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发表于 2008-12-25 20:10:24 |只看该作者
Kinetic Kill * v" {7 ^+ l* e7 F* k0 \; ZVehicle 5 A" U7 B, ?- @Integrated : e+ m* T/ O, m+ J6 L1 cTechnology$ _0 K+ s% @7 d9 O' M Experiment 9 X" h6 j! d$ n8 c$ F(KITE) $ w" g/ x2 c5 x5 ^3 vA series of test flights at WSMR to demonstrate HEDI technologies. % C7 O4 V7 _4 `: O' N3 N! tKITE (1) Kuiper Infrared Technology Experiment. (2) Kinetic Kill Vehicle Integrated1 m) ]% }: v) D Technology Experiment.2 P. a1 X' V+ z KKV Kinetic Kill Vehicle. : q, ~1 l1 ^5 `& W) lKKVWS Kinetic Kill Vehicle Weapon System.2 \ [5 a4 c8 G; E( c: |) H8 k KL Kill Level.' [. g: G6 q( B$ S Km Kilometer.+ Y" x6 \% Y7 C! D8 N1 d" @ Km/h Kilometer per hour. 7 i* f% k# i1 o" F1 k6 J- h- J7 iKm/sec Kilometer per Second. 4 Q0 h! Y- a, [' P. |9 g1 w8 HKMCC Kwajalein Mission Control Center. 7 K8 P& l" e" i" BKMR Kwajalein Missile Range. ( r! K9 M+ F# k8 hKMRSS Kwajelein Missile Range Safety System. 9 k+ Y# j9 D J9 VKPP Key Performance Parameters. * n) `2 Y0 B- N* o6 N( p' \MDA GLOSSARY, VER. 4.0 K& O' }) h0 B- ]4 N5 g2 r! k# K9 i( C 1595 V' P6 ^+ |; b Kr Krypton.7 F+ ]. }$ `" v: b: D- _, ` KREMS Kiernan Reentry Measurement System. 9 w9 D* V' P$ d4 ^! ZKSC Kennedy Space Center, FL. ; O) E6 o+ \" [$ SKt Kiloton. 5 I9 D' S R+ ^/ a/ \( @KTF Kauai Test Facility, Barking Sands, HI.$ w: X. m2 w5 }, ^% X KTP (1) Key Technical Partner. (2) Key Test Partner (3) Key Technical Parameters.: ~* J0 b( S( o6 U" V Kts Knots.* ^& y7 e' S! c1 ^) C KV Kill Vehicle.1 C) p) c0 v8 G |7 p$ k1 T kw Kilowatt. ) d, r" G( G9 `" J/ O0 VKW Kinetic Warhead. . w3 e! _+ }# [; ^MDA GLOSSARY, VER. 4.0 L" o: b$ f. {7 s5 k9 S9 q/ N 161 # X, ]% R1 q1 {: ~, ]L&TH Lethality and Target Hardening. 4 c# |3 \: d DL1SS Level 1 System Simulator. v* b, G5 b8 `; l L2SS Level 2 System Simulator - NTF. * \' U P4 l: n/ h1 OLAA Limited Access Area. 5 E z( I Y6 Z2 Q& JLAAD Low Altitude Air Defense. , F! v/ e9 Q$ Z' cLAAFB Los Angeles Air Force Base, CA.1 F& M+ J* }* V LABCOM Laboratory Command. 6 s4 t) b& o! j$ _' KLABM Local Area Battle Manager. 1 s0 A" `+ ?1 ]! U8 g; VLABP Look Ahead Battle Planner 1 _8 k; ]5 N( G) S) Z1 S" oLAC Low Authority Control./ x- s) X9 Z1 a- B* m/ F( o, v/ U LACE Laser Atmospheric Compensation Experiment (an SDIO/NRL satellite launched " z: l. A9 S" ~, j. k# [1 \February 1990 and turned off July 1993). 5 y! J) [' w( k) {$ C) l0 xLACM Land Attack Cruise Missile. & x9 c. U" d+ a: O0 l& vLADAR Laser Detection and Ranging. 9 J% a3 L5 W) c' \5 ?1 jLaddering Down A hypothetical technique for overcoming a terminal phase missile defense.! @; F8 G. ^# W) e! U' x/ D0 L Successive salvos of salvage-fused RVs attack. The detonations of one salvo : a( L& n4 q9 m5 Kdisable local ABM abilities so that following salvos are able to approach the # X, Q; M1 @$ S& d& Ztarget more closely before being, in turn, intercepted. Eventually, by repeating# Z, `) p- B* h J the process, the target is reached and destroyed.! [" n. T0 M2 ?5 X2 y W LADL Lightweight Air Defense Launcher (USA TBMD term)." x% I7 M1 D9 O9 P- Q# s; ]2 I LADS Low Altitude Demonstration System. , s1 k9 o% g% u- n% JLAFB Langley AFB, VA.2 k' p6 q, b, }1 T9 E! A3 [ LAMP Large Advanced Mirror Program.+ i, D* ? H# \, t/ N0 n! y6 ~- z2 ^ LAN Local Area Network. 4 |" f& `+ M, H, Z2 k* NLandsat Land Satellite (NASA program’s satellite). # X1 @- p2 W0 R& c2 cLANL Los Alamos National Laboratory, NM.: Z/ q- m+ f( x6 G/ }: s LANTRINS Low Altitude Navigation and Targeting Infrared Night System.) Q! l7 m- M2 D# V; {1 T LAO Limited Attack Option.# Y: v+ P; C! Q2 G: l% O& N# D LAPL Lead Allowance Parts List (Navy term). 2 W2 r0 `& R9 Z( Y! HLARC Langley Research Center, Hampton, VA. , e& |4 e+ p- b4 I1 rMDA GLOSSARY, VER. 4.0 L $ k& x A. M( l, I- v162' z* M* a1 L- |/ i \+ _6 e Large Optics The technology of constructing and employing mirrors over 1 m aperture to direct - \) s: p1 L3 ~+ W( kand control high power beam weapons/systems with large coverage, or to . ~* u5 S4 U" Iprovide high resolution or high sensitivity for detection and/or imaging.7 I* Q1 w/ Q( Z4 l1 k% i LASA Large Aperture Seismic Array.+ ~$ O% f& p9 n$ r f; x& u/ X$ m Lasant A material that can be stimulated to produce laser light. Many materials can be9 d2 ]8 C; y+ w9 M2 r used as lasants; these can be in solid, liquid, or gaseous form (consisting of+ Q [- Q* l& s, s) |( s molecules including excimers or atoms) or in the form of plasma (consisting of1 K- _1 b$ R- m: J# }+ h. { ions and electrons). Lasant materials useful in high energy lasers include carbon5 r" d; _6 w0 P- i$ f1 I L dioxide, carbon monoxide, deuterium fluoride, hydrogen fluoride, iodine, xenon % X. U0 a) z9 K+ }) m+ C5 Wchloride, krypton fluoride, and selenium, to mention but a few. - M5 S1 Y* j' D% O6 ^$ p LLASE LIDAR Acquisition and Sizing Experiment. p( o+ G+ U1 ~' E: Y7 fLaser An active electron device that converts input power into a very narrow, intense. ?& z0 [7 ~6 I4 c' n beam of coherent visible or infrared light; the input power excites the atoms of an5 v+ k9 n) L- h6 P optical resonator to a higher energy level, and the resonator forces the excited9 A0 S$ s( n Z9 S- ` atoms to radiate in phase. Derived from Light Amplification by Stimulated5 g) ~7 z3 H& J& O7 f4 M$ L Emission of Radiation and classified from Class I - Class IV according to its 5 F$ Q$ n) S) i/ Y+ D% |" z6 npotential for causing damage to the eye.+ e% `* T* ^: r Laser Designator A device that emits a beam of laser energy to mark a specific place or object. 9 N! |1 r J; I# kLaser Detection , S, o# B! A: sand Ranging7 U5 r& L6 d% w) n: h: A8 ~ (LADAR): ?2 d2 k3 Z% n* X A technique analogous to radar, but which uses laser light rather than radio or; P/ g5 V% C, h* } microwaves. The light is bounced off a target and then detected, with the return2 r+ ^ O4 B# s/ u0 c: O beam providing information on the distance and velocity of the target. # |; g# u7 ^5 m1 WLaser Guided+ H6 N- Z9 o( s Weapon 2 A) |% X/ k: D% R/ t/ {4 ?A weapon that uses a seeker to detect laser energy reflected from a laser9 X# h, f4 P* O8 j( E marker/designated target and, through signal processing, provides guidance 7 u+ |5 W+ ~, e5 Acommands to a control system. The control system then guides the weapon to 7 Z; [3 s8 K) p$ ^( T3 A8 _- S2 ythe point from which the laser energy is being reflected.9 Q& B1 G) v8 p1 o+ X; V6 d: P7 Y Laser Imaging8 a3 O/ u3 u( D k% N2 _) E Radar2 y$ I8 g( x5 V4 K& N* Z* ` c A technology whereby a laser beam can be used in a way similar to the use of a 0 G9 }8 p4 {) V1 Xradar beam to produce a high-quality image of an object.5 K8 [' Q0 F& w4 X8 X9 b( @+ a Laser Optics Technology associated with the use and control of laser beams with flux greater 0 h1 \! i, H+ q/ Zthan 1 watt/cm2.; h+ E' V" B. g# n3 \ Laser Seeker A device based on a direction sensitive receiver that detects the energy reflected ! A6 H! j5 G0 d, \+ pfrom a laser designated target and defines the direction of the target relative to9 w9 B6 P0 z' B' t- G3 s the receiver. See also laser guided weapon. , r- U' P: B( x$ ?7 SLaser Target ( b+ j5 c2 m& q( K5 e4 }Designating \- M, V, }; n4 T% ]0 k' z5 [ System }1 s& S6 L2 P( c; }% z A system that is used to direct (aim or point) laser energy at a target. The. v% V+ P1 C% a Q' k/ h3 c4 H+ E system consists of the laser designator or laser target marker with its display and" Z) a' b: R5 }4 A control components necessary to acquire the target and direct the beam of the; {- N% Z) Q% D& F. d9 U7 I) y laser energy thereon. , E$ g$ j& ]9 C: OLaser Tracker A device that locks on to the reflected energy from a laser marked/designated* r; G8 J2 U: ?& t5 j2 y and defines the direction of the target relative to itself.. p& F6 w; T! f# ~1 F Laser Weapons Devices, such as photon generators, which produce a narrow beam of coherent ( l0 i9 \9 w% E2 {, rradiated power greater than 1 MW.4 s2 g. u( Q6 U1 z; _ s8 Z: C LASERCOM Laser Communications.: K; y. A( O6 o, [) s6 S! A LATS 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 5 {; C. Z* s: Y( U163 / d' I4 K9 d A, iLaunch Azimuth Missile launch location measured in degrees clockwise from the local northpointing longitude line at the launch site. (USSPACECOM) % ~3 j3 u# G3 q N( l; CLaunch Detection Initial indication by any one of a variety of sensors that a booster has been0 D3 Z: M, z7 p launched from some point on the surface of the earth, with initial characterization + j: t6 V) F# C: pof the booster type. (USSPACECOM) 7 b* ~6 I4 E8 jLaunch Point + `4 Q& [# `7 d# [% B1 FDetermination+ m; g; ?: L5 z4 ]5 l% g With computer methods, uses missile track observation to estimate the point on & l' t) e# r" e5 Lthe earth’s surface from which the missile was launched, expressed in terms of9 |. p6 L- {! J; o/ D, P _ circular error probable.; T7 d1 C: @" V/ v) y0 T c Launch Under 4 Z: Q6 a$ E% R; Z$ k: BAttack (LUA)9 B; {" \* L9 e& r Execution by National Command Authorities of Single Integrated Operational9 @# [$ @ r1 c( n3 a Plan forces subsequent to tactical warning of strategic nuclear attack against the * a8 k; ~9 D7 @. z( A1 ^United States and prior to first impact.6 G4 `% `' v; s# d4 K% O2 Q Launch( G8 z6 H8 N. G7 W, k4 M- ?