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发表于 2008-12-25 20:10:24 |只看该作者
Kinetic Kill 8 a! I j4 q1 U2 D$ `Vehicle 2 ?( N3 ^7 C! E: g3 kIntegrated + C+ v3 t$ g) f, F1 P* DTechnology S; \$ Y& {5 G, Q! D Experiment' A. j6 Q5 Y+ k: U# |' z (KITE) / Z! f7 N: c0 p$ {1 B4 eA series of test flights at WSMR to demonstrate HEDI technologies.' `' f- x& U, z3 a, d# j KITE (1) Kuiper Infrared Technology Experiment. (2) Kinetic Kill Vehicle Integrated ) V& V& R! ?6 h$ j9 [8 UTechnology Experiment.& |+ M+ }) S; w7 ~6 o; W KKV Kinetic Kill Vehicle. 6 I8 ]* t* f+ ^# k) eKKVWS Kinetic Kill Vehicle Weapon System. % R- T$ n$ f7 fKL Kill Level. 3 n K, b0 p/ }5 I% vKm Kilometer.- Y" b# @1 \0 @; b8 E1 ?, h Km/h Kilometer per hour. 7 r8 r5 n; R* w) }3 B+ d- ^7 m# \& NKm/sec Kilometer per Second. ( Z1 i/ b4 q/ e! v# ~% G* w" IKMCC Kwajalein Mission Control Center.+ r8 f4 U4 p v6 O8 C4 C KMR Kwajalein Missile Range.8 z$ a e+ }. K KMRSS Kwajelein Missile Range Safety System.. f: z( T& d* X2 a8 Y# _ KPP Key Performance Parameters. 4 w/ O4 {% c1 ^: q; n' [MDA GLOSSARY, VER. 4.0 K & B1 w! a! e+ _* k$ F: W1593 d6 r$ e% _+ g+ L1 D0 } X+ G Kr Krypton.8 g" V7 h$ n5 ^( U( d( W KREMS Kiernan Reentry Measurement System.( r* ^% f: i( T, V) b0 ~ KSC Kennedy Space Center, FL.: ~/ @) @5 P0 }8 V Kt Kiloton. `* B5 @# k! ? KTF Kauai Test Facility, Barking Sands, HI./ b; t# N( q6 f7 ]" B6 s KTP (1) Key Technical Partner. (2) Key Test Partner (3) Key Technical Parameters. 2 W( {. e) M+ S* sKts Knots.8 l: d2 H/ ?0 t* O6 e% o KV Kill Vehicle., W7 z8 n& a0 ?8 D+ N kw Kilowatt.' q9 P* T5 T& p9 \7 ^ KW Kinetic Warhead. / w# ?5 c& P* H" EMDA GLOSSARY, VER. 4.0 L# e% h7 Y% a% \" W& ^) h9 \: M$ N 161 9 |# d0 f0 o( F0 EL&TH Lethality and Target Hardening. , @* p; t! \" ZL1SS Level 1 System Simulator. 7 y. E! q5 s I+ T! QL2SS Level 2 System Simulator - NTF.' b) E/ {3 n* I5 t" _# j& W LAA Limited Access Area. ! A5 [& U; I' m! x( P, o. h2 _3 lLAAD Low Altitude Air Defense. , I# K+ C% P( V* ULAAFB Los Angeles Air Force Base, CA. 3 z, z' M5 S& V+ J2 |# rLABCOM Laboratory Command. 3 M3 a& i- `5 o+ g& nLABM Local Area Battle Manager.) l+ t. `9 y+ c: f' h$ \ LABP Look Ahead Battle Planner2 r9 d$ _1 C# ~' R# u" e: s, V LAC Low Authority Control. - K5 M! A2 R! \6 b, i9 m6 KLACE Laser Atmospheric Compensation Experiment (an SDIO/NRL satellite launched' w4 J! o% d* a February 1990 and turned off July 1993). 6 F5 ~' m& V0 O! e4 T- VLACM Land Attack Cruise Missile. 5 w$ k; O' \& X L: XLADAR Laser Detection and Ranging. ( o8 o5 b, N$ O. k. |/ MLaddering Down A hypothetical technique for overcoming a terminal phase missile defense. " _+ j( p6 ~/ K3 p) \# f4 RSuccessive salvos of salvage-fused RVs attack. The detonations of one salvo% O$ r7 @- Z2 F* f6 [+ P4 M# I disable local ABM abilities so that following salvos are able to approach the * k% I- k! W; q- _target more closely before being, in turn, intercepted. Eventually, by repeating' f+ G6 J; l' e I ` l8 g the process, the target is reached and destroyed.: l8 V! `9 P( B' y6 @- f" _" Q5 J LADL Lightweight Air Defense Launcher (USA TBMD term).! s+ e: `( o3 ^# o6 u LADS Low Altitude Demonstration System. " Y8 u# V% r, d+ N. s; CLAFB Langley AFB, VA.& z/ P( n7 e) G LAMP Large Advanced Mirror Program. $ v5 d$ v6 c- Y0 M! GLAN Local Area Network.7 e9 p/ j* u y4 C1 b Landsat Land Satellite (NASA program’s satellite). ~% }4 }2 h8 a. X+ b$ C LANL Los Alamos National Laboratory, NM.' q5 @) f8 Q U# \/ s, v/ S LANTRINS Low Altitude Navigation and Targeting Infrared Night System.2 `& j4 P4 @# ]5 [, i) ^ LAO Limited Attack Option. 7 g* U1 H$ [4 F# C2 y2 B) r# tLAPL Lead Allowance Parts List (Navy term). * ]# P" r4 A6 |8 X# j( \# e" f! [; dLARC Langley Research Center, Hampton, VA.4 U4 t% c, {7 Z MDA GLOSSARY, VER. 4.0 L - w1 c. c# M G( |( o0 _162 7 K2 }8 p* ^/ m5 J qLarge Optics The technology of constructing and employing mirrors over 1 m aperture to direct: u9 a- f8 h4 [9 j i" J' h and control high power beam weapons/systems with large coverage, or to ( e4 p$ J X9 `" k( J% U, O0 |provide high resolution or high sensitivity for detection and/or imaging. 8 O* d, h( {0 n R5 \/ eLASA Large Aperture Seismic Array.9 B. T3 @8 }" ?# G% V Lasant A material that can be stimulated to produce laser light. Many materials can be 0 X% S1 s" p0 d( N1 Z( p I7 Lused as lasants; these can be in solid, liquid, or gaseous form (consisting of 6 j) H) @; D& t% g8 Emolecules including excimers or atoms) or in the form of plasma (consisting of; B Z r% F( e' m }; M8 i+ u+ z ions and electrons). Lasant materials useful in high energy lasers include carbon G/ S5 {* l5 qdioxide, carbon monoxide, deuterium fluoride, hydrogen fluoride, iodine, xenon + i' {! b/ Y' _+ ichloride, krypton fluoride, and selenium, to mention but a few. % ^! Q% r) a' V2 v- L: hLASE LIDAR Acquisition and Sizing Experiment./ E7 |: S' e% `. L" c Laser An active electron device that converts input power into a very narrow, intense 0 ^! J2 D. s/ O) g& n0 pbeam of coherent visible or infrared light; the input power excites the atoms of an' Z( r$ v- {! ~* Z optical resonator to a higher energy level, and the resonator forces the excited! r! b; u- i; F. M s" ` atoms to radiate in phase. Derived from Light Amplification by Stimulated- X/ N2 C4 D, Q# L; U Emission of Radiation and classified from Class I - Class IV according to its $ w* y/ G# w5 o: Q3 p% r: Dpotential for causing damage to the eye./ {/ E2 }+ f2 z- [ Laser Designator A device that emits a beam of laser energy to mark a specific place or object.) _1 z3 C$ s& H) E, { z3 u3 I2 J Laser Detection% B) Y( A) ~7 _* X% d and Ranging4 Y y0 j. ]/ U% N9 i7 ]2 Y (LADAR)6 W5 m/ t. Y6 U) [ A technique analogous to radar, but which uses laser light rather than radio or9 B2 _0 d' R9 q4 D% u microwaves. The light is bounced off a target and then detected, with the return - k2 M1 E& z! a; [beam providing information on the distance and velocity of the target. # d! r" |9 A; N2 A. XLaser Guided ) d; s% D* I: {2 ]- t% ?Weapon. q: q6 @& |- O* N$ O3 W: O A weapon that uses a seeker to detect laser energy reflected from a laser0 U" }* V6 }, Z' O8 b- m) s marker/designated target and, through signal processing, provides guidance; P8 h% t3 l+ ?7 I% F- @ commands to a control system. The control system then guides the weapon to 2 y* \" H9 K$ o8 |) u7 pthe point from which the laser energy is being reflected. ( C% O$ Q" M9 ?5 MLaser Imaging # s2 O- @6 W0 R* E% j) LRadar% Q# F9 {8 w1 d A technology whereby a laser beam can be used in a way similar to the use of a. O/ K8 v, _) b! p- o5 C" t/ K. ~ radar beam to produce a high-quality image of an object. . M& L8 |8 `4 ^5 K9 @! b3 I" q; @Laser Optics Technology associated with the use and control of laser beams with flux greater+ R& z" Z7 {" o% u$ _1 W# X- i than 1 watt/cm2.; \6 g9 I9 J, Q3 p/ ` Laser Seeker A device based on a direction sensitive receiver that detects the energy reflected , l* O+ r$ b: t( k! Ofrom a laser designated target and defines the direction of the target relative to ! P- |; U, Z: ~$ Z/ ^) i7 Fthe receiver. See also laser guided weapon.* T- o: Z+ \# C& `) C/ m Laser Target) Y7 g4 y; t$ `) g( \ P Designating / s# ~7 h/ l& e1 J4 |; kSystem# w x7 P6 g# i0 b! l8 ?/ | A system that is used to direct (aim or point) laser energy at a target. The 2 T8 b" _ Q, k) x" \& [system consists of the laser designator or laser target marker with its display and {+ L" ~9 s" u7 z7 \) S* j; S4 B control components necessary to acquire the target and direct the beam of the & L0 J: [3 L- C* plaser energy thereon.3 v4 h4 l5 K6 {! w9 L" ~ Laser Tracker A device that locks on to the reflected energy from a laser marked/designated # O- L) x& f4 C h- R' k. g3 [9 E: Mand defines the direction of the target relative to itself. - K& W4 \! s8 `$ i8 ^1 K, sLaser Weapons Devices, such as photon generators, which produce a narrow beam of coherent " w' |9 g/ H; x% [radiated power greater than 1 MW./ T7 c; } W" N/ y% r( o k$ ]. P5 F LASERCOM Laser Communications. m6 [& O0 C7 m, B. x [+ x( |7 w 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 L4 i3 N* Z3 C! `/ E F, q 1639 d7 P ] i3 L9 ~: o; ]+ l# q Launch Azimuth Missile launch location measured in degrees clockwise from the local northpointing longitude line at the launch site. (USSPACECOM) ! t4 ^6 Y) u- P/ G6 D' ~Launch Detection Initial indication by any one of a variety of sensors that a booster has been) {7 [2 n0 u+ l) s9 s4 ~% U launched from some point on the surface of the earth, with initial characterization $ F% J% B, ~9 O% Z1 Dof the booster type. (USSPACECOM) 7 U) m" P3 H/ sLaunch Point : U2 i5 s1 _" f1 [) M2 p! d' g) VDetermination' r6 U8 o6 g0 f3 L, l With computer methods, uses missile track observation to estimate the point on8 d4 M6 q* q* z# @2 k7 R& `, h the earth’s surface from which the missile was launched, expressed in terms of( m# v3 I. K* }) F2 x1 a circular error probable.; J2 m+ _0 z0 T# C. D' G8 ?6 s Launch Under6 m" G; ~; i% W6 Y% D3 F% b7 V Attack (LUA) 3 z" [. u4 K# U D( N2 K1 P/ xExecution by National Command Authorities of Single Integrated Operational 5 X8 X) |6 q9 |& @Plan forces subsequent to tactical warning of strategic nuclear attack against the8 y& w5 q0 o1 ~ United States and prior to first impact.