0 A5 ?LRA (1) Line-Replaceable Assembly. (2) Launch and Recovery Element.- G7 P3 ]/ H8 j2 T) l LRB Liquid Rocket Booster. ! Q+ p! s' t5 K/ N% aLRC Lewis Research Center, Cleveland, OH.( A2 U7 p1 q; K! Y: [ LRE (1) Latest Revise Estimate. (2) Launch and Recovery Element., r0 }7 a7 w% _# n: Y5 t LREP Light Replicas.* z, ^2 T: @9 \- n6 i4 }: t7 W LRF Laser Range Finder. f% j) r# _( Q- P; O; M2 l* J O LRINF Longer Range Intermediate Nuclear Forces. * K1 ?! u* t9 C9 j c; _ B3 QLRIP See Low-Rate Initial Production. - Q7 y% C( L4 m6 {0 g2 ?* H* YLRIP-OT Low Rate Initial Production – Operational Testing.1 R3 w6 x+ \$ i3 M- ~ K LRTBM Long Range TBM.' L' m0 m. S" X6 Q1 u LRTNF Long-range Theater Nuclear Force. / |9 i4 G9 a' a0 x4 M8 n6 M; ELRU (1) Line Replaceable Units. (2) Line Replacement Units. " W" G% y) i' w* s+ R& uLS Launching Stations (PATRIOT). . M) g" R+ f) E5 V) K/ ~, gLSA Logistics Support Analysis. 0 n. z q* J: b& gLSAP Logistics Support Analysis Program.. u! \5 P0 z& y+ V( F! J2 P/ D LSAR Logistics Support Analysis Record. % H8 W% ~$ T7 W9 S6 {. b( aLSART LSA Review Team (ILS term). - d% o" b' L C/ Q8 YLSAT Laser Satellite.# ?/ t: T% r1 g! m. N; J MDA GLOSSARY, VER. 4.0 L ; O3 u- e. z! C% R, R171# U8 f! W; n1 ^( o! Z# ]/ Y0 w6 W LSAWG LSA Working Group. ; i( v- o3 L1 G2 dLSE Lifetime Support Engineering (ILS term).& s* M% o' `* G9 M4 e8 ? LSEA Lifetime Support Engineering Activity (ILS term).; R4 \" J5 A) Y: V6 ^* D- M0 e LSI Large Scale Integration (circuits). 3 {4 v+ O( r6 l8 J" q/ v& F. b' WLSRS Loral Space and Range Systems, Sunnyvale, CA. . Y' Q7 R5 ~' e8 z: uLST (1) Laser Spot Tracker. (2) Landing Ship, Tank.& z& k% W M. p" K# W. [ LSTS Launcher Station Test Site.2 l' a2 B7 T! W LTA Lead Time Analysis. # u( |9 X+ t; qLTBT Limited Test Ban Treaty." ?- |& K0 c# c$ y T LTD Laser Target Designator.: x( C* v2 F+ [" ~* o1 s% A% i LTH Lethality and Target Hardening. : r2 J# }8 u" X! y* hLTS Low Temperature Superconductor ! ?# |! Z1 [8 R& Q% x9 [3 FLTV Launch Test Vehicle." {2 B- [9 e! v3 N; Y LU Launch and Update.2 L6 \6 k- ?6 ? LUA Launch Under Attack.; c. k; C5 S. s LUP Limited U.S. Protection.8 y0 m2 O! n- Y! P7 @$ C LUT Limited User Test.7 }9 d: F6 X$ D0 V5 U$ o3 n LUT/OA Limited User Test/Operational Assessment. 9 o. E! U( o# i* Z4 z% Y" wLVS Loral Vought Systems, a defense industry contractor. ( s- D6 U6 a3 C0 S6 ELVT Low Volume Terminal (USN/NATO/Telecomm term). / N$ f4 V* B3 L* @, nLW Laser Weapons. % ~0 v# A, W( c! y9 d0 XLWAN Local Wide Area Net.+ H. @% H* p0 E LWIR See Long Wavelength Infrared.# g8 f# y* f' ^0 I7 S7 Y! m" R LWIR FPA (PET) Long Wavelength Infrared Focal Plane Array (Pilot-line Experiment Technology). O2 B" s. c" a9 MLYTBT Low-Yield Threshold Test Ban Treaty. 9 w9 b( B+ w+ F: w8 u5 {2 }$ |, _LZ Landing Zone.