+ q: L Verification ' k+ b" w) }( ]+ u- P! [+ BConfirmation of a detection of a booster launch by receiving a report from a , i# q v6 V1 I# E( \ c% Z# Q! {sensor separate and independent of the sensor that initially detected a specific! _. P' a+ Y$ w4 ^' _ booster launch.9 U) g2 N- |8 g* V: | Layered Defense A defense that consists of several sets of weapons that operates at different8 u ]& }! e& Q( e* }5 b! c. C$ @ phases in the trajectory of a ballistic missile. Thus, there could be a first layer + v2 m+ h% i) n. u(e.g., boost phase) of defense with remaining targets passed on to succeeding " M) p% G# a3 l: elayers (e.g., midcourse, terminal). 9 O( I. E( H: X2 `( _% \4 x* glb Pound. ( w$ e _+ n- W3 yLBL Lawrence Berkeley Laboratory, Berkeley, CA. / b* m" g( A+ z7 lLBM Localized Battle Management/Manager(s). E s" H6 P5 ]4 X% mLBTS Land Based Test Site.- ~" D0 j* Y6 u LCC (1) See Life-Cycle Cost. (2) Launch Control Center. ) S; B* s* X& |# J8 E# iLCCE (1) Life-Cycle Cost. (2) Launch Control Center. (3) Land Component + B1 J& v- X o jCommander (JCS term)./ b4 l/ @ T/ c6 o' j; t0 N LCCS Life-Cycle Contractor Support. / W* g) ]- w' T z) dLCF Launch Control Facility.3 w8 e" Z, E! @1 w1 @1 X- c4 v LCM (1) Life Cycle Management. 3 b7 S ?% W* `& b(2) Lightweight Communications Module (USAF TelComms/Computer term).% ], _8 G) ]; X1 b+ Z7 t) w LCN Logistics Control Number (ILS term).3 b1 U4 f* K7 t" z LCOM Logistics Composite Model.) m4 Y9 [# I+ \+ t6 T& s LCN Logistics Control Number (ILS term). ! C) i% k) p _$ N9 M' K7 ILCS Laser Crosslink System. 2 N4 r9 b* l3 A- U0 R5 [0 OLDC Less Developed Country.1 p) _, f" m. V LDS (1) Layered Defense System. (2) Lexington Discrimination System. (3) Limited 3 I( f# W z |3 B; `Defense System.& H. Y7 L# {: {1 X5 ? MDA GLOSSARY, VER. 4.0 L% N6 P2 V n$ s 164" _5 R1 h+ }6 s/ E7 o2 Z LE Lethality Enhancer (PAC-3).9 J& e7 r2 r; S! T5 j Lead Component/ + b0 m& ^# b1 J# \Service, V. J6 ^3 B% I' w$ U. q The DoD Component designated by SECDEF to be responsible for management( |9 s8 S1 }" D+ {) p( R4 t) K of a system acquisition involving two or more DoD Components in a joint! `. [: N/ x9 e' T* r! B program.1 f" C9 d6 \" S LEAF Law Enforcement Access Field. 2 r: `' a6 z: H! u9 dLeakage The allowable threat objects passing through a BMD system expressed as a ( d9 y! S0 ^5 N/ U1 q3 {percentage of the threat. To ensure overall system performance, permitted# l6 c/ D. [! R3 n7 q leakage is “budgeted” among individual BMD phases and functions.1 n: l7 s, o: l8 r Leakage (Max) The maximum allowable threat objects passing through a BMD system expressed T+ E$ L$ u( F7 m8 p* m as a percentage of the design-to threat. To ensure overall system performance,' j' k" V6 {. [ permitted leakage is “budgeted” among individual BMD phases and functions. : }5 p' E: l0 J( g% E# A5 oLEAP Lightweight Exoatmospheric Projectile. 4 ^, J+ i& L! R4 _7 l: ALEASAT Leased Satellite./ T1 ?# g9 A4 O7 g; } Least Privilege This principle requires that each subject in a system be granted the most ( g/ L9 w% X# t9 z( c2 C7 N4 jrestrictive set of privileges (or lowest clearance) needed for the performance of `, c; s% F+ R0 t* A( f- zauthorized tasks. The application of this privilege limits the damage that can# U. m5 [1 o3 U# h result from accident, error, or unauthorized use.7 m/ h0 K/ C9 W/ a! n# {4 d6 {& g LED (1) Low Endoatmospheric Defense. (2) Light Emitting Diode.) t" `0 C# }/ z2 z& o$ T. s LEDI Low Endoatmospheric Defense Interceptor.* Y7 `& }& J1 u& a+ u! L LEDS (1) Low Endoatmospheric Defense System./ k$ `8 a6 ]( @ L$ l (2) Link Eleven Display System (USN term)./ I4 X1 D! M0 j" |1 |% b0 ] LEI Low Endoatmospheric Interceptor.& _% V# G$ w+ j2 c( d9 A ]- Y LEIP Link Eleven Improvement Program (USN term).8 q+ u2 ^4 L. L6 X6 p- n$ k3 w/ g LEL Low Energy Laser. $ t3 t. X/ Q$ v3 I. k* OLELWS Low Energy Laser Weapon System. / N% r+ Y( l0 }5 ^6 ~7 xLEM Logistics Element Manager (ILS term)., i+ A. k/ d3 h( A+ K/ [; H LEO Low Earth Orbit. 1 o2 K' P! o0 oLETS LWIR Environment and Threat Simulation.! L% w8 ~& F2 t" B' \0 D Level of Effort 6 b! G5 r8 p4 G; b(LOE)4 e' Z) Q2 q ?4 P' P Effort of a general or supportive nature that does not produce definite end$ a- ^% ~6 Z& j! x- m" u products or results, e.g. contract man-hours. & l# D- }% Y! r5 v( q, hLeverage (1) The advantage gained by boost-phase intercept, when a single booster9 l* v$ U% m4 u2 F3 d kill may eliminate many RVs and decoys before they are deployed. This @7 Z1 J3 |+ R5 w* V9 c+ Icould provide a favorable cost-exchange ratio for the defense and would ) Z$ @. p( O) S' Ereduce stress on later tiers of the SDS.6 e; ]: U+ m: f3 D& K1 X* ?$ g/ G f& q (2) In general, the power to act or influence to attain goals.6 o+ r) n, W$ F m/ T$ W1 ^( } LF (1) Landing Force. (2) Low Frequency.- \+ o P A; d: Q MDA GLOSSARY, VER. 4.0 L; i* W K' h: ^& W 1652 }; V8 @" W; l! w! m+ f& i LFIE Live Flight Integration Exercise.5 R& s( I, B x' d2 Z LFOV Limited Field of View.; E! {& V7 \0 x% X. @+ S1 G9 c LFS Loral Federal System, Gaithersburg, MD. - d0 X' g7 U, V/ w1 ?7 b! I2 rLFT&E Live Fire Test and Evaluation.9 B. f* ?1 h0 ` LGB Laser Guided Bomb. / `9 r3 [# [+ l/ O0 e$ N9 z1 _LGM (1) Laser Guided Missile. 1 [% `) X9 M5 b" Z( I(2) Loop Group Multiplexer.! ^( K, z e/ j" ~# ^ LGSM Light Ground Station Module (USA CECOM term).7 r& r0 j. _, o& b8 B LHO Amphibious Assault Ship. , [$ t& G) Q6 e( ~$ b9 HLi Lithium.$ U; m; M) s3 Q/ d/ T LIC Low Intensity Conflict. " Z& }% j. [1 g, M* ULIDAR Light Detection and Ranging. ( ^% V6 ^6 W; Q5 iLife Cycle (1) The total phases through which an item passes from the time it is initially 7 y6 F2 Q* `/ t$ A0 e7 \$ sdeveloped until the time it is either consumed or disposed of as being ! f1 L f+ n" y2 Q( Z& W$ f Oexcess to all known materiel requirements. ( ?# b1 \ Z$ R' G(2) (Software). All the states a software or software related product passes8 @ ^# K$ ^* j: j through from its inception until it is no longer useful. 0 o) [# z0 s5 D/ s6 d. V: m1 O& MLife-Cycle Cost ! L& T0 p7 O9 ~(LCC) * N8 A. ]+ Z$ NThe total cost to the Government of acquisition and ownership of that system : J( I N7 H% ]" @9 a( _over its useful life. It includes the cost of development, acquisition, support and, ( [+ j% U+ L2 B6 s5 s8 kwhere applicable, disposal. * y: ~- C. V4 Z2 QLife-Cycle' _) O, x4 }/ [ Management 1 l( [+ z% d& @8 O- }" tProcess for administering an automated information system or hardware support ( i+ H% q, S( c. k' \/ tsystem over its whole life, with emphasis on strengthening early decisions which ! _7 r7 _1 Z& S* D; I; a$ y+ mshape costs and utility.$ n- G. O6 o; o' o9 z/ g7 N7 O Life-Cycle Model A framework containing the processes, activities, and tasks involved in the * F0 ^. ~) O: f# P5 ~development, operation, and support of the system, spanning the life of the 8 D5 O8 i3 q/ a% |, i* b1 i' |system from the definition of its requirements to the termination of its use.' R- \# v& d. j, u Life Cycle of a v7 l# J$ r: h7 D3 \7 i Weapon System 4 X, t o2 V9 e' gAll phases of the system's life including research, development, test and2 _) t! {5 ~3 l5 r8 Y3 A5 q evaluation, production, deployment (inventory), operations and support, and 6 c$ F( T5 Z; Ddisposal. 3 j5 B) x" i2 xLife Jacket The life support storage container for a Brilliant Pebbles singlet. The life jacket " S( e. R8 Y( x; V7 p9 j7 wcontains subsystems that perform power, communications, and environmental* P; r, D& H9 G0 {1 q protection functions. 0 Z9 d9 k$ g3 E8 XLight Detection( i' R( {+ c- |( U4 A/ N and Ranging # q3 Z* M9 A* X( D5 F/ g(LIDAR)& g' M$ j) M+ A9 ? A precision probing instrument used to measure concentrations of different 5 E) c9 b% I1 A. P5 }2 l& \/ ^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 . J2 r5 x+ g! `4 A(LREP) - \6 G7 `$ H, L! F- u' k) C. [1 ]Decoys that, by virtue of shape, closely approximate an RV’s signature with little; {3 ^0 A; D- R( W T, w off-load penalty. 