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发表于 2008-12-25 20:10:24 |只看该作者
Kinetic Kill . j# }" v0 k7 {8 gVehicle& H2 D4 O4 X1 F9 D2 F6 Z. d( N) L V. J& v Integrated. ^/ Z) o( S S* F4 Y Technology 6 f. G+ \; A0 H* J! C% ~0 xExperiment7 v5 i9 f) Y+ C" t( w0 } (KITE) + l$ N3 n8 {" y3 l3 W4 GA series of test flights at WSMR to demonstrate HEDI technologies. 0 T+ C. v( x7 R7 N/ m" j. SKITE (1) Kuiper Infrared Technology Experiment. (2) Kinetic Kill Vehicle Integrated, {) M0 T3 ]+ G( a% v- Y; n Technology Experiment.0 s. B4 ^4 X; P7 Z- K KKV Kinetic Kill Vehicle. & b. v: w4 ]' M' Y1 e. C2 H i: g9 qKKVWS Kinetic Kill Vehicle Weapon System.5 F0 n1 r: U: n4 A& {; C! N KL Kill Level.7 W8 M" l5 x* g Z Km Kilometer.' k9 c; b# o# b Km/h Kilometer per hour." D+ \1 B5 t* ^ Km/sec Kilometer per Second. : r; }) a" g& B# BKMCC Kwajalein Mission Control Center. - a; o0 X; |, O) }/ ZKMR Kwajalein Missile Range. & t, }/ I2 |# B5 OKMRSS Kwajelein Missile Range Safety System.( o# ` n. t9 S) T" c KPP Key Performance Parameters. / R" K7 s- S8 l8 n7 u4 g3 JMDA GLOSSARY, VER. 4.0 K# |' D# r# l3 K0 g1 T6 h6 T3 M2 v 159 / @+ E! H/ @! j% m/ DKr Krypton.9 Z; X* u5 z( Q, ?2 |* v4 `; V$ } KREMS Kiernan Reentry Measurement System. # R3 k2 R% l6 b0 o8 p5 Q/ IKSC Kennedy Space Center, FL. 8 i, A: K9 @3 x; @- |- `, xKt Kiloton. 7 {' I# |! j4 iKTF Kauai Test Facility, Barking Sands, HI. % S5 ~; ]. k {: W& q% cKTP (1) Key Technical Partner. (2) Key Test Partner (3) Key Technical Parameters.! Q) l* |' q, f1 W Kts Knots. d8 F* A& L1 L# i- F1 P a9 ^: J! OKV Kill Vehicle. : U8 n8 A( }2 f$ h6 Zkw Kilowatt. ' \; u2 t9 P9 IKW Kinetic Warhead.8 R: A# [+ p# \7 p( v% p MDA GLOSSARY, VER. 4.0 L ; P( p+ U+ q6 P9 D) b2 m- Z161 + C3 U2 v% e1 G7 KL&TH Lethality and Target Hardening. # J7 Q0 \* R: B+ P) I6 pL1SS Level 1 System Simulator.& k8 c; w( Z( j) }/ ^; x L2SS Level 2 System Simulator - NTF.: ]; z/ O/ Q# z4 f9 F LAA Limited Access Area. , F3 ?' y+ {. |LAAD Low Altitude Air Defense. " O0 n$ b/ Y6 m' WLAAFB Los Angeles Air Force Base, CA., g, C4 P1 p" e4 D9 i, @% T LABCOM Laboratory Command.9 _7 M Q5 h4 [6 W* s4 j# h LABM Local Area Battle Manager. & U# l) m& n) v: T4 Z4 E9 i7 ULABP Look Ahead Battle Planner1 l* d) o$ r' Q$ p# Z( W8 ~0 X# S# C LAC Low Authority Control. 6 v/ \( F' q( p8 l0 |5 f* R* O+ tLACE Laser Atmospheric Compensation Experiment (an SDIO/NRL satellite launched ( }# t5 B$ F8 E0 cFebruary 1990 and turned off July 1993).- [7 i& r+ M1 O3 o LACM Land Attack Cruise Missile.! `5 t* L8 o/ \( T$ u% b, b LADAR Laser Detection and Ranging. & t+ M0 Q# n' l* S" FLaddering Down A hypothetical technique for overcoming a terminal phase missile defense.# I: U3 p) G" Y Successive salvos of salvage-fused RVs attack. The detonations of one salvo ) z/ g' x' ~4 v8 }6 Udisable local ABM abilities so that following salvos are able to approach the : `2 G7 H' w1 ~+ Ttarget more closely before being, in turn, intercepted. Eventually, by repeating/ o7 p4 O! `2 S0 z: n the process, the target is reached and destroyed. + _7 H+ J4 t. [LADL Lightweight Air Defense Launcher (USA TBMD term). , E' q8 V- Y* r% y- x1 |LADS Low Altitude Demonstration System. / N& p: |" K5 F9 ?6 uLAFB Langley AFB, VA.8 Y: X$ y8 ]" f4 k. @5 F7 p/ h* T LAMP Large Advanced Mirror Program.& P4 {: N* {5 C5 z; n3 f7 O LAN Local Area Network.% I0 s& {3 c, Q- u( l: N7 X Landsat Land Satellite (NASA program’s satellite).: @& X8 S5 Y" W& _& G2 `& [& {4 Q2 t LANL Los Alamos National Laboratory, NM. # \/ y) ]. R$ V9 ^& lLANTRINS Low Altitude Navigation and Targeting Infrared Night System.; T+ t! \# a- M c1 u3 B3 W LAO Limited Attack Option. 6 p4 V* K8 n2 E; Z( P5 qLAPL Lead Allowance Parts List (Navy term). * O, u5 W8 [) j, k1 s0 v& zLARC Langley Research Center, Hampton, VA. 5 T7 ?" u+ ^% N* Y) YMDA GLOSSARY, VER. 4.0 L 5 |; F* Q# x5 H) L# R162: |# w( D& q d9 V0 g Large Optics The technology of constructing and employing mirrors over 1 m aperture to direct 7 s; |- `! k8 A0 L7 C5 O" iand control high power beam weapons/systems with large coverage, or to ; G7 ~+ t7 ? W% ^1 hprovide high resolution or high sensitivity for detection and/or imaging. 6 c1 G1 f, n5 ~LASA Large Aperture Seismic Array.- _0 }( z- x0 ^5 }4 | Lasant A material that can be stimulated to produce laser light. Many materials can be 0 M( j7 |8 W4 I/ J2 E8 i+ lused as lasants; these can be in solid, liquid, or gaseous form (consisting of. i5 ~1 Z/ i: B4 ~5 l molecules including excimers or atoms) or in the form of plasma (consisting of! {0 W4 d$ i2 E2 T' h0 Q ions and electrons). Lasant materials useful in high energy lasers include carbon 6 S/ e9 k# X, ^dioxide, carbon monoxide, deuterium fluoride, hydrogen fluoride, iodine, xenon5 e" U8 G0 F* a9 t ?# u( i chloride, krypton fluoride, and selenium, to mention but a few. % o! S' f6 _1 {! P4 ^" h1 [' [LASE LIDAR Acquisition and Sizing Experiment.: I) s" f6 e1 H Laser An active electron device that converts input power into a very narrow, intense( `7 R) o0 T# M! c9 R/ j beam of coherent visible or infrared light; the input power excites the atoms of an% D2 m2 `2 ^0 P4 j+ Q optical resonator to a higher energy level, and the resonator forces the excited % F* k" t% ~$ o. `; L9 Fatoms to radiate in phase. Derived from Light Amplification by Stimulated / X& C& E5 O# H5 y- s8 ?9 j8 jEmission of Radiation and classified from Class I - Class IV according to its 3 T9 T' u4 B: g5 j d. Ypotential for causing damage to the eye.& a0 n: Q! f1 z! H! R# l Laser Designator A device that emits a beam of laser energy to mark a specific place or object.2 l9 D; m" x5 x9 n" @/ B Laser Detection* ^: ~- f0 O% c3 l, A and Ranging2 A3 S! B( q' |9 X" k4 V8 b3 a' V (LADAR). v; s* t2 A, m6 o# d" U A technique analogous to radar, but which uses laser light rather than radio or3 z0 |1 `+ y5 |+ U. C9 g" T/ B microwaves. The light is bounced off a target and then detected, with the return : x8 O& n# O5 N: ^7 s% H7 g/ X0 c+ vbeam providing information on the distance and velocity of the target., Q2 N! P, f, T @( O Laser Guided0 }! ] ` W" U/ N' f$ w Weapon9 D, K% |# k) T z8 w A weapon that uses a seeker to detect laser energy reflected from a laser1 m& @ Q# A5 T# v# [3 x8 L3 j* v- C _ marker/designated target and, through signal processing, provides guidance 8 c, M2 T' h4 \commands to a control system. The control system then guides the weapon to' Y z# y/ [5 x/ v ?' N+ o the point from which the laser energy is being reflected.9 s4 R4 P9 a6 d Laser Imaging: |, {) T2 t) m6 E5 _ Radar 9 v! ?; c. W& {4 s. Y- LA technology whereby a laser beam can be used in a way similar to the use of a % R: C* H! {( q' z H6 h/ zradar beam to produce a high-quality image of an object.6 G8 j& l: A" ?' |9 D Laser Optics Technology associated with the use and control of laser beams with flux greater 6 N; {, L3 M( B7 \than 1 watt/cm2.: o% |3 @+ I0 Z& l( B Laser Seeker A device based on a direction sensitive receiver that detects the energy reflected " j% t0 J6 h ?% ~$ ^from a laser designated target and defines the direction of the target relative to ( K$ f& _2 {6 g9 ~- \, @the receiver. See also laser guided weapon.0 k2 ^6 |5 q$ O9 x f" ^ Laser Target) ^4 n% W" U% X$ x- O% Q4 W Designating' g4 i, w3 x$ R6 B- e1 @% ? System+ N' n& \; ^/ c! d8 r8 b- x9 G A system that is used to direct (aim or point) laser energy at a target. The ' S5 |% E0 D1 h! rsystem consists of the laser designator or laser target marker with its display and) R% Q& t! e/ N4 S% C6 A1 ? control components necessary to acquire the target and direct the beam of the1 {* |- i4 g3 j- Q- d n laser energy thereon.; G P" Y' U. S$ {$ J# A: q) a Laser Tracker A device that locks on to the reflected energy from a laser marked/designated 0 M; N1 ]" I3 a* u7 ^and defines the direction of the target relative to itself. # w1 U8 }8 X. k* TLaser Weapons Devices, such as photon generators, which produce a narrow beam of coherent ) x* J/ V5 C4 hradiated power greater than 1 MW. : v# J+ G. j7 \: SLASERCOM Laser Communications.; `, j! }# Y' ]" a# K 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 " \# i, p$ l8 h: ^163 5 R- s8 |6 ]/ ]Launch Azimuth Missile launch location measured in degrees clockwise from the local northpointing longitude line at the launch site. (USSPACECOM)3 F0 z0 L' U3 G+ S( j0 i: k5 n Launch Detection Initial indication by any one of a variety of sensors that a booster has been: ]3 Q6 {# h G: @ launched from some point on the surface of the earth, with initial characterization 7 t3 D$ a7 q1 W% C; Oof the booster type. (USSPACECOM) 7 H% r3 J, W$ I# kLaunch Point, w- k4 i8 f( L Determination( e2 V5 q! l+ n# \ ? With computer methods, uses missile track observation to estimate the point on , Q! U& D' F( O7 ?the earth’s surface from which the missile was launched, expressed in terms of8 s: i# k0 p k% _5 s circular error probable. ' r7 l8 t+ y. e0 n0 n) A0 uLaunch Under1 V8 ~4 u# K* w* w$ q7 }( m* q Attack (LUA)0 G, m2 z0 N5 r3 e/ j$ V4 ]5 P Execution by National Command Authorities of Single Integrated Operational * b5 o& v0 t8 n& Y: P4 WPlan forces subsequent to tactical warning of strategic nuclear attack against the! h$ @7 G3 V$ O& d& [4 f6 { United States and prior to first impact.! ~. ^, H- u& ]1 f& P9 B' ?: K Launch% a- ~, H% y% T# H* u; F5 Y( o: M Verification' `/ I, K, X& P( u3 W* l5 s( a7 P Confirmation of a detection of a booster launch by receiving a report from a . ^, v( }' P; V ^, Msensor separate and independent of the sensor that initially detected a specific/ ^' N5 r. @% }. i" Y. e booster launch.