+ t4 ^4 m+ l2 F0 G) _ Launch, Y' F& c7 `) Y$ `' g* T$ Z Verification 0 ^5 A+ B2 s, K6 z7 ~$ wConfirmation of a detection of a booster launch by receiving a report from a ! w; x& ~& ?* N3 o4 |' T" Y( csensor separate and independent of the sensor that initially detected a specific / f4 S1 G' j6 \6 Xbooster launch. + k& h9 s5 E; ]5 Y2 MLayered Defense A defense that consists of several sets of weapons that operates at different! X& t: U7 p4 H2 ^1 j3 [! E( M phases in the trajectory of a ballistic missile. Thus, there could be a first layer : E3 k" a1 V: v; M$ S/ Z9 u6 q(e.g., boost phase) of defense with remaining targets passed on to succeeding 1 z4 l' y, p2 n+ @7 N; klayers (e.g., midcourse, terminal).7 F" ]7 }' n+ M$ e: g9 Y. U lb Pound.% {* U! T- p4 C. D) b' M LBL Lawrence Berkeley Laboratory, Berkeley, CA. ) ?- J. Z% N$ K6 vLBM Localized Battle Management/Manager(s). ' w* B+ W9 \6 g2 eLBTS Land Based Test Site. & ~, K2 l2 o7 G# a. x& ?LCC (1) See Life-Cycle Cost. (2) Launch Control Center.! P M& z5 |3 Q9 o$ X LCCE (1) Life-Cycle Cost. (2) Launch Control Center. (3) Land Component- h) D0 |, O/ b; | Commander (JCS term). 3 ^8 E# ~5 e6 K+ ^1 H8 F. _LCCS Life-Cycle Contractor Support.. I* Q/ Q5 Q3 k LCF Launch Control Facility. " J$ j& K5 f5 \LCM (1) Life Cycle Management.' E: C: F; B9 ? (2) Lightweight Communications Module (USAF TelComms/Computer term).2 z5 \- ]6 y& p# N LCN Logistics Control Number (ILS term).5 J/ p# h L0 \9 |, J. S LCOM Logistics Composite Model. 9 u6 F$ Q$ S) n+ K/ aLCN Logistics Control Number (ILS term). % n) u6 r4 u; t5 T* cLCS Laser Crosslink System.& y/ E/ r% o1 Z5 \/ M8 \! r LDC Less Developed Country.1 I% c8 c9 H$ q+ J$ G LDS (1) Layered Defense System. (2) Lexington Discrimination System. (3) Limited0 @+ {. Y6 v+ [4 g3 ? Defense System. 7 Q; O% R" S. z- l8 N; uMDA GLOSSARY, VER. 4.0 L + a$ h0 A5 w, K; U- x L164 7 @7 y0 Y. _9 a- ZLE Lethality Enhancer (PAC-3). 6 q \( p& ~( g$ d+ W' Q% NLead Component// W4 C2 a) R6 _ Service 4 I/ _. E+ N) bThe DoD Component designated by SECDEF to be responsible for management1 J4 W$ E/ v5 D2 z1 a of a system acquisition involving two or more DoD Components in a joint! Q9 f; C* p2 k5 r% {( K, E program. 5 \6 V- V$ M& f& C9 a; [9 aLEAF Law Enforcement Access Field. & ~( _8 t, S. }; ULeakage The allowable threat objects passing through a BMD system expressed as a: B) ?6 a; T5 e# c% V, z% a1 d percentage of the threat. To ensure overall system performance, permitted # S- s6 i/ b4 z) P# nleakage is “budgeted” among individual BMD phases and functions.: X0 C9 C. `" P% Z: C: o1 v% ] Leakage (Max) The maximum allowable threat objects passing through a BMD system expressed ' T* X3 Z- `; O4 \+ Z8 {as a percentage of the design-to threat. To ensure overall system performance,/ G% e; ]( q" l) I0 r1 c' k3 f D permitted leakage is “budgeted” among individual BMD phases and functions.; I5 S; L: _- I& h: X* T LEAP Lightweight Exoatmospheric Projectile.# ~) w/ `8 m% W3 \ LEASAT Leased Satellite. ' \' \, V/ `* l. g. DLeast Privilege This principle requires that each subject in a system be granted the most' {' o4 t3 \) g( {- r restrictive set of privileges (or lowest clearance) needed for the performance of 0 K0 ~. h& o/ O) w2 |( X# Dauthorized tasks. The application of this privilege limits the damage that can' e; @4 | I, D1 U. a) ] result from accident, error, or unauthorized use. : p/ J& s! x" v4 o1 { e# s' JLED (1) Low Endoatmospheric Defense. (2) Light Emitting Diode. 5 S9 f1 ?% O7 o6 K+ K7 ZLEDI Low Endoatmospheric Defense Interceptor. 6 C! ?% Z- S) J! ELEDS (1) Low Endoatmospheric Defense System. - s+ @6 r3 ~+ K7 V. E/ g(2) Link Eleven Display System (USN term). ' Y+ {, H3 Y; O3 vLEI Low Endoatmospheric Interceptor. `( N6 t% y" x- Z) ]; | LEIP Link Eleven Improvement Program (USN term).! H b* f0 F d, w% Y& q+ z, W% M LEL Low Energy Laser. 1 D2 `+ r0 N# rLELWS Low Energy Laser Weapon System. ; Z* R) {5 V9 i* s# lLEM Logistics Element Manager (ILS term). 4 a$ T2 t& A; C7 R( E: hLEO Low Earth Orbit.6 ]6 V& `- x. g/ ] LETS LWIR Environment and Threat Simulation. 1 a# ^! e9 p" }# g: I- D7 K3 [9 [# sLevel of Effort2 |6 [$ c/ i- k (LOE)' V8 H- E d" {, K5 p Effort of a general or supportive nature that does not produce definite end 7 C* k: j: `8 F! J. G1 i/ S' S# C$ dproducts or results, e.g. contract man-hours.8 v2 T1 f* L# c* n. T* U$ e Leverage (1) The advantage gained by boost-phase intercept, when a single booster 3 M" ~) q6 G/ m$ B0 \kill may eliminate many RVs and decoys before they are deployed. This8 k( J' I6 F" Y* ~& V8 @ could provide a favorable cost-exchange ratio for the defense and would2 F! ?* E, {9 m ` reduce stress on later tiers of the SDS. ( b1 [2 n" M; Q, {+ r(2) In general, the power to act or influence to attain goals. ) V1 O$ A: @' G. O' iLF (1) Landing Force. (2) Low Frequency.6 \& m; t6 c: P% X6 j5 q MDA GLOSSARY, VER. 4.0 L N! p, K' q8 V; c 165, d5 [/ t O* G- b: Z- S; { LFIE Live Flight Integration Exercise. 3 j6 c; G& j* L) vLFOV Limited Field of View. " y! x0 z: ]9 m: B/ a! RLFS Loral Federal System, Gaithersburg, MD.' A8 z7 Z( o+ n- [ LFT&E Live Fire Test and Evaluation.' c k& e6 g" _0 H" g LGB Laser Guided Bomb.- K( k% x, A( v" z# ]+ I LGM (1) Laser Guided Missile. * V0 a$ w; T% J- J# S8 {3 m(2) Loop Group Multiplexer. . X: \2 C7 l& \. z, A1 l6 qLGSM Light Ground Station Module (USA CECOM term). C$ n1 J& O/ E4 x M% n LHO Amphibious Assault Ship. 3 F# @" M# T* w* LLi Lithium. , n! l0 q6 _9 B9 i% n) q7 f" t! i) k& TLIC Low Intensity Conflict. + L5 c; H8 ? X, z Q" @5 lLIDAR Light Detection and Ranging.( ~2 T+ A6 M- {% R8 x Life Cycle (1) The total phases through which an item passes from the time it is initially2 P0 C1 s5 y. ?5 ]. E! }. R: x developed until the time it is either consumed or disposed of as being2 R6 V6 L+ Z3 p# d' F excess to all known materiel requirements. 8 j; }" h+ b+ o6 h' l/ _/ `(2) (Software). All the states a software or software related product passes / O6 n. c C+ Wthrough from its inception until it is no longer useful.+ T$ i! L! t- U( J Life-Cycle Cost & k6 J+ o, ^2 Q, G3 W(LCC) 0 n7 w5 Y+ D' {: rThe total cost to the Government of acquisition and ownership of that system / w! S3 x; d8 B* \over its useful life. It includes the cost of development, acquisition, support and, # @3 P1 P' ]; b2 H& [5 ]where applicable, disposal.0 g' |2 X ^, ^# ]1 C Life-Cycle- e9 Q# u4 s7 Q7 W5 r# ?7 a Management q0 X8 c* _+ c# N* Z3 r% DProcess for administering an automated information system or hardware support 4 J$ C$ A3 | @6 K* I" w/ K; l- ~system over its whole life, with emphasis on strengthening early decisions which% i6 [8 C3 h% Y$ B shape costs and utility. ( y9 G* [9 y8 ILife-Cycle Model A framework containing the processes, activities, and tasks involved in the- T3 q! @% C3 s0 W1 V$ e) `9 N0 m development, operation, and support of the system, spanning the life of the9 _$ s2 H4 [# J% Z8 T4 I system from the definition of its requirements to the termination of its use. 8 w5 U4 e: [) j, t9 PLife Cycle of a % `: F+ m% V- i; N8 M+ k& iWeapon System ( W; z- G1 E8 r) J* C$ D4 r2 g( ~: P6 `All phases of the system's life including research, development, test and ) v7 E; Z; k: U! h1 [evaluation, production, deployment (inventory), operations and support, and8 z6 V2 o# k" P0 q* G ]0 n) } disposal.! p7 R% s" @# Y7 Y5 U Life Jacket The life support storage container for a Brilliant Pebbles singlet. The life jacket 8 M$ B/ u8 \4 O9 ^. Ccontains subsystems that perform power, communications, and environmental ) a7 E9 q6 H9 vprotection functions.# n% Q1 w8 K6 C6 H S$ d Light Detection$ O" W, L* }( x2 {$ ^! }. T. R9 | and Ranging 5 y' P) j* h/ o$ ^(LIDAR); ?( R5 ~* x6 @0 ^& V/ z5 { A precision probing instrument used to measure concentrations of different 0 W% R5 \& t1 \0 zgasses or particulates in a given amount of atmosphere.