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MDA GLOSSARY, VER. 4.0 M7 ]: G, @5 n9 o 1731 x( q* ]! U1 I( Y- f, ^1 m6 e! ` m (1) Meter. (2) Minute.& U4 j# l, E- Y M (1) Model. (2) Million. (3) Mega.5 u& E1 L6 U/ {, r" S M&LC Missile and Launch Control.) E8 c+ }" R. w' Y" F( n7 d5 S M&P Manpower and Personnel. * }9 U! W# t- U) DM&S (1) Materials and Structures. (2) Modeling and Simulation.$ V3 n- r0 w0 c6 o M-T-M Model – Test – Model.) v& O" m4 B# P0 @; h0 X4 f7 \ M/LWIR Medium/Long Wavelength Infrared. 3 n8 o7 P# \+ K0 YM/P Manpower/Personnel. + e/ c0 g) ?& t' [ J; UMAA Mission Area Analysis.( q# ?) a& u" u5 \2 ~ MAAG Military Assistance Advisory Group. * \, x) z1 ?' }+ W4 ]. OMAB Missile Assembly Building.$ N% @' |, I1 v1 a7 M MAC (1) OBSOLETE. Military Airlift Command. See AMC. A* ^ Y$ [, w(2) Maintenance Allocation Chart. 0 G9 T0 e1 I; h: d4 mMACCK Multi-Application Command and Control Kit (GD term for IVIS follow-on). - N. G$ F( v9 U \# QMACCS Marine Corps Air Command and Control System. 4 \7 n: d! } W9 g! Z% tMACOM Major Army Command. + v' i/ O/ ` i4 ~; W2 N4 p9 dMAD (1) Mission Area Deficiency. (2) Mutually Assured Destruction. 6 |4 j) H8 L4 d& ^2 uMADCAP Mosaic Array Data Compression and Analysis Program. & ^% w& M, @" [6 y1 v+ R5 XMADS Modified Air Defense System. ' `7 D! u: ^; w- I [, t; L p# RMAE Medium Altitude Endurance. & } i i6 N) jMAGTF Marine Air-Ground Task Force. " d* A- z+ E# s) {$ f* N% H% ]Main Beam The primary directional EMR emitted from radar transmitters.9 J8 ?. n1 r6 k+ ^% x) X ^ Maintainer An individual responsible for retaining the major defense system in or restoring it : |& d9 o5 H$ r0 g9 ?4 X; Sto a specified condition. Maintenance activities include inspection, testing, 8 Z" Q1 d4 U; Fservicing, classification as to serviceability, repair, rebuilding, and reclamation.3 Q" I) Y/ p" I* C( g" Y$ T Maintenance 2 e' Q: `! ?7 D% S- dConcept/Plan2 g6 C4 R/ b* Q0 q0 r4 g A description of maintenance considerations and constraints for$ s, O! s7 [. g system/equipment under development. A preliminary maintenance concept is ; N, z" r) `- |* n0 d& ]) y- u5 i! A' Vdeveloped and submitted as part of the preliminary system operational concept9 `3 N# N! q) k for each alternative solution candidate by the operating command with the0 |7 l9 z2 J4 T, T4 }; O assistance of the implementing and supporting commands. A major driver in % p {4 a8 Z( p5 A7 x1 O# i. tdesign of the system/equipment and support planned for it. % P+ q, l$ }) O9 n" `MDA GLOSSARY, VER. 4.0 M 5 |7 x! Z4 E6 }2 P1 o174' H6 c, q O) K6 i6 t Maintenance ) K0 O2 ?& | r, X- @Operations 2 ?7 j" l9 m' }The corrective and preventive maintenance operations that do not require a + l$ D# ~7 q% W; j3 k1 [. z; t# ldeployment decision; it includes correction and subsequent validation testing% M+ Z! u4 o9 a* I and the update of relevant status configuration, maintenance, and inventory, X. A- l, R; Q0 K- I+ x2 @ databases. 4 G N/ y3 b+ p. t: }Maintenance ; S% @+ H8 o* v% \6 FPlanning ! g; P% }6 s. VThe process conducted to evolve and establish maintenance concepts and 3 R: p' U* c9 Y5 t8 Q2 N4 G! Yrequirements for the lifetime of a material system; one of the principal elements9 U( r$ s8 V3 K of ILS.3 p# N* Q* X0 o1 t8 u! k+ C MAIS Mobile Automated Instrumentation Suite (USA term). - ]$ v9 x8 Q6 u4 ~% mMAISRC Major Automated Information System Review Council6 G" e8 v2 x }" C, I" ~ MAJCOM Major Command (USAF). # d' b$ |1 U/ |. ?' X* U9 xMajor Automated 0 O% W4 m' w+ B! p* Z" r- r0 l' Y7 RInformation 9 p( h. J* k; Y/ D: l, BSystem Review " _2 n( T: C% Y! e9 \! b( YCouncil (MAISRC) 8 j( H! C- o9 ^7 B+ z, C' O$ aThe Senior DoD information management acquisition review board chaired by6 }% @/ k) R& G+ S the Assistant Secretary of Defense for Command, Control, Communication, and 8 q+ d5 }; ~ a2 e* ]Intelligence. See DoD Directive 8120.2.

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Major Defense# t0 n9 e- d' I/ s$ }. J Acquisition; r$ @1 k" r& K* ^5 u$ s Program ! Z. d' I9 i) y, a' X) xAn acquisition program that is not a highly sensitive classified program (as3 X. i D* o _, }0 @( f9 c* S determined by the Secretary of Defense) and that is:3 @8 y( K* |* j# a" F 1. Designated by the Under Secretary of Defense for Acquisition and . C0 b5 E4 R0 `, t# BTechnology as a major defense acquisition program, or5 L- v, U( } J1 w6 ] 2. Estimated by the Under Secretary of Defense for Acquisition and Technology d5 z I3 L1 _" A) ^. Rto require: & s3 ?0 l0 U3 D9 L6 Va) An eventual total expenditure for research, development, test, and ! C2 Q. `* x; s( t4 P2 pevaluation of more than $200 million in fiscal year 1980 constant 1 h4 |, E! B, ?