2 a$ ~! ]! ^ Z+ a5 mLIMIDIS Limited Distribution.6 Y0 j+ }% J- D6 H+ c MDA GLOSSARY, VER. 4.0 L / R1 n* c% \0 J" L# G9 D166( a. {9 T2 m9 R, \ Limited Attack An attack on the U.S. and its allies, which provides a stressing timeline, and is; D3 b8 ^+ m/ P8 B geographically distinct. Not an all-out attack or mass wave. 3 c8 u+ n! E9 `Limited Defense 2 {" n5 v# _) u0 `! }" z, _* W% Y' Q7 @System (LDS)( _$ J0 p% B* `% [' O0 _8 T7 _ The development of systems, components, and architectures for a deployable 0 v: M4 I/ o4 t. S; \3 f7 banti-ballistic missile system (as described in section 232(a)(1) of the 1991 Missile & ~- k( Q% N- J& V% a( w6 v/ cDefense Act, as revised) capable of providing a highly effective defense of the/ |5 t! z' o9 q" O, l5 I* D United States against limited ballistic missile threats, including accidental or ! Y" i8 A: I* i. \' Y1 Sunauthorized launches or Third World attacks, but below a threshold that would 2 I& ]9 `: } ]5 p# V7 Q& `bring into question strategic stability.9 q/ b! z1 W1 b0 @# @. w# I Limited % L: q% H% s9 r7 Z& MOperational/ I* Q6 t8 @' |: j3 G* W, Q2 A; Q Capability (LOC) 5 M* d$ w6 I2 d: m8 o; x. r0 l) O% TA point in time when the first set of sensors and weapons can be employed to 2 L \2 y' g1 }! {provide a limited protection system.( d8 R, |5 K( O: d Limited ( B% E6 y8 j% Q7 v- }+ ?) N- R% oProduction # J1 [$ p, ]4 |5 EThe initial production of a system in limited quantity. Part of an acquisition( ~0 z& [' e5 _& a5 c strategy to be used in test and evaluation for verification of design maturity,; R& ^$ }: O! Z/ h8 i manufacturing process final proofing, and product engineering and to verify a 6 ~, f! s+ L7 r% mfactories capabilities prior to a decision to proceed with production. Decision1 u0 y4 ], ?7 `1 Q, m) f usually made near the end of EMD or at Milestone IIIA or equivalent. (Also 7 q$ n3 e. S/ D3 r1 `% Kcalled Low-Rate Initial Production or Pilot Production.) X8 \! I0 i- C1 x2 x$ vLimited Test) Q2 S5 |& ~9 o+ N# U: W Ban Treaty 3 T' x7 |% J4 b$ XThe bilateral Treaty signed and ratified by the United States and the (former) 9 y: c2 V4 x4 ]5 j# fU.S.S.R. in 1963, which prohibits nuclear tests in all locations except % @& C8 E4 Q# u1 O" Yunderground, and prohibits nuclear explosions underground if they cause2 R3 c5 N( @+ \0 ?4 S* z9 \) q; P radioactive debris to be present outside the territorial limits of the state under$ A- Q1 F% i, k% m5 z" i5 `% p whose jurisdiction or control the test would be conducted.7 C, Y0 V! `0 t: x$ V5 L% s9 A LIN Line Item Number./ W3 H4 _$ O+ N2 r" Z9 E3 |6 ]* o t G Linac Linear Accelerator.+ G0 `" w- q, b; v5 @! h8 U9 n3 X Line Item . ^, r4 o. y! ^(Budget) & z( g+ s2 @! U, v3 QA specific program end item with its own identity (e.g., B-1B Bomber).) j7 y- H' N; P x Line of Sight ) u! P5 u. }+ i(LOS) + v& s9 T! e: {5 U H- QThe line from sensor to target necessary for the commencement of the detection,+ b* L2 d, F0 u- c2 [ X X- S acquisition, track, and identification of a target.! k$ w, k( O3 M3 v" Q Line Replaceable" H) h1 [; K3 z2 [1 |1 p Unit (LRU) ( o6 u8 ]' r/ d) bAn essential support item removed and replaced at field level to restore end item * Y9 [6 i7 _, [7 a/ }to an operationally ready condition. (Also called Weapon Replacement & s8 S9 f! A, q( j( {& IAssembly and Module Replaceable Unit). 5 \* [7 [5 p; ?( [7 O3 f) x0 LLink-16 TADIL-J." T" a& `# g# ^/ K) G3 \* u Link Quality: u+ h Y# h% \6 K Evaluation; Z# J0 T/ k3 x( i3 @& n3 B6 p2 v0 M This testing of links to create bit error estimates and monitors natural or induced 0 O+ Z% F+ ?5 u! F! f3 Slink interference.5 C7 ~! M) G, ` LIP Lethality Improvement Plan. 4 k' T" g9 o6 A+ _% w- dLiquid Fuel1 c: O( B3 T s Booster (LFB) ( e$ w" A& |- DTarget booster being developed to mate with current reentry vehicles and; M! Z7 w4 U& W8 t+ L; u/ b/ E emulate the short/medium range threat.$ F8 ]' f! ]( f1 g LIS Laser Isotope Separation. " A+ g1 r9 h. J/ ?0 x) jLITINT Literature Intelligence. , `% M" `9 f' E9 kMDA GLOSSARY, VER. 4.0 L . [' z" C. s: h5 V$ o167# u6 Q; e# U" v5 {4 F Live Fire Test ; b" N9 Z9 O6 v2 h* I4 A: J" lAnd Evaluation, g* q3 f7 d. I' ?; @8 d3 x (LFT&E)& v2 [5 A( l$ [+ p) W0 Q. U Survivability testing and lethality testing required before full-scale production. X0 S8 }0 O, M7 z* o) s Must be conducted on ACAT I and II programs for: (a) A covered system (a" v+ w2 y& k# ^$ I1 {: y# o+ W conventional weapon system designed to provide some degree of protection to ( L# `5 _ }! `. g) O( }" Nthe user in combat); (b) a major munition or missile program; (c) a product ' b' L$ f2 R9 c2 f/ limprovement program that will significantly affect the survivability of a covered0 q% U4 b* X0 J' f" T system. ( v$ W5 [6 T9 T TLIVEX Live Exercise. ( p- ?$ K n4 _( y$ f eLIWA Land Information Warfare Activity. , O1 {) z! X; z2 aLJ Life Jacket (BE term).% e* ?( y5 b& B$ K LL (1) Lincoln Laboratory, Lexington, MA. * y9 _% y) J% |0 S- j0 o" O(2) Legislative Liaison./ v# \- Z' j4 i$ M4 Y, t+ n% } LLM Long Lead Material. ' ^8 E1 G4 d, J2 ]) y: U; B1 Q0 YLLNL Lawrence Livermore National Laboratory, Livermore, CA.! Q! N. X S/ W9 C$ M* O1 W LLTIL Long-Lead-Time Items List (ILS term). 1 l! `8 b' }. F0 q1 i* Q9 f2 iLLUM Low background LWIR Uniform Mercury Cadmium Teloride (HgCdTe). # q9 f/ z$ _0 I0 j L1 B9 hLM (1) Lockheed Martin, a defense industry contractor., x8 @* b# g4 m g (2) Logistics Manager (ILS term).

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LM/GES Lockheed Martin/Government Electronic Systems. o7 Y2 \4 q. ?$ k: |& e/ W7 b LMA Lockheed Martin Astronautics, a defense industry contractor.1 s/ H6 i- g# d; c5 t LMANS Lockheed Martin Aeronautic and Naval Systems. 5 u8 ^ p/ p2 L5 i$ T$ z) uLMC Late Midcourse.% X3 i. Z a6 M LMFBR Liquid-Metal Fast Breeder Reactor. ; k6 v4 R& |. e2 m+ lLMIS Logistics Management Information System.: b& O$ a6 f$ l# S LNA Low Noise Amplifier. / s! P# ]0 `. `' g& [LNC Local Network Controller.% s: d4 N0 r. E+ G LNE Low Noise Exciter (Electronics Engineering term).; l' p+ l' W& ]! o$ U5 y i$ V8 L$ M LNO Liaison Officer. ) y+ A5 B1 f) {/ E4 P% P6 xLO (1) Local Oscillator (Electronics Engineering term).) @7 F9 c1 c; v) l) v% @ t (2) Low Observables (LODE-related term).1 D& C% y- r, M8 H; \0 D$ K. i LOA Letter of Agreement.0 i$ L0 ]; C( W- W LOAD Low Altitude Defense. . k& P8 p8 |! F+ K& R; gLOC (1) Lines of Communication.3 j* ^/ I b$ s) T/ I (2) Lines of Code.6 j9 i3 A8 v+ W (3) Limited Operational Capability.$ [, r0 b4 v/ D, ` MDA GLOSSARY, VER. 4.0 L 2 Q2 } x; m5 Q+ i3 I! ]3 U168/ m; q$ \ h! S% N+ W9 _9 i LOCAAS Low Cost Autonomous Attack System (USAF term).9 X- x8 ]& r* f' B6 z% h8 ~/ h Local . f2 j' x( G/ O/ y( C& sAssessment of `8 a+ g3 [0 S# s- K9 i Engagement , g" I' M2 g: AThe assessment of an engagement by high-resolution fire control sensors.1 }' q2 g$ `; L$ N" D f5 E8 k Local 6 c5 S0 G* D% \Environment$ f4 h( C; A& p% f* G( F# ^ The ISTC Local Environment contained within each node simulates the element, b" O. U5 ^6 c0 ?0 o to the degree necessary to generate a realistic input to the Element Processor of5 M7 v9 O& G B Element Processor Emulation and provide a realistic response to the Element , G& v2 F/ g0 VProcessor or Element Processor Emulation. 1 `2 u" F" j2 M$ s" c: G. WLock On Signifies that a tracking or target-seeking system is continuously and4 O: M1 K/ J4 g automatically tracking a target in one or more coordinates (e.g., range, bearing, # U# h4 Z; r4 J4 Velevation). + y! u* h6 b1 x' e' ~LODE Laser Optics Demonstration Experiment.- }/ H. v3 W* j0 R/ K# D: ^ LODTM Large Optics Diamond Turning Machine.6 G3 h+ [# U* [3 N& t h' \ LOE (1) Level of Effort. (2) Letter of Evaluation (AF).% u* ]% [9 c0 G8 r# [ LOF Lifejacket Orbital Flight (BE term). 2 A5 i8 ~' \1 C" M$ I9 QLofted Trajectory Trajectory with an apogee greater than the minimum-energy trajectory to the 1 C1 v9 M- e o2 E5 I: }- Osame range.1 T0 y( j e* K LOG Logistics.4 j- z1 O/ x) I# ~2 }, Q. h2 v LOG.WIPT Logistics Working-level IPT, Z7 P4 _; X' Y' | LOGAM II Logistics Analysis Model II. $ Y. s* F% f: ^& z- m) YLOGFAC Logistics Feasibility Analysis Capability. , r$ e4 Y7 w/ r6 _& pLOGFOR Logistics Force.. y2 L( ]4 S- }& T* H; N# m Logistics The science of planning and carrying out the movement and maintenance of! A1 p* g' k5 G# I0 r( ]+ v9 G forces. In its most comprehensive sense, it includes those aspects of military 1 b$ f& ]/ h6 V5 W- r. K7 aoperations which deal with: (1) design and development, acquisition, storage, 6 g3 T, i1 ~- n, nmovement, distribution, maintenance, evacuation, and disposition of materials; " n; ]4 x `* K/ X(2) movement, evacuation, and hospitalization of personnel; (3) acquisition or # G' ~5 h% A- `% o8 D5 @construction, maintenance, operation, and disposition of facilities; and (4)$ Z$ P: p7 M3 T8 ^! O acquisition or furnishing of services.6 Y7 g& i: b, S% M Logistics Support The supply and maintenance of materiel essential to proper operation of a2 m: e% S( Z' c: n system in the force. : b9 G7 g) _7 n; oLogistics $ R/ k! @* k5 V JSupportability : g. j: _' y; D1 Z$ dThe degree to which planned logistics support (including test, measurement, and * K. V; |5 Q4 pdiagnostic equipment; spares and repair parts; technical data; support facilities;+ R' ^* p2 H0 j9 Z transportation requirements; training; manpower; and software support) allow 3 w4 k Y& x" G# U9 dmeeting system availability and wartime usage requirements. 