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Light Replicas . o) m* I2 F" E) w$ p0 J6 I(LREP)% Z# i, b* H+ r: F D Decoys that, by virtue of shape, closely approximate an RV’s signature with little& \1 k/ F8 o6 {$ t off-load penalty.1 ~ _7 k8 @, ?( E" X3 `$ @8 s LIMIDIS Limited Distribution., B+ |- P( B% W! B MDA GLOSSARY, VER. 4.0 L ( e* X6 h+ \( [( [ v166 8 C* E7 O+ |) s3 n& i9 NLimited Attack An attack on the U.S. and its allies, which provides a stressing timeline, and is$ p1 h! U) Z- j5 P: F5 ~8 S geographically distinct. Not an all-out attack or mass wave.( d3 u* Y4 Q0 Q, q+ E/ Q& ^4 m Limited Defense 9 ~' k, f0 V/ s2 iSystem (LDS)$ [5 n/ q, B0 R/ q The development of systems, components, and architectures for a deployable G1 i: M( }' z" y3 } anti-ballistic missile system (as described in section 232(a)(1) of the 1991 Missile: K/ i7 Z c7 \+ ^4 o9 ]- F- l1 _ Defense Act, as revised) capable of providing a highly effective defense of the: l, k5 {8 E+ M United States against limited ballistic missile threats, including accidental or - w- V' N: O2 n" Wunauthorized launches or Third World attacks, but below a threshold that would3 b5 [8 C! I; j' Q! R3 c bring into question strategic stability. # w& U. Z. f* G1 BLimited% }" p( k. p& J; [$ A0 X Operational $ r: y4 |( l$ KCapability (LOC)% O$ M* {7 ~! |. X& u A point in time when the first set of sensors and weapons can be employed to , q2 w' {3 f; {7 N0 z, b5 A, |) fprovide a limited protection system.5 m/ X7 b6 O9 |% ]! k% i Limited 5 v+ t2 n' J6 c1 OProduction. W/ ^+ J- i7 l( J$ R; T; b The initial production of a system in limited quantity. Part of an acquisition . R8 J4 ]0 w3 K* Z1 }* W& Z. V" Nstrategy to be used in test and evaluation for verification of design maturity,9 |* z) r0 Z& V manufacturing process final proofing, and product engineering and to verify a 0 J; W( R7 w6 |' i8 F, b# m' qfactories capabilities prior to a decision to proceed with production. Decision Y3 X; c5 u; Iusually made near the end of EMD or at Milestone IIIA or equivalent. (Also 2 b# U" v6 h! Y& H$ a4 x; hcalled Low-Rate Initial Production or Pilot Production.)0 j% Y& c3 I! _( H7 u Limited Test) m$ _6 d* U% x/ y5 L1 n Ban Treaty 5 i+ Z. p* B I7 M6 OThe bilateral Treaty signed and ratified by the United States and the (former)* _8 ?* B, X) a' g: Z8 M. X, g U.S.S.R. in 1963, which prohibits nuclear tests in all locations except $ G+ ~/ s0 ~2 Funderground, and prohibits nuclear explosions underground if they cause, D# Y0 `$ a c5 z radioactive debris to be present outside the territorial limits of the state under # F6 x. G2 W! i6 |whose jurisdiction or control the test would be conducted.) J1 B- K3 V- V6 e LIN Line Item Number.- |# a0 o2 L0 C" z! | Linac Linear Accelerator. . P/ \" z. T: V! I' o9 w9 d0 SLine Item 8 @; h% I/ I( R8 P2 U! F(Budget): G8 Z& b2 {3 {' [8 ^9 d6 V& L9 m A specific program end item with its own identity (e.g., B-1B Bomber).8 A( k- t: s5 L Line of Sight+ J9 q1 P% V0 \- a, [ (LOS)8 L! A; P2 }7 @( z The line from sensor to target necessary for the commencement of the detection,+ E9 _( t3 C( h acquisition, track, and identification of a target.+ z- w( t! V1 t, P! V3 m Line Replaceable / x9 U8 i7 T7 a0 [* R4 w) }% d* OUnit (LRU)! C/ A7 S) O8 N, g" Z( J; c: G An essential support item removed and replaced at field level to restore end item 7 `9 a _% {$ N; nto an operationally ready condition. (Also called Weapon Replacement7 C8 s* U ^( C( d2 d Assembly and Module Replaceable Unit).4 @, U4 _' }" p' K Link-16 TADIL-J.7 J- N, G X! n. i k Link Quality3 w+ u& C7 l/ m/ p# U8 ^- t* S Evaluation : ?0 v0 F- j4 N- F4 HThis testing of links to create bit error estimates and monitors natural or induced: z+ ?# i: | r7 f link interference.4 c/ M4 ^8 ]8 P- x0 R LIP Lethality Improvement Plan.$ W5 Y' {3 G9 S7 f5 S' o9 W Liquid Fuel% T7 n& v$ E. g4 S; i* @ Booster (LFB)/ X9 x6 Z& ^$ s* x c Target booster being developed to mate with current reentry vehicles and ! ]' Y+ x: y, f e) u: Q' Y2 Semulate the short/medium range threat.# ? M* a& Q1 l- d" u% {; q | LIS Laser Isotope Separation. % ?( E, \& u+ K w. M: gLITINT Literature Intelligence., P% G4 K' n; V# X) O4 E3 g3 G9 e MDA GLOSSARY, VER. 4.0 L - V' Y2 U8 c+ B/ \: r; F167 ; R% T# `$ H, D, K7 a* c9 z( \Live Fire Test 0 f$ r) t3 R# {And Evaluation * Z% t# V" |1 _3 l& N3 T% |3 N(LFT&E) " D( ]( m- _+ E( @. c+ N9 ]Survivability testing and lethality testing required before full-scale production. ' X7 p% x/ X& L P9 ZMust be conducted on ACAT I and II programs for: (a) A covered system (a v/ U# S, ]$ Q9 V conventional weapon system designed to provide some degree of protection to ( M" h1 J8 p) b6 x. jthe user in combat); (b) a major munition or missile program; (c) a product / G# ^# i/ T7 p1 m5 w oimprovement program that will significantly affect the survivability of a covered 2 X) }# y5 |/ W2 ^; A N9 Y7 q* ~system. 7 t, L2 M4 `% K4 Z) \LIVEX Live Exercise. / U) i+ y/ O* K% d$ ]1 JLIWA Land Information Warfare Activity.$ H! ]* h; N' D. u" w0 @ LJ Life Jacket (BE term). * r; \0 R5 i2 x0 q3 F3 j# GLL (1) Lincoln Laboratory, Lexington, MA., I8 d" H% }8 u" V' {) |9 M& y (2) Legislative Liaison.% `& ?' l! @7 g LLM Long Lead Material. . b6 P1 M9 w" e5 GLLNL Lawrence Livermore National Laboratory, Livermore, CA., h6 W7 ^9 }( N I LLTIL Long-Lead-Time Items List (ILS term).# V9 Q0 ^5 y- S: P# @* g LLUM Low background LWIR Uniform Mercury Cadmium Teloride (HgCdTe). 7 _0 G! S6 J8 nLM (1) Lockheed Martin, a defense industry contractor. . q, B- n) A R/ \1 X(2) Logistics Manager (ILS term).

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LM/GES Lockheed Martin/Government Electronic Systems. 9 }. ^$ j$ U; O+ WLMA Lockheed Martin Astronautics, a defense industry contractor.+ M9 U5 B4 j R1 A4 b- I8 u LMANS Lockheed Martin Aeronautic and Naval Systems.& j R% W0 N0 _+ D7 N- \ LMC Late Midcourse. 6 [, r7 y1 l+ yLMFBR Liquid-Metal Fast Breeder Reactor. l0 }7 b) ?; f, ]& q$ x3 iLMIS Logistics Management Information System. $ b& k) J& Y1 h' B, tLNA Low Noise Amplifier." S: d/ @& x6 d5 S x' | LNC Local Network Controller. : x5 S: X" _& y+ o0 B. hLNE Low Noise Exciter (Electronics Engineering term). + P, ^% G: U8 ]$ Z# uLNO Liaison Officer. ) b1 g( n7 W' {0 H' SLO (1) Local Oscillator (Electronics Engineering term). ) {: n! N+ T9 E) q" R$ p% _(2) Low Observables (LODE-related term).1 T0 c6 J9 I$ |5 e# c. V LOA Letter of Agreement.$ P# w! J" F# J; Q4 q' q" y" Y LOAD Low Altitude Defense. " ]& H7 c. `# ~- `LOC (1) Lines of Communication.3 v' X- X# z0 z7 m# r2 @ (2) Lines of Code. 4 q, e9 r" [4 {. Z0 v(3) Limited Operational Capability.: I/ Z9 l8 {0 G7 O6 g5 z3 ^5 U MDA GLOSSARY, VER. 4.0 L & o3 w$ q- W5 ]: m( L6 O1685 u2 w/ X3 v- E& W+ M1 E LOCAAS Low Cost Autonomous Attack System (USAF term). p- x$ U, h5 _8 J8 t' ^2 {Local , q/ ^/ p! ^4 r7 P8 OAssessment of / r5 y2 v/ E; C/ vEngagement 9 l: D! R) [& g* m UThe assessment of an engagement by high-resolution fire control sensors. 7 W/ l& j# ]0 t, J. t" C( yLocal; R7 u9 |& L, g: G5 n. J& l Environment $ g5 ~) \5 C. XThe ISTC Local Environment contained within each node simulates the element! P' _" o5 }# d5 \: M! q to the degree necessary to generate a realistic input to the Element Processor of/ V; l6 t( r& `- S Element Processor Emulation and provide a realistic response to the Element( `( O2 H& F$ [" {0 V( \8 O a% v- J Processor or Element Processor Emulation.7 r( K8 u! Z( { Lock On Signifies that a tracking or target-seeking system is continuously and8 P# C- D4 B* P2 G* b8 _ automatically tracking a target in one or more coordinates (e.g., range, bearing, ; D3 r1 `$ W: Eelevation).4 K: ?5 W& Q( ~' N1 b LODE Laser Optics Demonstration Experiment.0 w0 f9 |( O; X# ?& M- E$ \$ F LODTM Large Optics Diamond Turning Machine.4 }1 z2 x) f* V( t! L LOE (1) Level of Effort. (2) Letter of Evaluation (AF). . p# y/ Y3 y# _: y+ P: jLOF Lifejacket Orbital Flight (BE term).# g4 j2 w& R$ G j* D8 S3 A, S Lofted Trajectory Trajectory with an apogee greater than the minimum-energy trajectory to the - L1 s# J- N) N" `* H) Ysame range. ' I# z9 d. E/ H- e% aLOG Logistics.1 J0 L8 [5 H7 x. h7 {3 N8 f LOG.WIPT Logistics Working-level IPT/ i. K5 p; G% E, x6 j& A4 m, b+ r LOGAM II Logistics Analysis Model II.& e- L! K' _5 X: C: k8 `& { LOGFAC Logistics Feasibility Analysis Capability. 