/ E* |9 udollars (approximately $300 million in fiscal year 1990 constant$ ]+ Y: q+ X4 y dollars), or 5 X+ S3 c5 u) g4 ^1 M Yb) An eventual total expenditure for procurement of more than $1 billion " R% O5 M, k( kin fiscal year 1980 constant dollars (approximately $1.8 billion in fiscal* W: B" X1 g4 U0 `4 F, z3 d2 ^ year 1990 constant dollars).5 @& w+ @9 I- f# C9 P j Major& y/ ]4 U/ [7 K6 H! x. T& L Modification / z- F6 N& f- ^7 X+ [A modification that in and of itself meets the criteria of acquisition category I or II* q' C" ^: s0 t! Q7 v8 O) B or is designated as such by the milestone decision authority. Major modifications 4 V8 l% [( i& q: F. N- n! D9 _& F) ~require a Milestone IV decision unless the decision to modify results from one of G! C! l0 P4 m; Nthe alternatives considered as part of the Milestone I decision process.1 b7 I/ u, p9 X9 w; z/ z" Q$ G Upgrades are part of the Milestone 0 decision process. ; \+ \# T' q2 a: I3 W. NMajor System A combination of elements that will function together to produce the capabilities2 z/ n* Y" y7 O: m+ y1 d required to fulfill a mission need, including hardware, equipment, software, or any4 l6 |+ P* e: w0 i; P1 s# O combination thereof, but excluding construction or other improvements to real2 w+ H( @. U R/ n property. A system shall be considered a major system if it is estimated by the0 V5 E& X6 y" y8 \ g, i$ I% R Under Secretary of Defense for Acquisition and Technology to require: - o- E( e" H; V, I1. An eventual total expenditure for research, development, test, and 0 t. s- u9 N! A. Devaluation of more than $75,000,000 in fiscal year 1980 constant dollars* J+ F7 g4 z, Z9 E7 A9 D1 h# k (approximately $115,000,000 in fiscal year 1990 constant dollars), or - G! }( h: e! x$ _. b7 A2. An eventual total expenditure for procurement of more than $300,000,000 in O+ Z& ~& Z3 k+ C4 J' [. tfiscal year 1980 constant dollars (approximately $540,000,000 in fiscal year' a# k* [7 d, K 1990 constant dollars).+ G" I8 a9 `& }7 \# R4 Y8 N MAM Maintenance Assist Modules.5 i8 @) _7 V3 f9 {7 G0 X1 Z' W* M; ] MAMDT Mean Active Maintenance Downtime (ILS term). * f& I- t. }% e/ z5 }0 vMDA GLOSSARY, VER. 4.0 M, v6 f2 l) f# ?8 H& X$ b 175; |( p, B' w' Q8 m Mandatory2 X0 C1 n% v1 i6 L k. O$ S4 s Access Control- s! t# V# D" r3 c# n6 `: p% ? A means of restricting access to objects based on the sensitivity (as represented " M4 h* W W8 k) ]/ ^ eby a label) of the information contained in the objects and the formal ) ?& L: W9 J* \4 [/ ]8 o& w9 Eauthorization of subjects to access information of such sensitivity.+ N5 j$ L6 [. H& y) A+ v1 S Maneuverable. z. @- u9 d0 V( R4 n0 j6 {5 S Reentry Vehicle: z( B1 p6 Y4 O0 K$ A; ? (MARV) 1 q/ R5 |, D' n# Y8 l5 ~! mA reentry vehicle capable of performing preplanned flight maneuvers during the: o- r. L8 {+ {% \2 G. _ reentry phase. The reentry vehicles deploy fins or other aerodynamic surfaces ) d5 _# {' j( g4 Z+ a$ Y2 bwhen they enter the atmosphere, allowing them to turn and dodge rather than' O1 D/ {3 {0 ^4 i# o fall ballistically. They have no ability to maneuver in space.- U! g6 U' }$ q( j9 i! U% l& d MANPER Manpower and Personnel ILS term). 6 K2 @/ y& \6 ^3 f0 N( Y1 @% M9 cManpower # Y- G, S' I, E% b: c% i0 zAuthorizations/ i5 p( b7 Z K The billets in the manpower requirements structure that are planned to be filled. 0 S+ X) O0 R$ tManpower( a& J2 ]6 ?& w+ ]4 `) t: M Estimate Report1 x7 l( Y. `8 `; z1 F (MER)4 ]2 W( n5 Q5 {6 k- t; y2 \7 m An estimate of the number of personnel who will operate, maintain, support, and0 X) c, E- h/ _; B train for the acquisition upon full operational deployment. The Services prepared % J6 M% v4 b' kthe estimates, and the SECDEF submits them to Congress 30 days prior to / K" X1 s T7 japproval for EMD or production. 6 f6 F5 l* R3 m# N+ K0 ~9 _2 EManpower,2 C; L( A, j5 r7 l9 h" e' K Personnel, # i/ G& I0 x/ S; u* Z3 X- RTraining, and! L& X4 h6 Z3 Q9 } Safety (MPTS)* |7 k( g+ h1 F/ a& M The human dimension of the complete defense weapon system. The term ! d W& W7 ?; i/ ]% `& b1 YMPTS also encompasses the concepts and disciplines of human factors) [+ i$ }/ a9 i( K2 I! c engineering and health hazard prevention./ f v! D0 C* F( ~% O8 H Manpower,6 Z0 w7 `' j3 ?# k Personnel, , g; L0 {+ e5 U! `' j. y" c1 y3 \Training, and \% g" _0 b# O, j) D1 i+ [) ZSafety (MPTS) 8 j8 x: V" p( k- l$ wProfiles & b) N/ S( }! _& vA description of human dimensions and constraints involving a major system+ a" Z: n7 t$ O/ G2 T' t' H5 e throughout the system life cycle. This includes, but is not limited to, descriptions$ d/ ?9 _; C/ v; E$ n% [) {3 [! Q ` and categorizations of occupations, aptitudes, individual skills and, A% I1 b) O1 N7 J F0 k demographics, training system characteristics and components, potential system % y: ]4 i- g5 B, Y! [hazards, and other issues affecting the performance and welfare of operators,: h1 N) B6 J0 \+ S, R maintainers, and personnel that support existing, modified or new systems.