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11#
发表于 2008-12-25 19:57:15 |只看该作者
AFTAC Air Force Technical Applications Center, Patrick AFB, FL 5 V9 d5 Z4 ?% ^AFTADS Army Field Artillery Target Data System. ! X" h* N% Z" Z( WAFWAN Air Force WWMCCS ADP Modernization 2 I: ` O) v5 C e3 |6 U* N0 K& tAFWL Air Force Weapons Laboratory (Phillips Lab). ( J/ z. F* |. ?; ^AGARD Advisory Group for Aerospace Research and Development.5 {, |, e y* r1 f+ \3 z AGC Automatic Gain Control. + d) R! j$ o' |# o& q {, u( k/ _AGCCS (1) Air Force Global Command and Control System (USAF term). ( k9 B) S. g9 ^& ]" o5 ^(2) Army Global Command and Control System (US Army term). , g$ p5 n7 E9 k# I5 h+ ]3 J2 r+ cMDA GLOSSARY, VER. 4.0 A6 I* S$ q5 G H. H" M3 p; I+ `& l4 ~ 12 ! [ w5 d* y' @$ OAGM-65 Maverick Air-to-Surface Missile.! p$ t7 c. R" Y AGMC Air Force Aerospace Guidance and Metrology Center, Newark AFB, OH. 9 X2 D* o/ M8 i& r1 {% m! B: A; @AGRE Active Geophysical Rocket Experiment1 O. P5 K$ c; Q; o9 k5 @& t. u% r AGT Above Ground Test.7 J8 `& L1 Z& l3 y9 B4 y; W AHIS Agile Homing Interceptor Simulator.# F) C& }, {, e2 y: ?' U1 O$ |* G AHSG Ad Hoc Study Group.5 x$ b1 R2 c* x2 h, J G3 G6 E( K AHWG Ad Hoc Working Group! d7 i, {" k0 ]% {$ s1 M AI (1) Artificial Intelligence. (2) Action Item. (3) Air Interdiction.4 e2 H! P0 x/ b/ t* _ AIA Air Intelligence Agency' X" g+ _" Z8 \- i+ C/ E7 a AIAA American Institute of Aeronautics and Astronautics 3 U: k2 [2 F' n* z* L0 T: fAIC (1) Atlantic Intelligence Command. (2) Account Identifier Code.( g" L( c9 t$ y+ h AID Agile Interceptor Development.; @1 h" v+ X4 O& x AIDA Artificial Intelligence Discrimination Architecture (UKMOD). 8 l4 x/ B+ E8 L: K$ x+ E/ u: L" fAIDPN Architecture Investment and Deployment Planning Notebook.8 w* S9 i4 e! D1 C: R. C- Z* Y AIM Air Intercept Missile " h( u1 _; L" T' _Aimpoint The specific point at which a weapon is aimed. The point may be on the earth's5 m* X9 H+ ^' I. c Q surface, in the atmosphere, or in space. In some cases, the specific lethal point0 E7 v0 c) V1 _ on a target to which a weapon is aimed. $ ~* A8 \- s. H& D d& pAIP Advanced Interceptor Program (formerly Brilliant Pebbles). 5 q1 B2 g; z& a) sAirborne( I& \- B! q. Y0 T4 d; N Optional Adjunct 9 b2 a% g3 U1 ]6 [( h; R! }5 B(AOA)" D" Z! S" |2 S- v A test program to place an infrared (IR) sensor in an aircraft. (Superseded by/ M' N6 }: u& v1 a+ h Airborne Surveillance Testbed (AST).)

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12#
发表于 2008-12-25 19:57:27 |只看该作者
Airborne# ~' a( s6 Q% V. A2 _" \: v Surveillance . R7 \0 q0 l) W. _8 r( ~4 wTestbed (AST) w2 |$ Q" |- x7 D0 L# G% lA Boeing 767 aircraft with a large infrared sensor designed to address optical ( A9 ~- w& p5 @0 M7 psensor issues. " I7 k5 W' @& q* aAir-breathing A flying vehicle that uses the oxygen in the atmosphere as the oxidizer in its ' d3 f9 B! w8 V [propulsion system. Examples are jet aircraft and cruise missiles. This category; X7 l, b# |$ b7 ]8 t( c does not include ballistic missiles. 3 M0 c1 k; K: @5 @& L; b" l" q" wAir Defense All measures designed to nullify or reduce the effectiveness of hostile air action. ; D% C& ~6 @0 M6 E5 ^2 Q: o& h/ dAir Defense0 t! {* V8 ^' y, H$ w2 R7 Q Action Area3 ^7 Q; l0 |$ u' s3 S' b An area and the airspace above it within which friendly aircraft or surface-to-air$ x& L1 n, V9 ]1 ^6 G/ s5 J$ H' T weapons is normally given precedence in operations except under specific1 W o8 e9 ~0 K- Z8 q9 W conditions. See also air defense operations area.* o' o; H1 R1 I% I* n# h/ w# y4 ` Air Defense $ ]! N6 j+ l# m- n0 uArtillery: _/ B) F" O) W( z Weapons and equipment for actively combating air targets from the ground. 4 F j4 r# B3 q) y4 v% M J! ~3 y: sMDA GLOSSARY, VER. 4.0 A # U/ j# h& J( n' ^13 ; i0 y; N. @6 B8 aAir Defense 3 D% A% [, u: b8 V6 Y. kIdentification ) b2 \4 j! ?9 v' h, \) vZone7 l1 ?7 W( O/ W Airspace of defined dimensions within which the ready identification, location, $ D8 }. x" X1 {3 V5 ?# g3 o4 M: m6 yand control of airborne vehicles are required. Commonly referred to as ADIZ. . |: t6 C- `( q# YSee also air defense operations area. & X; v# d. S6 f: X1 Y9 ?$ d+ ?% PAir Defense, A$ i8 E8 j. V% C( T Operations Area: X$ }+ {+ ~6 f0 y \' B. m A geographic area defining the boundaries within which procedures are4 ?. ~ F8 Y. ~# n7 D. I6 p established to minimize interference between air defense and other operations.1 l2 O3 E% @+ _& Y | May include designation of one or more of the following: Air defense action ( z9 @0 O( W. `4 Darea; Air defense area; Air defense identification; Firepower umbrella. : P* l+ E: A. h8 [8 AAir Force" y9 q( B8 K$ G- C4 K Component ' E( _6 t; T+ @Command Center, A8 {' K9 n: Z* A2 ?$ P# R# p (AFCCC)7 ^1 Z- V& t) S! @9 O E A segment of the Command and Control Element, which replicates capabilities of$ o9 w8 V1 C8 k3 y0 m( d& S the CCC (BMD) segment and provides administrative and logistics support to Air 2 |2 K$ N; F. f2 a: m- ~& AForce Component Forces with the Strategic Defense System. The AFCCC was , [* V/ t9 K/ |) F8 H& {( deliminated from the CCE (now C2 E) architecture during the last SAS system: z( J# _) R8 Q1 k, D' \ architecture definition update. 5 Q/ ]) k& C3 J" R5 E, x/ O7 _ X* zAir Force 2 h4 N6 k- ]! u" }Ground/Global/ c6 Q4 @ m/ H I$ S Weather Center4 z b- u3 \- E6 \3 J1 M% F (AFGWC) 7 i+ e$ d* F+ P! z- g- x9 @AFGWC provides Air Force and Army with global information and products 8 t% C: w* k. }relating to past, present, and future states of the aerospace environment. 9 B5 ?' M' i0 g5 q0 p, U1 Q1 ^Weather data is provided to the Weather Support Unit (WSU) for use by the , m$ F1 _ l, ~4 I/ pSDS. Also provides space environmental data such as sunspots, ) }6 V4 u( Y( h2 L9 @3 S# s+ f+ x( velectromagnetic storms, etc. Located at Offutt AFB, NE. ; I; G8 E) d% Z8 qAir Force ! `" e. B9 ]! V0 Z/ d' V: z6 eOperational + A) s0 K# r$ c, RTest and" s. H( U- t0 v O" J( ^ Evaluation : Z! s) [; q/ J( n1 V* ECenter (AFOTEC), N! M! c0 |/ m( o+ }1 | Responsible for the operational test and evaluation of systems being developed- _ b K( A; V/ [ for use by the Air Force (Located at Kirtland AFB, NM).

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13#
发表于 2008-12-25 19:57:41 |只看该作者
Air Force3 {1 g0 R1 y; Q( l Satellite $ k- C9 |" |1 UCommunications ) O4 c1 ^6 k# B, }/ _. t) D, @4 aSystem 0 J6 o: O% d% Q. r; Z+ u2 r0 z(AFSATCOM)* a! @( X' n3 j$ V6 M9 h$ @ } A collection of transponders on host satellites used by U.S. Strategic Command + I$ s3 O2 G, Bto pass emergency action messages (EAM) and damage assessment reports.! Q; z) a3 R& X5 L0 _: p* a AFSATCOM is also used to pass sensor data between sites and CMAFB.7 H/ d! ?; ?3 K& a/ E) K2 Q$ Y Air Force 1 R6 S9 Z3 `( O, [% P3 j7 b* v% S Z% bSatellite Control$ h, O, W, L' Q, K Network2 A k- _/ Y6 f* n) i$ W; I (AFSCN) / p5 Y( H c5 O( sA global, multi-command configuration of space vehicle command, control, and 1 R$ ?# X5 W' F _communications resources operating in concert to support DoD and other . o- y* j% u1 R7 w: q% w' Aassigned space missions. ; d, x9 u+ @8 t r, PAir Force Space+ N# K9 \& ]! n) V Command ; l; C5 Q. g4 T$ H( ~(AFSPC)* \: |. F) a l+ \5 M* f: W! t A major Air Force command and the Air Force component of United States 3 I) X; Y$ ^6 O P. ~Space Command responsible for the training, equipping, manning, administering, 8 t9 \$ F( _# a( M Hand funding of assigned systems. Located in Colorado Springs, CO. W( s M8 K5 A: U c: K1 ^4 J Air Force Space ( n* l: C, r G2 w4 yOperations" F" y+ f2 ~. k' z$ r3 x1 p3 _( K Center (AFSPOC) ! u% R6 F" R4 f4 ^* hAn AFSPACECOM center responsible for the daily tracking of events at remote! B; \& c. L" ]0 f3 ~3 l& |0 P& u1 U operational sites. It may be updated and assigned responsibility for logistics8 j; K g9 y# m) _6 i* g and administrative control of assigned SDS elements. Located in Colorado+ ~1 d) u8 I. o; ^2 l9 Z Springs, CO. s r! W9 n* u; m8 F Air Force CRC Air Force Control and Reporting Center. + ]' y$ u/ v- B/ `1 OAir Force1 |$ ?1 x, x3 z5 h9 {: i Operational Test ' C6 @7 X7 {5 y$ k Pand Evaluation( Z/ H' f9 p I( U Center (AFOTEC)! e7 m8 ?! t1 h Responsible for the operational test and evaluation of systems being developed 9 j1 z1 U+ W$ A, ^8 a- ffor use by the Air Force (Located at Kirtland AFB, NM).9 L# |) [. r( G$ n. C Air Force Space 8 g* x# f& p' t. BCommand3 n( k% L7 u, f+ J% M# G (AFSPC) & ^. X$ N* f* q* u' t& uA major Air Force command and the Air Force component of United States! E& N/ d; X3 Q/ u$ ^6 o x Space Command responsible for the training, equipping, manning, administering, . \9 b1 i2 l! Hand funding of assigned systems. Located in Colorado Springs, CO.