1 o/ ]' I% R# hMDA GLOSSARY, VER. 4.0 L ! G' f+ r. X5 A169$ Z1 S1 L" B- f: C+ K Logistics) E l7 f6 Y. l% A. q! W Support Analysis ; A+ R2 h/ ]4 R* K6 K* a) u(LSA) , m" o+ R1 ]- A* n% UThe selective application of scientific and engineering efforts undertaken during ! L6 Q! _" Q e/ ]+ }the acquisition process, as part of the systems engineering process, to assist in: & N! H- ]: u3 Q9 \) K x8 pcausing support considerations to influence design; defining support; {8 @+ I2 P' }$ K; q. A5 F5 Q/ V5 l requirements that are related optimally to design and to each other; acquiring# j8 A; Q2 y5 u- V* G, k the required support; and providing the required support during the operational F v& [9 e5 K1 z! W9 I; {# rphase at minimum cost.1 ^% @) p9 T" A1 d: M( L Logistics Support3 C! G9 d" P- o5 U/ y0 P Analysis Record 8 H9 p$ v) s5 A A8 G; U(LSAR) ) g# q3 q4 T0 `+ C) j( `A formal tool under MIL-STD 1388-2A that uses records/forms to document 1 v- l. Y. g% W) c1 y6 voperations and maintenance requirements, RAM, task analyses, technical data," j3 q. E3 J1 p: y+ | support/test equipment, facilities, skill evaluation, supply support, ATE and TPS,% W% l3 ~9 L" Y and transportability. LSAR is the basis for training, personnel, supply8 A: Z7 G3 @( @" Z# d provisioning and allowances construction, support equipment acquisition,: C' L/ o e g* H1 j+ B facilities construction and preparation, and for maintenance. 0 H5 L6 ^1 u4 n) Y3 cLOGPLAN Logistics Plan.$ H5 P( t; R. K- \& y- M& y LOGSIM Logistics Simulation Model. 6 P5 e: I* k" f9 Y6 {& ^LOI (1) Letter of Instruction. (2) Letter of Intent.& a5 w9 _( R2 I2 f8 M- k LOMEZ Low Altitude Missile Engagement Zone.- o# |. J; E% q Long Lead Items * h+ W4 t$ S, TLong Range Air" s* M. t3 t3 l1 S) L Launched Target/ f6 H% Z; b& {$ M0 Z (LRALT)+ Z7 r& P+ D& @ Those components of a system for which the times to design and fabricate are & a4 s) Y& S4 @# t+ W4 ythe longest, and, therefore, to which an early commitment of funds may be ; G, L5 S' ^' Z' r+ ~desirable in order to meet the earliest possible date of system completion.$ e: z; o* ?( ?$ z- o- L! e6 C { Two-stage, air launched ballistic missile target being developed for MBRV-4." e5 Y6 H1 ]- _; d Long Wavelength 5 C2 h% n1 l& hInfrared (LWIR)& A3 F* J- L$ a( | Thermal radiation emitted by a source in the electromagnetic spectrum 1 X P$ L' B% [3 I+ b1 uencompassing infrared wavelengths of 6 to 30 microns. # G; ^& C& i1 h E! NLOR Level of Repair Analysis (ILS term). 6 O8 d( d1 {3 T1 VLORA Level of Repair Analysis (ILS term). 7 T; w1 J+ I, [LOS (1) Line of Sight. (2) Large Optical Segment.9 c O5 N- [! C1 ?* T LOTS Logistics Over-The-Shore. % A y. s5 m9 j& I, y+ y* h7 }LOW Launch on Warning.

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Low Altitude " |4 \3 z# A# g M! C J1 iDemonstration1 z9 ]# N$ Z: l \! | System (LADS) 9 e. T( B2 V& |1 }$ ]% O3 |* ?% m$ @Part of the SBIRS Low Program Definition and Risk Reduction (PDRR) program" _3 u, R6 h$ ]5 I- _ phase. The LADS will consist of a flight experiment and extensive ground ' G; s" D* N8 J9 ]demonstrations by Boeing North American. The LADS flight experiment will be 7 f8 U& S t* W0 E- Wlaunched in late FY99 to demonstrate the sensor performance of a SBIRS Low9 ]6 S( _4 Z# S5 n+ |0 u concept and collect phenomenology data.) x+ N8 n* I& g: ?2 |: W* }9 b Low Earth Orbit }2 t; Z+ P8 b9 { ]/ B7 Y (LEO) ; p! k2 I( ^; r7 C0 ? Q9 bThese satellites are at altitudes between 100 and 400 nautical miles. They - J C' n! a7 V% S' Ihave short duration revolutions (about 90 minutes), short visibility envelopes (2.5 ; J6 o4 J' K" w; D# M( Uminutes up to 10 minutes over a tracking station), short life spans, and are most) |. D( Z% h& P subject to orbital perturbations due to atmospheric drag and earth gravitational6 x$ K0 t* _ s3 V+ | anomalies.& v7 d3 b( m/ J% d6 a Low , D1 O' ?+ K- p# ]* KEndoatmosphere : ^3 P- C7 H. c) P/ h1 Y. MThat portion of the earth's atmosphere, generally below 40 km altitude.% i, e9 T) c+ N- e, u MDA GLOSSARY, VER. 4.0 L / j- o U$ l1 S2 u& p1701 a7 ?7 m6 r; K" t' A4 g3 s* Z Low-Rate Initial5 u9 V& ?% i+ S, \9 G Production (LRIP) 6 f, y4 _# H; x8 \ a' }; _* z) f3 mThe production of a system in limited quantity to provide articles for operational/ P$ c0 d+ t$ L- M0 O' X+ H test and evaluation, to establish an initial production base, and to permit an% y( S, V' L3 b* o$ E orderly increase in the production rate sufficient to lead to full-rate production ) ~# g% a+ Q/ D4 Dupon successful completion of operational testing.9 K6 v4 J: P- U) M6 A6 l, _ LOWKATRER Low Weight Kinetic Energy Active Tracker. 7 y6 T7 }" a4 l4 d. ELOWTRAN Atmospheric and Interstellar Background Signature Model.- A. F% E: n, T9 r+ \( i6 v; ?5 v& c; X LPAR Large Phased Array Radar. 8 Q P! [, W# mLPD Low Probability of Detection.% r3 \- ^! J9 x( {: F0 D: i LPE (1) Liquid Phase Epitaxy. ' b5 m3 c, w, I2 U/ P. r(2) Launch Point Estimate.3 L% j1 P8 e. L' r8 M V* b0 H LPI Low Probability of Intercept. 1 s. B0 S/ ]0 r- Y; }8 V3 `LPS Limited Protection System.8 X5 }0 U9 |/ x, H0 W LR Long Range. $ @" }& i; |6 g% L; O/ \ TLRA (1) Line-Replaceable Assembly. (2) Launch and Recovery Element.: p+ d0 d" W9 T! [) s$ ?6 o LRB Liquid Rocket Booster. 5 }0 @. J" b6 ?: J' kLRC Lewis Research Center, Cleveland, OH. / }* F0 s7 F' U% F( R. ~LRE (1) Latest Revise Estimate. (2) Launch and Recovery Element.: f) z5 p# A5 C: D& a LREP Light Replicas.- j$ X& L- `* x( B( n) Z$ d2 U LRF Laser Range Finder.$ x, V" j0 K7 s LRINF Longer Range Intermediate Nuclear Forces. & F# \7 y! I' E+ vLRIP See Low-Rate Initial Production.7 r0 H; ]3 {3 r" P- n1 s% U/ R d3 f LRIP-OT Low Rate Initial Production – Operational Testing.7 D' L- P {5 W/ ~- N$ k5 K* H LRTBM Long Range TBM. % M- d) G" c! O. kLRTNF Long-range Theater Nuclear Force.( K: y# `1 s7 c) Z U; C! c9 J LRU (1) Line Replaceable Units. (2) Line Replacement Units. 3 G3 s7 `+ _9 W! {+ l: B, Z+ @6 i+ jLS Launching Stations (PATRIOT).+ Y j4 q2 i0 z& M LSA Logistics Support Analysis. $ u9 C: j$ M* A |- w' O# z4 OLSAP Logistics Support Analysis Program. 4 B5 c+ n6 s! X- @6 @; MLSAR Logistics Support Analysis Record.1 G# i* m* W" R2 S3 j+ W3 Q$ }, I LSART LSA Review Team (ILS term). - l+ m* E$ c4 U0 {- H: S! _0 @! M S5 ELSAT Laser Satellite. * {8 y- x* E. v4 `MDA GLOSSARY, VER. 4.0 L' R" N4 J$ e- {2 H' n* X( M 171& T( L' g' G8 e: r LSAWG LSA Working Group. 6 T' T- l0 w7 p! ALSE Lifetime Support Engineering (ILS term). / v, G+ s4 E- h4 w7 C9 N# {: BLSEA Lifetime Support Engineering Activity (ILS term).: y! l8 c) f' d- } c0 F3 e LSI Large Scale Integration (circuits). 8 X0 ?& Q2 J) Z @( e1 {( cLSRS Loral Space and Range Systems, Sunnyvale, CA.) ` j! b# J6 n LST (1) Laser Spot Tracker. (2) Landing Ship, Tank. ( W: q+ |. Z& @3 _9 O1 j+ lLSTS Launcher Station Test Site.& r/ n1 s% P! g* o. T LTA Lead Time Analysis.0 F) V+ n) K3 t/ e: d: i/ ? LTBT Limited Test Ban Treaty. 6 t6 _0 V1 C. F) u4 TLTD Laser Target Designator. ; f4 U' H1 `6 @3 QLTH Lethality and Target Hardening.6 k# P* d7 f5 B LTS Low Temperature Superconductor. u( W6 R" q- [* @6 E LTV Launch Test Vehicle. 5 s( j7 N2 q! JLU Launch and Update.! R) L$ M6 e& {* T, S) I9 k LUA Launch Under Attack. 4 l) ~! Q) `% G- O- fLUP Limited U.S. Protection. # v$ w, N* A5 H+ {* NLUT Limited User Test.2 }8 o$ J- q* T+ _9 Q X LUT/OA Limited User Test/Operational Assessment. - b( j0 P$ k) j3 {LVS Loral Vought Systems, a defense industry contractor. % \9 a, u. b7 |7 C+ s9 r. P' HLVT Low Volume Terminal (USN/NATO/Telecomm term).( X6 n/ e7 \2 n H LW Laser Weapons. ; |) j4 F8 z1 p9 SLWAN Local Wide Area Net. * q' k0 `/ I* K" L$ p5 l) y' _LWIR See Long Wavelength Infrared.! |4 i; l: s2 x% v1 z5 w; y' h9 } LWIR FPA (PET) Long Wavelength Infrared Focal Plane Array (Pilot-line Experiment Technology). 8 l7 m" ^0 Z$ z3 ALYTBT Low-Yield Threshold Test Ban Treaty.% `3 Y) x" ^' J9 u- w( ^4 } LZ Landing Zone.