+ t$ J) P N; a MANPRINT Manpower and Personnel Integration (US Army). 2 F0 U2 D5 U2 ?1 \0 \MANTECH Manufacturing Technology.4 F+ S! O5 ?! {( T7 l Manufacturing (or9 Y- m4 [) f5 V. U% G, X Production)9 F. ?8 d; U& F. F4 S) `" F" J: d Engineering 1 J/ b7 C: K9 h& ?( A, j ]Pre-production planning and operation analysis applied to specific product! T+ m$ m1 `) c/ I8 S designs. The functions of planning, specifying, and coordinating the application" Y3 n1 b8 ^5 T% L of required factory resources including: performing analyses of production 8 _& k( _* `& v6 N# E% poperations, processes, and systems; applying new manufacturing methods, ! V O4 i E# O) Y8 E, ^" ytooling, and equipment; controlling the introduction of engineering changes, and + g. M- z: f3 R. `0 gemploying cost control and quality techniques from the factory viewpoint.( K* `8 } c4 K- K5 P9 K& Q Manufacturing 2 ?: ^ g/ Z& C+ N: z3 MOperations,6 |1 Q6 `) `- D Development,# |/ `6 C; S; n# @& P( O and Integration# l* ^7 X( [3 {3 |' _ Laboratory$ H: U; \0 s8 A V/ V6 Q/ z (MODIL) 1 h1 t4 u' r/ MAn SDS-peculiar integration mechanism to link product technology development % @' r3 k( p. C, ~ \concurrently with manufacturing process and control development for a costreducing effective SDS development.3 S4 D7 e6 e. T. s3 Y5 Z1 k Manufacturing h y/ f8 p- F2 `' {, D Technology , w, x# ?9 {1 l0 E9 T(MANTECH)# _# V n7 Y$ v2 }: P6 k Manufacturing technology refers to any action which has as its objective the: ]3 N- P$ q# F timely establishment or improvement of the manufacturing processes, 7 o% ^7 t& y1 Q; y" ?techniques, or equipment required to support current and projected programs,1 b1 e. F4 u, N4 C# Z' Y and the assurance of the ability to produce, reduce lead time, ensure economic ; Q: k' Z9 l: q* Javailability of end items, reduce costs, increase efficiency, improve reliability, or to5 c4 f( O; N4 [+ K: O# f enhance safety and anti-pollution measures. MANTECH, per se, is the specific 9 F% I8 C2 {- t' O0 q" f' E vDoD program in this area. 7 W& e$ G9 g) Z$ dMDA GLOSSARY, VER. 4.0 M 8 @0 T9 X/ i: l4 F1 t# V: u3 K8 Q176 * J; y% d5 e7 E- \MAOC Modular Air Operations Center (JFACC term). 3 c; y- T( K2 \% ?: O9 c; hMAOPR Minimum Acceptable Operational Performance Requirements.6 i/ c1 i3 g4 K+ V6 p, T MAP Minimum Acquisition Program. ! @( ?: W( S, j; g5 u7 H+ sMAR Monthly Assessment Report (BMDO/POC term)., e/ n3 b; ?9 w/ K! L5 m: ^- i A- n MARCO Marine Corps.

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Marine Air" K4 u% V7 ~% }! U; w Command and! }* z. l$ K* Z+ }/ w+ P! G Control System6 h1 b9 z! ?8 b' g6 r1 n6 o# q B A US Marine Corps tactical air command and control system that provides the : }8 P1 R ]- t% F/ {tactical air commander with the means to command, coordinate, and control all4 \1 f7 W' l' f, J air operations within an assigned sector and to coordinate air operations with " C8 h; T. b6 L0 Uother Services. It is composed of command and control agencies with* f5 W! m- q$ B* d; Q& z communications-electronics equipment that incorporates a capability from manual ) l7 c, ?9 }4 v* D7 w# athrough semiautomatic control.' r" |+ `7 Y: ^0 ] Mark/Markup Line by line review and approval/disapproval/modification of the defense budget; @( I! d5 I. S( u by congressional committees. 9 Y2 N0 l T% XMARS Multi-warfare Assessment and Research System. ; z4 e4 I5 e8 F( H6 fMARSYSCOM US Marine Corps Systems Command, Quantico, VA & D8 D, z* y4 LMARV Maneuverable Reentry Vehicle.+ c4 c) m7 X* Y, m MARVIS Mid-Apogee Reentry Vehicle Intercept System. 0 _& ~$ N; Y% S0 a( p) i w& V" w+ IMAS Mutual Assured Survival. ! Q8 f) |0 L/ D, F, o5 zMASINT Measurement and Signature Intelligence.8 J7 `" `3 T6 q; m( v MASPAR Massive Parallel Processors (TMD-GBR). ( ]& O C2 j2 Y* i1 K+ bMass Raid Many Red ballistic missiles launched toward CONUS from several launch areas.: ~/ g5 U \8 ?8 Q% t A mass ASAT raid consists of several ASATs attacking Blue satellites.# ?8 t: t! W/ O3 S9 [ MAST Measurement and Simulation Technology-formerly Synthetic Scene Generation , ]" B0 D* N0 }" E; wModel (SSGM).% l% ?8 ~6 G S, k( W# ^ j Matching/ ~ X0 R5 [) \( T+ w w9 X Ballistic Reentry 5 R( s: J5 }+ U- k9 D; oVehicle (MBRV) 0 a9 W. C+ d: ?% b4 w9 m2 {Four reentry vehicle designs (MBRV 1-4) developed to serve as threat2 `2 M' m! g; \ representative theater targets.2 N# m: G7 ^+ r$ k5 @. A* u Matching Target 0 ^& H7 E* `8 \6 E, CReentry Vehicle ; p' |) r, I5 K1 ?