0 O* s$ T" m- ?7 Y6 w3 A3 OLOGFOR Logistics Force.' ?7 I$ \& V4 s1 d4 { Logistics The science of planning and carrying out the movement and maintenance of ' o8 L n" U c$ O% l) F- bforces. In its most comprehensive sense, it includes those aspects of military 6 d4 j" k- A: s( s, o3 K7 joperations which deal with: (1) design and development, acquisition, storage, 3 L1 z' c n# Pmovement, distribution, maintenance, evacuation, and disposition of materials; 7 t# S5 V: ^* ], d4 u" O& R9 H(2) movement, evacuation, and hospitalization of personnel; (3) acquisition or 5 r$ x7 o" j: B6 Z! Fconstruction, maintenance, operation, and disposition of facilities; and (4)$ _3 T6 I1 i+ j/ ? acquisition or furnishing of services.4 }, O8 w2 x% C: w3 h Logistics Support The supply and maintenance of materiel essential to proper operation of a' f# [" Y9 n z1 s* Q" R& ? system in the force. # E/ P; ~( P' O( [9 B) vLogistics5 Z, W& A; i5 v7 p0 b' M8 [ O Supportability9 B6 B. @5 z( s! l& j! s# g The degree to which planned logistics support (including test, measurement, and# Y$ T( [/ X+ y* G$ r diagnostic equipment; spares and repair parts; technical data; support facilities;$ H- Q$ v' ~) q transportation requirements; training; manpower; and software support) allow* W, {- D! \ u/ ] meeting system availability and wartime usage requirements. . I/ T% d( G' BMDA GLOSSARY, VER. 4.0 L1 ?+ X4 s+ ]" \( ] ]8 B2 t j4 t 169& N9 i3 ~, d8 g! L7 z+ d: m Logistics+ W- [% E# i5 `0 S Support Analysis- ^; E/ P/ l% D3 v! |0 g# y6 ^ (LSA)2 ?/ x) e2 a2 Y# M2 S N/ Z The selective application of scientific and engineering efforts undertaken during & E V* y2 m4 K7 B: j; j3 _the acquisition process, as part of the systems engineering process, to assist in:3 n' t$ M$ f4 Y% F1 W causing support considerations to influence design; defining support/ p9 x/ v1 P$ B" r requirements that are related optimally to design and to each other; acquiring6 ?( _& `4 \( m6 l! Y% I the required support; and providing the required support during the operational % J" Q3 @: v0 r. Ophase at minimum cost. 3 A8 F* h2 X! l" ]" K% U" tLogistics Support& j6 ~) m3 T0 t5 I& e. q Analysis Record - Y* O$ y# n3 {; x8 [(LSAR) S* F- F7 f' B1 C4 S6 Q9 e3 oA formal tool under MIL-STD 1388-2A that uses records/forms to document ( S) U3 d* s& \( C! E2 koperations and maintenance requirements, RAM, task analyses, technical data,. g( V7 m z9 k% u- _- ?1 f support/test equipment, facilities, skill evaluation, supply support, ATE and TPS, - V/ {0 ]3 b: Band transportability. LSAR is the basis for training, personnel, supply / w6 n6 g, J* d1 b5 G; N, }7 `5 ~provisioning and allowances construction, support equipment acquisition, 3 E: }' d% V6 R. v. I. Gfacilities construction and preparation, and for maintenance. + |# A1 \ `' R( ]* h) c0 g* `LOGPLAN Logistics Plan.0 x, ^; q# }8 B! {: C LOGSIM Logistics Simulation Model. ; {, _. i% T: \LOI (1) Letter of Instruction. (2) Letter of Intent.0 v7 T- G! }0 x0 @% p7 ~ LOMEZ Low Altitude Missile Engagement Zone. & D/ L6 _' K1 Y% @Long Lead Items+ R% L+ d4 j3 V9 c0 O( q Long Range Air. y0 `8 }+ c% e2 ?: } s Launched Target ( @; Q% g( ?0 g/ o; f8 S1 l(LRALT) ) E, j( H# N4 U8 @Those components of a system for which the times to design and fabricate are 1 g1 ~- J2 J3 V5 }% I: I+ r1 Y othe longest, and, therefore, to which an early commitment of funds may be: I, ?4 [ @" I( }- L$ H desirable in order to meet the earliest possible date of system completion.1 W& ~4 A1 _6 E$ ^5 |; c4 v Two-stage, air launched ballistic missile target being developed for MBRV-4. a, S" \5 x" ?2 [0 wLong Wavelength 2 b$ I9 F6 u+ g# ^( uInfrared (LWIR)# b# w5 R6 Q0 k) K) n9 i Thermal radiation emitted by a source in the electromagnetic spectrum O$ g# y( {! Y9 ?( _encompassing infrared wavelengths of 6 to 30 microns. : t. ^/ D: M3 X" y& _% Z9 S" WLOR Level of Repair Analysis (ILS term).' n5 U1 G: \& ` LORA Level of Repair Analysis (ILS term). . v8 F2 |5 t, FLOS (1) Line of Sight. (2) Large Optical Segment. " U3 q. R7 u$ d$ P7 TLOTS Logistics Over-The-Shore. & ~% n6 l6 {. ?- [$ eLOW Launch on Warning.

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Low Altitude6 o+ |) J6 y" m; ? Demonstration : j2 ?5 k) ^- w: r' S, CSystem (LADS) 9 K/ j2 z8 m* SPart of the SBIRS Low Program Definition and Risk Reduction (PDRR) program 0 ~. g4 r% i" Sphase. The LADS will consist of a flight experiment and extensive ground 7 ]! o+ J# r N, }. Z; Qdemonstrations by Boeing North American. The LADS flight experiment will be* B7 ~/ N% J7 n/ q) m launched in late FY99 to demonstrate the sensor performance of a SBIRS Low * s0 Q5 Q& M/ pconcept and collect phenomenology data. : t" K y0 f B9 `2 l( U' G5 yLow Earth Orbit $ X0 z$ e5 Z9 ]5 l" u2 {9 V$ x( f(LEO)- m2 G7 W1 I" G% c3 Q0 S These satellites are at altitudes between 100 and 400 nautical miles. They- P! k8 I1 j; n5 Q) u* [6 n have short duration revolutions (about 90 minutes), short visibility envelopes (2.5) j3 A& h4 U9 y: l# T$ ? minutes up to 10 minutes over a tracking station), short life spans, and are most $ G( e! m- e3 \$ A- [subject to orbital perturbations due to atmospheric drag and earth gravitational% w* h. T0 h/ J) _( X anomalies.5 i+ j. V }+ _# A* R& h Low8 @" q, k* }( X6 n6 e Endoatmosphere ; M9 | r# x3 jThat portion of the earth's atmosphere, generally below 40 km altitude." H7 k5 b8 U1 { MDA GLOSSARY, VER. 4.0 L * f- w9 q, q* l$ _7 c3 a- ]* y9 @170 H/ i3 T* ~9 i/ j0 zLow-Rate Initial / h+ e) v* [# HProduction (LRIP) 3 w, L8 r0 x6 p8 w1 pThe production of a system in limited quantity to provide articles for operational2 w. Z" o0 `5 ]; m/ ?5 |( l' N test and evaluation, to establish an initial production base, and to permit an6 ]5 U+ C' s: G$ w. D$ P' S' @ orderly increase in the production rate sufficient to lead to full-rate production0 B0 D) z/ G' n9 X, m0 m: r9 N upon successful completion of operational testing.! E9 M( k# S) ?4 ]# w; s: U LOWKATRER Low Weight Kinetic Energy Active Tracker. : C1 B5 P, X! J0 ]; T' @* X; C$ gLOWTRAN Atmospheric and Interstellar Background Signature Model.- ~" v" @8 l2 r$ D# s LPAR Large Phased Array Radar.: ]; j, x6 S8 s8 p5 v9 Y4 ` LPD Low Probability of Detection. & s+ j4 g/ d, j/ BLPE (1) Liquid Phase Epitaxy.4 n e% v& A3 y/ y+ J (2) Launch Point Estimate. n$ R! w- R k LPI Low Probability of Intercept. - t+ N5 i7 f& t* ]LPS Limited Protection System. 7 E* u) ]" T, ?/ p* wLR Long Range.- z* Q+ y% N" o5 m/ ~ LRA (1) Line-Replaceable Assembly. (2) Launch and Recovery Element. 7 X( L6 r4 J. J/ gLRB Liquid Rocket Booster. ) G7 q! ?. z" kLRC Lewis Research Center, Cleveland, OH. I4 m9 o) j) M. k+ j LRE (1) Latest Revise Estimate. (2) Launch and Recovery Element.' b) y, U5 L9 T9 W LREP Light Replicas.9 b) J1 N8 |9 k3 Q2 X* V4 V% R; S LRF Laser Range Finder.+ Z9 ^+ z% [3 p' e! q ?0 k9 { @ LRINF Longer Range Intermediate Nuclear Forces. 3 [$ b# z: s3 k2 a: d7 k: N9 ULRIP See Low-Rate Initial Production. - I- b7 P; ^! l9 ]LRIP-OT Low Rate Initial Production – Operational Testing. $ Q% g) t& y7 E, @, s2 f+ l8 ]LRTBM Long Range TBM.$ |$ l2 L. G. H, P5 O LRTNF Long-range Theater Nuclear Force. 5 o2 [* [& R. Q+ j8 e! Q8 G( y& t+ {" ULRU (1) Line Replaceable Units. (2) Line Replacement Units.4 o" S, J; _/ `4 ]- R, t& V LS Launching Stations (PATRIOT). 1 v1 l5 {; [% E. k/ }+ QLSA Logistics Support Analysis.9 l# Z# G: n+ L) z0 |. }4 C: Y LSAP Logistics Support Analysis Program.0 ?8 v, h+ T# ^. r' z6 X LSAR Logistics Support Analysis Record. ) P( ~; a/ M d$ G4 W* GLSART LSA Review Team (ILS term). g) l) V: Q7 U0 ?4 N" ^/ g LSAT Laser Satellite. 1 f" c; E0 Q6 XMDA GLOSSARY, VER. 4.0 L- U9 F, R I' X9 i+ z/ t8 ^ 171 # D, V) `* M5 ^0 D$ D( a+ K9 ULSAWG LSA Working Group.$ P3 A7 a6 _6 o; w# J b4 p LSE Lifetime Support Engineering (ILS term).. \# }5 k' @5 p$ R) S LSEA Lifetime Support Engineering Activity (ILS term).7 s2 Q1 E2 Z# h! n LSI Large Scale Integration (circuits). 7 K2 a* j% C' `2 r5 X! KLSRS Loral Space and Range Systems, Sunnyvale, CA.! O; Q# H' U: C" x LST (1) Laser Spot Tracker. (2) Landing Ship, Tank.# t, U0 y+ T4 O$ ~ LSTS Launcher Station Test Site. & r; E9 a/ z8 r$ u' b! BLTA Lead Time Analysis. ! |: y* b9 P) N, Q' gLTBT Limited Test Ban Treaty.0 h0 i, R6 y( G$ }! @ LTD Laser Target Designator. $ }+ x. r/ H" i% ^, z: _LTH Lethality and Target Hardening.4 q- O" ]- m9 v* R- _+ A$ c3 t LTS Low Temperature Superconductor3 [ b6 d9 Z: C {. W LTV Launch Test Vehicle. ; u0 a m# l' b1 h) q5 W0 M6 G7 jLU Launch and Update. / Y3 x4 p8 `0 cLUA Launch Under Attack., O' T. S, P7 E/ C% H! g" K" C LUP Limited U.S. Protection. ' j/ V/ s0 U& ~ b' f/ vLUT Limited User Test. + U7 Y" |5 L6 p0 H, dLUT/OA Limited User Test/Operational Assessment.9 C/ i5 T2 P+ K+ h6 p8 N U LVS Loral Vought Systems, a defense industry contractor. f3 I; Q$ \0 R& `/ nLVT Low Volume Terminal (USN/NATO/Telecomm term). * R+ |8 ~6 W4 V, MLW Laser Weapons.0 K- z: p2 y. I/ L) @2 b+ [ LWAN Local Wide Area Net." q" p! V7 {1 E* k0 y& y7 r3 g7 H, X LWIR See Long Wavelength Infrared. & U. D6 P. }" Q0 O5 yLWIR FPA (PET) Long Wavelength Infrared Focal Plane Array (Pilot-line Experiment Technology).; Z: `4 @9 J) C6 D LYTBT Low-Yield Threshold Test Ban Treaty.+ ?* L! p$ u, E$ a9 l9 e LZ Landing Zone.