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MDA GLOSSARY, VER. 4.0 M : P% e& v v( `! S. m5 ?173 3 R5 @: |! G/ ?- _& @# m. ym (1) Meter. (2) Minute. : `6 _' h2 W' F" @% N/ e1 J( h+ E2 oM (1) Model. (2) Million. (3) Mega. - C6 k5 p' M$ U1 b6 [8 o# j+ MM&LC Missile and Launch Control.0 g. y+ t6 Y/ b: h' J) B M&P Manpower and Personnel.4 Q* v1 Q% L. Z9 d! l M&S (1) Materials and Structures. (2) Modeling and Simulation.5 N& r& q8 x+ g; @ M-T-M Model – Test – Model. + Q1 O) C' F+ {3 `$ {M/LWIR Medium/Long Wavelength Infrared.5 s4 e, [6 R) k2 W1 |2 f# l9 ^4 j M/P Manpower/Personnel.7 O/ T2 ~$ q* r. j; U' X4 b0 T' B MAA Mission Area Analysis.# n, T2 h8 D; `: ?' } MAAG Military Assistance Advisory Group.4 @9 U/ t2 o4 S3 C- O8 S; a MAB Missile Assembly Building. 8 X' [' g# V8 S) _) w* QMAC (1) OBSOLETE. Military Airlift Command. See AMC.5 q7 g& J+ Q7 I, L% g G; e (2) Maintenance Allocation Chart.! O6 z- L9 E3 a6 W MACCK Multi-Application Command and Control Kit (GD term for IVIS follow-on). ) j: b" w5 _" sMACCS Marine Corps Air Command and Control System.$ E: ?4 h& z3 {( a& W8 p; K MACOM Major Army Command. $ e, M( g& N. I nMAD (1) Mission Area Deficiency. (2) Mutually Assured Destruction., A% u& V$ c: h5 D& N MADCAP Mosaic Array Data Compression and Analysis Program.( l0 Q9 z, c7 J& I0 Y4 R# \1 m0 \ MADS Modified Air Defense System. P) l0 a% h I4 { MAE Medium Altitude Endurance.. q8 q- ]. O+ l+ Q' R MAGTF Marine Air-Ground Task Force.6 B4 P8 p+ {1 @5 _% x Main Beam The primary directional EMR emitted from radar transmitters.2 J1 k1 r$ h. k$ [' t' h Maintainer An individual responsible for retaining the major defense system in or restoring it# F4 U" ?8 q1 t/ N; I to a specified condition. Maintenance activities include inspection, testing, 3 u9 @$ h* A7 t" N1 @0 R9 Iservicing, classification as to serviceability, repair, rebuilding, and reclamation. 0 b, W( `6 a4 h* g9 |Maintenance1 T4 ?& E1 X9 @) H4 ]% R8 R Concept/Plan . m2 K! P2 S& L8 q) o, k, _A description of maintenance considerations and constraints for w$ z* E5 ^4 J8 x( {$ z& V1 U& B/ U; }system/equipment under development. A preliminary maintenance concept is $ y& `1 U2 ~( n" H9 I" Tdeveloped and submitted as part of the preliminary system operational concept$ N$ [, _' n: q! c+ T for each alternative solution candidate by the operating command with the3 E2 t9 i) b1 }* J1 G3 x assistance of the implementing and supporting commands. A major driver in . I" f9 [$ J3 T8 A0 adesign of the system/equipment and support planned for it.6 p, S7 R% |: l MDA GLOSSARY, VER. 4.0 M + {3 u7 Y9 y% ]' i3 H174, u. P3 ?1 c% J5 C$ y# j Maintenance ; {( b' k1 L0 G9 l5 nOperations # j4 \9 ?+ y2 ^* _4 F' iThe corrective and preventive maintenance operations that do not require a 8 A0 C$ y5 y9 a4 W) N1 \deployment decision; it includes correction and subsequent validation testing $ E4 R4 _# \: B. e/ @6 |and the update of relevant status configuration, maintenance, and inventory : Q9 k# o: ], y" P3 @databases. ' m. f7 }/ m0 u3 j& F7 WMaintenance! u7 j8 \0 r, M, B% x Planning2 E8 m. p! M: a2 b) D The process conducted to evolve and establish maintenance concepts and- H7 N6 a7 ?/ `/ p requirements for the lifetime of a material system; one of the principal elements % z; f4 j' V4 s. B2 v5 b. Eof ILS. , O. T! R" c# s6 P6 fMAIS Mobile Automated Instrumentation Suite (USA term).2 ^) ]# r: o* X8 X MAISRC Major Automated Information System Review Council6 u! a) S- P G1 I: ]9 j4 V& n MAJCOM Major Command (USAF). " v+ e" H5 t3 Y0 `7 }: c8 ~Major Automated 8 d0 u8 n6 ?# Y4 X! F, y$ XInformation# ]9 H8 r& Q# l) W1 v3 a% l2 E/ r# @ System Review 7 S G5 a3 |/ ]# m5 d$ ]7 T1 k. xCouncil (MAISRC) $ t# R# [% O8 l, s. @' A1 tThe Senior DoD information management acquisition review board chaired by , K( \, X4 R! H/ C1 Nthe Assistant Secretary of Defense for Command, Control, Communication, and$ L) W+ j" e) J5 r7 y Intelligence. See DoD Directive 8120.2.

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Major Defense2 y7 R; ]6 S! ?! D& L! x" S Acquisition7 e( ]9 v# Q" i0 F$ A) N Program' S; Y5 K" b& m! {0 E2 J An acquisition program that is not a highly sensitive classified program (as " E j, `% @8 a% K jdetermined by the Secretary of Defense) and that is:( Q9 J5 D8 H" r3 r1 G/ C$ o' M$ U 1. Designated by the Under Secretary of Defense for Acquisition and8 n' r4 E; e# e C* Y3 Z Technology as a major defense acquisition program, or " u/ k0 y7 E8 T+ L7 c3 r1 Y2. Estimated by the Under Secretary of Defense for Acquisition and Technology & B. p' F4 ?/ h3 q9 R" [/ Ato require:' i1 l9 k! |( q. s# j' t3 t a) An eventual total expenditure for research, development, test, and- a4 P8 J+ `7 r: `) L1 q. R6 q evaluation of more than $200 million in fiscal year 1980 constant4 z' R6 O1 c, ? dollars (approximately $300 million in fiscal year 1990 constant 9 Y" ~# E4 p: tdollars), or7 K1 R* L6 [ R! z, ?; r b) An eventual total expenditure for procurement of more than $1 billion, Y9 C8 u3 z9 H% o) @& F in fiscal year 1980 constant dollars (approximately $1.8 billion in fiscal 1 v n" \/ s& C2 P0 kyear 1990 constant dollars). ! P1 D' W7 l' J$ e4 \7 |. cMajor# l E! x5 g+ u) } Modification 4 i( ]+ ~2 d( r# ]; ZA modification that in and of itself meets the criteria of acquisition category I or II 1 U) J& p; o. N. g( p, Dor is designated as such by the milestone decision authority. Major modifications $ M3 r( G1 N* Q/ Trequire a Milestone IV decision unless the decision to modify results from one of$ t- n6 |! X& o, \) h0 D- ^6 y' v the alternatives considered as part of the Milestone I decision process. " X& @- J/ k- e/ XUpgrades are part of the Milestone 0 decision process. 4 Q. a. b4 a3 m/ a& a JMajor System A combination of elements that will function together to produce the capabilities O K9 J1 g7 N; E0 P$ ?required to fulfill a mission need, including hardware, equipment, software, or any $ x' H6 }: y V0 q5 Q; s, ecombination thereof, but excluding construction or other improvements to real7 x! t+ `8 `# y6 r property. A system shall be considered a major system if it is estimated by the / ^" a; X% x) y6 v: kUnder Secretary of Defense for Acquisition and Technology to require:6 p8 o* D X0 D& Z# U' L) l 1. An eventual total expenditure for research, development, test, and4 }% a" P" |" u) c6 V! o0 x% I evaluation of more than $75,000,000 in fiscal year 1980 constant dollars) q4 k* O) i# z0 M; u& a (approximately $115,000,000 in fiscal year 1990 constant dollars), or- K$ a+ k# D$ K2 I, T 2. An eventual total expenditure for procurement of more than $300,000,000 in L" M) Z( M- j- R; T7 I' J( s4 o/ ^fiscal year 1980 constant dollars (approximately $540,000,000 in fiscal year 7 R9 ]4 K0 n& l1 T3 d4 _- L1990 constant dollars).0 ~5 B N4 U+ q% Q MAM Maintenance Assist Modules./ s: p9 D, k0 t7 f4 T MAMDT Mean Active Maintenance Downtime (ILS term). + a/ k- R: \$ s- CMDA GLOSSARY, VER. 4.0 M$ _& ]! m# ~7 R/ \" {. M8 ? 175" n& o0 o4 u- h4 a Mandatory ( v+ L9 @& {# S& T7 c9 B1 c3 ~! eAccess Control ( f r; t# V" H8 `6 ]! L( wA means of restricting access to objects based on the sensitivity (as represented( q- a- M8 x1 a5 p0 Y by a label) of the information contained in the objects and the formal @2 i2 X3 y+ j( N/ ~6 ^authorization of subjects to access information of such sensitivity.! d( a3 v0 F3 M6 ^, K$ w1 u1 E Maneuverable* {2 q: c! r! V4 M( ], {$ {! [ Reentry Vehicle" `. b, H+ O/ y. y: _ (MARV)& @4 {8 o2 w) B+ q% h* R2 F A reentry vehicle capable of performing preplanned flight maneuvers during the$ V d0 _0 q, H reentry phase. The reentry vehicles deploy fins or other aerodynamic surfaces0 ?! `* c- }; J0 q4 ?2 k: p& b when they enter the atmosphere, allowing them to turn and dodge rather than 8 O( X7 i }: H( afall ballistically. They have no ability to maneuver in space.2 ?' r8 l m1 S4 z3 W, d7 g MANPER Manpower and Personnel ILS term).* C R2 O: P/ E9 l N& Z/ {* k Manpower 1 g# W! O* x3 b4 k- H" `Authorizations ! X; A2 ?% c" W) OThe billets in the manpower requirements structure that are planned to be filled. 