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14#
发表于 2008-12-25 19:57:50 |只看该作者
MDA GLOSSARY, VER. 4.0 A # R1 U1 @: q- ^4 h* U14 & j' | D# W' A- ^( VAir Force Space 8 c/ n6 j& c8 ]- `7 bOperations & G/ H7 \+ ~4 s8 I4 E2 S+ [Center (AFSPOC)7 ]- @- y6 U, A$ f An AFSPACECOM center located in Colorado Springs, CO. % e+ @8 K* |& v! x. n4 _7 l2 g- GAir Surveillance The systematic observation of airspace by electronic, visual, or other means,: @5 M7 S) O6 c primarily for the purpose of identifying and determining the movements of aircraft 9 F |$ a9 r: ~& [( h1 P4 w7 g3 vand missiles, friendly and enemy, in the air space under observation. - l* A5 j. P R& q; KAir-breathing A flying vehicle that uses the oxygen in the atmosphere as the oxidizer in its9 i5 a5 q# d" c/ x" [ propulsion system. Examples are jet aircraft and cruise missiles. This category ! C3 E4 }3 G9 n& s& O) Kdoes not include ballistic missiles. ( Q! Y. A2 Y: IAirborne . c F l9 a2 C# W) @9 WSurveillance. ?7 V: J' \8 x$ I2 y: [) B' E Testbed (AST) 9 ~( d! ^# d' WA Boeing 767 aircraft with a large infrared sensor designed to address optical1 q) j$ N! k! h% O9 d9 L sensor issues. It's expected that this program will be retired in 2003 with its 6 n$ c; n5 M: _ hmissions to be taken over by HALO II and WASP.6 |9 W% R! c- h8 h) [' [( R) p AIRMS Airborne Infrared Measurement System V- G# I3 @, S3 o8 O0 BAIRREQSUP Air Request Support (JFACC term).. Z; S" X% @7 e% U AIRS Atmospheric Infrared Sounder 5 P& u( o& E- G9 Y9 wAirspace Control 3 b* {- ^" S, j2 `in the Combat # A4 M( d3 A' W( ?! Q. vZone4 U" B. s- u T8 r# w& m& Z A process used to increase combat effectiveness by promoting safe, efficient0 ~' d8 N' y. \( V and flexible use of airspace. Airspace control is provided in order to prevent+ ^5 H# r1 s+ U6 f1 l, }/ S( X fratricide, enhance air defense operations, and permit greater flexibility of ' J0 ^& O8 F% S6 Y; p4 N+ f2 eoperations. Airspace control does not infringe on the authority vested in6 i+ U2 M7 H1 |/ D+ I! C% k0 M, j commanders to approve, disapprove, or deny combat operations. % B1 H( a7 I8 `3 D! x2 t/ hAirspace Control / ^) c: L8 G' j7 R- uPlan , `) b/ X. L+ a! dThe document approved by the joint force commander that provides specific+ }9 |7 f# ^4 u2 m* ]- W+ e planning guidance and procedures for the airspace control system for the joint$ I7 \* y; B, i! Z force area of responsibility.5 y1 r$ M8 r, U AIRSUPREQ Air Support Request (JFACC term). . `) Y- \0 K1 S, tAIS (1) Automated Information System. (2) Architecture Integration Study. (3) $ W+ a4 F6 `2 XAirborne Intercept System., o1 I3 e% U; h" ^, Z! V AIST Advanced Interceptor and Systems Technology.5 j. c, c* P+ w0 ^6 s' y AIT Advanced Interceptor Technologies.! ?! @ l) |4 q AJ Antijam. 5 l8 p" L1 |; wAJPO Ada Joint Program Office. ) G: t9 }1 M7 G% L8 i/ eAJTBP Augmented Joint Theater Battle Picture. " ] w* o W8 [1 aAL Acquisition Logistician. # Z0 ^* \1 K$ h# u8 Q8 f0 BALARM Alert, Locate, and Report Missiles. 8 v% h: }7 f* \' k1 KALAS Advanced Liquid Axial Stage. 4 ` n( I. }( WALBCS Airborne Laser Beam Control System. ' w9 d5 A' ^) Z9 h& j$ nALC Air Logistics Center (AF).0 {6 I Z2 `6 ]& g/ o; Q ALCC Airlift Coordination Center (JFACC term).: D5 {9 \0 I1 J8 k MDA GLOSSARY, VER. 4.0 A

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15#
发表于 2008-12-25 19:58:02 |只看该作者
15# v; p- D4 @$ O0 ]* I ALCE Airlift Coordination Element (JFACC term). ( s4 |- j+ I* X) h0 ^ALCM Air Launched Cruise Missile. J( S( _% K+ U# e" u& F! l( ^; L ALCOR ARPA/Lincoln C-band observable radar. (USAKA KREMS). d6 ~( a( y# V; m ALDT Average Logistics Delay Time.( ?6 ~$ x1 D8 C1 m9 S+ e# A ALE Airborne Laser Experiment. 0 R* ~$ x+ w: q6 c! DALERT Attack and Launch Early Reporting to Theater. 2 L) ?$ z$ t7 i$ nALG Algorithm / ?! Z0 A) m; fALI (1) Alpha/LAMP Integration. (2) AEGIS Leap Intercept ( V/ e* Z) Q$ H) e! uALIRT Advanced Large-area Infrared Transducer * u7 U, I2 F ]: q% M: ?) FALL Airborne Laser Laboratory.: @: h Z/ q0 I" V' U H Allocated ) {, ^- P% A! P2 iAvailability9 m8 a& U2 i3 z# }8 U6 D Requirement4 Z6 M, H- A- \* q- T The requirement probability that an element is available to perform its function as ! D, x/ H$ m8 C+ S3 ~7 l$ lallocated by the SDS.- I9 X5 @1 Z1 d6 {) z0 ] Allocation (1) An authorization by a designated official of a DoD component making funds! M7 K: m$ {. \8 a9 u1 [( T) q available within a prescribed amount to an operating agency for the purpose of & ~9 |7 M3 C& J% C* i7 C$ }making allotments (i.e., the first subdivision of an apportionment). (2) The% o& a; d/ F/ z/ ], o; @; _ translation of the apportionment into total numbers of sorties by aircraft type $ i* x- l! R \% T/ Oavailable for each operation/task. 9 p: o6 a3 o2 V% _# I0 lAllotment The temporary change of assignment of tactical air forces between subordinate K5 L; j: u$ P3 a9 }commands. The authority to allot is vested in the commander having operational0 G3 Z* |3 V4 o" h- C7 | command. * Z7 q& o9 ~1 i# N# y1 k; ?ALO Alpha Laser Optimization. 7 D% L$ a* V5 V/ @ALOD Adaptive Locally Optimum Detector (Navy term). & i W: I7 T5 @4 C) a2 NAlpha Particle A particle emitted spontaneously from the nuclei of some radioactive elements.3 G* I/ T. W% m3 L* G It is identical to a helium nucleus, having a mass of four units and a charge of ( u' M2 D4 I& H6 z$ s& U5 v- Wpositive two.& R6 L7 {' ]- B) U6 `4 ~/ X) I- _ ALPS Accidental Launch Protection System. $ _( k1 @9 p$ L! u+ M9 _2 \ALS Advanced Launch System.: a6 @& C5 G( u# d+ T% l ALSP Aggregate Level Simulation Protocol.& ^+ h# k- u2 L& u ALT Airborne Laser Technology.0 c7 a7 x' E5 K1 L7 r) v" p5 L; ~. L0 q ALTAIR UHF test radar at USAKA.- ]. r* a. V) f D$ s# [' } AltAir Project name for the feasibility demonstration of a short range, air drop, ballistic% d( @& O4 p2 D0 j& k8 h missile target, dropped from a C-130 cargo aircraft.7 G" B8 j% j( H; P0 E" R& w5 k MDA GLOSSARY, VER. 4.0 A+ |# p" E v* Z' `2 l% r 16 : r9 s1 l" @' v9 y2 XAlternate 8 f7 d2 q( d8 D0 N1 fNational Military5 _2 W. [- |2 ?, }8 Q% N Command Center 8 J% q, L. F( o( Q& a# d(ANMCC) 0 g6 f* l1 Z, }- u: h$ R% gAn element of the National Military Command System (NMCS), which serves as 0 P. k5 N; F- W5 k* T5 ]" a4 ian alternate to the NMCC. Located at Ft. Ritchie, MD. + \8 b' D9 s; p/ k, qAlternate* I% {! v. U+ S$ |$ u/ r Processing and# Q9 g. ]! @0 i) T( p Correlation 8 S% I: d/ t UCenter (APCC) 8 D& @1 z( T/ {NORAD capability in USSTRATCOM Command Post that receives, processes,# k) |: |+ s0 l/ D& c and analyzes TW/AA information. z" r& [1 E/ f9 m6 ? Alternate Space1 D, ] @' U: }! m: h+ }* t1 k. ^ Defense- z( b1 [# [& p( B3 V Operations7 q0 \ }" \( C% ~0 |6 Q$ f( N/ X Center) `" l7 L D- l4 T' B% \ (ASPADOC): s2 `( W8 Z8 C, R! b- B% Z The backup to the SPADOC, maintained by the Naval Space Command, at . W% r, X3 M) m. P" B6 [Dahlgren, VA, collocated with the NAVSPOC and NAVSPASUR.4 T0 E$ h1 S3 ^5 m) i ALU Arithmetic Logic Unit. & \- E* V0 b; V$ M+ }, V, W7 P* u+ oAM Amplitude Modulation. 1 P' ]8 I# D% N k' K' a0 D4 WAMC (1) Air Mobility Command, Scott AFB, IL. (2) Army Materiel Command. (3)# z% [! N1 \8 z7 @' A: b) U Midpoint Compromise Search Area. (4) Acquisition Method Code. (5) 7 C7 [5 w) J4 p! U5 a, I, t* IAdvisory Management Committee. ) s" u; j1 M" h! n" `6 a) F7 R7 cAMCOM Army Aviation and Missile Command (Oct. 1996). 1 C w* l4 C. V+ f, uAMD Air and Missile Defense 8 z4 p. [' ^% `7 m: MAMDF Army Master Data File; N* |2 f3 e3 d; f; I AMDS Active Missile Defense System.* C5 d8 {) h% J9 b AMDTF Air and Missile Defense Task Force (US Army term); W: Y9 M$ a4 t4 _5 ^$ e6 h' V AMEMB American Embassy. C9 F- v% L2 A4 f' u/ C0 U+ c/ t+ y AMFB Acquisition Management Functional Board.5 p0 x6 D8 _# f9 V AMG Antenna mast group.: B9 {5 ?# E& P- j- t AMOR Army Missile Optical Range." A8 K. z9 f1 j4 S9 {: \/ ^( I AMOS Air Force Maui Optical Station. 0 ~7 e; Q( m. O1 wamp ampere! S+ C! \) r% d: b; ? AMP Ansular Measurement Precision.