(MTRV)' V7 ^/ A, S% F Threat representative reentry vehicle developed for GMD Program by Sandia $ d# q c: o) C/ Z8 M0 }Labs. Planned for use on IFT 9-14. 1 ~9 q* u' a' o5 p* ZMaterial Fielding$ M: W0 w2 T6 u Plan; t, Y6 i) c: R0 S. a$ S0 y Plan to ensure smooth transition of system from developer to user. 8 U, ?* n9 l7 i/ x4 {5 Z4 qMaterials% g. G& f# q1 m, q Science , O; o$ S1 w# ]" d$ a- J" {The science of developing/altering and applying materials to obtain a resultant. O# l7 r& o5 w+ w: l3 O. j; J, Q& C molecular structure with desirable physical properties and performance 2 q; O) T; b5 ]3 H# i ?8 y- C8 x- bcharacteristics. (See Structures.) Also includes applying state-of-the-art / |% L5 d7 |$ nadvanced materials in the design of new SDS components and end items.. D' {/ q* u# g* ` D4 y2 v MATHSFA Manufacturing and Testing of LWIR Hardened Seeker FPA Assemblies. P' y& I3 r: i9 pMDA GLOSSARY, VER. 4.0 M " E' ^) {6 w ?* U" @; ]177/ h1 l$ S/ F5 D# q' F3 T Matra BAE ; y3 x+ z. b4 W9 u( ~' BDynamics * P( h# J* K! e5 N8 N- a6 JEuropean missile manufacturer formed in 1996 from British Aerospace Dynamics , c4 R2 p1 I3 C. k; m. Pand Matra of France. 4 w* ` U' |, q" L4 Z) ~MATT Mutli-mission Advanced Tactical Terminal. ' T4 r$ B% t# PMATT Radio UHF radio receiver for TRAP, TOPS, and TIBS. . Y+ _# K0 L$ F' Z7 U4 l; }MATTR Mid And Terminal Tiers Review. , n2 N* j P4 \1 A/ xMAX Maximum. % e+ S9 q9 d& D- W' F5 gMaximum$ ` C8 Z7 k: w& k% J5 i# a- y Attrition% Q _( ~! R b% L Maximum attrition is employed in a target-rich environment to destroy the $ Y% y- g/ p) ]' ymaximum number of RVs, regardless of the type, by using all available or: m" b% E F8 Y3 `8 Y* s allocated interceptors. This option may not satisfactorily defend specific or# Z, ]& b P' |: o2 }2 E required assets. t: V4 Z4 w# A9 D MB Megabyte. " Y9 ]+ U' U6 f6 R- mMBA Multi-Beam Antenna. d3 |" h0 D; l1 F( `6 QMBE Molecular Beam Epitaxy.0 w- N' n. F: J9 X$ C MBFR Mutual and Balanced Force Reduction. 4 W, D- t$ o G7 eMbps Megabits per second. m: C$ w8 z2 y5 x Y" X MBRV Maneuvering Ballistic Reentry Vehicle.% z& \) G7 V$ X MC (1) Mission Control. (2) See Midcourse phase. (3) Mission Capable (ILS ! s' f' `1 t2 K2 z, ]2 W# xterm). (4) Military Committee.1 r2 r( x j1 V% g MCA Micro Channel Architecture (TelComm/Computer term).* }1 {' R& |3 e D( I/ G+ j! w MCAS Marine Corps Air Station. % L' h$ W' h# r4 tMCASS MTACCS Common Application Support Software. ! K2 p$ @3 k; m4 K! A# iMCBM Midcourse Battle Manager. . f& X0 E3 ?* y( F! y8 a0 {. {& Y; a i$ jMCC Mission Control Complex/Center/Console.$ C! H; S6 w$ i0 D' H& d- q MCCC Mobile Consolidated Command Center. ! F) J' r7 s. g3 t/ }8 Y; eMCCDC Marine Corps Combat Development Center. / R; d! X+ y- n4 D" DMCCR Mission Critical Computer Resources. ' n$ C3 `; X; ]MCE Mission Control Element.% V9 m: z/ p, m& ]) o MCG Midcourse Guidance. x+ O g4 L7 x- ?) O# m+ y$ x MCI Midcourse Interceptor. 2 X3 ]6 C3 s& p+ H6 ~MCLOR Marine Corps LORA Model (USMC ILS term). " E, q% s* V2 G! r, H" a1 ? A3 IMCM Multi-Chip Module. & m9 K& S4 l+ l, PMDA GLOSSARY, VER. 4.0 M + R3 ^: F7 A0 e178) M% }- v8 K! S J9 l) J MCOTEA Marine Corps Operational Test and Evaluation [Command]. 1 z& N R) y+ A( z5 u& uMCP (1) Materiel Change Package (US Army term).& n! A$ Z" U3 v) \- B( t (2) Military Construction Program. " I% J" s. b" S7 [: f6 l# AMCPDM Marine Corps Program Decision Making.% m7 {; L+ J9 y" M$ T MCRDAC Marine Corps Research, Development & Acquisition Command. D6 s: q& U" C7 X+ U MCS (1) Maneuver Control System. (2) Midcourse Sensor. 1 e2 j* S; ^- b# X# I& qMCSS (1) Midcourse Surveillance System. (2) Military Communications Satellite System. ) W# t+ {, z5 x4 HMCT Mercury Cadmium Telluride (cf. HgCdTe).: F! q) q7 }- K9 I+ p7 I: h( X MCTE Mission, Course of Action, Task, and Element Control Directives.% A$ v) b8 t+ @# s7 R* \ MCTL Militarily Critical Technologies List.: o) J+ c0 W$ _9 f F$ \9 k$ i9 c; ^ MCTR Missile Control Technology Regime. $ D4 b, n4 t, \4 v) y$ o0 mMCV Mission Capable Vehicle. 5 h( k* k! V2 t8 wMD Missile Defense.3 U% |, A% i# [ MDA (1) Missile Defense Agency. (2) Missile Defense Act. (3) Milestone Decision 3 Y: |0 K6 v0 K% ~1 OAuthority. (4) McDonnell-Douglas Aerospace. $ }3 @5 G% b, s0 lMDAHWG Missile Defense Ad Hoc Working Group. # Q0 Q/ O/ y" s' K5 z3 g! [MDAP Major Defense Acquisition Program.% m b5 h1 F, D" [* Y MDART Missile Defense Activities Review Team.4 X: Q! \% P' |# ^3 Q4 y4 W+ W MDBIC Missile Defense Barrel Integration Center.1 G8 j; Y& N; l+ z* l MDC Midcourse Data Center, Advanced Research Center, Huntsville, AL.1 q! c4 f6 e2 }2 M8 k9 t MDCI Multi-Discipline Counterintelligence.! y/ k# m1 `- L. o% h: [ MDDC Missile Defense Data Center, USASSDC, Huntsville, AL.