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MDA GLOSSARY, VER. 4.0 M : t* t( h$ [% X% [5 _: `173 4 [5 F) [& }! c. z% A* X# g( dm (1) Meter. (2) Minute. & V& a( V5 S. F; m" IM (1) Model. (2) Million. (3) Mega.* x& P! P1 b1 t2 z4 z M&LC Missile and Launch Control.3 R% |% a3 h* y: ?7 {! d; ]4 N# ^* H M&P Manpower and Personnel.+ i+ `6 C0 f( Q2 f M&S (1) Materials and Structures. (2) Modeling and Simulation.4 l' b# p$ q0 ?6 E M-T-M Model – Test – Model.; f+ Z! q4 ~1 q: {# f R M/LWIR Medium/Long Wavelength Infrared. 0 \ w1 v2 ]% K- K9 D2 T4 V& Q8 S1 IM/P Manpower/Personnel.1 q# c# F7 w/ X" o% E* t ? MAA Mission Area Analysis. & w. Q5 q. I, d4 Z6 {- E5 T2 SMAAG Military Assistance Advisory Group. / M& y8 _8 B% uMAB Missile Assembly Building.- J- y+ z; a# W7 b- t9 b6 M8 Y9 _ MAC (1) OBSOLETE. Military Airlift Command. See AMC. # s: {2 L, |- y' f, o! q- ?# [( E(2) Maintenance Allocation Chart.% Q) a- q/ r3 J4 |3 { MACCK Multi-Application Command and Control Kit (GD term for IVIS follow-on). 7 S+ a/ E" ^2 c/ wMACCS Marine Corps Air Command and Control System.& w- w% y6 M, P MACOM Major Army Command.7 v" \) c- {# m' Z0 C, `2 T MAD (1) Mission Area Deficiency. (2) Mutually Assured Destruction. {6 S) G8 v( {8 Q4 H. a- zMADCAP Mosaic Array Data Compression and Analysis Program. 5 |+ ]5 Z% H3 G; i, p7 }! B' N7 aMADS Modified Air Defense System.8 U% s! H/ X9 c% l/ ? MAE Medium Altitude Endurance. + Z* N6 B& U7 K; KMAGTF Marine Air-Ground Task Force.3 o0 g) W4 O0 z8 m Main Beam The primary directional EMR emitted from radar transmitters. + Z! R* G0 S/ H; o: q5 LMaintainer An individual responsible for retaining the major defense system in or restoring it/ B" y6 f1 M, Q6 i) I% b to a specified condition. Maintenance activities include inspection, testing,/ k: u9 @& P; W# r' Z servicing, classification as to serviceability, repair, rebuilding, and reclamation. # D) \- r/ G7 I( ^- fMaintenance" e8 B. ^2 X9 b! K! G, u2 g9 P Concept/Plan5 h; p( _) j2 k9 ?" e A description of maintenance considerations and constraints for2 Y+ @0 z' U, V, k; B- ?, G5 W5 n system/equipment under development. A preliminary maintenance concept is & [ W7 j1 V3 _( b* A* Qdeveloped and submitted as part of the preliminary system operational concept: S" X9 J& k0 v% E# j/ \. [, C- k for each alternative solution candidate by the operating command with the ; l0 I9 b A" p& wassistance of the implementing and supporting commands. A major driver in& `# z {3 o u/ d3 X+ K1 X' H design of the system/equipment and support planned for it.. A6 n) \3 W( ^ MDA GLOSSARY, VER. 4.0 M # F. g- W% p% }- }7 h1745 i$ t' y: F- @5 W2 L Maintenance. K' W% r( {1 x Operations% Y% [, t" [5 ^8 _7 @ n) l The corrective and preventive maintenance operations that do not require a ! r2 {# a( c: m3 J9 i$ ]deployment decision; it includes correction and subsequent validation testing4 h B6 [5 n# L6 G' n and the update of relevant status configuration, maintenance, and inventory 5 p! b* w2 I" ~4 i8 l1 n* Idatabases. 3 E6 m7 r% @* K4 b4 VMaintenance 8 @8 D( }8 ?8 Z$ `- m3 vPlanning % T" K' m: z) ?5 @9 n1 fThe process conducted to evolve and establish maintenance concepts and" t$ D( G$ ]( w$ s& I8 | requirements for the lifetime of a material system; one of the principal elements9 |9 m+ \" \3 o2 l; o: ? of ILS.& Y% _- h1 m+ U7 d% G) L6 m! u+ b/ z: @ MAIS Mobile Automated Instrumentation Suite (USA term). # b( p. p- C% @MAISRC Major Automated Information System Review Council , S6 O4 `; a. C: Z+ VMAJCOM Major Command (USAF).* C* T, U3 U7 Z$ a- f1 }% } Major Automated 4 i# |9 F2 z" `& Y0 Z- t- q3 GInformation $ C' h0 n) E( j! N1 @System Review+ A1 U a% y d" R1 b" B7 v: d Council (MAISRC)$ |7 Y% d+ x3 l0 f2 c! u5 u The Senior DoD information management acquisition review board chaired by 5 I) c1 b+ ^) G8 G/ C& rthe Assistant Secretary of Defense for Command, Control, Communication, and' @) X( r5 W7 X2 }6 X% D Intelligence. See DoD Directive 8120.2.

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Major Defense3 |! A+ X* l. e, o; e% E+ W3 A Acquisition# T3 o2 G1 ~! l6 J" ~, R Program8 f; F8 E7 J: v5 V3 @6 | An acquisition program that is not a highly sensitive classified program (as 9 W( X7 I( ?7 g8 u( d q2 c5 Fdetermined by the Secretary of Defense) and that is:# s/ L1 K/ L0 t4 S% Z 1. Designated by the Under Secretary of Defense for Acquisition and2 W0 c" Q3 Z9 E$ f, T5 B Technology as a major defense acquisition program, or$ N% f2 z6 e+ Y 2. Estimated by the Under Secretary of Defense for Acquisition and Technology 6 m& X5 M# l* oto require: . F+ Q+ n$ i& V8 k) |6 Da) An eventual total expenditure for research, development, test, and: }6 D ?: q: o7 h, E( a evaluation of more than $200 million in fiscal year 1980 constant * s+ J- }' L& H* f7 r4 Wdollars (approximately $300 million in fiscal year 1990 constant' h: Q. K3 y4 G' U dollars), or2 ]9 r& c* |4 P4 g2 M# T b) An eventual total expenditure for procurement of more than $1 billion 6 G1 \9 [+ G7 y, l. @in fiscal year 1980 constant dollars (approximately $1.8 billion in fiscal k' [0 D; R& y% m- \year 1990 constant dollars).$ G( _" ^# F# M( u/ B% l Major3 W1 E; A/ ]( b( B9 I5 E Modification N0 h1 c# y5 j0 c7 v* | A modification that in and of itself meets the criteria of acquisition category I or II4 X @" D5 w( K Y& A1 N; L* z5 b or is designated as such by the milestone decision authority. Major modifications ( a# L- Z. X2 B, ^! M! [: m, U9 jrequire a Milestone IV decision unless the decision to modify results from one of ; ]4 B2 w0 Y% x& {1 ?, qthe alternatives considered as part of the Milestone I decision process. 7 \" q7 S" R b& y) {Upgrades are part of the Milestone 0 decision process.8 [( I8 }) i; _' D, v, K Major System A combination of elements that will function together to produce the capabilities , S/ m6 W V! ` }! A \required to fulfill a mission need, including hardware, equipment, software, or any; p9 T( l( i3 m0 a5 s combination thereof, but excluding construction or other improvements to real4 @; ^; V: z& o9 Q# y; f' @' v property. A system shall be considered a major system if it is estimated by the6 {6 b c& `. U/ d5 l Under Secretary of Defense for Acquisition and Technology to require: ! f" x6 \( O4 O6 w3 U1. An eventual total expenditure for research, development, test, and9 q) d$ w* p+ P5 m! g evaluation of more than $75,000,000 in fiscal year 1980 constant dollars 2 M1 x7 }8 h8 e! p5 N, d% i' Y% A(approximately $115,000,000 in fiscal year 1990 constant dollars), or ( Q) Q9 {5 z; @9 w& o2. An eventual total expenditure for procurement of more than $300,000,000 in. l! z" O8 r/ u fiscal year 1980 constant dollars (approximately $540,000,000 in fiscal year / |* v& ?! }( Q5 f/ |; `" D9 E1990 constant dollars). ' f) u0 |( v. V/ tMAM Maintenance Assist Modules. 4 Y. B1 T. B0 B0 h- h6 c' p C6 M4 EMAMDT Mean Active Maintenance Downtime (ILS term). 8 {& W5 G9 L" Z, W6 P, e7 BMDA GLOSSARY, VER. 4.0 M: @& N9 I h$ N; F0 b 175 ~( b( S" o& T! M$ d; l+ KMandatory ! O& r0 d& _* p' fAccess Control# m7 u6 _& G6 I7 } A means of restricting access to objects based on the sensitivity (as represented& X# G6 s% ~ `/ }" X- n5 O by a label) of the information contained in the objects and the formal " m# I' _- k: e7 J3 O! gauthorization of subjects to access information of such sensitivity.7 r* c( W) h7 v! z% a% h Maneuverable . ~5 o p. |# g9 h; K% RReentry Vehicle 8 A2 `8 E" F+ w, h! W% M: g4 r(MARV). M& e, w7 F1 s A reentry vehicle capable of performing preplanned flight maneuvers during the ; ~) y7 Y* p- j; P4 Wreentry phase. The reentry vehicles deploy fins or other aerodynamic surfaces : q" M! I0 D$ g7 x3 @# xwhen they enter the atmosphere, allowing them to turn and dodge rather than , `6 b* R3 D3 tfall ballistically. They have no ability to maneuver in space. & T; f% d9 U' C0 WMANPER Manpower and Personnel ILS term).0 H- s4 E f$ }7 i8 i Manpower) N" G$ M, U$ P" j2 G Authorizations/ w$ |8 e6 _! M. [. U7 l- K The billets in the manpower requirements structure that are planned to be filled. : m6 J2 k' [ o x% W* \$ bManpower + R2 O3 ^2 L% MEstimate Report$ `! D6 z& ?