8 @6 ]8 Q7 o a" t, N; C+ VManpower * P0 @' s: V; ?2 O" aEstimate Report 7 q' |, ]4 r' J: V' V# H(MER)! E0 z$ E% y4 s5 z; D4 V' O An estimate of the number of personnel who will operate, maintain, support, and2 p6 M' G" E5 M& J1 X train for the acquisition upon full operational deployment. The Services prepared + e. |3 o, a2 G8 O# i$ Jthe estimates, and the SECDEF submits them to Congress 30 days prior to8 D! ^% M- t W7 @5 j9 _ approval for EMD or production. J) g, i5 z$ f" Q, z7 o* m Manpower,2 `% V2 f/ h4 c8 q6 ~. J, i; \ Personnel, 0 d% y2 u' H" j# k E! R& ^3 g1 [Training, and# w2 G7 a6 a1 @ Safety (MPTS)" Z' D9 e4 D. \+ C" d! i: J9 V The human dimension of the complete defense weapon system. The term 0 v2 c7 @* R6 ~7 f: Y+ Y3 oMPTS also encompasses the concepts and disciplines of human factors0 L8 i# R- j& s engineering and health hazard prevention. 5 g; L! J+ m' o* BManpower, 6 l% A, N6 o, ?$ {4 \* ~Personnel,3 G9 _! b- z: x9 U- R Training, and 6 R+ C% l/ B- L m1 @4 {Safety (MPTS) i! f4 D+ v0 XProfiles ) r! Y( p2 Q+ a) R1 T; Y" M9 ^A description of human dimensions and constraints involving a major system5 E3 k0 v6 G% N) T% e u throughout the system life cycle. This includes, but is not limited to, descriptions% @. R! k2 o. ~5 `; g. K and categorizations of occupations, aptitudes, individual skills and - e) S. |1 R, \8 s# a6 J idemographics, training system characteristics and components, potential system $ ]3 ?) e q! g# ]% n4 _, |hazards, and other issues affecting the performance and welfare of operators, 6 K, L0 M4 F! X3 M: Smaintainers, and personnel that support existing, modified or new systems. 3 H+ z) Z+ z1 D* c# ^3 [. q! \7 w) BMANPRINT Manpower and Personnel Integration (US Army).1 Z! D8 Z5 ?, s# `( e, k2 h MANTECH Manufacturing Technology.7 n! J1 w/ A: v$ r% |2 n Manufacturing (or8 x4 \' N" W# N6 {3 ]- [; W Production) , h6 \( J$ K" x+ x& I4 IEngineering 9 b& L+ `1 b7 {+ v3 b6 K/ vPre-production planning and operation analysis applied to specific product 7 S/ _& [' P9 ydesigns. The functions of planning, specifying, and coordinating the application ; }; `4 Q' J* wof required factory resources including: performing analyses of production 2 j. {. ]: l4 G' X5 M/ foperations, processes, and systems; applying new manufacturing methods,5 d( a9 G' q6 a0 o tooling, and equipment; controlling the introduction of engineering changes, and ) g; I+ j- d1 J# ] H5 {+ zemploying cost control and quality techniques from the factory viewpoint. ) j# ~; u6 j0 i$ ~. O9 o; AManufacturing 2 I. p5 }9 n% pOperations, : F# e- `- D( }0 x; J8 s1 O- mDevelopment,' @1 b5 T2 l7 N and Integration+ o- K1 Y; o5 O& h+ X6 M1 R! v, C Laboratory! l& Y8 D- U/ P( W (MODIL)) [% k- ]+ ~% B8 i" S, J) U3 d An SDS-peculiar integration mechanism to link product technology development & K* m/ d5 }1 gconcurrently with manufacturing process and control development for a costreducing effective SDS development.3 d8 _/ L9 s5 L. }& m Manufacturing$ a5 X ^) l, P/ ^ Technology * Y1 F6 s, n1 K( `, R( k(MANTECH) : \; ?& a4 ]! J& MManufacturing technology refers to any action which has as its objective the # k" ] S$ W: o. M6 Gtimely establishment or improvement of the manufacturing processes,- k& m, \/ s1 [ techniques, or equipment required to support current and projected programs, ' q, f9 W& X. R( i0 y4 ~! Zand the assurance of the ability to produce, reduce lead time, ensure economic # i) z8 {8 U, Tavailability of end items, reduce costs, increase efficiency, improve reliability, or to , M1 O1 ~! P ^" Cenhance safety and anti-pollution measures. MANTECH, per se, is the specific( ^# x9 T8 v- i3 w& \. o& G( U" ] DoD program in this area.: H4 r' j4 p+ G. t5 o MDA GLOSSARY, VER. 4.0 M/ c9 M0 }- j# q1 D& ] 176 ) g9 o3 ]+ o) RMAOC Modular Air Operations Center (JFACC term). [4 |. p) G% S% f6 J: E5 WMAOPR Minimum Acceptable Operational Performance Requirements. ! a& X5 W- ^4 tMAP Minimum Acquisition Program. . R+ w) D1 v& p2 c) UMAR Monthly Assessment Report (BMDO/POC term).- J* k- g& |3 {) B+ g2 l# Y! v. u MARCO Marine Corps.

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Marine Air V* a( Y4 L% `7 v Command and : {# J4 K% T' qControl System 7 k, |/ h) V J% m9 v0 RA US Marine Corps tactical air command and control system that provides the # U9 M2 b- y; ? J1 s& mtactical air commander with the means to command, coordinate, and control all 7 l* q, o$ J6 \) @7 Tair operations within an assigned sector and to coordinate air operations with 9 _' g6 Y" W& f5 B: W( w, q! rother Services. It is composed of command and control agencies with0 n! e, g ~( I- W' g3 d communications-electronics equipment that incorporates a capability from manual & q2 s6 m" Z2 y, x1 ~# Q2 tthrough semiautomatic control. 4 i8 F: _0 w' JMark/Markup Line by line review and approval/disapproval/modification of the defense budget + k, T3 y/ h% Y6 U. d) cby congressional committees./ Q+ F, a2 g! t) Y$ ` MARS Multi-warfare Assessment and Research System. $ ?- s4 `1 s" u1 Q* z1 a! VMARSYSCOM US Marine Corps Systems Command, Quantico, VA . x6 L j$ ^# k+ x7 ~8 I+ }MARV Maneuverable Reentry Vehicle. % v* H5 Z9 m$ r3 ~- D# tMARVIS Mid-Apogee Reentry Vehicle Intercept System. " `) S4 x9 Z- ~2 Y. `MAS Mutual Assured Survival. ( n# \: `7 J9 w" Y$ \& jMASINT Measurement and Signature Intelligence. , e8 W: z F1 FMASPAR Massive Parallel Processors (TMD-GBR).& P7 Y2 Q. J% q. i6 e Mass Raid Many Red ballistic missiles launched toward CONUS from several launch areas. , Y" J0 \$ A$ Y ^" i% KA mass ASAT raid consists of several ASATs attacking Blue satellites.# K% l* _! u$ H4 g2 M8 W+ a MAST Measurement and Simulation Technology-formerly Synthetic Scene Generation* {5 R# w- I9 Q, k% W3 A& ], n Model (SSGM).+ M- {0 r% ?/ |' g Matching 3 d; s9 w! e5 [/ _Ballistic Reentry+ E& w7 b5 `! y( g4 q- \ Vehicle (MBRV) " ]! W/ D! e8 O- mFour reentry vehicle designs (MBRV 1-4) developed to serve as threat: ]) W/ i g, L4 b( s representative theater targets. . l- G, O! E' GMatching Target+ L# z% o" h# ^9 E" ?! l Reentry Vehicle. x! I- D6 b1 y M; |) A (MTRV) % Q; r" {. D* x ]) w7 p5 g8 \Threat representative reentry vehicle developed for GMD Program by Sandia ) D3 s. A* K' }( p% C$ {Labs. Planned for use on IFT 9-14.& H8 ^0 \& ?3 M Material Fielding C3 U; @1 j, t4 L) T# d. O0 |Plan $ d0 a+ h9 G- V t, ^Plan to ensure smooth transition of system from developer to user.0 w+ I' g7 p# y- { Materials+ l4 [& A6 d8 I$ n6 L Science% j9 }, s" w! n8 t2 N The science of developing/altering and applying materials to obtain a resultant; h4 `$ e R9 X# a molecular structure with desirable physical properties and performance 0 `6 Q1 U3 {: Y* q: ncharacteristics. (See Structures.) Also includes applying state-of-the-art6 d( W# x* r" i N; ^5 o& w advanced materials in the design of new SDS components and end items. . c/ P! v& H0 y$ M, `MATHSFA Manufacturing and Testing of LWIR Hardened Seeker FPA Assemblies./ G9 A9 @- u+ h- y( M0 D* j6 }/ F* q MDA GLOSSARY, VER. 4.0 M; z2 Z! B# ~5 u P B0 E 177, l4 x5 D$ j V' @1 t- d Matra BAE " s# x) @! K {0 z, m4 u4 T5 hDynamics' f0 }2 S& F% {6 Z- y European missile manufacturer formed in 1996 from British Aerospace Dynamics4 P2 w, [" c ?: _ and Matra of France. y5 f7 O% x6 g3 D( U& X* ]5 @ MATT Mutli-mission Advanced Tactical Terminal.9 i3 G* F( H7 ]; H; r6 ~ MATT Radio UHF radio receiver for TRAP, TOPS, and TIBS.* o" Z# \8 Z; {% U7 H9 Z. n MATTR Mid And Terminal Tiers Review.7 V. V7 k+ P7 q2 [5 D) w MAX Maximum.3 z# o$ P% K* I! K, p* | Maximum! T( r2 ~6 [, }' ` Attrition & D- w$ u% f' H3 V9 WMaximum attrition is employed in a target-rich environment to destroy the( @5 {8 l/ d7 ?5 j; S8 T maximum number of RVs, regardless of the type, by using all available or * G( a/ h, X' h0 Q. z# t4 q Ballocated interceptors. This option may not satisfactorily defend specific or + }9 z2 C" w0 p3 Trequired assets.% a- v3 {* v3 R6 t: e MB Megabyte.- b; B8 M1 ^2 y0 `( N( N6 u; F MBA Multi-Beam Antenna.0 J4 L7 @* J* u' Y1 V" U9 U MBE Molecular Beam Epitaxy. + M n! L& S9 N8 ?MBFR Mutual and Balanced Force Reduction.' f7 L7 \1 [, S Mbps Megabits per second. 