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16#
发表于 2008-12-25 19:58:21 |只看该作者
AMRAAM Advanced Medium Range Air-to-Air Missile. ) j/ z/ \5 R; f; \AMS Aerodynamic Maneuvering System ) g4 w) l! @' J( rAMSAA Army Materiel Systems Analysis Agency.1 O" f! H! ~7 R( b7 D AMSDL Acquisition Management System Data Requirements Control List.+ _$ y3 |9 s# L; A0 ?* g8 C AMT ATCS Mobile Terminal. , t, c/ g3 {7 HMDA GLOSSARY, VER. 4.0 A; u( L' E$ M/ `5 | 17 " k4 D. p/ @ P w! ]AMTB Attack Management Test Bed 9 l8 G# H4 d$ u" ^. ?4 ]( YAMTL Army Materials Technology Laboratory. s9 ~# l9 C# j! cA/N Army/Navy. M; E4 o& d5 j AN/TPS-59 USMC Firefinder radar. 7 R) H0 }9 W& J; I/ g, S2 Z& WANALYZE Static Code Analyzer.$ P d7 J$ d7 p2 E* J ANIK E1 Canadian telecommunications satellite’s name. 2 `3 m5 \- O. a0 o' O ]ANL Argonne National Laboratory: O- v4 n1 A d# N' Q2 `, _ ANMCC Alternate National Military Command Center. 3 _) y" T% O$ \( P3 ]( E3 GANMD Army National Missile Defense. + b* r# W2 h. V# z* aANN Artificial Neural Networks." p4 l. Z/ B" Z- f6 ^: x, N2 J, c ANSI American National Standards Institute. , i1 ]! F l, O. Y e7 }; P( dAntenna Area The ratio of the power available at the terminals of an antenna to the incident* T" [) i- L$ V# x7 n" G power density of a plane wave from the direction polarized. 6 w5 G% W( q9 b3 mAntiair Warfare Action required to destroy or reduce to an acceptable level the enemy air and 0 m; A: J2 h* s! _4 G4 Rmissile threat. It includes such measures as the use of interceptors, bombers,6 F7 n T1 h9 c+ X antiaircraft guns, surface-to-air and air-to-air missiles, electronic ; Z# G4 Y9 a8 D4 L( o# G7 dcountermeasures, and destruction of the air or missile threat both before and * I1 V4 h: a* z' hafter it is launched. Other measures taken to minimize the effects of hostile air3 c. |& C! V& b8 N! L& L' s& U action are cover, concealment, dispersion, deception, and mobility (Navy/USMC).8 W! {$ {3 l. ?1 N7 Y. { Anti-Ballistic , l* t$ h7 W( |2 J: h! G7 {6 ~Missile (ABM)/ j# V& S2 U. O% H7 e3 D The term used for Ballistic Missile Defense (BMD) weapons developed to negate " a0 ? O) |9 t; h( M2 d* C, tthe ballistic missile threat in the late 60s and early 70s.' t$ y: r: r4 k9 ^2 S3 _9 I Anti-Ballistic6 k! T6 I8 X; q& Y( d+ I' D Missile System- g/ p0 d8 f# U. c' ~+ c4 S A system designed to counter strategic ballistic missiles or their elements in flight. 5 Q% @, Z d$ E B; w3 t# m* EAnti-Radiation # |8 a) p) x, p( DMissile (ARM) * f6 _+ y5 Y) z' c& uA missile that homes passively on a radiation source.8 g" y/ y0 p3 I, _7 p5 p3 \ Antisatellite) [9 P& c$ d1 |; R( F. |0 c7 b! d Weapon (ASAT)0 M* g7 r v7 |; W: C A weapon designed to destroy satellites in space. The weapon may be, m" l- f. V" P* {; Z# Q launched from the ground, from an aircraft, or be based in space. Either a {# r. n0 f4 h/ w5 Nnuclear or conventional explosion may destroy the target, by collision at high! v$ \% R0 y4 | speed, or by a directed energy beam. # v, b. h& i9 [# V; tAnti-Simulation The process of introducing random variations to the signature characteristics of ' o; r8 Q' ~ a6 l) n9 {! Han object in order to cause misidentification of the object by the sensors. The + d c$ n" Y& \& f7 C8 R7 U! qdisguising of an RV to resemble a non-threatening object such as a piece of7 w8 O. t/ @8 `7 W" q: r* h debris, a balloon, or a decoy. $ K2 d( p, F" b, ^0 w) GAo Operational Availability 0 J7 l: p& u x! |! RAO (1) Associated Object. (2) Action Officer. (3) Area of Operations (4) Acousto-2 N1 J9 w0 w) Z# O9 X Optical. (5) Attack Operations.3 c# ?/ w0 f5 {. y" I AOA OBSOLETE. Airborne Optical Adjunct (now called AST). + h( x) n/ w2 N# LMDA GLOSSARY, VER. 4.0 A ' p1 {& A5 M4 |1 i. e! i18 3 U5 \% T& m! Z" pAOC Air Operations Center.1 A+ i0 j. ~1 R8 ~( i$ K AOCC Air Operations Control Center.+ H: W( s$ d$ q/ {& m$ S AOEC Aero-Optic Evaluation Center, Buffalo, NY.% w( _5 U. N% x9 U- U$ ` AOI Active Optical Imager. 8 s+ i3 @- J6 j' e8 e: p" P _AOP Airborne Optics Platform., ?/ R, j5 s9 [6 Q( ^9 y+ ~3 L AOR Area of Responsibility. 5 d9 g7 { x8 y' p. E$ BAOS OBSOLETE. Airborne Optical Sensor.* e; ^8 V, }- U2 s) c R* Y AOSP Advanced On-Board Signal Processor.0 W! [. v( a, W _; g2 B3 I n V AOTF Acousto-Optic Tunable Filter. 2 D' ]7 c! \ l& q( L+ sAP Acquisition Plan.2 x1 \7 U9 g& y3 N APB Acquisition Program Baseline.9 H5 m* N+ d0 ~" Q, B APBI Advanced Planning Briefing to Industry (MDA). ) r! R2 ~( ~! n5 S Z U& sAPCC Alternate Processing and Correlation Center. 0 j+ X/ _: e, zAPDP Acquisition Professional Development Program.2 K9 \: _, ~# M0 S4 x0 N APEX Active Plasma Experiment% T8 b1 U7 c I6 D# |0 q* B3 K) J6 O. X API Ascent-Phase Intercept.! N$ u' i: K5 E% _; Z! c APIPT Acquisition Planning IPT (PAC-3 term).+ O7 }/ u7 K- z3 x+ [1 c APL Applied Physics Laboratory, Johns Hopkins University, Baltimore, MD.+ F) a* L& \0 M: w; k' _/ a, A0 Z APLE Average Power Laser Experiment. ; i& d8 Y& G/ v* C' \APM Advanced Penetration Model. 8 h6 W- i6 C f1 I- Q- R' HAPMA Acquisition Program Management Agreement.( x' A+ I0 L _$ c6 f! ]$ r% q APO (1) Apache Point Observatory. (2) Arrow Project Office. $ a9 j2 A0 G& o! V4 a5 ~2 X3 ]APOD Aerial Point of Debarkation. : @$ r1 t% T. m& YApplication (1) (Software) It refers to a process; usually implemented as a software 5 y3 w0 T, S/ b6 B$ i9 ~* h1 ?4 zroutine, at the highest level (Level 7) of the ISO open system 0 s4 T3 A; U" z& o: W) Harchitecture. (2) (SDS) It refers to such processes as the Battle2 N5 g8 N! D- r: @- B3 B$ K Management, Navigation, Network Control, and other high level functions 6 y, I+ ]+ d5 O% j# F ^' ]which may originate or receive messages over the SDS Communication; s- [; E# A6 h! Z8 P6 `9 C" d2 q network, via underlying lower-level protocols. (3) Software designed to. b! Z9 ^8 B- X1 h fulfill specific needs of a user. (4) (Acquisition) The process of selecting! W8 H3 h% X. g3 n requirements that are pertinent and cost effective for the particular % z0 S+ Y* W+ ?5 h' q, V" F3 s9 l1 zmateriel acquisition and contractually invoking them at the most & A6 Y' m0 c, ?9 h( A# D8 W1 iadvantageous times in the acquisition cycle.( Y4 ^& b1 W! y/ E5 } MDA GLOSSARY, VER. 4.0 A$ ?" Z; O! r, ?8 m- ^ 19; I$ K% K& M7 o3 N/ D Apportionment (1) A determination made by the Office of Management and Budget which, V9 H5 d1 F' m: z limits the amount of obligations or expenditures that may be incurred t1 V! n0 F" O8 Q, I* [3 cduring a specified time period. An apportionment may limit all obligations' G4 g! e# @, X to be incurred during the specified period or it may limit obligation to be ( a, N+ P- y% t% Q+ yincurred for a specific activity, function, project, object, or a combination8 D c# p3 p3 o thereof. The third of four phases of the DoD resource allocation process.# b+ e& g4 Q6 `* D) ~! x (2) The determination and assignment of the total expected effort by% E# F" u( y0 t6 A; e, S percentage and/or by priority that should be devoted to the various air( J- l1 K/ E. j operations and/or geographic areas for a given period of time. (3) In the # q: c: c" V/ e# v- Hgeneral sense, distribution for planning of limited resources among + }% {" N* r+ d0 M( P* icompeting requirements. Specific apportionments (e.g. air sorties and 4 j# t L5 T* o& Dforces for planning) are described as apportionment of air sorties and4 W% D( R/ d+ ~, F forces for planning, etc. 1 N3 K2 Z( k' @4 |Appropriation An authorization by an act of Congress that permits Federal agencies to incur % o1 {- b2 p+ G9 E+ U5 }. Fobligations and make payments from the Treasury. An appropriation usually: ]3 \4 }6 v/ @& _5 W follows an enactment of authorizing legislation. An appropriation act is the most8 E" {' O2 Y- s: M# w6 G common means of providing budget authority. Appropriations do not represent, b4 O. s+ g! ?1 M; F' r3 y' H# T cash actually set aside in the Treasury; they represent limitations of amounts, 6 ]5 r! p S8 e$ k+ {which agencies may obligate during a specified time period. See Authorization. # @) p$ |4 J! r* a# ~! r/ L: M) c& \Approved + O( v' q ^* U3 y! eProgram2 @( S7 ?: |) s4 O3 s \ The technical and operational, schedule, and quantity requirements reflected in! u& y9 D; {1 R% ^: q+ O9 f% b the latest approved USD (A) ADM, or other document reflecting a more current" P! G3 S7 N1 N' K5 S decision of the USD (A) or other approval authority, such as the President’s: b( u9 q5 P8 T& v Budget, the FYDP, and supporting documentation. 7 b) o4 b7 {! P" [$ UAPPS Automated POM Preparation Instruction. ( n* i& r( g8 i7 ~& }APS (1) Axial Propulsion System. (2) Automatic Phasing System. + `' M' q% q0 y6 M6 yAPT Acquisition, Pointing, and Tracking.+ ]% B0 B, g: c! S: u* _ APU Auxiliary Power Unit.$ o& a7 v0 o6 l ` AR Army8 K# x6 n0 [1 H3 ^8 ^" v- n* \ ARB Accreditation Review Board. ^; f4 A* X) {& ]3 n6 fARC (1) Advanced Research Center, US Army, Huntsville, AL.* _% g6 M3 I3 n5 m& [! `8 h6 @+ [ (2) Atlantic Research Corporation. 2 @7 t; F" c" F( g) R8 ]( k( nARC/SC Advanced Research Center/Simulation Center.% s4 ^3 y8 b1 O3 t. M' X+ @3 [ ARCCC Army Component Command Center.( t3 U" e- W/ \7 v3 ]6 o ARCT Advanced Radar Component Technology.' c- s" j& x, Q8 [# [& S6 C ARFOR Army Forces. 