( ?$ X+ g: w/ k/ V z Layered Defense A defense that consists of several sets of weapons that operates at different 0 l( S' O b1 cphases in the trajectory of a ballistic missile. Thus, there could be a first layer) v1 P% N2 ^% ? (e.g., boost phase) of defense with remaining targets passed on to succeeding # s% L4 h" a3 O" q$ slayers (e.g., midcourse, terminal).2 c, y6 q- t3 L2 E/ R lb Pound. . n5 t4 h) Q) c) [& h( lLBL Lawrence Berkeley Laboratory, Berkeley, CA.5 Q1 Q+ l4 ? _& d+ i* n7 g; r LBM Localized Battle Management/Manager(s).0 k# _6 J, Y- f7 r8 e6 _8 a+ B LBTS Land Based Test Site.2 A5 V+ k) K( @- Z2 V LCC (1) See Life-Cycle Cost. (2) Launch Control Center.9 j. S4 s# K$ O8 Z$ P+ t LCCE (1) Life-Cycle Cost. (2) Launch Control Center. (3) Land Component; g9 n$ ?- o) U Commander (JCS term).4 _5 f" q$ @; c! V; c) x+ J R LCCS Life-Cycle Contractor Support. ! ^. J0 m/ N5 ]; V: n- [4 MLCF Launch Control Facility. P4 Q0 m& Q! Q LCM (1) Life Cycle Management. - m$ q+ u' E5 [8 z3 S# V(2) Lightweight Communications Module (USAF TelComms/Computer term). 6 E5 M# w6 |& h0 v5 _: d8 G' c8 [LCN Logistics Control Number (ILS term). 9 `+ W6 r7 k5 iLCOM Logistics Composite Model. 7 a. S0 Y4 j7 b8 R# GLCN Logistics Control Number (ILS term).% F0 p+ a* y. S* c) f; [ LCS Laser Crosslink System. 1 Q ~6 Y/ u( k% l8 yLDC Less Developed Country.+ t7 J* [1 ~0 ~ LDS (1) Layered Defense System. (2) Lexington Discrimination System. (3) Limited % }5 @# P1 R* j1 |0 q4 cDefense System.5 J) V. H& d- j+ `3 S7 k4 Q; \$ g MDA GLOSSARY, VER. 4.0 L/ D: v/ z; f, {& Z6 g 164 E# p1 {/ A' U: S& P LE Lethality Enhancer (PAC-3). + B5 t+ b9 G9 n& wLead Component/( T2 m& ?2 `, H6 { Service * X& `1 y% c2 D ` ^4 CThe DoD Component designated by SECDEF to be responsible for management) g2 u$ ?/ y# Q* o: v9 t0 f of a system acquisition involving two or more DoD Components in a joint" q' B% V4 y" O2 ^) h program. 7 x" K' s- ? X8 ?/ n! k5 nLEAF Law Enforcement Access Field. ! ?6 G1 c/ V- L' P5 hLeakage The allowable threat objects passing through a BMD system expressed as a; {0 Q4 m& ^4 U/ l percentage of the threat. To ensure overall system performance, permitted 4 p- C, w+ Y- Mleakage is “budgeted” among individual BMD phases and functions.( V& @6 _! G! H Leakage (Max) The maximum allowable threat objects passing through a BMD system expressed ; U) L; G: h: g W) l$ Bas a percentage of the design-to threat. To ensure overall system performance, + v( f/ I7 i) Fpermitted leakage is “budgeted” among individual BMD phases and functions. 8 E8 m$ X, d# G NLEAP Lightweight Exoatmospheric Projectile. 0 _% i" q" W$ m, g- J: \- r) [3 qLEASAT Leased Satellite.9 e# ^: }. n) R5 i Least Privilege This principle requires that each subject in a system be granted the most : e: A+ S2 W, @) S5 A. Grestrictive set of privileges (or lowest clearance) needed for the performance of 3 ]: ]6 y7 @' e2 s4 oauthorized tasks. The application of this privilege limits the damage that can" @- Q2 z/ }2 I, F* @( u result from accident, error, or unauthorized use. 5 m+ Y9 H0 r! |( w% a) J% V8 j4 iLED (1) Low Endoatmospheric Defense. (2) Light Emitting Diode.8 F* c8 c# J* R9 i1 l/ s2 G LEDI Low Endoatmospheric Defense Interceptor.& e; |6 V6 T7 ?- Q) W LEDS (1) Low Endoatmospheric Defense System.; [1 C- ?6 W4 J# l& F; @0 [5 B4 s (2) Link Eleven Display System (USN term). % G2 P3 v7 H& zLEI Low Endoatmospheric Interceptor. ( X, Z; U; X# K0 JLEIP Link Eleven Improvement Program (USN term).: ]% c0 i0 b1 ]# j' @ LEL Low Energy Laser." e7 a2 d9 U9 l |7 f LELWS Low Energy Laser Weapon System. L3 u; c& I- j: OLEM Logistics Element Manager (ILS term)." r! Y/ C% c5 z4 l9 e LEO Low Earth Orbit. + K) G* x" W C2 r1 Y2 lLETS LWIR Environment and Threat Simulation. ' o2 @- i- G* ^Level of Effort A- ]9 i+ D5 J% L6 U) h(LOE)5 m4 @! g: m; |4 p, p& {* m Effort of a general or supportive nature that does not produce definite end ! a9 ^2 B% c# ?8 \products or results, e.g. contract man-hours.0 b) g% P7 a; V9 z1 f' P+ | Leverage (1) The advantage gained by boost-phase intercept, when a single booster, z, s2 V% E! }( P+ v kill may eliminate many RVs and decoys before they are deployed. This 1 ?3 w& T" K; B3 C5 Pcould provide a favorable cost-exchange ratio for the defense and would ( G: x ?& z+ Creduce stress on later tiers of the SDS.0 L6 E) V: ]5 s/ k (2) In general, the power to act or influence to attain goals. 8 v) S& A; T* g4 V V$ b" ^LF (1) Landing Force. (2) Low Frequency. $ c0 w: s+ ~/ i0 W( v1 ^' @MDA GLOSSARY, VER. 4.0 L# c! Q. ^% ]0 q; K& m+ h* g! Q) ? 165 3 I. ^) }+ j! I) O: h2 ~ p$ X4 _LFIE Live Flight Integration Exercise. h6 v- u9 [8 M- `8 n/ J ULFOV Limited Field of View. 4 a# \5 \# `' c& P0 o" J' FLFS Loral Federal System, Gaithersburg, MD. - b) z$ s/ c3 X# [LFT&E Live Fire Test and Evaluation. . T# ]5 N6 W& B1 c1 P. ULGB Laser Guided Bomb.4 ~, i U3 s+ I) a* P LGM (1) Laser Guided Missile. # {, g9 ]* j1 Z(2) Loop Group Multiplexer.( j8 Z% v2 u( f8 `7 ^0 _; D5 R LGSM Light Ground Station Module (USA CECOM term). - D8 z4 w! q% U8 K& v. W8 SLHO Amphibious Assault Ship." j: E+ K0 a4 w Li Lithium. 1 x. c# g# I% s cLIC Low Intensity Conflict. 3 g: n; }$ Q* R' Y7 S% a! JLIDAR Light Detection and Ranging. 8 B" V; Y+ @3 j5 M1 w0 MLife Cycle (1) The total phases through which an item passes from the time it is initially ; t1 h* f. d+ q2 G) w) Cdeveloped until the time it is either consumed or disposed of as being - J* @: O7 I3 }3 p$ pexcess to all known materiel requirements.( B0 @0 [0 ?: f, R (2) (Software). All the states a software or software related product passes . g* ]$ E$ E# X3 T! m3 tthrough from its inception until it is no longer useful.7 y) D3 d; ]" u' j4 W: l$ W7 { Life-Cycle Cost6 d9 d. }5 A+ a) h0 P# W (LCC)- ?8 o9 J( x! e The total cost to the Government of acquisition and ownership of that system 0 f. }( Y7 m; Y! |% sover its useful life. It includes the cost of development, acquisition, support and,8 P# s$ i% R* n( b where applicable, disposal. ' H& s! G! }% E$ C7 yLife-Cycle 3 M) U4 I/ o ]2 ~. qManagement& u+ \; q; F+ T; e5 c Process for administering an automated information system or hardware support$ ]5 s( s6 f( {6 T" `, y system over its whole life, with emphasis on strengthening early decisions which' ]. y' I% W9 J0 b- F1 e shape costs and utility. 2 N, u/ w5 D+ j3 l2 K) z) \. F& uLife-Cycle Model A framework containing the processes, activities, and tasks involved in the9 `+ o1 B; i5 l! f0 Y- Y1 r: J development, operation, and support of the system, spanning the life of the. z# p, ~9 h5 D( q% s! j' b system from the definition of its requirements to the termination of its use. 5 I! e; u# p! ^* F" yLife Cycle of a* z- S4 ?9 H1 O1 i Weapon System- g2 K* K8 D0 o i, a7 H: ~ All phases of the system's life including research, development, test and ! C4 s6 A$ ?6 {4 E& ]% }. ?evaluation, production, deployment (inventory), operations and support, and& |9 ]" y6 Q' L4 m( G* E0 j0 U disposal. . i. k1 r" X) ]7 H8 L7 oLife Jacket The life support storage container for a Brilliant Pebbles singlet. The life jacket0 v% {' s2 F% q contains subsystems that perform power, communications, and environmental2 B- p( D& h0 G# ?* _ protection functions.