$ J& ?& k (MER) 6 g5 U0 ^3 B$ g! pAn estimate of the number of personnel who will operate, maintain, support, and " |1 _' S$ _3 Q5 ]/ S, b1 q" Ptrain for the acquisition upon full operational deployment. The Services prepared - @1 R, ^+ f, g' [& A: Q5 Rthe estimates, and the SECDEF submits them to Congress 30 days prior to 5 v$ \3 t! \# X! e Iapproval for EMD or production. - J6 F! \# h5 N* OManpower, " j- }* x6 N+ h7 R6 QPersonnel,- i! a( X: o8 f' h! f/ W Training, and* v( Q1 s# S3 A; Q. x8 D) ]# R' ` Safety (MPTS) & o4 D, ?$ l* BThe human dimension of the complete defense weapon system. The term 8 K) [0 I' v1 {; i( x! xMPTS also encompasses the concepts and disciplines of human factors 8 x2 L! _7 M3 z. tengineering and health hazard prevention. 3 L/ K9 F" L0 J& q& a* GManpower,; B" i, q; y2 E( `& L Personnel, / ~* l1 S6 l/ L9 v- HTraining, and * X& `, B1 E3 O6 s, iSafety (MPTS)2 s* X2 k* j! d( T3 S Profiles* t" s; Y$ G( z" @9 t A description of human dimensions and constraints involving a major system! H- r9 R# }8 n" [9 e) Z& p' X throughout the system life cycle. This includes, but is not limited to, descriptions 3 |6 b/ u0 X- Q8 M5 Tand categorizations of occupations, aptitudes, individual skills and/ x8 B; k7 O/ Z5 j8 S demographics, training system characteristics and components, potential system $ f6 @7 W1 V, D& hhazards, and other issues affecting the performance and welfare of operators,' ~& x$ \$ D, I1 \4 n3 F! j" ?" z maintainers, and personnel that support existing, modified or new systems. Q; F" N3 n9 M: p7 JMANPRINT Manpower and Personnel Integration (US Army)." {! a- q; e' V/ r5 I) k+ ^ MANTECH Manufacturing Technology.2 ^; g) c5 [4 B4 i Manufacturing (or5 E- K, H6 k4 h+ J8 x' G$ \ Production) * a8 Z8 ~2 a5 dEngineering 7 o' i, T* Z9 _( hPre-production planning and operation analysis applied to specific product - s4 \! W" i- N' bdesigns. The functions of planning, specifying, and coordinating the application6 t( \' L* }5 z8 w of required factory resources including: performing analyses of production & \0 V, X% T* p, T1 c7 P* voperations, processes, and systems; applying new manufacturing methods, g( q+ Y8 O5 Z" s, d5 atooling, and equipment; controlling the introduction of engineering changes, and ! b/ p0 H9 Y9 A4 d. i' W( Semploying cost control and quality techniques from the factory viewpoint.& B6 y7 z6 @2 l Q* J1 X) C q Manufacturing7 n3 ?7 r3 s$ z) F0 r% |' ` Operations,3 `1 ?0 S j0 Y0 X6 C. z1 D Development,8 E$ ?1 j3 Z* U% z and Integration! r# S2 ?7 x/ k, e/ n) E( ` Laboratory/ G( H% y* O5 r8 y+ s (MODIL)% n+ c; C5 h' L- p" N2 m5 P An SDS-peculiar integration mechanism to link product technology development2 q L0 q$ Y9 k: E; J% g6 z concurrently with manufacturing process and control development for a costreducing effective SDS development. * [5 d6 f( g5 L( J! f7 uManufacturing# W- ]; a+ M' D5 t( f9 j Technology ( A5 A V9 N6 Z' h c- ~0 M& B(MANTECH) # |* c- m1 W) \0 F* i4 OManufacturing technology refers to any action which has as its objective the / p' \* F) O+ U' F r# }timely establishment or improvement of the manufacturing processes,% _' ?9 c: f/ F2 p- v techniques, or equipment required to support current and projected programs,/ o ^. m! {7 q( p% [9 _- a and the assurance of the ability to produce, reduce lead time, ensure economic 7 D* k: p' U2 j; Q+ }% ravailability of end items, reduce costs, increase efficiency, improve reliability, or to 0 K$ O+ `# C4 Oenhance safety and anti-pollution measures. MANTECH, per se, is the specific & A6 A0 n! [; z3 kDoD program in this area. ( i5 S) O" G! V& P/ a, c) lMDA GLOSSARY, VER. 4.0 M) n8 _1 R4 T; j; T$ q 176 1 u! Q& _# G3 _; T | o: t% aMAOC Modular Air Operations Center (JFACC term).+ d$ i' t. u5 p MAOPR Minimum Acceptable Operational Performance Requirements. " G1 z+ P8 N3 M2 q' |4 v$ v3 RMAP Minimum Acquisition Program. / W3 ]5 b) e/ Q+ Y8 \- WMAR Monthly Assessment Report (BMDO/POC term). / b1 p, M( H% n* Z" {MARCO Marine Corps.

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Marine Air: [2 Z" Y4 h1 a Command and _7 Y& w- O9 L" r Control System % \! R1 J; W0 t0 ]: l, P p$ ?A US Marine Corps tactical air command and control system that provides the 0 n3 j7 O. _ U: m3 _3 @tactical air commander with the means to command, coordinate, and control all; i6 N( b! o8 g1 R* u% `2 O air operations within an assigned sector and to coordinate air operations with . g) T' E5 S( u; eother Services. It is composed of command and control agencies with- `9 N8 {5 Y! K# M/ n: k3 d( G communications-electronics equipment that incorporates a capability from manual2 k1 U% j- y3 h4 t( q through semiautomatic control. 0 K$ u/ r- U, L8 m, HMark/Markup Line by line review and approval/disapproval/modification of the defense budget 9 @+ p g8 E% @4 C5 R$ A' eby congressional committees. - ]! U" O1 c- yMARS Multi-warfare Assessment and Research System.1 q# E9 M' N2 M9 ] MARSYSCOM US Marine Corps Systems Command, Quantico, VA ' u. e; B* u! p" b9 P5 [ PMARV Maneuverable Reentry Vehicle.: j$ ]7 l) D5 d# M* r4 L D MARVIS Mid-Apogee Reentry Vehicle Intercept System. $ b! Z, \" b+ h7 L' MMAS Mutual Assured Survival.* q5 Y9 K: O0 ?4 _* ] MASINT Measurement and Signature Intelligence.. h# K0 a& z# k/ _5 N" W* z MASPAR Massive Parallel Processors (TMD-GBR). . \- S- j% m. m9 q6 jMass Raid Many Red ballistic missiles launched toward CONUS from several launch areas. 2 R* g! y2 n* }8 \5 j8 c+ o, `A mass ASAT raid consists of several ASATs attacking Blue satellites. - H/ {7 L* i* w. b5 mMAST Measurement and Simulation Technology-formerly Synthetic Scene Generation4 c% ^' T, T( e& C8 U9 Z& Z Model (SSGM). 4 ^7 @5 V2 `& t/ T4 U6 nMatching % r6 ~3 z% @( R% h" W4 E8 zBallistic Reentry% ]& N" Y: z7 O/ O* U5 ?+ Q8 g Vehicle (MBRV)2 v/ |5 v8 q8 ?' e. i9 M* T Four reentry vehicle designs (MBRV 1-4) developed to serve as threat 5 t" _' D) F1 Z* krepresentative theater targets. : \' i( M8 g% l, I' u+ ?5 yMatching Target5 U7 v( G# u$ s$ F3 l Reentry Vehicle9 E/ l! `9 q% j) g. D) E n+ j3 ~ (MTRV) 7 ^* r+ b9 z7 ~. R5 @( e5 qThreat representative reentry vehicle developed for GMD Program by Sandia 4 \1 c1 U8 w! c; V1 ELabs. Planned for use on IFT 9-14. 3 C. z0 B* a. \, ]4 _4 {7 i( Z* FMaterial Fielding( l$ e: `' [, s) y4 d( G8 a, h Plan # Z1 @* Q' M1 U; N, \Plan to ensure smooth transition of system from developer to user. % U }( T i7 ~/ [* _# B7 X# P NMaterials9 Z& D9 u, c% u# a3 e9 \ Science* S& p8 a0 h0 b; P7 C5 e5 t The science of developing/altering and applying materials to obtain a resultant . E- |. I" d( s% }: @* K6 Q% K/ J; Dmolecular structure with desirable physical properties and performance 1 z" F/ r- U6 f! }' bcharacteristics. (See Structures.) Also includes applying state-of-the-art* ^. z2 H0 D. r D' h advanced materials in the design of new SDS components and end items./ B1 H' q x1 I/ y MATHSFA Manufacturing and Testing of LWIR Hardened Seeker FPA Assemblies. 1 R5 ]; y8 e/ T- f. W/ `MDA GLOSSARY, VER. 4.0 M ' L( K) q# c! t$ n4 P177* B! {# O9 A3 `: c5 I9 }4 D Matra BAE; h: m1 ~- k6 y e- } Dynamics 5 |; ~+ [- z# H( F/ cEuropean missile manufacturer formed in 1996 from British Aerospace Dynamics; D p* I* l2 P and Matra of France.' K7 m m0 ?# W MATT Mutli-mission Advanced Tactical Terminal.* M: A, y& s( ?% U: Q) a MATT Radio UHF radio receiver for TRAP, TOPS, and TIBS. 2 m% Y7 u; V: @MATTR Mid And Terminal Tiers Review. & e! z E7 w2 Z( j, q5 bMAX Maximum.2 _/ L2 S( t4 l3 ^, H+ e8 O Maximum ) o7 i9 }2 z, E0 l. uAttrition 7 [( Z) w: S1 C& c& L% J pMaximum attrition is employed in a target-rich environment to destroy the , c# G4 N- h3 n# |maximum number of RVs, regardless of the type, by using all available or , v- @) W+ O! b0 Jallocated interceptors. This option may not satisfactorily defend specific or 7 L5 d2 A; @ M* N) ]required assets. ( S) C* @% j! a6 @9 O0 BMB Megabyte. $ F% S* f n0 E* YMBA Multi-Beam Antenna. + L! R# J0 J1 M7 J( zMBE Molecular Beam Epitaxy. 