4 T# K3 z I K8 f5 |ARGUS Advanced Real-time Gaming Universal Simulation. $ E9 {: ~1 H5 O6 D9 lArchitectural ; f% L0 k% m- t ]( y, n( aDesign " L8 M f, O; N% |4 D- P' e) x, IThe process of defining a collection of hardware and software components and( w; d# [2 v- p* w5 Q5 X& z their interfaces to establish the framework for the development of a computer * g' S v; X1 t9 Y6 dsystem. $ g0 O& y+ R! p9 d$ r! zMDA GLOSSARY, VER. 4.0 A * r% Q( w# R `, K20 6 `8 u, f( C. d6 Z/ `Architecture 2 D* e' N& |- [ H/ FIntegration5 ]- s! Q+ r* c( u Study (AIS) * ]# \4 O; q) @; a1 u! Z- ~A study to determine the performance of alternative architectures and element - P0 s# m" @3 |: h% T+ [# e* W8 \6 ~designs that satisfy BMD System mission requirements, and to evaluate the& F5 r) b; `$ l% K) V effect of changing threats and advances in technology on the systems, " K. N9 W2 T! f" a1 Nsubsystems, and components making up existing and proposed architectures.# j, y0 K. Q4 ] ARDSOC Army Defense System Operations Center.! x* J& W) W/ d( L5 r1 g+ L. M ARE Aerothermal Reentry Experiment.9 u B9 D7 ^# a/ h, }+ P) n" c Area Air Defense1 [9 o' K, s& r4 M- M6 w" k Commander! S( p5 P; R- j (AADC)( \7 \* I& d8 ^4 p The person given overall responsibility for air defense within an overseas unified# k9 c3 ~$ n% x command, subordinate unified command, or a joint task force. Normally, this will + F- x# D* f% M8 g# ~$ Abe the Air Force component commander. + R5 H5 D/ A# t1 EArea Defense Defense of a broad geographical area that contains both military and civilian% H" j/ h( a) d" z3 f assets (i.e., depots, towns/cities). (USSPACECOM) 4 ^' \# ]; O, l: j2 @# UArea of Influence A geographical area wherein a commander is directly capable of influencing4 ~9 V7 Q9 Z7 q+ d/ u# j! R5 e- D) f& A operations by maneuver or fire support systems normally under his command or % g$ A* u' T$ G1 x8 ocontrol. S! E% b2 x8 p9 H Area of Interest " F8 y6 @4 u) q! Q6 ^8 h( M(AOI)- y8 W( B1 O" D1 i9 j The area of influence and surrounding areas that is of concern to the 5 D y5 [& n1 H0 j6 h4 P: A Lcommander for the objective of current and planned operations. This may ) W" V! L% @$ q. u& Uinclude areas occupied by enemy forces.( r* L2 j0 K. c3 x& m* k- [5 j1 x: E Area of - p+ O6 `" [, P1 fOperations 8 K& P- E! x! x- w; `That portion of an area of war necessary for military operations and for the* y; c+ J' J8 M: P h( O6 g administration of such operations. ^) }5 e& b, AArgus An airborne optical platform operated by the Air Force’s Phillips Laboratory.4 Y, D3 T! Q# j7 K0 M" A7 |) p Argus is sometimes used by MDA to collect flight test signatures,/ u: e8 d: j: i1 ]# M phenomenology, and intercept data.3 y/ F) x# P9 y* P ARGUS Advanced Real-time Gaming Universal Simulation. 6 x. E8 S: F. c3 \; I& c3 K$ r+ rARH Anti-Radiation Homing. - r. I/ @. K- _; f& V, u- q' AARI Army Research Institute

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ARIES Active Radio Interferometer for Explosion Surveillance. ! H7 D2 |( A" n+ u& c7 L6 gARL Airborne Reconnaissance-Low (USA term) [circa 1996 = Reconnaissance* g! N' i( `4 Y' Z. u- Z; H, k equipment in Dash-7 airplane]. - g; ?1 P) ?" m% _ARM Anti-Radiation Missile.8 |+ A9 S- X5 j; \% G Arms Export + e% a9 n6 m; ]1 ?5 a( T# YControl Board 1 M5 M9 S2 r6 F3 `2 k+ H(AECB)* E3 d! p) g2 j- J8 [1 v An interagency board, chaired by the Under Secretary of State for Security. I+ e- R8 T3 K6 h. {( I; ? Assistance, Science, and Technology, that serves to advise the Secretary of ; F8 g/ `9 t9 o+ a( j' s m& h, [6 PState on matters relating to security assistance program levels and arms transfer- {& F8 N# b, W* L policies.2 ~# b; Q( \: S) Y0 e- T2 b2 `2 N Army Brigade: ?, l, i& { q ^ Center (ARBC) 9 z6 W Z9 e' s( }1 g$ R- e. ?The Army center between the ARSPOC and the ARROC with C2 responsibilities ) E0 @4 s' M% V. _) Dfor BMD. |& V9 C' l- b4 j8 g3 u! K0 L Army Component3 N0 v3 G! P6 B: \ Command Center( d3 C- u9 J0 W* [ (ARCCC) 2 @! x8 d2 N7 q0 s, b$ @A segment of the Command and Control Element, which replicates capabilities of* p) A$ l3 q7 A( ~: A, o" k* O the CCC (BMD) segment and provides administrative and logistics support to ; b$ u4 r9 t. P9 uArmy Component Forces with the Strategic Defense System. The ARCCC was * _: G6 u2 { T; Y1 q* feliminated from the CCE (now C2 E) architecture during the last SAS system & r2 `# n& H% narchitecture definition update. 6 r2 v5 ]0 ]: l9 `, ~% z8 y) VMDA GLOSSARY, VER. 4.0 A $ G ]$ U H! s; B/ ~21 6 ~, W' }+ {8 S9 R' ?Army Materiel9 o8 x3 [1 r! u Command (AMC); w" A' f$ N2 b3 V6 S Performs the assigned materiel functions of the Department of the Army,, G% I M- F/ d/ l; J including research and development; product improvement; human factors/ q& r) @: L7 ^+ e9 B9 k0 U engineering; test and evaluation; procurement and production; new equipment ' M! ]! |$ x% ^+ m/ n$ j1 Ptraining; scientific and technical intelligence production; international logistics : n! \% G3 v- b8 A3 z* _; Bprograms; and storage, distribution, maintenance, demilitarization, and disposal ! d3 K7 L" w: k- Ffor the continental United States wholesale supply and maintenance systems as " E- g) V7 f5 c8 G& ?: ywell as for overseas systems. Located in Alexandria, VA and moving to Fort u, X& T( C5 X4 @' R. hBelvoir, VA in 2003." S6 k! U9 t2 z4 r8 k Army Space2 U/ I* e4 a" {& L: [ Operations' ?2 E2 i- L& f, Q9 o! l: d9 d Center (ARSPOC) : N; Q7 k8 C9 y. W) A' G4 HThe Army Space Command Center responsible for logistically/ administratively8 m+ A- i- p; z$ g* `$ ~ controlling assigned SDS elements and which shall also include the capability to 7 E, Q1 D& @ k5 t8 H& T7 e" Yassure the BMD mission is carried out should the USCINCSPACE CCC be lost., f- l5 m2 u8 p* P; O& E( D! u# @ ARNG Army National Guard. ; }# \% R7 v+ i. ?# B) ZAROS Airborne Radar Optical System., Z( A. G% A4 e9 G ARP Address Resolution Protocol& I' f' Q( H0 G0 G ARPA Advanced Research Projects Agency. (Formerly known as Defense Advanced0 `1 M! T3 z1 V, W+ w6 ? Research Projects Agency (DARPA). 2 r% Y9 r$ |: h5 }2 Z( Y( O @7 [ARPANET ARPA Network. $ q+ s+ l2 H3 X/ f% ~: QARRC Allied Command Europe Rapid Reaction Corps. 6 n- X8 {" P& p+ x2 \' qARROC Army Regional Operations Center.( |( D- p! Q% A( d9 e Arrow A technology demonstration program started in 1988 and designed to meet5 B ?3 n) `5 r Israeli architecture requirements for area defense of population centers against ) J0 T" X& \5 d2 rTBMs. ! _( Y. c* C* O `ARS (1) Airborne Remote Sensing. (2) Action Request System., w7 X9 I) t8 {2 C( p ARSCS Automated Rear Services Control System.2 H) Y/ b% b* o ARSPACE U.S. Army Space Command. 1 [4 n( @& m! d) B% l3 O7 _ARSPOC Army Space Operations Center.6 z$ g" j/ K/ O ARU Alignment Reference Unit (PAC-3). ! S0 U1 K* j8 n( j4 j) K4 lASA Assistant Secretary of the Army. , j- q3 d2 a# g) C7 `7 n6 @ASAF Assistant Secretary of the Air Force. . o# H7 x7 h& c6 g- L9 K$ ~ASAF (A) Assistant Secretary of the Air Force (Acquisition).- T6 @ r2 G# k, M1 ] ASARC Army Systems Acquisition Review Council. 5 h; D- s. o; T2 gASARS Advanced Synthetic Aperture Radar System. . Z3 T2 _, t z3 f$ \ASAS (1) All Source Analysis System. (2) Advanced Solid Axial Stage.$ x! \0 y. @" y! D- o; \- |1 V ASAT Antisatellite Weapon.% b* v- n% [9 Q4 S1 q$ d ASB Army Science Board. / H9 y4 p/ n& o/ hMDA GLOSSARY, VER. 4.0 A F8 ^) F/ R! ]4 c/ i& B! t# `" E224 w) F3 i l2 U4 D- G ASBM Air-to-Surface Ballistic Missile." D, F( q0 }; M ASC (1) Army Space Command (See also USARSPACECOM, ARSPACECOM). & e; ]6 U# L- o7 x+ P5 K(2) Aeronautical Systems Center, Wright Patterson AFB, OH. ; Y& K' E' y: L" v" b4 j# s, }ASCC Air Standardization Coordination Committee. 2 B' N1 ~+ j$ n9 H0 Q; dASCII American Standard Code for Information Interchange.$ j: E4 k5 k. s# h) Y# p6 t ASCM Advance Spaceborne Computer Module : U* ^5 P# `7 D: f: p% I) | JASCO Advanced Systems Concept Office 6 K L: _3 e+ t# o# lASCON Associate Contractor) Q& A4 {1 A( t( n9 r1 S! X3 X% e ASD (1) OBSOLETE Aeronautical Systems Division (AF). See Aeronautical$ r% n) B* {! ? Systems Center (ASC). (2) Assistant Secretary of Defense. * h' y, k# ~8 t% z, e9 a7 ^- y9 h4 _ASDC Alternated Space Defense Center8 b; e0 T* d; L# S0 z& y7 g7 b6 x ASDP Advanced Sensor Demonstration Program. p2 h# C9 T! g$ vASEAN Association of Southeast Asian Nations 5 R+ P+ z1 q( p! l# ^, u8 r( ?! @% |ASEDP Army Space Exploitation Demonstration Program. - d* U! t2 s( e% s4 dASIC Application Specific Integrated Circuit.+ W7 q0 E! c3 Y6 W3 d" G0 C- F ASIOE Associated Support Items of Equipment (USA term).; l4 n5 m% @& ]. j+ O @ ASL Authorized Stockage List (USA term).5 X. {) m, h, f ASM (1) Anti-Simulation. (2) Anti-ship Missile. (3) Air-to-Surface Missile.% \( Q& l8 ^$ c( p+ G" a ASMD Anti-ship Missile Defense. / Q" w0 w# |4 e8 h8 ], \ L QASMDC Army Space and Missile Defense Command, Huntsville, AL (1998). ( ^7 F, f. D/ V. M; b- Q4 pASMP French Air Surface Missile1 V( q% Y c1 U# [) A ASN Assistant Secretary of the Navy.( a4 T) x% E' Q; y, | ASN (RD&A) Assistant Secretary of the Navy (Research, Development & Acquisition). 9 b: x9 P& O+ t; q0 VASN (SB&L) Assistant Secretary of the Navy (Shipbuilding and Logistics). " X2 ^+ j. Y. `ASOC Air Support Operations Center.2 g! \. Q3 o: {7 v; _6 M ASP (1) Airborne Surveillance Platform. (2) Advanced Sensor Program. (3) 3 V5 ]! A, ], g: r2 n* XAdvanced Sensor Platform. (4) Annual Service Practice. 0 }' M; v+ ]; ~: e+ ?) A: q( I; AASPADOC The backup to the SPADOC, maintained by the Naval Space Command, at ( b- O) d3 W A0 qDahlgren, VA, collocated with the NAVSPOC and NAVSPASUR. 2 ~5 I' _# |# M7 }ASPIRIS Advanced Signal Processing for IR Sensors.+ H ?) m( U( ]! x2 n' q6 F ASPJ Airborne Self Protection Jammer8 s4 G! |. j2 m% J MDA GLOSSARY, VER. 4.0 A( r3 q, u' I, R9 V4 d 23 1 s% x* x& ~& XASPO Army Space Program Office.0 s( J6 d% B+ q0 ~ ASR Acquisition Strategy Report.