& E* B& H0 f: m$ Z; B! i" h Light Detection 1 ]4 u+ \, M* Y5 W* H% B0 _and Ranging b5 c8 x, T* D6 @4 }9 | (LIDAR)! |! |: p0 L1 F+ t A precision probing instrument used to measure concentrations of different6 C5 u! z, c6 R' G7 b; u, P) e 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 Replicas2 k/ ^# Y: z3 x I8 l (LREP)! E3 j" s A% t Decoys that, by virtue of shape, closely approximate an RV’s signature with little" o; `, k: {7 y! T: S, Z4 b off-load penalty. # W% K9 o% |' ]$ U% h$ D" p; rLIMIDIS Limited Distribution. , _& Z, A- S1 F$ aMDA GLOSSARY, VER. 4.0 L + C+ P$ D" ^( Y y1668 ^& d1 J: H" O1 V4 e Limited Attack An attack on the U.S. and its allies, which provides a stressing timeline, and is2 u( D' I/ g; y! j. T geographically distinct. Not an all-out attack or mass wave.5 }( J8 X0 T/ a( Q: Y Limited Defense * v) N; P1 k# J+ [System (LDS) v8 w" N; I& N! w& \The development of systems, components, and architectures for a deployable - H, _8 \% p/ T* I2 Y eanti-ballistic missile system (as described in section 232(a)(1) of the 1991 Missile , k+ w9 [# c* [( Z# g& s" J- Y1 @Defense Act, as revised) capable of providing a highly effective defense of the7 T! U/ J* s1 b9 @5 Y; L" T United States against limited ballistic missile threats, including accidental or+ C8 _9 t+ ]/ }3 x3 N unauthorized launches or Third World attacks, but below a threshold that would ) @ i3 G* p/ Dbring into question strategic stability.: S$ Z6 G$ B* y Limited ( e8 Y& [8 k H, YOperational . Y: l( g2 E% C- R& ?8 E: `Capability (LOC) : }% L; s* f; t& o6 ]+ v9 EA point in time when the first set of sensors and weapons can be employed to/ Q" E$ U7 k; Q6 i- l7 W: i provide a limited protection system.( L5 ?/ Y5 n9 `1 b Limited & }+ s' ?2 o0 d7 H- TProduction , d! ]. S! [9 l6 o: L+ \ o0 eThe initial production of a system in limited quantity. Part of an acquisition9 s( p* b' d$ X0 d( D+ M$ n: w, b strategy to be used in test and evaluation for verification of design maturity,: n0 X1 S8 z8 p W: `* | manufacturing process final proofing, and product engineering and to verify a 6 h- T" r1 H9 h7 s$ F3 P3 K$ r* Bfactories capabilities prior to a decision to proceed with production. Decision9 A' b; t G: o+ I& r9 _2 E# Q usually made near the end of EMD or at Milestone IIIA or equivalent. (Also0 v2 Z4 e- l2 c' n4 Y D2 f called Low-Rate Initial Production or Pilot Production.)* D$ W* [+ M) C. ^ Limited Test 8 O' \. e; \' M+ vBan Treaty3 w: z n# R1 r! v5 O3 z+ t The bilateral Treaty signed and ratified by the United States and the (former)- s3 j# y" ~' F U.S.S.R. in 1963, which prohibits nuclear tests in all locations except - e) b g$ y* f" ~$ @underground, and prohibits nuclear explosions underground if they cause ; F/ F, u% f. o/ Yradioactive debris to be present outside the territorial limits of the state under : o: H. q$ W( G. s7 q' W: T9 Owhose jurisdiction or control the test would be conducted. 6 M9 O8 p7 I% a+ b/ C( ELIN Line Item Number. $ G0 q8 T7 _" x2 }' R- Z, MLinac Linear Accelerator. ' @% L* H& w2 U7 fLine Item " l9 J5 E7 [, I3 {. W% ^(Budget)# N6 U, c2 S o A specific program end item with its own identity (e.g., B-1B Bomber). 6 o! j' T. h# a! S, ?Line of Sight+ p N4 Y* B2 [+ [( ^: e! |5 A! f (LOS) 9 }/ M8 e' Z& I0 \7 j$ q% P$ FThe line from sensor to target necessary for the commencement of the detection,9 [+ f5 f& ^3 k% K! T# b6 V+ t acquisition, track, and identification of a target.! q1 p7 ~) Z. S+ x( X9 D; } Line Replaceable" o# e" f7 u! S$ g/ X' q8 Z. e Unit (LRU) 7 P5 p8 G5 V, D, i) B! _. cAn essential support item removed and replaced at field level to restore end item- l/ ], i% A: C( }+ w to an operationally ready condition. (Also called Weapon Replacement / a% d; O, q/ g" n! r4 Z1 EAssembly and Module Replaceable Unit).. f, p. q8 D4 @ Z Link-16 TADIL-J.8 C- R9 K1 v6 S- L/ _5 I6 F Link Quality 2 X6 v- P3 T8 G4 UEvaluation . e. ?- W/ j j. eThis testing of links to create bit error estimates and monitors natural or induced' I+ G! Q) k" e; y link interference. + ^: n7 b" S0 i8 | HLIP Lethality Improvement Plan.1 G/ x/ Y( x9 h" N/ ~ Liquid Fuel7 ? ]3 E& I8 i% G4 e- d; B Booster (LFB) ; q9 H% w: e& N4 `Target booster being developed to mate with current reentry vehicles and - O7 A4 a3 g9 L+ G8 k, H Temulate the short/medium range threat. . w/ W# c$ P. _! {LIS Laser Isotope Separation.' C% E% q9 X- y; ^. Z LITINT Literature Intelligence.$ \: E- m& \2 D$ y2 X MDA GLOSSARY, VER. 4.0 L* w8 {! f; P9 c2 P% q8 \ 167 ) K& T. C# a' Y' u/ E2 HLive Fire Test9 |0 l2 o* L4 s+ y% l: V And Evaluation. ]5 M5 B2 \& }5 W6 ` (LFT&E)7 h( q U& c/ ~/ z' t Survivability testing and lethality testing required before full-scale production. . c' X; {2 e2 b4 O7 l, DMust be conducted on ACAT I and II programs for: (a) A covered system (a ) z; Z5 l0 ~: iconventional weapon system designed to provide some degree of protection to# k) n- ~5 o& b" H' M the user in combat); (b) a major munition or missile program; (c) a product V0 Y& A0 ~8 G improvement program that will significantly affect the survivability of a covered1 f4 D1 O+ R5 I) ?* L system./ n' Q$ f. X' u( R* U LIVEX Live Exercise. 9 j- x& p# c) n. d! J1 K8 I* dLIWA Land Information Warfare Activity. - o6 e$ a6 @" ~9 o1 _% o4 mLJ Life Jacket (BE term). / v4 y2 {" e5 g! v6 c. s+ mLL (1) Lincoln Laboratory, Lexington, MA.& C _6 O: t1 a( U* b5 x& l+ k! X. E (2) Legislative Liaison. 2 |3 e" P6 ^1 G$ u& uLLM Long Lead Material.& E+ Q8 c) K/ |7 R- x! x/ `+ r LLNL Lawrence Livermore National Laboratory, Livermore, CA.) L5 Q% o. Q2 W0 x$ R# ~- g LLTIL Long-Lead-Time Items List (ILS term). / B& w7 u( P* PLLUM Low background LWIR Uniform Mercury Cadmium Teloride (HgCdTe). + x$ X$ D! q& JLM (1) Lockheed Martin, a defense industry contractor.4 `3 z1 j4 l/ x3 k3 v (2) Logistics Manager (ILS term).

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LM/GES Lockheed Martin/Government Electronic Systems. 7 C. g. u4 L' e& ]LMA Lockheed Martin Astronautics, a defense industry contractor. " l. p0 ~3 C* FLMANS Lockheed Martin Aeronautic and Naval Systems.8 d9 N( v- P6 l( ]* X3 h LMC Late Midcourse. : b! y6 E/ Z5 e, t. r) _LMFBR Liquid-Metal Fast Breeder Reactor. * E! u( f& \+ b* y; D: \LMIS Logistics Management Information System.' \5 M- b8 ]$ a% d LNA Low Noise Amplifier. , x$ ^# `3 p% N9 oLNC Local Network Controller. $ m# N3 t3 B) S4 V" RLNE Low Noise Exciter (Electronics Engineering term).5 }9 P9 y1 x0 m0 j5 i LNO Liaison Officer. 6 v. B) U8 v" m$ r) G7 dLO (1) Local Oscillator (Electronics Engineering term)." j4 C+ c C# D. V8 m$ @7 ]5 Y (2) Low Observables (LODE-related term). 1 K: d0 `' r/ y | q; q% cLOA Letter of Agreement.& c# }3 c3 w* L: c7 B8 Q LOAD Low Altitude Defense.6 A7 {5 b2 n& s% ?2 I1 T) G9 n( g LOC (1) Lines of Communication. 5 b0 g) d3 G5 s9 H O4 L& N(2) Lines of Code. 2 S0 D* G1 B- K( ]+ {2 g(3) Limited Operational Capability.4 j0 m$ I5 X! F/ d& E7 P MDA GLOSSARY, VER. 4.0 L' l4 A$ ?4 e7 D- v( B 168 0 R7 l4 p. R" W/ D, m8 S, ~LOCAAS Low Cost Autonomous Attack System (USAF term). 8 ~$ z6 A. Y# q( s( o4 I5 f7 zLocal * b/ H: x9 i y9 }1 u$ B0 V m; \$ H- cAssessment of ( j) A9 U: k U/ mEngagement. I. u: Y8 p! @8 ` L+ ] The assessment of an engagement by high-resolution fire control sensors.( a% ?' c2 U0 k8 w Local ' J4 \; c8 |( [0 n8 CEnvironment y! @( n; A: b9 P The ISTC Local Environment contained within each node simulates the element7 K) ~$ t) `- b% B, f" R* B* y to the degree necessary to generate a realistic input to the Element Processor of : C) a9 G+ w( Z3 ?Element Processor Emulation and provide a realistic response to the Element" G/ a! l4 P5 d Processor or Element Processor Emulation. 0 z: ~+ g" e, m, m; N2 pLock On Signifies that a tracking or target-seeking system is continuously and2 u4 Z% A3 f; m/ e6 F, C b automatically tracking a target in one or more coordinates (e.g., range, bearing, . n# K. }" I# m; p# x9 Relevation)., L& f# E- C) |" I4 J, Z$ w LODE Laser Optics Demonstration Experiment. 1 p' h" U; x9 q( A% S3 t2 Z' lLODTM Large Optics Diamond Turning Machine.. h9 s7 G& S; E+ I8 G- J LOE (1) Level of Effort. (2) Letter of Evaluation (AF).9 _( r9 E: F6 f* b } LOF Lifejacket Orbital Flight (BE term). . |/ O% z7 l- v9 c2 FLofted Trajectory Trajectory with an apogee greater than the minimum-energy trajectory to the / ~8 k( D, w! @* `7 S7 [same range. 5 ^: g. o, K$ Y+ q( O4 u; nLOG Logistics.! g6 c; [. W; t) p9 a LOG.WIPT Logistics Working-level IPT/ k8 o- Y0 D7 {: S LOGAM II Logistics Analysis Model II. 7 v& s$ C6 u. H3 ~; b QLOGFAC Logistics Feasibility Analysis Capability. ( ]3 ~. ^* a6 nLOGFOR Logistics Force.) b# k3 _4 q. v Logistics The science of planning and carrying out the movement and maintenance of , C( w4 _6 Y- w$ @9 i6 X( e* rforces. In its most comprehensive sense, it includes those aspects of military 6 R/ n0 A% D! H8 [ b# moperations which deal with: (1) design and development, acquisition, storage, o6 K @ s( Q6 J5 omovement, distribution, maintenance, evacuation, and disposition of materials; ; T( }2 f4 O, @/ O6 Z4 T3 ^* V(2) movement, evacuation, and hospitalization of personnel; (3) acquisition or/ p" H! p# c1 r# q, H construction, maintenance, operation, and disposition of facilities; and (4) # \3 Y$ s; E% t9 W! x' n- Xacquisition or furnishing of services.2 C! Z& d% w3 A. \2 e Logistics Support The supply and maintenance of materiel essential to proper operation of a- x6 l; ]6 B* e/ }9 r system in the force.