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MDP Manufacturing Data Package. / ^5 S$ q$ { r9 r3 l$ UMDR (1) Medium Data Rate (TelComms/Computer term).( n$ D$ z6 h% H1 j& j D. ]$ }$ H (2) Milestone Decision Review. 7 I- B& p H2 O5 k(3) Multi-national Defense Research.6 H) n$ d$ A8 F# e* t" S! u$ F MDSC Missile Defense Scientific and Technical Information Center.6 [' i1 n E- {$ B% P& d MDSTC Missile Defense and Space Technology Center.) b7 J# t; R( ^7 o5 a0 u) j MDT Maintenance Down Time.) K& U* y! l4 ~; _ MDTD Mean Downtime Documentation (ILS term).6 v7 e! X/ F1 [ ~ } MDTOA Mean Downtime for Outside Assistance (ILS term).1 W3 u- O2 @$ x6 \& S8 i+ M MDA GLOSSARY, VER. 4.0 M/ h4 p% \! F' H( ~8 K I3 i6 }6 y 179. |3 p' v/ m* e, ] MDTOR Mean Downtime for Other Reasons (ILS term).( ?: H N% e9 c5 r( D9 D MDTT Mean Downtime for Training (ILS term). 5 E+ s+ D: d' h" k, L$ t! lMDW Mass Destruction Weapons.( F1 ^" D; ^1 ?$ p. a) U ME/VA Mission Essential/Vulnerable Area4 W( b; m; D% ~" }1 @+ G MEA Mission Effectiveness Analysis (JFACC term). 0 u3 d7 m& L/ K, o {+ @" XMEADS See Medium Extended Air Defense System. ) q! s% E( e& r) l t7 U) x: n, JMean Time# i! Z) W" s% k% p- r$ g- [. U Between Failures / Q# H: g. A5 c) \# \4 y u& K1 q- ?2 \(MTBF)( T- z6 k% W" S% G A measure of the reliability of an item. Defined as the total functioning life of an $ o! K# }# {3 m4 S4 a% S( S1 [item divided by the total number of failures within the population during the- i- }& O+ \) s7 x measurement interval. The definition holds for time, rounds, miles, events, or5 q/ C! n" @" c! `5 g: c5 h other measures of unit life. MTBF is a basic measure of reliability.' |5 L3 [% {% D* n Mean Time To* m/ f4 `9 O4 a+ V0 g& N" y Repair (MTTR)( f. h) m9 ]- k+ [- L" E9 ]* l5 q The total elapsed time for corrective maintenance divided by the total number of 5 K% Z. X) @! `corrective maintenance actions during a given period of time. A basic measure + S0 u% ^$ y( E: b% H3 Xof maintainability.8 Y8 [, {5 b: K3 W* ~ Mean Time to) _0 z" }5 ^* {3 |3 @9 Q Restore System 2 {# ^/ ]- S* C" C(MTTRS) ) a% L; I$ Y5 S# cA measure of the system maintainability parameter related to availability and y+ h( q* r+ x. u9 Ureadiness. The total corrective maintenance time associated with downing+ m0 p5 G7 L8 @ events, divided by the total number of downing events, during a stated period of ' I1 z$ T. U) h! T% |; X& v9 k6 Ctime. (Excludes time for off-system maintenance and repair of detached * |$ r* U( U I& ^! |: v4 A0 B' x, icomponents.)" z! {( o9 l ? ~4 T4 P3 D2 M, u MEASAT Malaysia East Asia Satellite./ v* Q3 j W+ F6 l Measure of+ I) W8 \# n, ^. V! | Effectiveness , i" _& I3 ?9 ]: q(MOE): g: S7 r# y( {4 k3 i: A5 g The quantitative expression (sometimes modified by subjective judgment) of the/ L5 i4 o/ E0 q5 C: q2 r success of a system in achieving a specified objective.1 Y0 u1 }* e% n1 B7 _9 U MEC Mission Essentially Code (ILS term).0 I4 c0 A* j. \) E1 e7 {" ] u% U Medium Earth " l2 f% B+ t! R4 o& g! ^& UOrbit (MEO)/ X, T2 p- g5 X/ n+ k& j& c% N( K Space vehicles characterized by orbits between 400 and 10,000 nautical miles, 7 g e& M. z3 P. ^- blonger duration revolution (2 to 12 hours), longer visibility envelopes (10 minutes* q5 X5 _2 \. j6 S4 n' } up to approximately 1 hour), and generally longer lifetimes. This region contains & ~/ {7 ?1 i, }+ U( u! r# ethe Van Allen radiation belts where electronic components need special 2 t1 m2 W4 k; q' c5 F' ]* lprotection. 0 h R( y }$ CMedium 4 X9 A1 i6 g+ {9 wExtended Air/ V+ ^6 Y+ B# Z* Y. k. ? Defense System7 o. C* S& e; L( o" K (MEADS) 3 J$ j4 i5 P' n. @* u4 UA lightweight, highly transportable, low-to-medium altitude air defense and * j$ P" \# y; v4 |! Otheater missile defense system designed to protect critical fixed and : j" G' f3 x* ~. v( x) K8 S: {! ^4 ymaneuverable corps assets. MEADS superseded the Corps SAM program in H* ~6 M) P. @: [1 q3 t- f+ O; a0 { 1995. % N9 m6 P; y/ H' ?Medium Power f4 [0 @$ H0 F5 v. ] Lasers7 m# w: N4 q8 W1 Q5 E Lasers that radiate power less than 1 MW, normally used to detect, identify, % y3 \- x8 {1 Y1 b) Otrack, and designate a target vehicle.) G" b, R" L. M Medium Range! Z; h$ i; U/ I( c5 l" p9 T. n9 b0 W5 n4 X Ballistic Missile, j0 g0 Y" |' K+ i! Z (MRBM) ' m3 S: _1 o( {" `A ballistic missile with a range from about 600 to 1,500 nautical miles.