$ h4 I% _8 c$ s' z& p5 u" H9 F ASROC Antisubmarine Rocket. ; V- l3 a. a9 p9 iASSERT Augmentation Awards for Science and Engineering Research Training (DoD / \ \4 Q- Q; M( _2 U9 Kterm).' |" N) i- P0 a) C9 X Assessment (1) Appraisal of the worth of an intelligence activity, source information, or" l- ?( `7 c5 z3 _. d' S product in terms of its contribution to a specific goal, or the credibility, ) U. v' E4 r; [reliability, pertinence, accuracy, or usefulness of information in terms of4 ~5 W! P$ z; o3 Y1 Z- L an intelligence need. When used in context with evaluation, 4 A8 n2 I! W! n, ^% A! Wassessment implies a weighing against resource allocation, expenditure ; b ^! o$ t! b* x8 cor risk. (2) An independent evaluation of a model or simulation by an # y# \1 ^6 X6 l& f0 [4 ]( SMDA-sponsored Confidence Assessment Team for a specified purpose.- U* T$ [1 t6 n6 {9 q# B ASSIST Automated Systems Security Incident Support Term (DISA term).4 U* P* r! | `; |6 @1 }, z5 a Associated , \/ a9 C, y! H' ]+ }; g/ gObject' \& d( q1 A4 H$ Q( v) Y. n Object that remains near a deployed reentry vehicle, decoy or chaff puff.+ r- Z, Y X s$ H. J. ?- K Assume Course 9 }+ H; t# C1 H% p6 B: y. i! U/ c. oOrientation / k+ b& Z x" K9 X& Y4 QMake course attitude adjustments to the weapon platform orientation prior to ' v0 m6 x1 E# w2 f- a3 S# N9 Eengagement.2 |, O6 _9 x! v( z( q- } c Assured Defense Strategies and tactics that result in (specified) a high probability of kill against# G5 R, B7 D, ^8 J- v. Q designated targets, regardless of the interceptors required. (USSPACECOM)6 ^) N; j3 m7 P; B Z Assured Kill This option requires defense segments to employ tactics, which produce the1 z9 a( m$ l# g2 i3 @0 @# v0 d highest probability of kill consistent with the available number of defensive $ Y8 _, F$ P' O$ h* p4 c7 u/ kresources (interceptors). 8 O* o: F9 q/ O' H! L6 Z- \8 XAST (1) See Airborne Surveillance Testbed. (2) Advanced Sensor Technology.9 c% J2 w- n @7 E ASTMP Army Science and Technology Master Plan ) K6 V5 I% M# r+ g5 LASTP Advanced Sensor Technology Program9 v: U# X3 d" P+ K1 \ ASWG Architecture Systems Working Group.' B* k/ v9 C/ y, s# L* ^ AT Advanced Technology, k2 l+ q3 D X, n7 D+ g* R ATA (1) Advanced Test Accelerator. (2) Avionics Test Article.! p% ~! X! Z' S ATACC (1) Advanced Tactical Command Central (USMC term). (2) Advanced Theater Air ) Y; j, O0 B% f3 ]Command Center 1 w' ]0 `2 H# j! L. CATACM Army Tactical Missile : l* b s$ F9 B- cATACMS Army Tactical Missile System. / r4 r2 c2 h! I' Q2 D8 i/ i& ?ATAF Allied Tactical Air Force (NATO).( r) t3 g o. w5 \4 P0 H ATB (1) Allied Test Bed. (2) Analytical Tool Box.% G; w1 z+ Y# e | ATBM (1) Anti-Tactical Ballistic Missile. (2) Anti- Theater Ballistic Missile 8 I! f9 }# h* Q& t. o9 MMDA GLOSSARY, VER. 4.0 A% h1 M2 |: `8 [. l 24 8 i' j9 `/ ^" P/ v3 VATC Automated Technical Catalog 0 B! X* X! `: gATCCS Army Tactical Command and Control System3 G4 r3 Y9 v% n ATCOM Army Aviation and Troop Command (pre-Oct 96) (See AMCOM) n- i% J' q+ \4 vATD Advanced Technology Demonstration. : J% m, [" r L0 |0 `# tATDL Army Tactical Data Link. 8 l ^! r. B, U( ~! ~! S* s- LATDM Adaptive Time Division Multiplexer. * f1 Z3 @$ A( F* p# PATDS Airborne Tactical Data System. ' Q: }8 g3 L9 K$ l! }$ o. ` P5 tATE Automatic Test Equipment. 9 V+ X& m# c+ U$ n2 v) OATH Above the Horizon ( O6 ]: z; h* O) ?6 T7 i G( VATHS Airborne Target Handover System. ' q/ U) C8 f. o. cATI Advanced Technology Interceptor5 s+ s/ o* w1 ] ATIM Advanced Technology Insertion Module 2 ~7 y' b6 p% I" p7 R2 SATIS Alliance for Telecommunications Industry Solutions7 i+ Q+ D/ P; g( `' k6 |& {' \ ATM Anti-Tactical Missile.9 |+ T: x% ~: [( P( l ATMD Army Theater Missile Defense." ^/ `" H+ V- D" _ ATMDF Air and Theater Missile Defense Force (US Army term). K' H) b$ q1 S1 E6 r" X ATMDPO Army Theater Missile Defense Program Office." Z/ H8 G: O+ C) K6 X9 l ATO Air Tasking Order. \9 ]% \9 e) Y5 J6 H* A ATOC Air Tactical Operations Center. ! C+ A% t5 H4 `. f1 M4 h { bATODB Air Tasking Order Database. ; D" j8 N$ u* P1 b7 i0 A+ tATP (1) Acquisition, Tracking, and Pointing. (2) Authority To Proceed. (3) Allied h+ W* t8 U/ G* L- _, a Tactical Publication. (4) Acceptance Test Procedures. (5) Acceptance+ u/ Q6 C/ k/ X' o( P9 ` Test Program. (6) Advanced Technology Program (Department of( z3 f& j' Q& S$ k$ T Commerce term). (7) Authority to Process." ~. b; D' ?+ b. l8 i ATP&FC Acquisition, Tracking, Pointing, and Fire Control. : u; @; @4 d6 E1 e3 v0 wATR Autonomous/Automated Target Recognition." r5 r% V6 f* @/ } ATRJ Advanced Threat Radar Jammer. ' f: `" B% H1 m! z1 BATSIM Acquisition and Track Simulation. 3 Q8 G5 j( Y1 ZAttack and# x/ C: I/ l; w" Y" t5 k5 j4 P: j Launch Early - ~/ c3 l! n& y9 H0 S5 K" `' v: GReporting to2 t+ ~9 j* M+ W Theater (ALERT)3 f6 m/ `4 o! p+ S4 z2 G An upgrade to ground station mission processing which exploits inherent satellite" f: u1 }7 Z( a) H) x' m0 U, L% B; n capability to provide theater missile warning and cueing. ( P) W" q, V2 @; ?! kMDA GLOSSARY, VER. 4.0 A 3 B, S2 E: ^: Y# N) r: b25 , n8 r) M2 i/ O1 `/ E* vAttack4 d C( e: ]8 k+ F; {3 i Assessment (AA) 8 D% i- N0 {6 E. U: TAn evaluation of information to determine the potential or actual nature and ! F8 I. `3 `# U* I0 Jobjectives of an attack for the purpose of providing information for timely 5 l$ p( s: Y5 j: R8 M; s% p$ Rdecisions.7 o4 Z5 L* D' A# L# r0 h5 {& }/ E Attack : T: E+ q2 H) C4 [1 BCharacterization+ r! m; i, U( {1 S- J The process by which the parameters of an attack in progress are developed,2 J- c9 \: o3 X+ V" Y* h updated and defined.; y* U2 G- g. c1 y# Y1 b2 K Attack8 W, [: ]. }5 T( S3 _' b' d Operations ! }* m% R7 q, u, p' Q(Counterforce)2 b- _9 |. G8 s6 h! b+ \ Attack operations prevent launch of theater missiles by attacking all elements of 0 x1 Y7 Z# j, K0 q' o; {$ f sthe overall enemy system, including such actions as destroying launch platforms,9 I! f& ~+ p: k* l support facilities, reconnaissance, intelligence, surveillance and target acquisition7 ^6 w8 P1 s" t platforms, command and control nodes, and missile stocks. Attack operations ( C5 w3 P) K2 O) H( vcan be executed by space, air, ground, maritime, and special operations forces. : C9 O4 f9 K, K0 L6 AAttack operations are considered one of the four pillars of TMD capability. (JCS D9 t, f$ ], M3 @; f# {1 ^J-38 CONOPS) ( x9 P1 [: ]. X h3 SAttack Price A concept used to evaluate the performance of a BMD system that defines ) E, ]7 N% F. w, r; d! [( W“price” as the number of Re-entry Vehicles required to ensure target destruction.. V5 H1 b j& o3 F Target destruction is defined as a probability of target survivability using the draw 2 E# q# B j% Xdown curve. 7 a5 f3 W9 {& l$ s6 O) dAttack Warning/ ! P" O! o5 [0 E# _/ u$ m& lAttack' E; O8 G7 t5 ^ Assessment ! j$ B! B6 @# l9 n+ t(AW/AA) 9 G$ L7 ]0 W8 y3 i6 c) y4 ~Integrated air, missile, and space defense data used to determine whether an, A7 f9 ?8 j+ r6 r, i7 K, e' C3 [: Z attack is underway and, if so, what is the type and strength of the attack. ) x3 V' y5 |* e V( a. R% YATTD Advanced Technology Transition Demonstration.6 g: i/ L, u3 Y5 P9 @1 [ Attenuation Decrease in intensity of a signal, beam, or wave as a result of absorption and 6 G( N, X8 X" Yscattering out of the path of a detector by the propagating medium, but not* u, n u9 \% R7 x including a decrease in intensity due to geometric spreading (e.g., the inverse e/ w# p( h% O1 M% \% A6 e, asquare of distance).. v" b ^9 t% D8 ]. A( ] ATV Advanced Technology Validation. / s: w0 q, Z8 T. `8 V2 iAULS Accidental or Unauthorized Limited Strike. 3 \8 N* u1 }4 Q. J1 IAUPC Average Unit Procurement Cost. - ?& r% Z8 p+ R2 _AURORA Canadian aircraft. * i! @5 u! H$ r; r2 uAutonomous# w" y- g) i) N1 A/ n Acquisition, f0 h8 s: V! [/ r; U( T J' E Range (Max.)6 {0 o8 P) \$ I- s The maximum range at which a target can be acquired by a sensor operating in) @; X$ U% ?$ u a non-cued mode.; d3 h: C2 K( ~ AV (1) Air Vehicle. (2) Audio-Visual./ u4 S8 z! Z5 B5 w6 N AVATAR (SAIC) Flight dynamics simulator.% U* v' ~ l: E6 o AVC Advanced Vehicle Concept. , g0 }/ X9 e( k0 m' E; h. k5 ?AVCATT Aviation CATT (US Army term) ; a( C' o) R' N6 X6 x8 E0 m GAverage Unit * g" j+ _( a- e$ N: UProcurement; x. ?: a0 B: t' n Q. R( i Cost (AUPC)1 S5 H( G% H+ ]; ^2 }* P, t* [$ \ Design to average unit procurement cost objectives, expressed in constant ! H7 u' z# W0 P/ ]4 s3 Tdollars, are established for Milestone I, Concept Demonstration Approval. AUPC 6 Z9 [7 m) t, d# lincludes recurring flyaway, rollaway, sail-away costs (including nonrecurring" Y4 e; N- p( [8 H% a% @9 y3 f production costs) adjusted for data, training, support equipment, and initial ) m7 K$ \- @$ e* m9 E o4 \5 L+ f) Ispares costs.9 h7 s' D1 Q* _6 G- J7 `3 R' [ MDA GLOSSARY, VER. 4.0 A6 g+ M. o9 l3 o) t+ C& ^ 26 8 p, { J" i! |% pAVHRR Advanced Very High Resolution Radiometer.! n6 o7 [/ x/ N1 F6 ~- \! o7 ] AVSCOM Aviation Systems Command (US Army). $ v6 C* t: R8 XAW/AA Attack Warning/Attack Assessment. 8 `. v% J+ ]0 t8 `- c" [AWACS Airborne Warning and Control System. v5 W: L9 n, t6 F AWC Air Warfare Centre (UK RAF term). 6 ^% W. Q1 k! fAWE Advanced Warfighting Experiment 0 f7 P% P: r" n4 {1 o9 F& CAWG (1) Acquisition Working Group (GSA term). (2) Algorithm Working Group.