- \) D q1 K% Q) ] Logistics: t' o1 U8 g2 {, y1 C Supportability . }8 r* T& a# v' F3 |The degree to which planned logistics support (including test, measurement, and, h5 }- S9 J- L% s diagnostic equipment; spares and repair parts; technical data; support facilities; 7 f' O. d* y+ u, g! F* W/ Utransportation requirements; training; manpower; and software support) allow 5 g' i# L3 W+ bmeeting system availability and wartime usage requirements. $ }$ j6 r! s5 Q) eMDA GLOSSARY, VER. 4.0 L . ]) p, b. P9 T169 + ^& }* d# i5 J! Y* n9 K. s, B) WLogistics+ h; M7 Z. e: I" z6 u Support Analysis7 @! \: o; \7 C: @+ n- \8 ?* b (LSA) 6 ~/ L+ X/ S+ x+ h a9 \! v0 dThe selective application of scientific and engineering efforts undertaken during % I& |2 F) U, othe acquisition process, as part of the systems engineering process, to assist in:, F3 F' @1 b3 y( |4 f; b causing support considerations to influence design; defining support0 G+ n, r3 j# e7 w- u requirements that are related optimally to design and to each other; acquiring& t) f1 b, U0 k+ {: F% I0 f the required support; and providing the required support during the operational ) w1 I8 O, }( r7 _0 H% L& dphase at minimum cost.# A/ n5 G9 {: T3 k7 n; V" ? Logistics Support N6 z* [# P% O- F! W2 eAnalysis Record w' w# ]* C, _ (LSAR) ; v" a; o. D1 m+ ?. t3 @A formal tool under MIL-STD 1388-2A that uses records/forms to document* F2 V" C/ s7 s: F0 ^3 V: R2 B, F operations and maintenance requirements, RAM, task analyses, technical data, 5 H8 e, @% I0 H2 C4 psupport/test equipment, facilities, skill evaluation, supply support, ATE and TPS, ' `& ^# F9 n2 b7 Zand transportability. LSAR is the basis for training, personnel, supply* F. J2 B3 e, t% ^ provisioning and allowances construction, support equipment acquisition, 1 ^$ |! s8 t6 Z6 x5 G' yfacilities construction and preparation, and for maintenance. {- y, }) U" \- vLOGPLAN Logistics Plan.$ d0 D" @* m/ N% X' b" b) X LOGSIM Logistics Simulation Model. t8 M0 ?, z* v LOI (1) Letter of Instruction. (2) Letter of Intent.% b% B) Z% Z, K0 N- b LOMEZ Low Altitude Missile Engagement Zone.+ f+ O, q# _2 l% C Long Lead Items * w9 v- a9 p8 h d' aLong Range Air # Z8 c; s4 k uLaunched Target0 E! h5 v. w; F9 J (LRALT) " Q, c3 }0 ?: e' E' O! Y6 k4 I4 YThose components of a system for which the times to design and fabricate are * Y/ H. m9 K2 x0 ythe longest, and, therefore, to which an early commitment of funds may be4 i3 M1 j5 M4 R6 B- _ desirable in order to meet the earliest possible date of system completion.! T0 @% o1 N4 ]. y( D Two-stage, air launched ballistic missile target being developed for MBRV-4.5 x! Z* i' v. o; N Long Wavelength& ]$ p5 K4 I {& k2 U' y c& d, @ Infrared (LWIR)1 z# Q- g, c2 ~9 Q% L( ^ Thermal radiation emitted by a source in the electromagnetic spectrum6 F% [6 x( U) I8 q5 ~# t encompassing infrared wavelengths of 6 to 30 microns.# ]7 s! J- U5 s- a7 f7 f' K LOR Level of Repair Analysis (ILS term).1 r( n# a2 {* ^# o) j* J/ E' V LORA Level of Repair Analysis (ILS term). 9 R( ]3 Z+ r( _/ s yLOS (1) Line of Sight. (2) Large Optical Segment. ) d* O+ o1 I) R$ {- jLOTS Logistics Over-The-Shore.+ z) l/ e, n+ Y* L5 l$ J8 K: I LOW Launch on Warning.

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Low Altitude/ S/ a- v# R8 E5 |6 h, j& e* V Demonstration & \% f( C9 }, Q8 p7 ~System (LADS) & ]: m) _2 }4 I2 K# `( J5 p# UPart of the SBIRS Low Program Definition and Risk Reduction (PDRR) program . A# q* R2 ?. z7 Vphase. The LADS will consist of a flight experiment and extensive ground$ d. Z6 d+ f+ M# j demonstrations by Boeing North American. The LADS flight experiment will be p+ G9 `$ k; j' N* O2 R launched in late FY99 to demonstrate the sensor performance of a SBIRS Low# a+ A' v! S$ Z. o% d concept and collect phenomenology data. l4 j* ~1 v8 z7 P1 Y Low Earth Orbit% S" t; P( f, O7 u* Y (LEO) ]$ ` g8 `% X These satellites are at altitudes between 100 and 400 nautical miles. They) C E+ Y _4 e7 ^9 r4 E have short duration revolutions (about 90 minutes), short visibility envelopes (2.5 ' Z: q: ?% P2 p+ s3 Q+ ]minutes up to 10 minutes over a tracking station), short life spans, and are most 2 ~4 v. l1 j8 e3 f& @: i. isubject to orbital perturbations due to atmospheric drag and earth gravitational3 d4 W0 `3 E1 K8 P* o anomalies.$ a) y8 }% _; B# x F Low: u9 l& p: w' A' r Endoatmosphere) V% y8 B1 D: H9 |' ]" a: m/ ]8 M That portion of the earth's atmosphere, generally below 40 km altitude. \8 ^5 b* V2 D: M# r MDA GLOSSARY, VER. 4.0 L Q6 h! ]9 H0 X! }: E1701 }2 j1 z( U$ n1 k/ K% e7 F' E Low-Rate Initial9 h; N0 S2 b: w! u7 m Production (LRIP) . H2 D$ V7 U2 @& IThe production of a system in limited quantity to provide articles for operational; V0 s& u" k; m& w- }8 @ test and evaluation, to establish an initial production base, and to permit an1 s3 C% X: O! o/ g1 x8 w( [ orderly increase in the production rate sufficient to lead to full-rate production , Y& Y% @# F: z. Lupon successful completion of operational testing." b. h+ v& _/ D2 p/ r* ^) J LOWKATRER Low Weight Kinetic Energy Active Tracker. % S6 L8 p& L: HLOWTRAN Atmospheric and Interstellar Background Signature Model.3 w9 M! p2 e& |8 g- I. t' h5 l) ? LPAR Large Phased Array Radar.$ H( @1 P: O1 g( k2 o9 u, U LPD Low Probability of Detection. 9 e0 `7 R0 i* U1 nLPE (1) Liquid Phase Epitaxy. 5 E" J2 {7 a }# Z4 a7 S3 B(2) Launch Point Estimate.. g$ \. o. e7 w; ~ LPI Low Probability of Intercept.! A) [% f5 P* K V9 u LPS Limited Protection System.$ x2 _: B& l! p- t1 l, o" Z' _ LR Long Range.) Y1 m4 e: V' X8 p; ]: P5 T LRA (1) Line-Replaceable Assembly. (2) Launch and Recovery Element. # R1 W0 D6 i3 v. _' Z V# ILRB Liquid Rocket Booster. & m1 I5 Q% U* O, H5 `: KLRC Lewis Research Center, Cleveland, OH. 1 l* w( Z' }: g8 Z& F/ RLRE (1) Latest Revise Estimate. (2) Launch and Recovery Element. " _* B7 n4 s& z& t7 ~LREP Light Replicas.# Q' }8 J, a, G! R LRF Laser Range Finder.; H* }: v, T( \$ F1 o5 v! w$ c* X LRINF Longer Range Intermediate Nuclear Forces. ! ~/ z9 c& k* X4 _' B/ J7 ~LRIP See Low-Rate Initial Production.3 ]; v( B4 R' {7 o: W8 h6 X$ | LRIP-OT Low Rate Initial Production – Operational Testing.6 a" [2 `: _ M/ h' R. g0 z LRTBM Long Range TBM. ) p, t& c: F9 cLRTNF Long-range Theater Nuclear Force.* x/ F Z& B' f& i' j LRU (1) Line Replaceable Units. (2) Line Replacement Units. c$ P% ?, ?) o5 E6 A" I7 {. WLS Launching Stations (PATRIOT). 5 ~: s8 |0 b+ G+ D) z% C$ i% j9 `LSA Logistics Support Analysis.+ q9 g! y4 h3 Y$ _4 l+ ]; G, P LSAP Logistics Support Analysis Program. 0 d7 H/ x- u0 z- m, OLSAR Logistics Support Analysis Record. x7 G8 T' b9 A; V' b LSART LSA Review Team (ILS term). / u: Z3 d" O$ K# k2 wLSAT Laser Satellite.* Y; z( z8 ?( s7 c4 h+ d' w: K MDA GLOSSARY, VER. 4.0 L ! J# j7 ~ D ]+ c' ^# ^171 - y) @- _* Y0 bLSAWG LSA Working Group. / Q5 C$ _8 }' j1 R" KLSE Lifetime Support Engineering (ILS term).$ n3 @+ X% X; A; i$ m1 e. Q LSEA Lifetime Support Engineering Activity (ILS term)./ _' p; L4 I4 e% o LSI Large Scale Integration (circuits). - L$ [, a# \3 H6 nLSRS Loral Space and Range Systems, Sunnyvale, CA.( A4 h- R b: i5 j) C/ ? LST (1) Laser Spot Tracker. (2) Landing Ship, Tank.! u; I! j; j j9 b# Y: Q( } LSTS Launcher Station Test Site. : O B9 f8 x- U1 e. rLTA Lead Time Analysis. ( [' S5 S; d- ^' V: Z% u) `LTBT Limited Test Ban Treaty. 5 ^) u8 [8 k* `8 s9 j: n' SLTD Laser Target Designator.' T) |1 x7 S. k+ Q; N6 C' I/ l LTH Lethality and Target Hardening. p5 }4 _1 |% I6 FLTS Low Temperature Superconductor% C: y7 |$ W5 H, p LTV Launch Test Vehicle. / F4 l% x1 u) R0 CLU Launch and Update. 4 K+ q/ |1 V8 r# c! aLUA Launch Under Attack. ( _, m7 h& H$ p. P$ P( [' uLUP Limited U.S. Protection. 1 ]/ J+ A% G* I+ H X' lLUT Limited User Test.( G; O1 F+ s5 r LUT/OA Limited User Test/Operational Assessment./ r- o+ R. p% p1 `) Y' Q$ f LVS Loral Vought Systems, a defense industry contractor.& s6 Z6 M% F: L LVT Low Volume Terminal (USN/NATO/Telecomm term). 5 V% d1 u* D5 o/ @8 PLW Laser Weapons. 8 @8 G3 H* N. @+ K# ~LWAN Local Wide Area Net.6 W- Y! F/ D% d LWIR See Long Wavelength Infrared. F: }5 _5 r: oLWIR FPA (PET) Long Wavelength Infrared Focal Plane Array (Pilot-line Experiment Technology).) }. z9 y% I5 |, ?; [( z LYTBT Low-Yield Threshold Test Ban Treaty.1 {4 S% i) U6 R; b LZ Landing Zone.