+ I/ ^+ Q( k+ h1 F6 K- d Medium7 \7 c; E8 P8 w" G, a# d w' Z Wavelength& O" x! D( j' L/ [/ Y Infrared (MWIR)$ j2 u2 c3 t: D/ g; ~ Thermal radiation emitted by a source in the electromagnetic spectrum6 Z( A1 X0 ?. v" @5 | encompassing infrared wavelengths of 3 to 6 microns. , C* J: a+ Q; R9 d3 {9 ~MDA GLOSSARY, VER. 4.0 M ! D- e# ^% B1 r8 `5 Q180 7 k# ~$ @0 S# f# SMEF Marine Expeditionary Force. 2 b+ [7 F7 N; O, zMEILSR Minimum Essential ILS Requirements (NSA term). 9 I' r- h: C* n7 n/ K3 e+ TMEL (1) Maintenance Expenditure Limit. (2) Mobile Erector Launcher. ( a# ~; Y Z' a- F5 o6 P' Y4 ]MEM (1) Mission Effectiveness Model. (2) Mission Equipment Modernization.) B! W# e# r; G% e Memorandum of ; r* v7 Y- h* x0 |Agreement (MOA) 2 T# m G! a1 r4 }(1) In contract administration, an agreement between a program manager \# J/ V) H5 }) m, I! m and a Contract Administration Office, establishing the scope of( G. x3 A2 _6 o0 l" f$ G1 K c3 h responsibility of the Contract Administration Office with respect to the . e, H9 r) t" X# g6 Zcost and schedule surveillance functions and objectives, and/or other ' w5 g7 Y5 Y3 |/ Z+ Lcontract administration functions on a specific contract or program. 8 }! f; r. Q/ R. Z* v(2) Any written agreement in principle as to how a program will be 0 c0 p6 G% v$ O- |administered.8 l: ~4 K3 ^$ l4 R Memorandum of $ ]4 K. X. ]& R7 A9 j7 M u5 F: {6 m _Understanding 9 z4 R9 I, _ X* A(MOU)8 r1 R/ v& R4 u Official agreements concluded between the NATO countries' defense ministries- \1 ?5 D3 d& B, }0 x( Q( r1 @ but ranking below government level international treaties. De facto, all partners : k9 h! T9 T: u7 |& K/ q2 c2 tgenerally recognize such agreements as binding even if no legal claim could be7 q: f0 C5 X9 V1 G; I a based on the rights and obligations laid down in them.9 {7 t+ h4 }3 n& T/ n8 N, f MEO Medium Earth Orbit. . N# R/ H4 f6 u1 |# o3 W& bMER Manpower Estimate Report. : Q- A" z" k( x1 U5 R: gMercury- `- P: }6 q! D Cadmium7 V6 Q$ O( I% A( k' }4 h Telluride (HCT) z3 P! N; v- X3 E1 n( O8 H9 B( ^) zInfrared sensing material. " _% J& y( t& Q8 g+ V0 \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)." e9 \# j8 ^, ~/ W MESFET Metal Schottky-Gate Field Effect Transistor. * H$ a8 I( A; m( hMesosphere The portion of the atmosphere from about 30 to 80 kilometers above the earth.9 k/ \( A. Y6 U# I Methods; t0 F/ t: r' {& N. a6 l5 y Engineering& T* O8 W6 h+ x0 h3 U3 s+ m8 ?5 Y. e/ F: _ The technique that subjects each operation of a given piece of work to close6 n! q8 h/ d9 A e" v' L analysis to eliminate every unnecessary element or operation and to approach 0 _" M* w9 X1 d7 R& }the quickest and best method of performing each necessary element or $ ?! E2 a- X- }2 B* foperation. It includes the improvement and standardization of methods,& _" ?" k! r* G8 v equipment, and working conditions; operator training; the determination of ( g( H7 R: s( f+ Q7 y2 nstandard times; and occasionally devising and administering various incentive) J1 ?* v V6 d+ b plans.' R2 e6 ~2 ~% B2 O& [" L0 c METO Minimum Effort Task Order. : H# }# w4 _5 J; E/ YMETOIA Minimum Effort Task Order Impact Assessment. / C% v/ E' s! x9 p- }3 q, N2 FMETOP Minimum Effort Task Order Plan.1 O$ E6 |9 v8 S/ M METOR Minimum Effort Task Order Requirement. ; V( h2 l8 [9 z ]# fMetric (Software). An indicator, which measures some specific attribute of the software 5 t% E; O+ @# C+ edevelopment process. 0 }, h# t" S! Z! y( B* T3 X2 PMDA GLOSSARY, VER. 4.0 M ) W# K- S& o: `2 ?( F: L! G181" {% G7 {, F4 }" ~ Metrology The science of measurement, including the development of measurement0 c, \: S. C8 z* n- M0 v8 s" S4 o standards and systems for absolute and relative measurement. Used to3 Q+ Q; h# s1 h( g$ f determine conformance to technical requirements including the development of& Z2 h' K g) V standards and systems for absolute and relative measurements. , M$ U, x |4 K8 UMeV Million Electron Volts. % \) T b0 o7 w0 i0 x$ ]: i: `5 rMEZ Missile Engagement Zone.+ f* L3 Z3 Z1 Q1 u% R0 G9 }0 W MFAR Modular Multifunction Phased Array Radar. 7 c% o `/ r ~8 X6 D3 ]% v! iMFEL Medical Free Electron Laser. - C2 R. h; r0 W7 h9 lMFG Master Frequency Generator. # E. F: B$ v- |1 U- IMFL Multiple Folded Ladar. + V& ?7 O# i% J, GMFLOPS Million Floating Point Operations Per Second.2 I Z3 G! G4 T1 R: B: H MFP Major Force Program. C4 j1 F" l) D5 E; EMFR Memorandum For Record.* h' k }6 O) b9 X5 m9 d- f; Q0 N MFS MFS Communications Company, Incorporated.