+ G3 M6 e3 p0 z AWS (1) AEGIS Weapons System (2) Advanced Warning System. (3) Arrow Weapons . o% _! x$ {$ e# L% `" {$ @System (Joint US/Israeli BMD weapons system)." M3 Z5 K# m5 `, p Azimuth Orientation of a vector projected onto a reference horizontal plane, relative to a% H5 N9 q/ L' T( D" ^- q5 y) ^7 v reference direction in the plane. 5 e# N5 k6 f# g3 J! Y/ L; jAzimuth Angle A positive angle measured clockwise in a reference horizontal plane from a + [9 _) A2 \* t- x+ ireference direction to a given direction. For a topocentric-horizon coordinate 6 b4 [9 R) p& F5 ureference frame, the reference direction is due north (true north or magnetic* J0 B! N+ p ] north, depending on the application)." [- z5 C4 R" ~2 n MDA GLOSSARY, VER. 4.0 B1 \* Y# h0 [9 Z. l' z# ~5 H2 k' r 273 k+ Q5 H3 `# @7 Q I) d B Billion.+ @' t7 S) Y/ r B Spec Development specification.6 |. |( D. y I; F" U3 B9 A5 D( G- k B2C2 Brigade and Below Command and Control System (Army term).) `6 \- ?$ \& E BA Budget activity. The budget activity codes are:3 Z. e+ W6 z) J A; s 01 – Basic Research # w, U0 t1 ]: ~1 f/ p02 – Exploratory Development ; T1 J( z9 \0 B2 W% I' i03 – Advance Technology Development 2 P# [$ T% e2 `- o04 – Dem/Val" U7 h( K- m# }/ _; O9 Y% r1 `4 v) f 05 – EMD 2 R/ j* O0 B- g( T06 – Management Support+ J3 _( F! `0 l# X7 q( k3 ? 07 – Operational Systems Development8 |& O% {8 E2 U5 ^3 ]: H; x5 t BAA Broad Agency Announcement.0 K3 I$ T; I$ D BAC Budget At Completion. : o- Y" z) z' N* P6 oBackbone , N# _8 i" X2 ONetwork1 _- n5 B& F$ Q) }7 }, S Consists of the space communications network, the ground communications 2 _- N. n3 V4 ^( ^7 Onetwork, and the interconnection between the two.$ d) R! @, j# e4 }! F6 l1 B# z4 w Background + @5 ` C$ c2 n+ c( b1 {2 URejection : H2 K e( w+ y. R8 X! [(Surveillance)' [/ h7 x6 ]9 a. G, s The suppression of background noise for the improvement of an object signal. 4 B% T2 S- P3 s' g9 Q9 j: TBAE Battlefield Area Evaluation (USA term).9 y! j( P! |8 j8 K4 G+ C( N BAFO Best and Final Offer. 8 }1 i5 V- `! ?- KBAI Battlefield Air Interdiction. ) S2 N1 T& a3 _! o; E+ E% BBalanced / D" ?; a. N) h9 v) J% C# JTechnology 2 @' f' i/ k# ]" V7 ]( ~Initiative (BTI) 5 U8 s* I$ |; t! r! \, uDoD’s program to hasten application of advanced technology to the most critical 7 F, }& h8 S& N% m( Gand urgent operational needs. BTI projects are demonstrating leap-ahead' `9 z* X$ _ P( P/ l' Q capabilities enabled by emerging technologies in smart weapons, target . v2 \% d3 z; E C' d( u$ e7 o; Uacquisition, battlefield C3I, active countermeasures, and ultra-wide bandwidth . O( i* r; Z* |: B% d2 v, ~radars and high power microwave systems. $ @2 a/ ~% |; G. v% O, M& [" HBallistic 5 P( w. s9 U& U sCoefficient4 Z3 \+ t: \9 T8 J- b) ?) E' D0 v The weight of the object divided by the product of the coefficient of drag and the0 `+ h; R( O1 [6 H0 U projected area (W/CDA), in kilograms per square meter. % P" F% h; L6 X" g3 s }2 q# f; zBallistic Missile , i8 |: U" j3 m$ L(BM) $ B. c K8 j! e- ^6 JAny missile that does not rely upon aerodynamic surfaces to produce lift and. ^9 p A. \$ W. } consequently follows a ballistic trajectory when thrust is terminated.0 V- S0 F9 \" E0 t1 W$ b; r Ballistic Missile% x- D* L* Z! {! f, B$ n Boost Intercept8 A, @6 s: v4 G4 { (BAMBI)7 d" i: w2 `4 i4 q+ n* Q3 T OBSOLETE. A 1966 system concept that a Lockheed study group developed in # a8 c# T7 A( h9 }8 b7 M9 zanticipation of possible government interest in the development of an ABM " ~! ]/ a( I( s) d8 Gcapability. 2 I# [+ p/ D, h; W9 X, }5 m# A% qBallistic Missile ; b% D" J0 R6 g( ^Defense (BMD)3 c5 M3 V. U, N, N All active and passive measures designed to detect, identify, track, and defeat' N1 M5 z+ S9 P9 @9 @+ e. m attacking ballistic missiles (and entities), in both strategic and theater tactical" Q4 c* J1 U% v roles, during any portion of their flight trajectory (boost, post-boost, midcourse, or . _1 r$ i" u' b2 h) I4 H( \. H) Fterminal) or to nullify or reduce the effectiveness of such attack. n7 H( D. h! S5 _+ W7 s2 P/ dBallistic Missile* ? g: U W3 ~& o5 B/ Q( H# ^5 I Defense Battery' s# c6 C5 a, x5 v, a4 B6 m4 J An Army operations center, which operates and maintains BMD ground-based % N# n& r$ ]( W8 }weapons and sensors. & C+ V5 F) b5 ]% s2 rMDA GLOSSARY, VER. 4.0 B ; `; p1 N% _& U# z- F, m3 o28, V+ s3 i- I2 F+ A/ h3 C( M Ballistic Missile# x, [" \* ~7 r, \" T4 N+ d Defense (BMD), N( @+ t. F9 B$ [ Cell % m- C8 a+ Z) T F* ~8 Y" E* y DThis facility will be located in the USSPACECOM Consolidated Command Center- O& V" d1 Z' g$ }# z (CCC) and Space Control Center (SPACC) to support the Space Force. Y" X3 F; I: j) s8 e: N$ ]' g Application mission area interface between the BMD system and* ]$ c1 o! Z' X* c7 q7 U! a USCINCSPACE. The BMD Cell will provide command and decision support to ) u1 {: `: D' @; o4 O% ]USCINCSPACE.0 L( }4 Y3 X! d# {: @ M Ballistic Missile ' y* f9 I) w# s2 s; L) ~Defense 3 Q( |2 X4 d% y, ?$ KOperations 1 h. E* `+ m$ Q% dCenter (BMDOC) . Y6 U' Y1 _6 q( y; D7 YOBSOLETE. Initially located at the NTF, and ultimately in the Cheyenne 7 g" Q1 T* K) A# {+ }5 I( U! B# rMountain Complex, this facility supports the BMD Cell-USSPACECOM information+ a1 t) d% K$ U Z, y4 y0 F3 D3 D interface. The BMDOC hosts a BM/C3 processing suite and the operations $ D8 a% r7 n, O5 w7 u; Epersonnel necessary to coordinate and integrate system-wide BMD activities and8 L4 X/ H$ M: d) c5 ~' ? supports the USCINCSPACE planning and decision process. L2 @+ w s4 A9 ^- p Ballistic Missile i% |' C' b. C8 X6 V. e7 @ R6 nDefense$ K, b8 ~) L% t+ {/ T+ Q Organization 1 z; R" g" _) T1 I(BMDO)% I% q7 O; V% S9 e% M OBSOLETE. The former name of an agency of the Department of Defense$ Q6 M/ Y3 f6 Y8 z6 I whose mission is to manage and direct the conduct of a research program ) U6 N8 \) s, Z% `* [examining the feasibility of eliminating the threat posed by ballistic missiles of all % |/ B8 x/ X' F# E# S' E1 Iranges and of increasing the contribution of defensive systems to United States ; p8 O ?; P9 jand Allied security. MDA is the successor to Strategic Defense Initiative ( f( ~! w8 _ L6 r2 r% q& @8 IOrganization (SDIO). See MDA.2 X7 v, Q4 A: F Ballistic Missile " n1 u" b# X3 r+ KDefense Program 0 e7 u! _) v+ h; SAn architecture comprising three objectives: Theater Missile Defense (TMD), : k1 Y3 g) p+ ?/ P/ X# z, l7 bNational Missile Defense (NMD), and Follow-on Research Programs. 7 t& O1 X3 e9 y: f BBallistic Missile $ L+ ]. d! b n; ^5 [Defense (BMD) 9 O; ]: O6 A I. h, ySystem! ~' n7 |6 }6 _' ?# X2 d% _" ^ (1) An integrated system that employs layered defenses to intercept missiles' i( e) `$ n5 C, W5 ` during their boost, midcourse, and terminal flight phases. (MDA Lexicon)! n. `" a% `/ i% M, c0 V (2) The aggregate BMD BMC3 and BMD forces that, in total, provide defense* i# X6 n* |( J+ P: E3 ^% ? against ballistic missile attacks to North America and other areas of vital interest.4 B/ i& Y$ q6 i: F, N (USSPACECOM) 7 h, j. V5 i5 o% S/ a% eBallistic Missile / G3 H+ f, u/ ^Early Warning" `" t2 f [1 w4 m# V System (BMEWS) 5 S& t$ H s6 m" k- H2 k* WProvides tactical warning of ballistic missile attacks, and is part of Spacetrack, L2 `) e/ A* n( } system. A two-faced phased array radar located at Thule AB, Greenland; three " b) n3 u- O; D! u; q* adetection radars and one tracking radar at Clear AFS, AK; and three tracking & c% |& F( A4 v: y: M+ h9 wradars at RAF Fylingdales, UK.: g& T5 k, E) F4 {' f: y Ballistics The science or art that deals with the motion, behavior, appearance, or ) i. ^% n0 l l6 u6 `3 E, Vmodification of missiles or other vehicles acted upon by propellants, wind, gravity,/ u1 S9 {$ ~* Z& s temperature, or any other modifying substance, condition, or force." I' _) K6 f; e s Ballistic 9 A! |( K8 F4 _; `3 r8 jTrajectory 1 Y/ a7 K) q( \7 X% k( lThe trajectory traced after the propulsive force is terminated and the body is " }. |5 V/ t7 ]. Lacted upon only by gravity and aerodynamic drag. 5 Z1 I* z5 C( v7 \Balloon A spherical inflatable decoy used as a penetration aid to mask the location of8 {1 [- w8 W6 S) B2 T; s% b+ } reentry vehicles. 2 _% f6 F0 v$ q0 JBAMBI OBSOLETE. See Ballistic Missile Boost Intercept. ; w, ]% l) K5 }0 ]9 U" F! z: WBandwidth The range of usable frequencies assigned to a channel or system; the difference ; z( K1 b: D3 Nexpressed in Hertz between the highest and lowest frequencies of a band., c) d1 V) ~/ ]3 w& f BAR Bimonthly Activity Report.; U9 J" _1 @1 X/ r+ r& k, Q BARBB BMDO Acquisition Reporting Bulletin Board ! o5 g5 V1 K1 O, Q2 P {Barrage" @& }. m P1 a: l8 {( H* Y2 R Jamming : t" ^& L. Z: V2 F' t% z: CSimultaneous electronic jamming over a broad band of frequencies. ( }1 @' V9 n- v) XBattery Tactical and administrative artillery unit or subunit corresponding to a company or3 K9 _8 p6 o' i( e9 y) @8 p2 w% Z& M a similar unit in other branches of the Army. / O7 |, ^7 j# F; f4 y9 u; ]. t0 aMDA GLOSSARY, VER. 4.0 B / T8 D' v8 j4 @6 G' i+ M29! Q. u' P7 `0 ]' ^9 l7 C. x Battle Damage % \" Y' O) E; B& @% rAssessment + k9 X! P4 H# p% ]- c; X2 F( @1 X(BDA) " ^, z/ I L5 s+ {) N: l& |The estimate of damage resulting from the application of military force against a6 E4 D m8 Y! m& g predetermined objective. Battle damage assessments can be applied to the use % g7 g% q9 n& a! A3 rof all types of weapons systems throughout the range of military operations., m+ S; a& }4 f- n, y BDAs are primarily an intelligence responsibility with required inputs and $ l% z1 p* F; d/ y4 w0 xcoordination from the operators. BDA is composed of physical damage/ v" }- z5 q3 |1 J7 T assessment, functional damage assessment, and target system assessment.