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MDA GLOSSARY, VER. 4.0 M: A8 {- y( Z, u* N 173% _ l+ P2 w6 R m (1) Meter. (2) Minute. 0 @ z( W7 W8 }7 V- u" q$ s: C. YM (1) Model. (2) Million. (3) Mega. / t. r5 z6 R; d' [' t% RM&LC Missile and Launch Control.2 H; P/ V6 o2 }8 h( } M&P Manpower and Personnel. & ]- T. {5 b PM&S (1) Materials and Structures. (2) Modeling and Simulation. 4 P, A3 C/ a# x! n6 c" OM-T-M Model – Test – Model. ' X/ {8 Y+ n0 O; m2 e2 OM/LWIR Medium/Long Wavelength Infrared.: w7 \: E8 K# D- Z7 u M/P Manpower/Personnel.6 A2 A5 T+ O( m( j; F MAA Mission Area Analysis.' u1 u+ c$ A, Z- ]& h MAAG Military Assistance Advisory Group.2 P' J% h6 V% B4 S' W0 x! r( {7 u& R MAB Missile Assembly Building. 9 ]+ `% V; a/ `2 _0 E; K( ?MAC (1) OBSOLETE. Military Airlift Command. See AMC./ \! h0 F6 ^$ i% ?( A (2) Maintenance Allocation Chart. 1 f; q; b# ?0 |" [* N- F8 } YMACCK Multi-Application Command and Control Kit (GD term for IVIS follow-on). & W0 V6 C+ Z) G. a0 `' pMACCS Marine Corps Air Command and Control System.2 I+ B; i% ^* b# r! J6 e MACOM Major Army Command.) ~2 L, d! n+ u- d8 _( w4 J3 Y; R MAD (1) Mission Area Deficiency. (2) Mutually Assured Destruction." z, i# Q! p, N, v) d7 b# P, j MADCAP Mosaic Array Data Compression and Analysis Program. l! \ e* J7 M, j. g9 z& IMADS Modified Air Defense System.: E5 K3 [; g6 [2 V: J N+ n4 y( N MAE Medium Altitude Endurance.3 {' _! x) B, z8 p MAGTF Marine Air-Ground Task Force. / g9 ]6 ` a: k; x, ~9 ZMain Beam The primary directional EMR emitted from radar transmitters.) H' M) Z5 p6 x0 T Maintainer An individual responsible for retaining the major defense system in or restoring it " p$ V! n9 b; c" M9 W5 \to a specified condition. Maintenance activities include inspection, testing," O- Y( L; V( f- @, }" i2 F' a* n servicing, classification as to serviceability, repair, rebuilding, and reclamation. 2 A- y3 Y7 K; o6 oMaintenance9 I. t! s8 U# Q# g) J Concept/Plan( S- r; B N* T0 c# h A description of maintenance considerations and constraints for " T* X+ f. h& m2 c+ S( @; A( zsystem/equipment under development. A preliminary maintenance concept is+ u* L6 n6 g# b developed and submitted as part of the preliminary system operational concept 3 Y; v) U: N* G8 A# T; Wfor each alternative solution candidate by the operating command with the / @& k1 @: X$ ]5 f0 A+ n' h Q' passistance of the implementing and supporting commands. A major driver in2 N3 [# d8 y; G9 A! E+ i6 K design of the system/equipment and support planned for it.* q) g) Y5 U9 R0 L MDA GLOSSARY, VER. 4.0 M 6 H; K, G8 c1 R f; T; n. [6 W174% z) I2 @9 l5 I1 E) r' z; `" x Maintenance+ N4 D0 s+ H" Y/ F Operations 5 L4 Y2 W) P0 t( }$ H/ L0 b( MThe corrective and preventive maintenance operations that do not require a7 a0 C3 f3 S' P. \ deployment decision; it includes correction and subsequent validation testing 7 ~% B& J6 s: x7 B- a2 D7 xand the update of relevant status configuration, maintenance, and inventory0 c j9 \! `% j, z" T, c databases.4 E6 k. M3 {& \ a" p1 n) ^ Maintenance # p3 d7 S; S" b) b" |Planning% \8 p' f- M: R2 Q& p The process conducted to evolve and establish maintenance concepts and 7 b J3 X/ K: }1 X% prequirements for the lifetime of a material system; one of the principal elements ! {# C* e }' Y6 {of ILS.; A+ u: ?, J8 p4 F MAIS Mobile Automated Instrumentation Suite (USA term).2 N4 u x* ~" K8 S4 L MAISRC Major Automated Information System Review Council , l- O+ {/ b2 U, GMAJCOM Major Command (USAF).( d" @/ q8 E3 y Major Automated0 ~+ E# y+ {3 l5 m Information- t$ w* |' Z1 U U4 a System Review2 @, k/ \+ O }$ h8 l9 B. j. B- t- `7 D Council (MAISRC)8 H: ]% \4 a& M1 y+ U The Senior DoD information management acquisition review board chaired by$ ]. X; U2 i1 \! G# Q the Assistant Secretary of Defense for Command, Control, Communication, and1 C1 x! b! R; N$ w. l Intelligence. See DoD Directive 8120.2.

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Major Defense, y7 K1 _) ~! v; W" O Acquisition % ?( v7 h: P2 @5 `Program* t" X7 ?- G7 B' }( J An acquisition program that is not a highly sensitive classified program (as f4 P" U M2 _/ I" ]; {# k* }determined by the Secretary of Defense) and that is:3 l5 D) }/ S2 G# I7 ~$ w 1. Designated by the Under Secretary of Defense for Acquisition and s) W: M/ o- Q. H: G9 w9 m. L) u Technology as a major defense acquisition program, or0 K8 l j7 j. T 2. Estimated by the Under Secretary of Defense for Acquisition and Technology. ^4 x: w# ]' F9 v to require: 2 f0 y3 L* i a0 Oa) An eventual total expenditure for research, development, test, and6 [2 e* d, r$ a* h* g6 n evaluation of more than $200 million in fiscal year 1980 constant8 ?# Q' {, q, H# v3 u0 i8 v dollars (approximately $300 million in fiscal year 1990 constant" o. p: `8 b7 u- G! o: m: A dollars), or; f5 ~4 a% I: u; W b) An eventual total expenditure for procurement of more than $1 billion' ?6 \- y( p" P) v in fiscal year 1980 constant dollars (approximately $1.8 billion in fiscal 1 G! J. O) o* V5 h( J5 Ayear 1990 constant dollars). 4 H0 i/ W+ O- R C4 u0 GMajor' E! c! z) r& d3 U Modification ) C/ N1 `5 b& c# F8 [2 wA modification that in and of itself meets the criteria of acquisition category I or II . X2 n- N* Z" Z1 Mor is designated as such by the milestone decision authority. Major modifications 8 a: s- R4 a+ o: e, Urequire a Milestone IV decision unless the decision to modify results from one of 3 s7 C. n' J9 }0 s7 athe alternatives considered as part of the Milestone I decision process.. o7 z1 d" ~0 T Upgrades are part of the Milestone 0 decision process.2 b0 l& X& ?- d2 i Major System A combination of elements that will function together to produce the capabilities 7 p3 [& n2 A8 E% @3 H" Xrequired to fulfill a mission need, including hardware, equipment, software, or any, D- E3 L n1 `7 a' H! {/ R8 ^ combination thereof, but excluding construction or other improvements to real; i, _# N6 b, g% K0 Y! O6 G property. A system shall be considered a major system if it is estimated by the1 q0 i+ j# R7 }' o Under Secretary of Defense for Acquisition and Technology to require: 4 a# P( L$ b; D! a' ?6 T2 g1. An eventual total expenditure for research, development, test, and8 z# a8 A3 H) ^; J$ L! K2 P evaluation of more than $75,000,000 in fiscal year 1980 constant dollars0 u# ? k6 B4 _$ d0 j3 ^# U (approximately $115,000,000 in fiscal year 1990 constant dollars), or# J9 Q1 K, s. }7 b 2. An eventual total expenditure for procurement of more than $300,000,000 in/ k0 g" Z# U3 z4 f( ^/ h4 n fiscal year 1980 constant dollars (approximately $540,000,000 in fiscal year0 Q1 Z. _) B/ y- |+ N9 ` 1990 constant dollars). % G" a0 G! i# gMAM Maintenance Assist Modules. |5 J. t e+ @5 F2 r" u: \! YMAMDT Mean Active Maintenance Downtime (ILS term). _9 q. d: Q0 k' _8 l9 lMDA GLOSSARY, VER. 4.0 M) c4 Z" X- U" B0 E/ \ 1752 c- g n/ C* i3 h# N/ E) s Mandatory" I! \7 H S! L: l" `0 V o Access Control! p; R) ? P2 p o2 t. V A means of restricting access to objects based on the sensitivity (as represented + j/ c1 [* X0 _# r9 `! Gby a label) of the information contained in the objects and the formal 2 v; @& y9 F% F+ p2 v* r. e1 Jauthorization of subjects to access information of such sensitivity. * M* K1 h9 a* Q% ^7 A6 U9 GManeuverable# o7 R% ~& B. H0 Q' b Reentry Vehicle, `# ~9 \8 `) T& G+ ^5 ~" m1 Z( O" b (MARV)8 c F0 m: _! L# G! ~ A reentry vehicle capable of performing preplanned flight maneuvers during the 7 `/ `6 o* W9 c* greentry phase. The reentry vehicles deploy fins or other aerodynamic surfaces7 S* ~* X# C+ M) E6 n5 _6 D: v when they enter the atmosphere, allowing them to turn and dodge rather than , w8 L9 w7 r }& L9 bfall ballistically. They have no ability to maneuver in space.! ], x- {' E9 H1 [- W( |: K) r MANPER Manpower and Personnel ILS term). c9 Q, j! d' T$ @, xManpower* c0 E$ v! \, _, ^4 o* u Authorizations 8 k- T( u. L# ~ [4 fThe billets in the manpower requirements structure that are planned to be filled.% R& l0 P- H0 O* D- \ Manpower 2 v) X( v9 m+ p5 cEstimate Report ( h6 E( t( D. q& m+ k9 F8 D4 W(MER)" u D/ ^" u5 E7 j) M6 ?( J1 l; Z& \2 { An estimate of the number of personnel who will operate, maintain, support, and$ ~$ m$ J' ?4 W' @- X) F train for the acquisition upon full operational deployment. The Services prepared 3 h& K& e6 R% m5 h$ x8 p0 Mthe estimates, and the SECDEF submits them to Congress 30 days prior to. T& k5 P$ i- z4 {4 Z/ y approval for EMD or production. % e/ d% k! u6 O$ v# y: B: b! qManpower, 7 b$ S( |' c6 G$ pPersonnel, 1 h s) P5 H% R9 x' WTraining, and) \' _9 O7 j$ x1 }/ z9 l: X/ R, v- r% K Safety (MPTS) X3 x' X( s, Q' t$ H( a8 ?The human dimension of the complete defense weapon system. The term - j) q/ h' a/ b) ?