1 Q U' p" c+ OMBFR Mutual and Balanced Force Reduction. % D% ^" g4 Z0 i: ?/ ^; `1 ]Mbps Megabits per second./ t2 J: }0 u, x% ~9 |" u6 l5 L MBRV Maneuvering Ballistic Reentry Vehicle. - {) ]) j5 q0 a' i$ O$ W v" HMC (1) Mission Control. (2) See Midcourse phase. (3) Mission Capable (ILS - ^. T6 s6 a5 [. j$ k4 P- Y2 K8 oterm). (4) Military Committee. ) h% x! T" q* UMCA Micro Channel Architecture (TelComm/Computer term).) ~- o6 q$ P5 m+ E: [- o) { MCAS Marine Corps Air Station.9 \' p; m$ K; }, N MCASS MTACCS Common Application Support Software.- K; A( I6 o! V2 ?, k( N: ]0 @ MCBM Midcourse Battle Manager.# ^( y) \. e, J* k; g# Z D/ ~ MCC Mission Control Complex/Center/Console.& H" B% U$ m: J4 X% p& e$ a6 Y MCCC Mobile Consolidated Command Center.$ S" K, S4 `5 t3 O! ^' W MCCDC Marine Corps Combat Development Center.3 y/ j- b ?3 L$ |- I5 C0 V MCCR Mission Critical Computer Resources. ; Y5 j0 Z. b. HMCE Mission Control Element.6 J% N7 Q W7 x2 C" E$ |3 V2 D# v MCG Midcourse Guidance./ l9 H8 }. f. _4 p MCI Midcourse Interceptor. R# e7 \' R/ ^ MCLOR Marine Corps LORA Model (USMC ILS term). + o3 c3 [: [' m1 RMCM Multi-Chip Module." J, I# t, b# b8 F) z MDA GLOSSARY, VER. 4.0 M/ X. C( ~1 \* r$ W* @- f6 Q 178 I5 P. A! B# _) U MCOTEA Marine Corps Operational Test and Evaluation [Command]. 7 I/ k; b# |4 {0 e) KMCP (1) Materiel Change Package (US Army term). z4 h. B6 n* A( g8 ](2) Military Construction Program.# T w7 G( `- \5 j) y3 \6 k' [0 K8 J MCPDM Marine Corps Program Decision Making. 0 Z! v4 T- ~' I6 K1 RMCRDAC Marine Corps Research, Development & Acquisition Command.* E. D! |- c! o1 Q9 Q: M4 x MCS (1) Maneuver Control System. (2) Midcourse Sensor.1 D# s8 Y% x2 H/ p MCSS (1) Midcourse Surveillance System. (2) Military Communications Satellite System.4 q& y# j- e6 u' c9 R MCT Mercury Cadmium Telluride (cf. HgCdTe). & p( R8 d2 J& e3 `! v" I; J YMCTE Mission, Course of Action, Task, and Element Control Directives. 3 s, P7 j: a* D/ K( T$ ^3 s; XMCTL Militarily Critical Technologies List. 7 g- C) s/ |7 e# c2 jMCTR Missile Control Technology Regime. ' X; ]4 R$ b- f fMCV Mission Capable Vehicle.! _6 H" a; ?% f' ?, U: j2 j MD Missile Defense. ! A8 E) S( f) f8 X2 z" Y! |MDA (1) Missile Defense Agency. (2) Missile Defense Act. (3) Milestone Decision ! B1 a* O; g" c+ d$ j4 a: L ZAuthority. (4) McDonnell-Douglas Aerospace.# Z+ E7 b9 j$ i5 C/ ?* F1 B MDAHWG Missile Defense Ad Hoc Working Group.6 v6 y! X9 J! g' C1 s MDAP Major Defense Acquisition Program.# h: i: Y, T8 T MDART Missile Defense Activities Review Team.$ e# G) ~8 }1 W, s m5 [% F- k MDBIC Missile Defense Barrel Integration Center. - @& y: G3 L4 X8 I; r L! W# FMDC Midcourse Data Center, Advanced Research Center, Huntsville, AL.1 J9 z$ R4 Z: h/ \- W: c MDCI Multi-Discipline Counterintelligence. 4 C. U/ k$ ?* |% n+ rMDDC Missile Defense Data Center, USASSDC, Huntsville, AL.

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MDP Manufacturing Data Package. & Y( i6 U4 f. M) `/ oMDR (1) Medium Data Rate (TelComms/Computer term).3 P2 W! i9 J- o' l" f (2) Milestone Decision Review.. J( ^% ~/ I: p9 [: R2 M+ l (3) Multi-national Defense Research.% D+ W8 F( R/ w& C6 h; J% _ MDSC Missile Defense Scientific and Technical Information Center.. l( B$ x0 s& P, W2 T4 b+ l MDSTC Missile Defense and Space Technology Center.. d0 p) j; q9 b3 N; _8 G5 d MDT Maintenance Down Time./ m: J4 ]# I1 Y/ w: s' N3 L MDTD Mean Downtime Documentation (ILS term). 4 w* w5 d! j" I! t& P, C( Q1 u9 UMDTOA Mean Downtime for Outside Assistance (ILS term).# ^! v" T/ [$ X$ v- S4 ]& V MDA GLOSSARY, VER. 4.0 M 2 J$ c$ K' n- {" J/ O. v: n1792 |# r; X! x2 _# ]# [) x: y, H( H MDTOR Mean Downtime for Other Reasons (ILS term). 7 n9 y$ o! I0 F- |3 z2 }# GMDTT Mean Downtime for Training (ILS term). 1 {/ B" X& J. o( j* [) U. WMDW Mass Destruction Weapons.8 G- ?, A6 w2 k3 y( f4 Z3 }. }- H ME/VA Mission Essential/Vulnerable Area; Z( N0 H5 _8 b4 T! |1 z MEA Mission Effectiveness Analysis (JFACC term). + i6 ~% U4 Y% T3 G. b* O; |( WMEADS See Medium Extended Air Defense System.: v( i4 J$ V+ `5 G" p: H" H8 o Mean Time 8 m, Z% @8 k. i! H) d& u4 VBetween Failures' K, ~! l( g: l; @ (MTBF)6 r5 y0 P7 n+ k# O. c- M2 W A measure of the reliability of an item. Defined as the total functioning life of an3 n2 _- W$ N1 S/ q9 c4 c5 u item divided by the total number of failures within the population during the( @. k9 `- x& n- Z# g6 E measurement interval. The definition holds for time, rounds, miles, events, or & l: l4 ^% C" @$ ]3 B& J: F, oother measures of unit life. MTBF is a basic measure of reliability. % G! X; c( B& ~% u! DMean Time To. q ?2 I. A' U$ M- B( V# K% E Repair (MTTR) 1 s% f6 }9 S; f+ D) \The total elapsed time for corrective maintenance divided by the total number of$ P6 _& ]$ ~7 L/ M5 i! P corrective maintenance actions during a given period of time. A basic measure + w& G1 T: f2 e! eof maintainability. - _6 w; V8 I* d" F/ r' Y2 {Mean Time to# D0 z' m6 E9 M* u Restore System: y0 E; q& p1 m3 D (MTTRS) ( F! d; A$ v6 i, i0 q; f4 MA measure of the system maintainability parameter related to availability and # r1 S$ q9 _4 [! nreadiness. The total corrective maintenance time associated with downing . p3 Y4 F# C4 a5 y& Z! d8 E" ?+ yevents, divided by the total number of downing events, during a stated period of |0 [2 U# E/ C$ h0 l9 k otime. (Excludes time for off-system maintenance and repair of detached 9 @$ T* M+ i; x5 \5 ]1 ]3 L/ Hcomponents.) , a9 w' c! [4 u0 l" t8 NMEASAT Malaysia East Asia Satellite.; p, O4 z! Q5 B* g Measure of6 j3 t8 S+ F6 f( C. J0 m Effectiveness b6 ]4 _* P* h/ L! v(MOE) ! a$ ?# g7 L% a$ c9 W' yThe quantitative expression (sometimes modified by subjective judgment) of the 0 Y4 r5 w5 D% |8 L% osuccess of a system in achieving a specified objective.: s0 t( g7 e; h$ o MEC Mission Essentially Code (ILS term). A" ?2 M' e7 PMedium Earth) g _$ y0 v7 J1 r$ \ Orbit (MEO) m. ]4 c0 _$ s9 s5 u: s1 X Space vehicles characterized by orbits between 400 and 10,000 nautical miles, 7 p, A# a$ ^# E, M; C+ e$ blonger duration revolution (2 to 12 hours), longer visibility envelopes (10 minutes# [& h! J' ~' s2 S up to approximately 1 hour), and generally longer lifetimes. This region contains . a' h4 l4 j5 i; U" G+ ?( bthe Van Allen radiation belts where electronic components need special S) t3 @/ [$ J. E7 x0 yprotection.9 h- z6 j2 |5 [8 P8 D Medium2 c( e, v" s: Y1 Q- a! t Extended Air . x, M. h0 E* h! _9 [( q S4 _Defense System% s& z0 g ]/ {* g1 ? (MEADS) / Y/ \, S5 c( n" q; G8 XA lightweight, highly transportable, low-to-medium altitude air defense and 8 L" c! ~! I- H" n1 u: etheater missile defense system designed to protect critical fixed and 2 t8 G+ h2 I5 lmaneuverable corps assets. MEADS superseded the Corps SAM program in1 i% S5 q7 [) T" P' _2 e 1995. 7 H2 O3 h/ Z% h$ Z9 JMedium Power " X) l0 \5 d2 a! QLasers , I; V& g9 X4 u {: v# cLasers that radiate power less than 1 MW, normally used to detect, identify,/ E; c& j z& h track, and designate a target vehicle. ( ~* e& @) f* p5 S6 b9 Z4 BMedium Range# q7 m" q8 S) R/ f1 a( R( j( r Ballistic Missile; K1 B- ^+ J/ k& U (MRBM)$ x! }" n# E) p# r7 T" C A ballistic missile with a range from about 600 to 1,500 nautical miles. 0 k- q. `% u) w' \1 mMedium . r9 G2 K$ g8 s2 \7 FWavelength : r, e% I6 Q. V( u2 o: |Infrared (MWIR)2 x t+ d6 s, v2 ^+ ^3 f Thermal radiation emitted by a source in the electromagnetic spectrum. I' C, }' C( E# {! w encompassing infrared wavelengths of 3 to 6 microns. ; K$ Q7 j3 ]3 _( U: TMDA GLOSSARY, VER. 4.0 M9 x" \& e1 ^; i9 n 180/ D! B. l* {% t- @ MEF Marine Expeditionary Force.+ o; Y" L$ M: M MEILSR Minimum Essential ILS Requirements (NSA term). 9 k3 W* N3 J qMEL (1) Maintenance Expenditure Limit. (2) Mobile Erector Launcher. * `& Y: h3 b% Z+ C3 K, L" jMEM (1) Mission Effectiveness Model. (2) Mission Equipment Modernization. 3 t, r# K. T1 E7 ?