8 n2 Q+ Z0 }; c9 IMBRV Maneuvering Ballistic Reentry Vehicle." e7 f2 Z: K" H2 b: }7 D$ g0 o8 ?% Z2 i. a MC (1) Mission Control. (2) See Midcourse phase. (3) Mission Capable (ILS + T, B* F9 U& D8 @term). (4) Military Committee. ; ]+ ?$ p8 g" v( O; H, R; DMCA Micro Channel Architecture (TelComm/Computer term)./ D% v8 E8 A0 F" |% \ MCAS Marine Corps Air Station.8 A- Z. N) B' _3 R- i MCASS MTACCS Common Application Support Software.* O/ e, s o5 Y0 J) J MCBM Midcourse Battle Manager.' |- T% B/ [# \. `) ~, `# p' O MCC Mission Control Complex/Center/Console. * b3 i% @. ^: C. J' e0 D2 }MCCC Mobile Consolidated Command Center.) U: Y. Y- Q4 M; A8 [ MCCDC Marine Corps Combat Development Center. 1 O3 Y( _ V( J- l6 IMCCR Mission Critical Computer Resources.6 E! d0 k6 k' Q$ t+ b) k1 T, a MCE Mission Control Element.' r7 C6 m0 x& T- E3 Y; Z% i* X MCG Midcourse Guidance.0 V9 P1 s/ A0 s MCI Midcourse Interceptor.+ D8 I! _) T' Z2 N) X4 Y/ c MCLOR Marine Corps LORA Model (USMC ILS term). 8 J5 T" _+ I0 BMCM Multi-Chip Module.: k" i. A- v$ _7 w+ d0 P0 b MDA GLOSSARY, VER. 4.0 M 9 V$ Y( _0 L! P* o7 G178 + p/ d) A7 \# T) D% P+ H |5 ^9 ~! {0 wMCOTEA Marine Corps Operational Test and Evaluation [Command].+ i5 r1 }8 ?7 F( W2 p! B3 } MCP (1) Materiel Change Package (US Army term). + U* X3 n1 v3 H! T, s1 d4 {(2) Military Construction Program.8 T0 n3 h! x# Q5 F MCPDM Marine Corps Program Decision Making. ! F% I8 N+ x+ f. cMCRDAC Marine Corps Research, Development & Acquisition Command. " r# v/ C: y' s7 TMCS (1) Maneuver Control System. (2) Midcourse Sensor.) `2 O9 q) q. P ?" Q MCSS (1) Midcourse Surveillance System. (2) Military Communications Satellite System. 9 z3 P, M Q) ~/ H% E1 ?" }MCT Mercury Cadmium Telluride (cf. HgCdTe).1 w; y$ C; i" b( ]0 ^5 \ MCTE Mission, Course of Action, Task, and Element Control Directives.) N& i4 I* f! \2 K' l5 ]3 @' Q MCTL Militarily Critical Technologies List. 8 Q1 r) Z; k5 G& u2 \% G. _MCTR Missile Control Technology Regime. 5 V, K, E0 S# W7 K+ W/ OMCV Mission Capable Vehicle., T8 U p3 ?$ |. s4 l- U MD Missile Defense. 6 ]: r) K' N: J0 T3 L! ^9 F4 B8 fMDA (1) Missile Defense Agency. (2) Missile Defense Act. (3) Milestone Decision+ ?7 J7 I1 _# X3 Y8 }$ v Authority. (4) McDonnell-Douglas Aerospace.5 @+ ~; k+ E4 c2 b5 q MDAHWG Missile Defense Ad Hoc Working Group.% l2 U9 B% Z, x( X! `9 i MDAP Major Defense Acquisition Program. * ~: g9 {: n- q7 w+ _6 ?# F/ ^8 YMDART Missile Defense Activities Review Team., T# J3 f7 X# l. x% \9 Q, \ MDBIC Missile Defense Barrel Integration Center.0 y2 Z6 B4 @ h# @ MDC Midcourse Data Center, Advanced Research Center, Huntsville, AL. 8 ?. S& C, L2 X( sMDCI Multi-Discipline Counterintelligence.1 r5 K9 O! h3 k! G. y! b' T$ M MDDC Missile Defense Data Center, USASSDC, Huntsville, AL.

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MDP Manufacturing Data Package. ( R$ h. Q! z# H+ XMDR (1) Medium Data Rate (TelComms/Computer term). & q2 h8 v& l7 Y5 G/ I% V(2) Milestone Decision Review." [) w- {) A9 r0 I. u (3) Multi-national Defense Research. ; o; q/ G- W, r! G- @MDSC Missile Defense Scientific and Technical Information Center. % S t7 y: A* k7 _2 EMDSTC Missile Defense and Space Technology Center.- p- v/ G* c% f- }/ F B% O MDT Maintenance Down Time. ! h+ r% W3 A( z& ?! T* \# d0 WMDTD Mean Downtime Documentation (ILS term).% \. b3 e5 e# A1 W2 t$ G' M1 y' k MDTOA Mean Downtime for Outside Assistance (ILS term). ) W8 P4 ~5 v7 X- pMDA GLOSSARY, VER. 4.0 M+ q) w+ r+ k5 q4 _, X 179 ( v" o& Q1 X# U- m9 M1 NMDTOR Mean Downtime for Other Reasons (ILS term).& l/ @* B0 t1 z. [ MDTT Mean Downtime for Training (ILS term). 1 U8 R) ~3 ?* D# @ h8 K" RMDW Mass Destruction Weapons. 4 l( x/ m% H0 g1 e" o, YME/VA Mission Essential/Vulnerable Area & d; T3 Y |7 V; a- G0 m2 ?+ V8 aMEA Mission Effectiveness Analysis (JFACC term). * k w, F' B O# D6 [. O( OMEADS See Medium Extended Air Defense System.3 [7 e) ]' ~5 x5 S8 X1 @5 u7 U9 T9 f Mean Time; v& Z0 V1 d& [5 X Between Failures# B6 l0 g h5 n% I+ \ (MTBF) ( p5 x( H7 y( n2 {9 ^" FA measure of the reliability of an item. Defined as the total functioning life of an5 Q+ y( E. d3 \) P+ T item divided by the total number of failures within the population during the $ f1 }: o. N2 T( [' G: ^measurement interval. The definition holds for time, rounds, miles, events, or' b M: N# W9 S% z3 z4 `4 ? other measures of unit life. MTBF is a basic measure of reliability. , K( B1 U+ k O: i+ W. b8 @ eMean Time To # P m5 r4 l# t, o! [Repair (MTTR) q2 q8 I) p3 U" w8 C. DThe total elapsed time for corrective maintenance divided by the total number of4 J+ |3 H' R- O- b; e corrective maintenance actions during a given period of time. A basic measure ! J8 k6 c5 J" V9 W8 z+ n. Pof maintainability.' w( V" `" `) f8 @( m& X Mean Time to9 P, j7 @3 o" ]8 G% I Restore System8 M6 g' O. M- o" ^ (MTTRS) D& m {- M) O/ U+ U$ P- o A measure of the system maintainability parameter related to availability and # J' k: h+ V4 Ereadiness. The total corrective maintenance time associated with downing0 C0 d, o6 D3 ^3 ?' c events, divided by the total number of downing events, during a stated period of % |# u* m4 C" c3 `- [: ktime. (Excludes time for off-system maintenance and repair of detached' G K! a# H( Q7 \, t2 S( r components.)) l+ ]) A* V7 |! O2 J! R, d3 `# N7 X MEASAT Malaysia East Asia Satellite. ; F3 n: d6 r% i0 a6 O1 ?( E8 _Measure of * R4 w1 f6 G& v+ k7 C# cEffectiveness 1 F1 |5 C9 z5 G) Y! q(MOE) 6 F% l0 c2 P% T }* h# t; U3 yThe quantitative expression (sometimes modified by subjective judgment) of the ' M' d* Q" D$ v) Esuccess of a system in achieving a specified objective." H; Q4 @. Q! u) W) o: W2 d+ p MEC Mission Essentially Code (ILS term). $ R$ R' }& _0 j: o! V- G/ z" IMedium Earth & f1 S3 D6 I, c, m" f) R" v7 vOrbit (MEO)( Y+ ~9 i( m0 f% T" m6 o6 @ Space vehicles characterized by orbits between 400 and 10,000 nautical miles, 6 `! a, S) q( i$ Zlonger duration revolution (2 to 12 hours), longer visibility envelopes (10 minutes0 g( e& |7 E5 s- a up to approximately 1 hour), and generally longer lifetimes. This region contains 6 p Y. S& K$ y" [5 X5 k3 Pthe Van Allen radiation belts where electronic components need special 5 |& h' C) {& q3 T, O0 Uprotection./ j" ^4 T% ~& S2 W; L. j7 w Medium . C/ j+ d4 I) v9 w9 Y0 kExtended Air 4 |4 O* \* D8 [3 o/ f. b" ^Defense System' e$ h1 p, x& n (MEADS)2 ?+ e: D3 O! g, j) ]" N" k% ^ A lightweight, highly transportable, low-to-medium altitude air defense and! v# w- K! }, j6 ^ theater missile defense system designed to protect critical fixed and . ~8 ^' B# C( B3 Q9 J5 n& Z- L4 pmaneuverable corps assets. MEADS superseded the Corps SAM program in% V4 ^$ v4 s0 _- t' [ 1995. 9 u. ?5 b# p9 d7 h5 FMedium Power9 `0 @( r e, Y5 | Lasers5 P# @. N Y- f- ` Lasers that radiate power less than 1 MW, normally used to detect, identify, " {' R) A/ }1 I5 W5 V1 r4 V0 Ttrack, and designate a target vehicle.# E- _! f: q( q$ V- |- U Medium Range ( F! _( G0 r+ j- S; s2 oBallistic Missile ; j& m" R: J# f; y- R+ c' t, H(MRBM)7 B3 t5 l; h# T7 q A ballistic missile with a range from about 600 to 1,500 nautical miles. ; B8 |/ B* O! [2 n4 Z0 |Medium % }; M2 {! j- R" CWavelength8 ~/ U& f2 Q# J/ F6 F Infrared (MWIR)1 w1 U( G9 B2 A7 [' M Thermal radiation emitted by a source in the electromagnetic spectrum3 e5 Q) N! i( W- j encompassing infrared wavelengths of 3 to 6 microns. 9 P2 I1 J$ I9 }; ^4 T1 hMDA GLOSSARY, VER. 4.0 M / U6 e* a5 |& V( f180 9 U) e$ |7 j# t, c) ^MEF Marine Expeditionary Force., P3 f: y2 U6 u/ z% q* C MEILSR Minimum Essential ILS Requirements (NSA term). ) l' p2 ?; j; z& `MEL (1) Maintenance Expenditure Limit. (2) Mobile Erector Launcher.+ d7 m# ^8 _8 e; N MEM (1) Mission Effectiveness Model. (2) Mission Equipment Modernization. - M" P! S& d; i2 ]" kMemorandum of " m9 k" L5 l i& YAgreement (MOA) 4 V: E$ y5 R# A" R0 q$ ?" g5 b5 d4 v(1) In contract administration, an agreement between a program manager/ e% C! U+ y4 S9 \1 u8 f and a Contract Administration Office, establishing the scope of + [" Z* J* s/ J2 a/ u4 N" H u7 Zresponsibility of the Contract Administration Office with respect to the $ ?