$ b3 ?" Q0 ^MPTS also encompasses the concepts and disciplines of human factors. Q+ ?$ M1 z# k: | engineering and health hazard prevention.) y8 T8 N1 N# m6 W" w. p4 \ Manpower, 3 W9 T: a3 q$ [+ ]Personnel, ! Z I$ |8 C% O: Z0 g4 m( F6 MTraining, and+ e" Y( l* v3 H* D$ j Safety (MPTS) ! Y7 B% z' g' G% SProfiles2 W9 M8 B! K; S4 w/ D2 S9 A A description of human dimensions and constraints involving a major system; i/ m: Y* m1 T& { X* P throughout the system life cycle. This includes, but is not limited to, descriptions & }* S% f& W3 c8 t8 V Hand categorizations of occupations, aptitudes, individual skills and$ e) ~- {: Y$ v demographics, training system characteristics and components, potential system( p4 A8 T( [1 y2 k+ ^1 x. E hazards, and other issues affecting the performance and welfare of operators,. Q- v. d+ l; T, I, r4 G maintainers, and personnel that support existing, modified or new systems. 9 O2 Q" k$ n' a& V# `/ u+ FMANPRINT Manpower and Personnel Integration (US Army).: e& b# J- I6 u2 ^# d. @9 H MANTECH Manufacturing Technology." A( n) P9 d9 O. I- M Manufacturing (or / Z1 m7 o. T( g2 e/ lProduction)9 C1 p6 P" C- E; C1 B Engineering* s1 w7 d) E! \ Pre-production planning and operation analysis applied to specific product / f) j0 u) T. d$ Z+ rdesigns. The functions of planning, specifying, and coordinating the application - X* F; V P7 ~2 s5 M) x: wof required factory resources including: performing analyses of production , `8 }) @, t9 E, A4 z9 f loperations, processes, and systems; applying new manufacturing methods, }) Q0 D* g3 v tooling, and equipment; controlling the introduction of engineering changes, and $ v" R: @$ h |4 E: zemploying cost control and quality techniques from the factory viewpoint." X4 Q+ Y1 u0 ^; D' Z# o Manufacturing ) G5 n# Z9 q( h) A$ I6 ^) UOperations, ; q% j& G) J/ d5 Q- zDevelopment, 4 Z% u Y1 J- e- r- |and Integration # ^6 O# p" I- u- `2 WLaboratory5 M+ l" e9 ?1 F2 C: I `4 S (MODIL)$ [; K* f+ ?# K3 W An SDS-peculiar integration mechanism to link product technology development" A5 ]: }3 d1 I6 ~ concurrently with manufacturing process and control development for a costreducing effective SDS development.- z* X8 h9 O) Z; K+ g1 V* S Manufacturing # h. E5 M% t6 }% c$ t6 k bTechnology ! g" y' \" j( {" I9 i(MANTECH) 8 e5 D4 c0 F ^* [& m$ p0 OManufacturing technology refers to any action which has as its objective the 6 }* _ v9 m5 Gtimely establishment or improvement of the manufacturing processes, . E0 d; A8 r V1 T. X; ]techniques, or equipment required to support current and projected programs,! U. s! Y( @3 J: r& b and the assurance of the ability to produce, reduce lead time, ensure economic , Y$ j2 e" t- ?! j% d: eavailability of end items, reduce costs, increase efficiency, improve reliability, or to $ f3 F5 E" w- ~* f% r! u/ ~# zenhance safety and anti-pollution measures. MANTECH, per se, is the specific ! {* [# f7 b4 Z+ W% T0 p1 BDoD program in this area. + R. }# I3 A+ |; s- { C4 GMDA GLOSSARY, VER. 4.0 M " {" X9 c& p1 f0 k2 r. m" l, A# J176/ [! d5 P5 {+ r3 b9 T MAOC Modular Air Operations Center (JFACC term).$ v. H% q `' W MAOPR Minimum Acceptable Operational Performance Requirements. ' ?8 I% V* v+ ?# n/ f$ w+ `( yMAP Minimum Acquisition Program.' }* f- M3 _4 a" E4 z MAR Monthly Assessment Report (BMDO/POC term). : ]3 O9 b) G7 A0 ^$ P- v7 a3 AMARCO Marine Corps.

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Marine Air * B/ [ a3 {/ Q1 Q3 ECommand and 1 W+ j; s/ \( f: M8 CControl System' [0 s4 h! M$ F0 K6 C$ ]9 O A US Marine Corps tactical air command and control system that provides the7 y* U+ l2 m+ E! w* F tactical air commander with the means to command, coordinate, and control all) Y& V" p4 o' [, K air operations within an assigned sector and to coordinate air operations with ! R2 B' M/ Y, Rother Services. It is composed of command and control agencies with 5 Q& {0 b; ]& Acommunications-electronics equipment that incorporates a capability from manual ! T/ d2 }- ]+ z* H5 y' ~through semiautomatic control. 4 d, E ^0 a3 a& i& oMark/Markup Line by line review and approval/disapproval/modification of the defense budget5 h# J: d8 }4 | by congressional committees.' S( Z! g1 _- t MARS Multi-warfare Assessment and Research System.8 r& G& g5 N* x) v MARSYSCOM US Marine Corps Systems Command, Quantico, VA ) l+ x5 O5 I; e4 r8 \MARV Maneuverable Reentry Vehicle. 8 a Z. r1 l4 @9 WMARVIS Mid-Apogee Reentry Vehicle Intercept System. . s6 `6 M. [0 r( f1 ?) ~ @MAS Mutual Assured Survival.% @* }. H2 r4 {5 X% R1 d6 p2 q2 S MASINT Measurement and Signature Intelligence.; ^% |) n5 M- C7 a: Z+ K, w h MASPAR Massive Parallel Processors (TMD-GBR). # b: ~! G$ _) N6 s1 @& ~2 C$ x/ CMass Raid Many Red ballistic missiles launched toward CONUS from several launch areas. - w+ j5 L- Q& W0 ]9 F& b2 {/ e; Y, aA mass ASAT raid consists of several ASATs attacking Blue satellites.& W8 {$ h9 `7 G MAST Measurement and Simulation Technology-formerly Synthetic Scene Generation. V3 p$ T4 b' E! f9 ^ Model (SSGM). 1 w# u8 h+ X8 W. Y4 xMatching 6 d% `. r. t3 ~7 ABallistic Reentry l/ l. ?: |" \/ y Vehicle (MBRV)# V! B& \1 `, [$ g' H Four reentry vehicle designs (MBRV 1-4) developed to serve as threat W' W8 ^* c6 ?( E, y0 Q representative theater targets. . _% Q. y5 ]8 p! pMatching Target/ v `) h, e3 x3 I+ e Reentry Vehicle : R: }: R2 @: P(MTRV)% C* @/ p% l1 Z" X1 g, m Threat representative reentry vehicle developed for GMD Program by Sandia! C1 H- |- A5 k& k' o Labs. Planned for use on IFT 9-14. 7 f* b; i; T* t4 B$ JMaterial Fielding , o6 \* ]3 E2 R8 _+ E" V& y. NPlan " J9 O" @: p! l% J7 d: aPlan to ensure smooth transition of system from developer to user., M# i7 P, H$ r5 w3 e' n6 v* ~; n) k Materials 6 f4 W3 N" _( T4 v2 @Science v* \& K4 ^1 J1 t5 e) L; `! ^ The science of developing/altering and applying materials to obtain a resultant # G9 d1 M. D3 }molecular structure with desirable physical properties and performance 4 s2 l( {" X' zcharacteristics. (See Structures.) Also includes applying state-of-the-art 8 O2 a! K) b @/ ?. j! A+ Dadvanced materials in the design of new SDS components and end items.$ m% K) z- z7 n5 G3 g% Z( R5 d/ {' W MATHSFA Manufacturing and Testing of LWIR Hardened Seeker FPA Assemblies./ R' ~8 Z t% p3 P4 t# i$ w3 M MDA GLOSSARY, VER. 4.0 M- M g6 C) T+ y: U 177 : x# q3 v( B; e- j: \, LMatra BAE, W9 \8 z0 b* R* ?+ a* O- N( Y Dynamics ; o4 _7 U7 m) F( hEuropean missile manufacturer formed in 1996 from British Aerospace Dynamics 1 `/ M3 U% L2 Pand Matra of France.. g7 ]! o4 \* e' K8 X MATT Mutli-mission Advanced Tactical Terminal.! i3 N/ L4 a! I1 p MATT Radio UHF radio receiver for TRAP, TOPS, and TIBS.* _6 R7 C/ f, j k- |/ w MATTR Mid And Terminal Tiers Review.& w. f8 V, W7 ^4 v9 X* R9 a1 T MAX Maximum./ B+ F) L$ S6 m1 D& V3 K Maximum( J4 z& K% u9 L Attrition; q! l9 Z* }1 [3 @* w Maximum attrition is employed in a target-rich environment to destroy the 0 ~. l2 U; p+ p( a4 @. bmaximum number of RVs, regardless of the type, by using all available or , E7 u6 n0 a$ X Vallocated interceptors. This option may not satisfactorily defend specific or % G; d- J5 [3 z2 \required assets. $ d6 x: p$ k% m3 F# yMB Megabyte. A/ d" L. G5 L MBA Multi-Beam Antenna.' z# S/ }0 V' g! t; p9 V; f MBE Molecular Beam Epitaxy.# {' l$ q7 ?9 J& a MBFR Mutual and Balanced Force Reduction. 6 H# ]8 J. A* b: y2 OMbps Megabits per second. $ e# v9 S a& g6 c; M5 p3 v8 w: `1 ^' P+ BMBRV Maneuvering Ballistic Reentry Vehicle.. @$ F9 V' J$ ]& a MC (1) Mission Control. (2) See Midcourse phase. (3) Mission Capable (ILS 5 y# p" ]- W5 r: x8 ?& Tterm). (4) Military Committee. / a3 h' q$ U" i0 S) yMCA Micro Channel Architecture (TelComm/Computer term). % v2 K; x* [8 {5 @ B- ~MCAS Marine Corps Air Station. ( {5 x U4 j+ D5 e# G/ ^; F" I7 WMCASS MTACCS Common Application Support Software.8 E, ?+ H7 c X2 @, t8 V1 z: B MCBM Midcourse Battle Manager.) ^+ ?/ \. W& w/ Y! i4 x. f; L+ @ MCC Mission Control Complex/Center/Console.$ o7 p9 K3 ]# a2 t* x5 R MCCC Mobile Consolidated Command Center.4 F7 Y& z9 M! i& _! Y) y+ p) z MCCDC Marine Corps Combat Development Center.& b: y7 i9 M( f& m$ v MCCR Mission Critical Computer Resources. + x. i. O# G2 YMCE Mission Control Element.0 J* n5 S- U- ?5 y MCG Midcourse Guidance. r2 @0 H0 Q0 _6 C2 x, z+ u8 |# C- w MCI Midcourse Interceptor.