* O! bMemorandum of , ]7 y6 [) _7 i8 m" I6 U6 vAgreement (MOA) 1 i! G4 q5 B7 ~+ E(1) In contract administration, an agreement between a program manager ~. N/ k1 a+ J2 O4 Q: W% d4 dand a Contract Administration Office, establishing the scope of& f9 u# Z+ ^9 u! n responsibility of the Contract Administration Office with respect to the * E1 B o" E7 K f% xcost and schedule surveillance functions and objectives, and/or other " G! h: q/ X5 u$ Jcontract administration functions on a specific contract or program. 1 M) |% P# |! ^; s2 G(2) Any written agreement in principle as to how a program will be 2 l8 v0 Y: S$ z! @7 cadministered. ! I" S6 d7 q! u, X- Q( q0 W' IMemorandum of 8 i5 \5 ?6 J% }) DUnderstanding . {; a! @& u" _4 e m$ p(MOU) # o% |8 ?5 Q% i7 y* B* a" xOfficial agreements concluded between the NATO countries' defense ministries+ O/ e: H6 W$ K6 Q but ranking below government level international treaties. De facto, all partners, r2 t% ~$ E ? generally recognize such agreements as binding even if no legal claim could be' m" x9 C( w2 t, X3 X3 Q! y7 V based on the rights and obligations laid down in them.7 ^* ?7 K7 d& u4 @ MEO Medium Earth Orbit.1 T0 O$ f" k5 x# h1 t3 n6 `! }3 ^ MER Manpower Estimate Report.; Y4 k5 m* F* M! O: d Mercury1 \9 G l8 }- f5 j4 ] Cadmium / @1 \" w, d5 H `+ r( jTelluride (HCT) 5 ` ^1 p, g) i* Y' ~, k$ J) WInfrared sensing material. * m7 B$ O; n/ C2 z [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). 2 C/ J8 B4 K) f/ rMESFET Metal Schottky-Gate Field Effect Transistor. 5 t* _! b* _) Z! Y( n7 T N2 lMesosphere The portion of the atmosphere from about 30 to 80 kilometers above the earth.: a2 s$ ?7 w4 N3 O* J/ j Methods( W7 ^% W- O& B0 e$ C Engineering # D0 I4 j1 u% ]- k. X3 FThe technique that subjects each operation of a given piece of work to close5 S( ]9 ]5 u2 K4 k' w analysis to eliminate every unnecessary element or operation and to approach3 [4 H0 S5 q% N! F$ p. ?. Y P1 P the quickest and best method of performing each necessary element or ; |; ` b( ?0 c( f9 K! n! g8 r8 soperation. It includes the improvement and standardization of methods, ) ?; ?2 b; |+ ]4 Wequipment, and working conditions; operator training; the determination of ) h( @! ^! V0 P; n$ vstandard times; and occasionally devising and administering various incentive - A$ a' Z9 H. R c6 l0 }0 c0 c1 Tplans. " N4 `/ A% W9 |. L7 EMETO Minimum Effort Task Order.: Y+ ], Y+ i2 L( s w8 O METOIA Minimum Effort Task Order Impact Assessment. / I, \. u8 R3 c- d. B& hMETOP Minimum Effort Task Order Plan. 2 s2 `" b" P0 G9 M2 pMETOR Minimum Effort Task Order Requirement. # t0 y0 n0 ?; j; {Metric (Software). An indicator, which measures some specific attribute of the software: C. V: y; \- c { development process.$ Y# [( g: V* }8 m2 Q; B MDA GLOSSARY, VER. 4.0 M : j- g) s1 S2 f0 @ d1812 v9 U1 O; ]0 K Metrology The science of measurement, including the development of measurement 2 q4 E; \; Q: F" Ystandards and systems for absolute and relative measurement. Used to' B3 e+ O1 S6 ]7 [4 B determine conformance to technical requirements including the development of: r. O& M9 R. f- y6 T; L standards and systems for absolute and relative measurements.; m. f) h8 A9 s! T8 X5 M MeV Million Electron Volts.: F7 Q; T' E4 P- {( y MEZ Missile Engagement Zone. 3 o o1 P* b2 p+ m+ \- s0 H: rMFAR Modular Multifunction Phased Array Radar. 7 Q b2 e2 p6 U1 Z9 I" dMFEL Medical Free Electron Laser. 3 X1 L( ?" @, A$ W" LMFG Master Frequency Generator. 8 x1 E4 e! s. h9 P) v# L3 {2 J: o; f3 HMFL Multiple Folded Ladar.5 \5 A7 G+ D+ i/ j' t& q$ c9 ? MFLOPS Million Floating Point Operations Per Second., o0 A* S2 |3 d- F MFP Major Force Program. 9 K' p$ R& ]) q, ^( ]- ]- LMFR Memorandum For Record.6 J, b) g& V; W MFS MFS Communications Company, Incorporated.# ?" l4 N2 J3 c" X3 T& N, O MFSIM Multifunction Simulation (PATRIOT), Huntsville, AL.& w k% C5 i4 g% c" r% N MGEP Mobile Ground Entry Point. - b- z: q/ y- M( n0 R: `7 e% ]( c% e5 QMGLI Midcourse Ground Launched Interceptor. 5 C5 s5 l! E4 K4 B5 Y$ J5 \5 c7 GMGMT Management. ) e* f, j/ U. y7 L% B$ I. qMGTS Mobile Ground Telemetry Station. 7 ~) g6 \- W4 L3 pMHD Magneto-Hydro-Dynamic. : L6 _# h$ j& f7 R' zMHE (1) Material Handling Equipment. (2) Mobile Hauling Equipment.; D$ X3 t+ y* \5 V( | MHV Miniature Homing Vehicle. % z8 X3 i( r8 B* w+ cmi Statue mile (5,280 feet). 4 N9 [+ q, i* g- PMIC Management Information Center (MDA). M) u! B3 q3 h" q, }0 @ MICOM U.S. Army Missile Command, Redstone Arsenal, AL. 9 b- @/ z8 s4 D, U/ r5 _* FMIDAS Missile Defense Alarm System (US). , _/ U8 s/ X2 c, C( |$ IMid-Course 4 w1 o3 \ L. r* |' ]; k% WDefense Segment ) l" ~& W1 N0 A(MDS)* `8 n" N/ `$ { The portion of the BMDS that defeats ballistic missiles during the period of flight ( s* t! U. P) M6 h0 Zbetween boost and atmospheric reentry. 2 ?5 Q: E( M/ \0 u+ K# JMidcourse5 ], k( X% h4 C) H" i/ j6 r Guidance / Y. J0 P) k, P& nThe guidance applied to a missile between termination of the boost phase and + S. R9 w3 p0 R# }3 A. ^) Rthe start of the terminal phase of flight. , C- Z3 w( F/ t% J0 a- oMDA GLOSSARY, VER. 4.0 M8 R9 i+ F- _& B 182 % x1 f, M5 v. r+ U7 v, r6 m7 gMidcourse (MC)# ] V2 f) k! m- u& c# x Phase1 [: _; x% s, O That portion of a ballistic missile's trajectory between the boost phase and the 0 N) r* E# I. F6 [+ o7 y# Treentry phase when reentry vehicles and penaids travel at ballistic trajectories& L/ C. }; t9 R/ K9 i7 i above the atmosphere. During this phase, a missile releases its warheads and 8 a; ]! D+ D0 p' pdecoys and is no longer a single object, but rather a swarm of RVs and penaids z2 o6 [8 F, n& K8 O falling freely along present trajectories in space. # q6 T' T5 u$ H: A% NMidcourse Space - F8 T# ~: P$ vExperiment / ^ f% V7 A7 @6 @1 L(MSX)& ?" ?2 y* v$ \- Z+ ^: V9 a Designed to provide demonstrations of midcourse acquisition and tracking from " Y! B/ r) A V5 h! Lspace, technology integration of optics, focal plane arrays, signal processing,5 ~- E! D) Q9 j# D/ J etc., and collect background phenomenology measurements and target4 Y2 [& T' h9 U& T+ ^! A1 e signature measurements.* \" a# e- D6 x1 }- M, f# q Midgetman US ICBM.% p, D! B S& `0 _7 N& d7 P MIDI Musical Instrument Digital Interface., A" U. S" m' L$ ?/ M MIDS Multi-Functional Information System (USN/NATO/Telecomm term). 5 [+ F3 |, {( H/ D6 s+ xMIIRD Mission Issue Identification and Resolution Document.! d5 e+ H8 E/ b3 ?; E T# T( a2 J MIJI Meaconing, Intrusion, Jamming, and Interference.+ x* u9 q0 G$ n+ c# n MIL Man-in-the-Loop.) K- y" ]; k$ s" [9 `( j$ O1 J MIL-HDBK Military Handbook.( M3 d _; k% N" N; G& K. v- Y MIL-STD Military Standard.2 K# W5 `! K! ~4 c9 U! { MILCON Military Construction. 8 B$ E$ G0 T' x! j0 Z5 E9 ]! ^5 IMilestone6 j" [; f6 I6 {- M/ A Decision( g, l( {6 Z8 X( J. v' a3 y Authority ! k0 D2 k3 G9 @' c1 Y( qThe individual designated in accordance with criteria established by the Under 1 _) F, }& I% S7 rSecretary of Defense for Acquisition and Technology to approve entry of an9 K% J2 m7 e0 I9 o* j. y acquisition program into the next phase. 9 Z3 P/ N$ M; S3 q T p4 A+ O6 d! D* vMilestones (MS) Major decision points that separate the phases of an acquisition program.0 U0 @+ P* k' N* X Military 3 `4 _( V8 H5 S# w8 o9 X; x3 GCapability3 H2 L7 A* h$ M+ L2 Y( j8 \ The ability to achieve a specified wartime objective (win a war or battle, destroy a% c7 E2 a4 C! V u4 @9 Q target set). It includes four major components: a). Force Structure -- Numbers,) b7 u" E6 n; D2 @3 G9 `$ m size and composition of the units that compromise our Defense forces; b) }( l# c7 A6 i& Y# _ Modernization -- Technical sophistication of forces, units, weapon systems, and( K# ]1 K# w, `# R; r equipment; c) Readiness -- The ability of forces, units, weapon systems, or 6 f. ]! m5 b$ s' ?* {3 gequipment to deliver the outputs for which they were designed; d) Sustainability 9 J, ?4 w$ [* }- b-- The ability to maintain the necessary level and duration of operational activity 9 l+ P# P" f4 y# W5 M6 q5 `to achieve military objectives. Sustainability is a function of providing for and : S% x* l% J7 h1 Y1 Smaintaining those levels of ready forces, materiel, and consumables necessary $ Q8 {! |; H& u6 }to support military effort.

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