( u1 w% w* I: S& W- y( ^% icost and schedule surveillance functions and objectives, and/or other 5 K% W, H; ^" _contract administration functions on a specific contract or program. 0 X; }8 b) N+ J0 X5 H; U(2) Any written agreement in principle as to how a program will be . b7 t" _9 ?9 M* @ N4 ?administered. / a0 u: L+ ^2 ~3 eMemorandum of ' }) x* f3 x& A: j5 V( U& O# T% `Understanding# `7 l# a$ e8 K: j+ t (MOU) % W7 N3 m$ V+ M) ?) Y; Z# BOfficial agreements concluded between the NATO countries' defense ministries / P; M( }% D$ bbut ranking below government level international treaties. De facto, all partners 8 X. u1 `3 w, U' Egenerally recognize such agreements as binding even if no legal claim could be* b2 r% C8 S; h. B, e based on the rights and obligations laid down in them. : j& I9 F( P) X$ [/ G6 D/ rMEO Medium Earth Orbit. N7 i0 P' }& p. oMER Manpower Estimate Report. E8 e8 j) I2 L' n" @8 ZMercury 8 r7 j- R9 C; [' jCadmium & ~! u6 y1 p8 Q0 e, u6 nTelluride (HCT)& e# V, v2 o! \6 B; ~! m Infrared sensing material. , x; b! F, C5 Q |3 BMES 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).- A8 e8 I6 ]6 D" Y3 V MESFET Metal Schottky-Gate Field Effect Transistor.1 q: S8 b' ?0 a2 F' u+ O Mesosphere The portion of the atmosphere from about 30 to 80 kilometers above the earth.* b P8 K x% Q$ g q+ G Methods6 _5 D+ e/ X" l! ?5 @ Engineering! k/ P+ ^3 Y+ `' { The technique that subjects each operation of a given piece of work to close , @9 J) L% m' B5 s, ^, H$ k. ganalysis to eliminate every unnecessary element or operation and to approach 2 Q9 l1 R- d3 zthe quickest and best method of performing each necessary element or # X& n. L6 ]0 @5 Aoperation. It includes the improvement and standardization of methods,! U) f6 @( J8 P% Q5 Z: \& ] equipment, and working conditions; operator training; the determination of5 _" m! w3 h! f! Q standard times; and occasionally devising and administering various incentive & k D! n% a1 @plans.- @( T# J$ J, E9 o METO Minimum Effort Task Order. ' l8 w+ I0 u# O6 ? [9 DMETOIA Minimum Effort Task Order Impact Assessment.2 G3 i* T- u" [/ Y4 `$ |1 n METOP Minimum Effort Task Order Plan. / l7 [8 t, e6 |3 ]3 @METOR Minimum Effort Task Order Requirement. ; I6 t/ {$ i9 ^$ vMetric (Software). An indicator, which measures some specific attribute of the software $ A: m, L5 G* J5 ydevelopment process.& }$ V: R) I1 c MDA GLOSSARY, VER. 4.0 M: R# R* H; l( H3 F$ a5 i6 ` 181 0 x* p. k1 m$ l& e( x ^& wMetrology The science of measurement, including the development of measurement- |/ F3 s/ @4 Q0 w0 G standards and systems for absolute and relative measurement. Used to 9 _) |0 L& f/ Ddetermine conformance to technical requirements including the development of3 y$ m; `$ H6 |+ I( ^$ d" J. M/ L4 @ standards and systems for absolute and relative measurements.9 x( k/ x6 B; ?8 |( f MeV Million Electron Volts. 6 @/ P) Z+ p; Z; j8 _0 _MEZ Missile Engagement Zone. . H* y6 R& ~. s1 o! M2 Q7 tMFAR Modular Multifunction Phased Array Radar." S: D' a' G3 ~% j5 ^: T, A [$ V MFEL Medical Free Electron Laser." I% H% N6 H o( A" l3 h MFG Master Frequency Generator.3 S9 L) `" R1 k- L MFL Multiple Folded Ladar. + ~$ g5 T3 s- w, N3 m1 Z5 Z, ~9 YMFLOPS Million Floating Point Operations Per Second. 2 m3 k/ }( e& l3 @MFP Major Force Program.) Y% y# t7 R4 q MFR Memorandum For Record. P9 z( Q9 ]7 y, e6 hMFS MFS Communications Company, Incorporated. ! f: k: y( n- S3 X% N' B" y8 [* ]# UMFSIM Multifunction Simulation (PATRIOT), Huntsville, AL. 8 L0 }# J7 t) x1 }, I) P5 cMGEP Mobile Ground Entry Point.& M- k- ]7 F" f+ D( z) F MGLI Midcourse Ground Launched Interceptor.1 m; p7 v/ j7 o MGMT Management.) T* Z. h1 H" C- j MGTS Mobile Ground Telemetry Station.& b; s& G. q" s+ k) F' m- U MHD Magneto-Hydro-Dynamic.) K. \* ^+ j3 _+ J2 q8 ? MHE (1) Material Handling Equipment. (2) Mobile Hauling Equipment. 4 h$ p6 J) C8 u6 C$ V2 }MHV Miniature Homing Vehicle.; Y e6 W/ Q( f% t4 m mi Statue mile (5,280 feet). H$ R. L: A; d( m) x& [ MIC Management Information Center (MDA).% [& R1 ], V" `8 T; y- W1 ~; B3 e MICOM U.S. Army Missile Command, Redstone Arsenal, AL.( U! D% Z+ h- x5 {& p( \- c5 [ MIDAS Missile Defense Alarm System (US).. \7 k6 K& L7 \$ L( h. ^; b Mid-Course" N- E- z% ]% S3 O, r6 v Defense Segment 7 \8 x3 ]3 u+ J- s1 v2 X(MDS) # o; O% n0 z: ^' n6 }, @9 }+ `The portion of the BMDS that defeats ballistic missiles during the period of flight0 Y5 n( X0 j* v between boost and atmospheric reentry.* O% ~; `8 O! e) Y* k Midcourse+ N6 b7 n( e+ U. y. \7 K4 f Guidance / ^- ]0 {4 M8 G! r( e3 I B# X7 Q3 |The guidance applied to a missile between termination of the boost phase and " t2 a- `- w2 V4 ~; U- o, I' t- _6 Ythe start of the terminal phase of flight.! U1 I5 V) u0 \3 A8 W, D. Z8 G MDA GLOSSARY, VER. 4.0 M 9 y. }0 `' B$ w" i* }& Y182 2 P* O" G. o( {$ FMidcourse (MC) * W6 V# `5 Y' ~7 X PPhase / z3 R" ^& b: V$ hThat portion of a ballistic missile's trajectory between the boost phase and the + Q+ R4 D7 l% \% jreentry phase when reentry vehicles and penaids travel at ballistic trajectories 9 r& b2 c! w% C* ]# ^, o9 cabove the atmosphere. During this phase, a missile releases its warheads and , v$ Z4 o. y, y9 x5 e& gdecoys and is no longer a single object, but rather a swarm of RVs and penaids5 H9 G) o, [ \/ {# B( | falling freely along present trajectories in space. ) C5 E7 _) P8 F+ q8 xMidcourse Space7 _5 Y9 Z) ~2 c* u Experiment % w& G* ~! ]3 v2 L! W+ z d(MSX) ( Q6 k) `% {2 |$ D' I- LDesigned to provide demonstrations of midcourse acquisition and tracking from% o) {- Z! M3 O% p7 z0 i9 a space, technology integration of optics, focal plane arrays, signal processing, 0 J. e( v; ~3 |/ o1 oetc., and collect background phenomenology measurements and target ; T0 \7 j2 ]. I" K2 u. esignature measurements. * R. G: |+ i2 ~: A6 SMidgetman US ICBM. - [- X1 I' u/ AMIDI Musical Instrument Digital Interface. ) i2 i4 O2 c$ y3 G4 v$ j* W, cMIDS Multi-Functional Information System (USN/NATO/Telecomm term). # o1 |2 y# \9 e% }MIIRD Mission Issue Identification and Resolution Document." H2 e' e0 d- r$ M$ u MIJI Meaconing, Intrusion, Jamming, and Interference.7 p6 q3 `# ~1 s# I MIL Man-in-the-Loop.% R$ w4 U) w8 m4 m0 p MIL-HDBK Military Handbook. & Y. u& w& I+ t' h# EMIL-STD Military Standard. 8 u4 R/ m9 }3 r3 V9 u1 F3 \6 NMILCON Military Construction. . s* \5 r$ r; q" W p9 c( PMilestone. S1 B- X3 s+ z Decision / W' u- F$ f& M7 xAuthority* _# q6 x6 h+ R# H- z9 p The individual designated in accordance with criteria established by the Under 2 y q/ b7 j/ b+ y+ Y! R# ?% VSecretary of Defense for Acquisition and Technology to approve entry of an - g8 a0 r+ W- s, {. @acquisition program into the next phase. e% n2 Y" W4 ~ Milestones (MS) Major decision points that separate the phases of an acquisition program. & i9 ]: K! c2 i8 z% u9 P* l! q' VMilitary, j: F; P* a4 u6 N Capability , Y, p- L7 d( p7 { ~2 f! F" zThe ability to achieve a specified wartime objective (win a war or battle, destroy a' q- M# W2 w! C1 X0 I target set). It includes four major components: a). Force Structure -- Numbers,; T& x6 i' ~: T3 c: o size and composition of the units that compromise our Defense forces; b)' }0 y# R* E t3 y- I' r Modernization -- Technical sophistication of forces, units, weapon systems, and $ F" i \3 u/ N- m, xequipment; c) Readiness -- The ability of forces, units, weapon systems, or 9 W. T- u3 I/ e& s3 Lequipment to deliver the outputs for which they were designed; d) Sustainability * ?8 j$ ]: v* e S, [-- The ability to maintain the necessary level and duration of operational activity , o9 U; ?* M; b* s* b" a) Zto achieve military objectives. Sustainability is a function of providing for and 6 _8 {& S9 M% _! Nmaintaining those levels of ready forces, materiel, and consumables necessary2 T$ i5 z* ~! ] to support military effort.

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