+ b; K$ U u3 n: [7 p5 C MCLOR Marine Corps LORA Model (USMC ILS term). 2 z7 ~+ S: m' }" LMCM Multi-Chip Module. 3 v4 Z# y0 {+ @4 k o' eMDA GLOSSARY, VER. 4.0 M : m* K' \9 b. \# E+ P" u$ a178 $ w) F5 v; j& XMCOTEA Marine Corps Operational Test and Evaluation [Command].5 ], e7 k& k# x( s* E. i' p7 O* o MCP (1) Materiel Change Package (US Army term). " R$ r H2 i/ q! c' z; p(2) Military Construction Program. " C$ q6 ~! i% ?; A8 _; lMCPDM Marine Corps Program Decision Making.& a, ]: L) Y. x5 w# E MCRDAC Marine Corps Research, Development & Acquisition Command.3 W% u9 O# F) d* @- j. R MCS (1) Maneuver Control System. (2) Midcourse Sensor.% E5 x7 Q" j/ t4 u7 \ MCSS (1) Midcourse Surveillance System. (2) Military Communications Satellite System. ; W$ W5 F" Y, E+ H; b" TMCT Mercury Cadmium Telluride (cf. HgCdTe).0 ]$ Y3 }' c1 p; w2 R. E* P MCTE Mission, Course of Action, Task, and Element Control Directives. & j+ Q5 o) w* s9 x! K0 r" O4 OMCTL Militarily Critical Technologies List.+ B0 b+ Y! F1 K+ L! P" [$ I, i MCTR Missile Control Technology Regime.7 s k! h! P. W8 `3 E# }5 o MCV Mission Capable Vehicle. ! N" a3 V* ~$ C6 l8 E( Q: FMD Missile Defense.- L9 J4 z$ R& Z& W5 e0 `$ S MDA (1) Missile Defense Agency. (2) Missile Defense Act. (3) Milestone Decision; q. }; c( M, y Authority. (4) McDonnell-Douglas Aerospace. # s- A3 ?; J9 L" l. W# ~3 L7 w2 XMDAHWG Missile Defense Ad Hoc Working Group.- o; G5 e4 h/ R9 R) B MDAP Major Defense Acquisition Program. 9 t2 i7 w: s- n5 ]1 y% RMDART Missile Defense Activities Review Team. : f) V- ^/ a" C, E4 E$ GMDBIC Missile Defense Barrel Integration Center.. V( ~( A, R/ K! }; J. d1 c MDC Midcourse Data Center, Advanced Research Center, Huntsville, AL. ; o( j ~) A+ }6 E) l3 }# `MDCI Multi-Discipline Counterintelligence./ O2 a$ S2 m: N7 A5 w# ^- F8 v/ u MDDC Missile Defense Data Center, USASSDC, Huntsville, AL.

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MDP Manufacturing Data Package.) t, U9 b9 D3 F' _/ _ MDR (1) Medium Data Rate (TelComms/Computer term).# `# X3 a9 k& \8 t% n8 g/ T (2) Milestone Decision Review.+ z7 e; y4 G3 I0 O* N' ~ (3) Multi-national Defense Research.7 I0 @( v2 u: c+ \7 T( c MDSC Missile Defense Scientific and Technical Information Center.- L/ e' |2 k# J: o) ?0 w MDSTC Missile Defense and Space Technology Center. ( Q; D8 R X! U( o( XMDT Maintenance Down Time. q- o3 N! J y MDTD Mean Downtime Documentation (ILS term)." k: `) K1 {) H MDTOA Mean Downtime for Outside Assistance (ILS term).& x7 d' c5 ~ Y3 T MDA GLOSSARY, VER. 4.0 M, u, U; W) |' I' y: @( V0 |# L, B 179 & p& l( U2 Y; ^+ z: p. JMDTOR Mean Downtime for Other Reasons (ILS term). ( g- a4 @/ L& g: s. iMDTT Mean Downtime for Training (ILS term). ' ^0 a* A2 c6 d! \* c1 LMDW Mass Destruction Weapons.; ?2 V$ b& B% q9 s, e, y0 I ME/VA Mission Essential/Vulnerable Area) b1 E+ g I2 _4 h MEA Mission Effectiveness Analysis (JFACC term).! F- d" u3 K4 k; ~0 l( B6 k% D MEADS See Medium Extended Air Defense System. 4 o8 a. ]8 n I4 u Z( Q) a: YMean Time7 S, N4 `/ `8 t2 F/ d1 h Between Failures # f g: c5 s: e0 n(MTBF) i: s5 P8 a; t* M/ z A measure of the reliability of an item. Defined as the total functioning life of an) H, P. ? T. t9 @4 d# E item divided by the total number of failures within the population during the , O' n7 B. g, _1 H- P" @" U K$ Ymeasurement interval. The definition holds for time, rounds, miles, events, or0 _" z; O9 P" l$ `+ x. @! d8 W$ e other measures of unit life. MTBF is a basic measure of reliability.# b* H7 h s" m# b4 b Mean Time To0 ?" `* M! Y9 I8 t% g Repair (MTTR) A4 J% D# F9 c/ \9 `5 o The total elapsed time for corrective maintenance divided by the total number of , r, [* P, ?# K) G+ r. Zcorrective maintenance actions during a given period of time. A basic measure " r1 x# X: l/ N C9 fof maintainability. / c- y0 T. ]8 i8 k; eMean Time to, r) ?: J w# N4 u Restore System 9 t5 ^5 w* |( `(MTTRS)7 t8 Y+ m1 w' F) z5 ~% p% O" R) L A measure of the system maintainability parameter related to availability and3 h A5 Q2 j8 ~0 G2 q+ O* i readiness. The total corrective maintenance time associated with downing' @3 k3 b; X( I7 E) j& y: A events, divided by the total number of downing events, during a stated period of 4 I; Q, L6 r( }) R* Otime. (Excludes time for off-system maintenance and repair of detached 2 D. g0 y' n8 K+ ?8 Ccomponents.). q/ ?0 F |) R- L" \+ K3 T MEASAT Malaysia East Asia Satellite. ) E/ o- ]& O- E' y J% Q: J* uMeasure of ! P4 t6 X9 |) @ T7 p+ R; y0 L- I/ @& GEffectiveness & q0 S. T5 L$ d2 T3 ~(MOE) & S0 k: Y: H! z1 q' ]* uThe quantitative expression (sometimes modified by subjective judgment) of the 4 M* w" |) j$ X& O# }0 i! x/ V9 ^success of a system in achieving a specified objective. w8 d& ]' H; y# e! l6 E: H8 l- ~3 v# cMEC Mission Essentially Code (ILS term).( _* Y0 z3 N4 q* E7 x Medium Earth: {3 L. u3 v1 v( v; r6 c1 N Orbit (MEO) + i& f1 l+ G# t) o/ }2 LSpace vehicles characterized by orbits between 400 and 10,000 nautical miles,+ l3 J/ d1 E& s& @; t3 x; K longer duration revolution (2 to 12 hours), longer visibility envelopes (10 minutes / Y( W# A: {1 F7 v' mup to approximately 1 hour), and generally longer lifetimes. This region contains& F; F) A6 L0 _, ~, M0 ^* h6 B# i the Van Allen radiation belts where electronic components need special # i- I, H+ v" Pprotection.9 d3 d& r" U& I ]9 w8 Z Medium# d1 n" V( @7 f! l+ U6 D$ ` Extended Air 7 S- _! k& T; t; t& MDefense System$ r' {6 ]( r, q. Y" L% O# c* Y" A, [ (MEADS), D2 {/ l9 i; ~/ r A lightweight, highly transportable, low-to-medium altitude air defense and9 e6 P0 A% S9 k7 E+ p) Y/ T( D7 X theater missile defense system designed to protect critical fixed and u- G% b2 N* |5 O2 t" pmaneuverable corps assets. MEADS superseded the Corps SAM program in* d' H- [* `' S* Z2 H6 M 1995.5 n! g: v. ^: Q8 I) u" h" f- o Medium Power3 ?( L: E" N: Y( V7 L0 z Lasers $ E! w' K4 {9 t4 a% \$ CLasers that radiate power less than 1 MW, normally used to detect, identify, ( {: R: R5 P& c. E7 mtrack, and designate a target vehicle.. f/ E7 f: x' V1 x5 p; Y. t5 r Medium Range , s( b. M3 c. d+ o7 QBallistic Missile 1 X) |# ?, x4 b |9 o% K(MRBM)3 ^- h% P# o, j* k A ballistic missile with a range from about 600 to 1,500 nautical miles.- c% @: |4 a$ w( ^9 P3 J Medium 5 I5 q1 Y! c6 H* T6 {. l' kWavelength ! a8 h2 V- \1 {8 j% L( zInfrared (MWIR)& s3 N- S& q! E! t Thermal radiation emitted by a source in the electromagnetic spectrum : R @2 A5 T7 g9 eencompassing infrared wavelengths of 3 to 6 microns.; V* s% l) [& c# Y% Q' e `. m) O MDA GLOSSARY, VER. 4.0 M 6 x: A" e6 W! e. e1801 G2 c; G+ V2 h5 _* O+ m MEF Marine Expeditionary Force.( {2 h$ n2 R, h6 V7 N; j+ G, O MEILSR Minimum Essential ILS Requirements (NSA term).# |9 O& G: I0 z; M3 i) A MEL (1) Maintenance Expenditure Limit. (2) Mobile Erector Launcher. # x* B, ~6 R; N, zMEM (1) Mission Effectiveness Model. (2) Mission Equipment Modernization. , _( T" y' K1 `$ H* J XMemorandum of % Y# Y2 e% P- X6 ^1 r# G$ T; cAgreement (MOA), B5 P) c3 {; n7 Q8 M, B! ~ (1) In contract administration, an agreement between a program manager4 L1 a3 o: q! @* w& H; M2 {* R and a Contract Administration Office, establishing the scope of" [( t9 F1 M7 O responsibility of the Contract Administration Office with respect to the6 f- t/ ] V" z1 _1 t/ k* ~3 ] cost and schedule surveillance functions and objectives, and/or other & M+ |. {% V+ X/ U7 E/ ycontract administration functions on a specific contract or program. ( c X3 B/ t& y# [1 S3 ^: S x3 ~7 A( g(2) Any written agreement in principle as to how a program will be, E& A$ k" F1 e F4 Q administered.# G' N; u$ I8 S% ]5 `3 z: X Memorandum of, t$ M, M) O6 }* X( S2 ~6 o Understanding G) n) v) U! H% I- ?2 S(MOU) 3 n/ W0 ]& l2 g1 d2 iOfficial agreements concluded between the NATO countries' defense ministries ( ?6 U7 G O6 }( y3 K; Cbut ranking below government level international treaties. De facto, all partners- O* j2 O3 d2 V X. | generally recognize such agreements as binding even if no legal claim could be $ O3 j" u( o9 ~0 V; ^1 }7 Tbased on the rights and obligations laid down in them. 4 S" Z) h' A9 aMEO Medium Earth Orbit.: a2 A! E, J4 } MER Manpower Estimate Report.3 G* h3 f& M+ @) _+ N, V( a5 T Z Mercury7 d$ [$ q ~9 T# n. I* r5 J* c Cadmium" Q/ `. I) Y8 ^: {. i# {( m Telluride (HCT)6 _1 Z; `; v2 J8 K Infrared sensing material.4 d9 ~& U. @( ^; H2 {, K MES Military Essential Support.