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Battlefield $ V! b/ U* F3 w+ H% h! A1 ]Coordination : w: h9 x: E3 FElement (BCE)2 k8 q! _6 ]" L4 h An Army liaison provided by the Army component commander to the Air5 q7 ^) Z6 `* _/ n( E. L) k Operations Center (AOC) and/or to the component designated by the joint force 3 e- R- r, w0 v% m5 L. @commander to plan, coordinate, and de-conflict air operations. The battlefield ( h' f% R4 ]+ N5 V* n9 tcoordination element processes Army requests for tactical air support, monitors. \3 ]' h2 ^8 D- I+ B and interprets the land battle situation for the AOC, and provides the necessary 9 D0 ^) j; e- V$ L$ `! e, tinterface for exchange of current intelligence and operational data. . U& @* i8 ^" K" kBaseline Defined quantity or quality used as starting point for subsequent efforts and0 E/ ]5 F8 a! |7 D+ h progress measurement. Can be a technical baseline or cost baseline.% O+ A# m& J6 j( C& @( n Baseline; G8 q" R, } C- s- s. M# |; y. O& X Comparison # }3 G) r5 _) q; YSystem (BCS)7 U3 N; s' w: B/ z A current operational system, or a composite of current operational subsystems,. G0 G: P# X9 B7 B9 L1 S' Z' ~ which most closely represents the design, operational, and support4 J, }! T5 a! H3 T' S8 e! Y characteristics of the new system under development. # Y+ f; V0 ~ U" y; e: t) o* @Baseline % |7 P+ S9 A8 Z7 y. IConditions9 s7 w5 V* D3 b/ ?4 V( C2 h: [ The natural and human environmental conditions, which are present prior to6 O4 s5 f$ v D7 a% }( ` implementation of a program and against which impacts are assessed./ K' h2 x+ a$ I& R# n& p& b1 ^3 l Baseline Cost 8 y: q/ G0 s ^4 k" `+ ? U, kEstimate (BCE) 8 }+ M( Z9 d9 W& `: e8 \) S/ ^A detailed estimate of acquisition and ownership costs normally required for highlevel decisions. This estimate is performed early in the program and serves as) e( W" U8 Z# V$ `! v7 M9 ~2 ]6 d the base point for all subsequent tracking and auditing purposes. + s, C; H& ]" N7 q% S! |Base Program The base program is the program described in the Future Years Defense 3 ]$ ~! O9 S- EProgram base file, when updated to conform to the budget presented to 0 @; N; M/ H) A4 `& ~0 k: ACongress in January. It constitutes the base from which all current-year program " d8 z& o. ]2 h( ^2 Nchanges are considered. ) I3 ]* V% M" N- _+ L5 [/ ], tBase Year A reference period, which determines a fixed price level for comparison in 3 B4 D8 X% ?( S+ C# keconomic escalation calculations and cost estimates. The price level index for. K: h% o# t/ l/ X( f. R. W the base year is 1.000.# U* I( I. s1 K' Z+ m8 F: B* D Battle Debris Battle Debris are the fragments produced by the hypervelocity collision of an& X: F8 l9 E6 C interceptor with a ballistic missile, post-boost vehicle, or reentry vehicle, objects$ Z* k' H A: |& z$ i% v/ W resulting from intentional fragmentation or accidental detonation of booster , l! Y, b4 x. h, \/ [components, and objects normally associated with the deployment and 9 |$ T+ X9 d+ _ k$ W! kpropagation of threat objects (such as nuts, bolts, inter-stages, fairings, shrouds,* S1 j) U: t' k9 j etc.)., r! K8 f1 V. N9 o% _$ n N Battle Group (1) Domains into which the battle space is partitioned. (2) A data processing: }& S9 t( X9 ~ approach implemented in the battle management computer, which5 C5 k W! `3 ? I+ } K6 f, i minimizes the processing load by partitioning (grouping) threat data) I4 Y# M$ u* y7 k& m) U. Y( x (Virtual Battle Group). (3) A group of associated system elements which / K/ U& @, L0 L6 o: ]. toperate together in a segment of the battle, based upon their7 v$ A* k/ ^5 B% w& I capabilities and relative location to each other and the threat. ' h. F0 a. u* _" D0 }) fBattle Integration Preplanning processes and/or real-time coordination that occur to minimize& G# E, j# q& P9 ~8 ^ resource wastage between battle tiers or battle partitions. # r9 w( p: B. }% m1 i7 w$ t- CMDA GLOSSARY, VER. 4.0 B 6 }- H. \! n3 a" ~& m9 G, f0 r) Y- ?30 7 I4 K; R% H" b3 `- a' i) C9 ZBattle $ E2 y+ Y% z1 L! t. s- WManagement ! j( i2 a+ n, ?; c$ g1 p3 X(BM)( x5 e# Y3 B- N Battle management is comprised of two parts: strategies and the collection of ' `! h( G, y& ctasks to be performed to successfully implement chosen strategies. Given a set9 X( }3 a9 k% L4 O, E% Y( i of strategies, resources, and hostile asset deployment, battle management9 V/ J4 I; T0 I2 h6 D addresses the problem of choosing a specific strategy or set of strategies and ( U" y) s* I$ bperforming the associated tasks, which would result in the most desired outcome.& M! }# F# p& j8 C) ?' d' f9 G& ^+ m1 F Battle * R, u/ s4 ^+ a+ i, S9 BManagement/ ' I& R3 D4 l0 j# x; TCommand," U" a. h" ]! g* X2 D Control, ; _! Y0 V; g/ \/ k2 ~7 DCommunications, 9 a j4 ]7 |- iand Computers 9 n5 @5 l1 |" S8 ?( Y(BM/C4 ) 5 }" K; W. c+ r7 XBM/C4 is a set of automated processes, which respond to the C2 system’s control7 c2 O0 b* D1 l6 K directives. The BM/C4 will provide the BMD system with the capability of1 H2 {4 c6 X1 P1 ^# Y planning, coordinating, directing, and controlling the surveillance and 4 N' q+ g* b( \8 vengagement operations of the system. It will consist of a distributed3 w$ g0 ~% r @, L arrangement of personnel, equipment, communications, facilities, and + L7 U2 M' s, Q w: r/ uprocedures that will ensure timely human control of the battle management- b+ |6 B" D0 H& C process. BM/C4 consists of a battle planning function, an engagement planning 0 f) X4 O% k# G( C- a. rfunction, and a battle execution function. (USSPACECOM): D: ?, s, @3 e9 { Battle " ~) K* X& C; _Management 4 n/ J7 \) p, L0 ^* ~Database 4 e; _9 c8 T$ u0 h$ Y) eBattle Management data files including: battle management message file, object - I" E2 T: I+ t' ^. R- T; `$ [file, track file, discrimination file, engagement file, kill assessment file, and battle # M0 x; q: _/ ]. Amanagement health and status file. : d# ?" b* R% ?2 HBattle. n3 ^6 s4 b) v ` Management Y+ O# s" [8 x/ c3 w! o5 @! N System- z7 ^8 T* m( b6 K+ E% ^ The hub of the command and control process. It consists of computer hardware! I) {8 K7 J% { and software that integrates elements of the command and control system into a 1 ~/ z O/ c8 E7 O8 U3 j6 S4 Fsynergistic operation. (USSPACECOM) * a& o0 a6 k6 k6 Y6 WBattle Management System+ M3 [# d& G+ H Configuration( X" Y2 b/ n1 @; c* C, c6 Y0 j The battle management elements currently in the system together with their1 X! N+ N. K- I, o locations, connectivity and currently activated modes of operation. 1 k; @) r; M+ SBattle Manager The automated set of hardware and software equipment that performs the battle 7 q" D# i2 A3 L' U/ Jmanagement functions at an element.$ a( k) P/ M# H. {, z Battle Plan One of a set of BMD operational approaches to counter a ballistic missile attack.; ~# e6 n2 H% U9 [5 s1 d& b' N It contains the rules of engagement, battle strategy, and intercept tactics to be6 J/ I9 o+ g. ~" g7 [% ~3 D8 K implemented by the battle management processors. It is directly responsive to- K) J- F e/ Q: Z1 w% P* j the attack type (e.g., counterforce). ' ]( s, f& g' Z4 {! Y! p$ OBattle Space A characterization of the BMD area of operation generally expressed by Tier# P+ [9 t* |* h7 f& W } (Boost, Post-Boost, Midcourse, and Terminal). (USSPACECOM) & N2 \# K( d( V7 e7 Y2 nBattle Space6 Z7 h5 X9 F3 M! Q6 y0 K Partitioning : A% v: b& c; `6 _+ d* B+ zAssignment of management, sensing, control and firing responsibilities to specific 7 ?. L+ @+ S0 M/ ~0 u( ]platforms/facilities within the deployed constellation of platforms/facilities. $ R( D% O u3 t( ~" ~1 [Battlefield; z$ d: k4 ~# x Coordination- U: F" V' j2 W5 N+ Z Element' z6 N2 i( L8 U/ U) x An Army liaison provided by the Army component commander to the Air + g! O. \3 J1 u, F( |8 HOperations Center (AOC) and/or to the component designated by the joint force8 q) W8 w4 E; ~! k commander to plan, coordinate, and de-conflict air operations. The battlefield! M5 m, P6 Z$ U V coordination element processes Army requests for tactical air support, monitors % O' d! r1 W) zand interprets the land battle situation for the AOC, and provides the necessary # ]- A; W! O5 y* S0 jinterface for exchange of current intelligence and operational data.7 t. \3 U$ d' j1 p0 v9 ]1 P+ ~# n BBS Bulletin Board System.9 ~% w! M# D' U! Y. m BBSF Brass Board Seeker Flight! T3 q, V6 {) ?* H1 D BBT Booster Burn Time.. P7 ]1 @( x! [7 d# s3 P BCAS Battle Management and C3 Architecture Simulator. $ N* \3 K! t8 p! }: |MDA GLOSSARY, VER. 4.0 B : L e) G0 }7 M7 ^3 } h* ~314 u! @# p1 S+ s8 ]0 W BCAS (1) Battle Management and C3 Architecture Simulator. (2) Base Contracting1 n# O' C4 P( I% y) k Automated System.