$ W$ w( t! J. ~! O MFSIM Multifunction Simulation (PATRIOT), Huntsville, AL., l) P* B! w; A MGEP Mobile Ground Entry Point. 5 N2 [' a/ T1 M) TMGLI Midcourse Ground Launched Interceptor. 0 M0 o2 L$ W* i% ~' i, U! p, `MGMT Management. j% |6 Q( X2 n3 c) S9 [MGTS Mobile Ground Telemetry Station. 3 F, B5 d, Z# l# C( P- C" |. O2 e& M) CMHD Magneto-Hydro-Dynamic.4 b* i8 Z2 @# k MHE (1) Material Handling Equipment. (2) Mobile Hauling Equipment. ; o* X7 K; w9 f: T! `! }MHV Miniature Homing Vehicle. / I1 H; ]9 g( {& Q0 \mi Statue mile (5,280 feet). ' S: {) J6 f. i* W5 L3 O/ Z wMIC Management Information Center (MDA). ) D+ [4 Q8 Q! CMICOM U.S. Army Missile Command, Redstone Arsenal, AL. 2 f3 d# j2 _7 {" S& p' K( ]8 ?, IMIDAS Missile Defense Alarm System (US). / E3 A$ c' {2 v/ h8 I2 zMid-Course ) @% v5 o) U* q& d }( h5 K pDefense Segment 2 A3 ~2 k3 N' n7 N( G! B(MDS) ; c6 r9 @; L( }+ n& V7 R, n4 V- EThe portion of the BMDS that defeats ballistic missiles during the period of flight! ?/ O* _( B9 n+ i5 z C between boost and atmospheric reentry. ; l1 N: w. D2 Y' V' ]Midcourse& X# H3 g4 e R5 i: y j8 M6 y Guidance - F. R2 l' }6 Q3 O7 O# A0 }4 e% \The guidance applied to a missile between termination of the boost phase and- @1 P Y+ [) _# G0 k7 _ the start of the terminal phase of flight.& g$ H9 s- w% _( x3 s MDA GLOSSARY, VER. 4.0 M 7 B7 L1 ^( ^, V* V* u182! r) g! \. \- H+ v' a. r. ] Midcourse (MC) 4 q3 j) q. D1 H0 @: u; }6 S1 t* GPhase+ d. A) {3 w& Q! A- v That portion of a ballistic missile's trajectory between the boost phase and the5 c" ]* e5 H1 U+ J reentry phase when reentry vehicles and penaids travel at ballistic trajectories $ Z7 y! ]! X) h1 ]. g7 Rabove the atmosphere. During this phase, a missile releases its warheads and $ u8 X+ J; M7 Edecoys and is no longer a single object, but rather a swarm of RVs and penaids 6 G& S3 O" s5 p: A% wfalling freely along present trajectories in space. 2 H8 l' R ?! D1 |+ ?& v$ z; dMidcourse Space + |1 C. T2 g2 l: S( K5 k- R& yExperiment+ z; [& b' w% q1 j5 t (MSX) 5 M, ]5 R _ pDesigned to provide demonstrations of midcourse acquisition and tracking from * m2 ^3 Q4 |6 T1 Pspace, technology integration of optics, focal plane arrays, signal processing, - x8 s6 {" q' ~" betc., and collect background phenomenology measurements and target 5 L, N, s/ h7 f/ I/ }- i; Qsignature measurements. - \4 c% G5 {- V' y6 zMidgetman US ICBM. 9 j# w. x W9 r4 @8 L+ YMIDI Musical Instrument Digital Interface. ( z3 E: \. A9 ` `* P2 H, nMIDS Multi-Functional Information System (USN/NATO/Telecomm term). + R2 |: N/ w2 s. F" }/ H+ PMIIRD Mission Issue Identification and Resolution Document. ) A% n8 B2 J+ g$ T1 eMIJI Meaconing, Intrusion, Jamming, and Interference. 3 r: I! v/ g6 p* H: |" QMIL Man-in-the-Loop. ' I9 c8 g- W/ \( M3 }MIL-HDBK Military Handbook.- `- j P6 D2 D2 T MIL-STD Military Standard. 7 e/ W" j" f8 Q. oMILCON Military Construction. : U' j+ l* ?# l# U- F9 lMilestone $ S3 S8 P: ]- m, vDecision. v8 x p4 @$ c1 v Authority & }0 i: [4 l1 J0 d2 a( N$ QThe individual designated in accordance with criteria established by the Under* I1 e% E- _8 \+ c$ S8 }& i" j Secretary of Defense for Acquisition and Technology to approve entry of an8 m. b* O' F8 T( X0 Q+ G acquisition program into the next phase. , t! ~7 K6 |2 \7 G2 X9 ~Milestones (MS) Major decision points that separate the phases of an acquisition program. ( h8 E, ?' u1 n4 L( vMilitary9 J- M R& f0 o) x9 u. A$ d- @ Capability ) @5 m8 O+ B9 d' _9 X7 x0 KThe ability to achieve a specified wartime objective (win a war or battle, destroy a 5 W D0 E9 W/ h q" E$ v9 u4 e1 E$ mtarget set). It includes four major components: a). Force Structure -- Numbers,* V8 y3 d; m' p$ a$ k; @! `7 f size and composition of the units that compromise our Defense forces; b) % F5 U) J! X! N$ s2 pModernization -- Technical sophistication of forces, units, weapon systems, and) z- ^5 `: A- d equipment; c) Readiness -- The ability of forces, units, weapon systems, or3 m) ?2 k! [. W& w3 ]% \9 W equipment to deliver the outputs for which they were designed; d) Sustainability' [5 H( @( P1 T) {8 G/ I -- The ability to maintain the necessary level and duration of operational activity , |$ }& F2 x# o6 Mto achieve military objectives. Sustainability is a function of providing for and 6 ] k" F% E$ k( Q1 O" ?1 q( _4 wmaintaining those levels of ready forces, materiel, and consumables necessary `5 ~6 o' g$ L4 n n- | to support military effort.

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