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MESAR Multifunction Electronically Scanned Adaptive Radar (UK). ; z0 T2 C4 }! H' R2 K3 ]MESFET Metal Schottky-Gate Field Effect Transistor. * w* L1 J) C- `$ [6 W2 EMesosphere The portion of the atmosphere from about 30 to 80 kilometers above the earth. i `9 k1 r# I# o1 p0 T& E0 H Methods3 G8 U3 ] E! K1 r Engineering ! G5 F+ J. c8 r1 O n/ NThe technique that subjects each operation of a given piece of work to close ; F' J4 J' U6 Kanalysis to eliminate every unnecessary element or operation and to approach ! W5 t: B% ?4 }* N3 K" D; nthe quickest and best method of performing each necessary element or3 `) z) _. D. D/ {0 l2 e" ~( v operation. It includes the improvement and standardization of methods,# W- s* f! {0 I, a/ s" |3 A s ^ equipment, and working conditions; operator training; the determination of 4 o- [* w. U/ lstandard times; and occasionally devising and administering various incentive! r% s$ j$ a1 f& u: _/ l plans. 6 x% P' A5 [0 R5 d, PMETO Minimum Effort Task Order. 0 ]5 a* y0 @* lMETOIA Minimum Effort Task Order Impact Assessment.: }0 b7 T: D/ Y4 E) B9 n) \ METOP Minimum Effort Task Order Plan.! \* ?8 k7 ~% C1 U8 F METOR Minimum Effort Task Order Requirement.- @ j; e6 b; S9 M Metric (Software). An indicator, which measures some specific attribute of the software1 J1 G! _- }0 N/ i9 O development process. ) w. R! a! Y, g8 l: jMDA GLOSSARY, VER. 4.0 M+ O3 r- p# V% \, j' F' Z6 k) k 1812 t! ]' g$ l% [+ r: { Metrology The science of measurement, including the development of measurement ) M$ L+ } W. s- T& nstandards and systems for absolute and relative measurement. Used to6 U! C" D- d/ Z% \; [* f determine conformance to technical requirements including the development of & f" W4 [8 ~7 n" ]8 c) ostandards and systems for absolute and relative measurements.' m: O; @, W" j: M MeV Million Electron Volts. / L4 x* Q7 p7 G- {( l; LMEZ Missile Engagement Zone.' D$ m o/ Z% `% U, ~ MFAR Modular Multifunction Phased Array Radar. ; {. n! }6 i0 `2 sMFEL Medical Free Electron Laser. # s% K1 K, u! f9 WMFG Master Frequency Generator. 8 K2 z; v9 d7 ?* I0 f+ \7 b) jMFL Multiple Folded Ladar.7 Q, J, Q4 H7 K/ V" _8 V MFLOPS Million Floating Point Operations Per Second. * Z; j( f5 T6 q8 f: QMFP Major Force Program. + I" G) b3 d% \$ P, V7 LMFR Memorandum For Record.) J8 h& Y* _9 K% L! }: F MFS MFS Communications Company, Incorporated. 8 c; y# E6 m+ s5 OMFSIM Multifunction Simulation (PATRIOT), Huntsville, AL.* ~ \6 |- r) k MGEP Mobile Ground Entry Point. X* _6 @( y# E vMGLI Midcourse Ground Launched Interceptor. - `* t& }- a5 s* n$ z1 wMGMT Management.$ |$ S5 W! D. s! k+ E8 k9 f MGTS Mobile Ground Telemetry Station. 8 O5 {! ^8 X4 {# ]# k5 zMHD Magneto-Hydro-Dynamic.* @/ z$ J+ W3 f8 r# x MHE (1) Material Handling Equipment. (2) Mobile Hauling Equipment. 7 v8 Q( b- h( h& Z' I. DMHV Miniature Homing Vehicle.9 V) A0 `; S( i1 g mi Statue mile (5,280 feet). $ m8 b1 d8 w1 |+ ?1 g- M! LMIC Management Information Center (MDA). V* G/ q# `+ vMICOM U.S. Army Missile Command, Redstone Arsenal, AL. # ^. W X7 m! ~9 G+ gMIDAS Missile Defense Alarm System (US). 6 p8 {2 b9 V3 @Mid-Course # S1 s( q S; _1 W0 }Defense Segment7 j& ~, g" @) H3 g5 a% Q (MDS)- o# i! j/ R; D1 X2 q Z8 j The portion of the BMDS that defeats ballistic missiles during the period of flight % n% L( Q) t+ I' Ebetween boost and atmospheric reentry." n `2 s! n/ { Midcourse- q$ X% o* m4 {" [0 Z: T Guidance 6 C$ ^- T& E: }" s8 o" \The guidance applied to a missile between termination of the boost phase and ( J1 V- r( `6 o9 U* o+ R6 ?3 Qthe start of the terminal phase of flight. 5 k8 A- M7 W$ M- M( v/ FMDA GLOSSARY, VER. 4.0 M5 a" \) B# P7 |3 G- j& [/ @ 182* [6 k+ E; l; ] Midcourse (MC) . Z+ [6 a. E q* e* k4 R6 ~Phase) T U( B, B0 N) R) x That portion of a ballistic missile's trajectory between the boost phase and the! l9 q$ C0 b+ c6 I! U$ o reentry phase when reentry vehicles and penaids travel at ballistic trajectories( Q' { G9 S6 w6 V' D above the atmosphere. During this phase, a missile releases its warheads and5 V0 q4 Z# D- v$ V% D9 x: }/ v1 B$ m+ \ decoys and is no longer a single object, but rather a swarm of RVs and penaids % Q q- H3 z1 _# |7 F, Efalling freely along present trajectories in space. ! p5 S* W7 X% H' a( r. VMidcourse Space . r9 v. F1 W7 u4 qExperiment% ^1 e( c2 [* E& s# `' _% C1 P) ] (MSX) 5 } E3 J/ ~9 J: A1 r0 \+ o0 a1 G( vDesigned to provide demonstrations of midcourse acquisition and tracking from ' ]6 o! n* K+ r1 @space, technology integration of optics, focal plane arrays, signal processing,) T' U8 T* W& A! ]0 G" I etc., and collect background phenomenology measurements and target ( j8 M( J' s9 xsignature measurements.! j* {* l) I# T' V" _- ?( \ Midgetman US ICBM." a9 _+ J# v' E' K/ v3 K MIDI Musical Instrument Digital Interface. , u# y: U; X/ D6 _2 y! w( uMIDS Multi-Functional Information System (USN/NATO/Telecomm term). 8 r3 m( W! }% S5 pMIIRD Mission Issue Identification and Resolution Document. 9 O* g. Z* ?. Y& _MIJI Meaconing, Intrusion, Jamming, and Interference.8 E% J) K) [$ ^: \$ z" d MIL Man-in-the-Loop./ {* V/ f. N4 H% l MIL-HDBK Military Handbook.: o I w+ p3 A* E1 [6 z MIL-STD Military Standard.- h0 E3 N& t7 L4 K2 b% {) C+ x MILCON Military Construction. ( @: R, O+ X& bMilestone - N/ C) E. q! bDecision 8 M2 L+ T) X& L- p `Authority ) p9 b# E3 |' [4 ^4 X4 M& kThe individual designated in accordance with criteria established by the Under1 E4 I' f2 k1 _6 A$ |0 x( A6 M Secretary of Defense for Acquisition and Technology to approve entry of an 6 c, c3 x' q" i; C3 P L3 s( yacquisition program into the next phase.( l" A0 P' E) t! X0 { Milestones (MS) Major decision points that separate the phases of an acquisition program.( Y' p$ g# x! \( g Military1 b- f, I# S4 C# E2 C# y* W" I Capability 0 Q7 i* z+ k4 m) _ H1 ^- eThe ability to achieve a specified wartime objective (win a war or battle, destroy a5 C- R, `' ?4 y& b# M target set). It includes four major components: a). Force Structure -- Numbers, 6 U' f% R9 u3 |3 D- y& i5 Usize and composition of the units that compromise our Defense forces; b) : i p5 Q- c# D5 h) J5 WModernization -- Technical sophistication of forces, units, weapon systems, and . f h. b& j2 U( M; cequipment; c) Readiness -- The ability of forces, units, weapon systems, or+ E3 `* {( v* F2 r4 @" E; }5 z equipment to deliver the outputs for which they were designed; d) Sustainability : h( y6 }2 T1 J3 d$ K-- The ability to maintain the necessary level and duration of operational activity - I3 _9 k+ Y2 p$ `/ X. Vto achieve military objectives. Sustainability is a function of providing for and 8 a6 P. } z( g D7 |; [( omaintaining those levels of ready forces, materiel, and consumables necessary) K& [# Q/ s" Z to support military effort.

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