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BCBL Battle Command Battle Laboratory, Ft. Leavenworth, KS.3 B+ X1 R# E& r$ ]3 \( c( g BCCE BM/C3 Consolidated Capabilities Effort. 8 W/ P; |! e F2 R* c0 K0 LBCD Baseline Concept Description. N" d3 Q% x& I: h; j% V BCE Battlefield Coordinating Element. 7 f& _. P' B7 T$ D* P8 r4 f+ kBCFR Battle Command Focused Rotation., W% `9 l$ M U% t, y' I! Q, v BCIS Battlefield Combat Identification System (US Army term). 1 K6 E3 L7 |/ \5 }BCM Baseline Correlation Matrix (AF term).0 b0 P& M. V) {1 G BCO Broad Concept of Operations.5 e. p" @/ C+ _ A BCP Battery Command Post (HAWK).) Q$ Y; ? w/ R0 A* O BCS (1) Beam Control System. (2) Baseline Comparison System.& x9 V0 u% F. R8 w. A' ] BCTP Battle Command Training Program, Ft. Leavenworth, KS ! E+ A3 R6 y u; G) t& W* m# UBCV Battle Command Vehicle (US Army term).' K, K1 c1 h1 t' ?/ N G& ^ BCWP Budget Cost of Work Performed.5 ]2 L+ _5 d0 z' l( T( q6 c BCWS Budget Cost of Work Scheduled + X K7 A* a; `2 L+ J! Z3 Q8 xBD Baseline Description./ F* c# b- C1 |$ R' p' l7 B) y) O) X) a BDA Battle Damage Assessment.) V5 _- U. e( h' Y: u BDC Backgrounds Data Center, Naval Research Laboratory, Washington, DC( | X" t, v4 ], Z8 t+ Y BDE Brigade, U$ ]/ f/ |/ W" G) j J BDL Battlefield Demonstration Laser.# g8 f- K7 D) k5 p# L. v G# s BDP Baseline Data Package3 O1 S# G! W/ h# M3 A! ?. ~ BDPI Baseline Data Package Integration. 3 \3 q* |( M2 UBDS Boost Phase Detection System. # m& ?# ]. w: {/ JBDT Birth-to-Death Tracking.0 C! \/ @$ q' Y/ S1 L BDY Burst Detector Y Sensor.6 X, a2 P }4 x) j Be Beryllium. 9 O$ Y6 U4 H3 q6 p& W L+ V8 a- V$ n+ @BE OBSOLETE. See Brilliant Eyes.: A3 F6 Z+ r8 m! S+ w* p MDA GLOSSARY, VER. 4.0 B

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32) Z/ t4 ` E- {% R Beam Control Technologies associated with controlling the physical properties of high-energy % t. Y/ ]! h$ n o4 ^+ ~; B4 jbeams and steering the energy transmitted by those beams to the target vehicle; ^& @# W8 S: c8 z$ f7 R5 x; ~also, the management of signal or image beams within a complex sensor system.6 j& ` U1 W0 ^' \5 R Beam Width The angle between the directions, on either side of the axis, at which the ( p! w' V; u5 @" k" Tintensity of the radio frequency field drops to one-half the value it, has on the* U. i- `* {: J! A& l3 k4 g6 c axis.2 a c1 g& Z; l$ _ BEAR Beam Experiment Aboard Rocket (NPB Technology Validation Experiment). / q3 X, v* ]4 v' y9 zBEAST Battle Experiment Area Simulator Tracker. ' m8 F0 [6 |$ Z5 ^/ QBECO Before Engine Cutoff. 0 u7 v% n* u# u1 P* @BECS Battlefield Electronic CEOI System (See RBECS) 9 G5 ~+ h' k7 p& y% O# t3 I.2 W6 l3 ]+ z% v( X$ Z Bell-Lapadula 7 v8 ?/ K0 {3 G7 ?& M; nModel 9 s" P+ j. k: ]4 y* J4 Q% W8 vA formal state transition model of computer security policy that describes a set of2 d" l7 A: {; y6 p; u* P& y4 b+ E$ P- G access control rules.) k* K; @3 Q$ z) n1 n- V BELLCORE Bell Communications Research, Incorporated.9 E' L+ ?! ?+ L BEP Brilliant Eyes Probe. 9 |+ r0 d$ U0 {1 {8 @BES Budget Estimate Submission.5 w/ S$ q& O$ D' y BESAM OBSOLETE. Brilliant Eyes Sensor Algorithm Manager. 4 T1 l6 q7 b6 C$ T: e- qBESC BM/C3 Element Support Center + M0 P- A$ J8 k) S+ A& _- [) RBESim OBSOLETE. Brilliant Eyes Simulator.& T! {& p* ~) @7 p/ A) t8 A0 \ BESim/AT OBSOLETE. Brilliant Eyes Simulator Analysis Tool. 1 M4 g5 n5 |2 {1 C8 W/ w. |$ m& ]BESim/RT OBSOLETE. Brilliant Eyes Simulator Real-Time. " {, R- c# J! D$ n# r* O u/ _/ uBEST BM/C3 Element Support Task. {, i* {) a: a- g5 [BET Best Estimate Trajectory.6 C( a2 u* u2 U' H: |1 D BFAC Blue Forces Analysis Center.$ M0 y. N. J3 @ O# L) P/ u BFTT Battle Force Tactical Training.# g3 ]% B! L. C m7 [2 @8 Z3 | BG Battle Group (USN term).( J0 E3 F/ H' y6 \& o" m" Y BGM Battle Group Manager. ; y! ]1 n$ n- k0 ?BGSE Bus Ground Support System (USAF term).( Q$ D6 w# T; J8 a# r C2 O BGV Boost Glide Vehicle. ( \) x, \, s2 n1 c$ |BI (1) Background Investigation. (2) Briefing to Industry. 7 B' `- T& Q. HBIB Blocked Impurity Band.3 u% X8 X; C8 M) l BIC Battlefield Integration Center.6 \# S* \. n. B MDA GLOSSARY, VER. 4.0 B * l+ z3 @# S; x+ V) [7 b3 O33 ( q: V6 s o! M% r+ [+ K! nBID Built-In Diagnostics.; T6 T& ]) Q- e8 {' W( F) m BIDS Biological Integrated Detection System.# t+ \: M( t$ Z) B( A6 h: v Biennial Budget The FY86 DoD Authorization Act required the submission of two-year budgets for7 q5 Z, o, V+ X$ m) O5 W0 y0 ? the Department of Defense beginning with FY88/89. The department has( n$ p5 S( Y ^8 n, j institutionalized a biennial cycle for the Planning, Programming, and Budget / g/ N7 g' L* S5 f0 c6 e. B& zSystem (PPBS). A biennial budget, as currently structured, represents program9 n. m; [7 C; C2 m- O1 l, e3 ? budget estimates for a two-year period in which fiscal year requirements remain / U% O; v' k/ f: M0 N! ^) p0 Oseparate and distinct.* D+ q% f! U8 n/ A% A. N5 Y Big Crow A suite of aircraft, helicopters, ground vans, and electronic equipment, which is # ^" G% L$ _( |, t. `. r4 Aused to emulate an electronic warfare environment for testing, weapon systems e( @3 t) ~1 fon test ranges. % P1 m- P W7 FBIM Ballistic Intercept Missile. . ?, f8 K3 x$ Z6 xBiological - ^; G; r; [% J1 `/ pWeapon# }& c) Z$ ^8 W/ \ An item of material, which projects, disperses, or disseminates a biological agent 0 Z) Z9 O0 @& Vincluding arthropod vectors.( H \# S) U, z/ S; p BIOS Basic Input/Output System.: A# }# O/ k+ @+ y% R# ^ BIPS Billion Instructions Per Second. % x4 B( \3 s; C; P8 O* A6 Z! j# GBirth-to-Death- |+ t' _8 ^' U& z, @& l$ g/ @6 x$ ^7 c Tracking (BDT) % s( b: R' J' B6 Q5 w- VThe tracking of space objects (e.g., satellites, reentry vehicles, or decoys that 2 | N9 {& [: v4 wsimulate these) from the time they are deployed from a booster or post-boost# r- a4 p0 j6 U$ e3 w' M: ^* s2 l2 }0 U6 N vehicle until they are destroyed. ) b8 s& _) R# G. D. hBistatic Radar A radar system that has transmitters and receivers stationed at two 1 S$ M, `% s/ F) F" {! S7 ugeographically separate locations; a special case of multi-static radar.7 h) N/ `2 @0 P( H' d BIT Built-in-Test 7 K8 _/ ~6 |- z% a0 V7 l0 s$ aBit Binary digit. - ~% p" S( u8 N7 w) SBITE Built-in Test Equipment.2 x: u, j: P1 g; S# K, b$ D! G7 k Bit Transfer. c5 Q1 N3 n* u6 a! {% c7 ?; u3 ~ Rate % {! T+ v% B# L% q( u ^! ~The number of bits transferred per unit time, usually expressed in bits per second 2 j) X9 ~3 @; p( y1 @% X7 P3 `(bps). ! U7 d) L- I* c! ^Black Body An ideal body, which would absorb all (and reflect none) of the radiation falling% a" c& S* P- e; \ upon it.5 d% w, g4 Y# O3 o, S Blackout The disabling of electronic equipment by means of nuclear explosion. The ' i; j# q% F2 F% w% H, n/ K) X2 nintense electromagnetic energy by a nuclear explosion obscures signals and: W# @+ F5 g/ d renders many types of radar and other types of electronic equipment useless for" d# g1 y3 m! y/ ]5 a: r, ?3 j# @7 t minutes or longer.2 d: X/ @6 G3 ~8 }6 b BLADES BMD Long Wavelength Infrared Advanced Exo-atmospheric Sensor. 9 l, i% @" {8 gBLADT Blast, Dust, Thermal Effects Model.* o9 z+ P# a0 R' g Blast Effect Destruction of or damage to structures and personnel by the force of an- j7 N4 d0 _6 ?/ I% ^3 Z; {9 ~3 Q explosion on or above the surface of the ground. Blast effect may be contrasted7 s/ \1 L) P Q9 H& j: C with the cratering and ground-shock effects of a projectile or charge that goes off 3 m* S2 j# E0 Rbeneath the surface. , l7 G! ?7 m' x3 R% O: iMDA GLOSSARY, VER. 4.0 B2 x0 A7 F+ ^8 |9 k3 b 34 + T3 f! `6 {! G1 P1 |7 v, NBlast Wave A sharply defined wave of increased pressure rapidly propagated through a " B& ]0 H7 c2 x' dsurrounding medium from a center of detonation or similar disturbance. " T3 L2 y( n0 l: a# xBLCCE BMDO Life Cycle Cost Estimate. , m& e1 I" ^% vBLK Block (system production lot)+ P' o }0 U/ e# P& y! u/ ? Blk IVA Navy Standard Missile Block IV-A. 6 q+ Z+ ?: ]8 f) S) FBlock (1) A biennial increment of the Ballistic Missile Defense System that provides an. i. S. D$ |, y integrated set of capabilities which has been rigorously tested as part of the; ~) f9 G% ?4 H/ ?' z BMDS Test-bed and assessed to adequately characterize its military utility. Once4 G+ j" ]* {$ n' K7 } tested, elements and components are available for limited procurement, 7 C! q. r8 {# O- Ptransition to production, or for emergency deployment as directed. These “offramps” may occur at any time during the Block Cycle to support timely execution, L* V' E- G& X2 h of these transition or deployment decisions.. V( P/ s% K9 Z% ~' H ` The configuration for each Block is drawn from the following sources:# {* t' Z& C/ g; ^, x •The prior BMDS Block; 5 ?, w1 s6 y* |$ m- O6 j/ b•BMDS elements, components, technologies, and concepts; : H, k- \3 i3 `1 `- V•BMDS Battle Management, Command, Control, and Communications ' p/ m. t6 }6 _% \$ c' i(BMC2/C) specifications and products; : p; J; o' C( C% k. C9 b7 M0 I8 p•Externally managed systems, elements, or technologies (e.g., DSP, & ^+ ^# y' o# c0 N# b# l DGCCS, MILSTAR, etc).

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