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Rank: 9Rank: 9Rank: 9

11#
发表于 2008-12-25 19:57:15 |只看该作者
AFTAC Air Force Technical Applications Center, Patrick AFB, FL 2 `% m% U( B; A6 pAFTADS Army Field Artillery Target Data System.; Y& ?3 D. t+ U4 f) D! p3 H AFWAN Air Force WWMCCS ADP Modernization5 u5 c2 o/ p3 O( [) F8 F: {/ Z, o AFWL Air Force Weapons Laboratory (Phillips Lab). 4 O9 R( W s y9 mAGARD Advisory Group for Aerospace Research and Development.+ H, e; T- ~0 |$ U# k! t6 N AGC Automatic Gain Control. ! {8 P8 B1 |$ c4 rAGCCS (1) Air Force Global Command and Control System (USAF term). ! q3 {, a$ P' U. b(2) Army Global Command and Control System (US Army term).7 S t: G# ~& H5 o: W8 k MDA GLOSSARY, VER. 4.0 A ( R" t( X V- ^3 J12( a& h% S/ y$ v AGM-65 Maverick Air-to-Surface Missile. 2 T, |- k4 G W. n, ]AGMC Air Force Aerospace Guidance and Metrology Center, Newark AFB, OH.2 x( ^. O0 Y2 O* V* ~ AGRE Active Geophysical Rocket Experiment $ o2 A7 e' p" h# ]+ W$ s, ^$ RAGT Above Ground Test. ; y* Q; K- h6 D' {6 \+ jAHIS Agile Homing Interceptor Simulator.7 P; H# j4 P9 ^4 x AHSG Ad Hoc Study Group. 6 J* w$ K. Y: u/ s+ `' MAHWG Ad Hoc Working Group3 D- i! Y3 S% p/ Z AI (1) Artificial Intelligence. (2) Action Item. (3) Air Interdiction. k: u3 V5 E. A5 J& m' U AIA Air Intelligence Agency# Z0 r3 ~7 w& i5 X( j AIAA American Institute of Aeronautics and Astronautics . ]4 R. X2 H2 B' XAIC (1) Atlantic Intelligence Command. (2) Account Identifier Code.- {0 i1 h' O4 }+ }3 \% B( o" p/ Q" `! L AID Agile Interceptor Development.) v4 m! F1 X% e( u4 d+ ]5 @& u* R AIDA Artificial Intelligence Discrimination Architecture (UKMOD).9 P, a& c/ `" G1 e: G7 o AIDPN Architecture Investment and Deployment Planning Notebook. & _+ u& o. I+ ~AIM Air Intercept Missile - d& a0 j/ F4 U0 M$ O7 }- OAimpoint The specific point at which a weapon is aimed. The point may be on the earth's - J4 @! `; R: G7 q7 ~# W3 dsurface, in the atmosphere, or in space. In some cases, the specific lethal point 0 O3 h+ ~, k) Y( i( q! n! }) G8 bon a target to which a weapon is aimed. - }' r/ q5 K" A( C5 d/ CAIP Advanced Interceptor Program (formerly Brilliant Pebbles).5 q6 c5 n0 h, q/ `) Q" U4 v/ W& g" I Airborne% V. n( h( ?0 ~' X8 m# J* L E Optional Adjunct & J a' ]" X) l1 }; V' t8 l(AOA). M4 ] h& D4 w& F/ y; d: U+ Y A test program to place an infrared (IR) sensor in an aircraft. (Superseded by $ ~% @4 W0 {' d4 w& \& G& ZAirborne Surveillance Testbed (AST).)

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12#
发表于 2008-12-25 19:57:27 |只看该作者
Airborne 3 P$ j5 G2 G& v) u: e9 p3 O' VSurveillance ) \6 `3 n! h2 o3 q4 WTestbed (AST) % ^- q4 U. D8 f0 Y5 T4 J; ?A Boeing 767 aircraft with a large infrared sensor designed to address optical ! M# o7 x$ B1 J+ p: \sensor issues.' ?$ S/ a8 k7 c6 i& } Air-breathing A flying vehicle that uses the oxygen in the atmosphere as the oxidizer in its 9 f) C' H1 i- B/ npropulsion system. Examples are jet aircraft and cruise missiles. This category6 O) k8 {6 v8 T2 p does not include ballistic missiles. ' }: x0 p$ k; J* V g0 ~% }Air Defense All measures designed to nullify or reduce the effectiveness of hostile air action. : c: k, @2 @6 E/ `Air Defense + K: }, ]3 @9 }: [+ ~" M! X- |Action Area 8 \4 J [9 a6 S s, B) g- c3 tAn area and the airspace above it within which friendly aircraft or surface-to-air2 R* Z0 j5 G0 O" G1 p7 W weapons is normally given precedence in operations except under specific' K- ^+ ]2 K+ s O: a$ q conditions. See also air defense operations area.4 a6 _1 j- G1 {" f# P# M Air Defense 2 Z1 C1 {' O5 ^# K. y4 m" {* tArtillery 5 q8 ^3 N0 d" _ L v tWeapons and equipment for actively combating air targets from the ground.8 o9 v: J. w9 C8 | MDA GLOSSARY, VER. 4.0 A: T% a: {+ H7 b/ n9 i3 }& j l2 T# b. D3 @ 130 g2 w1 m- C+ x! \ e2 d; E4 u Air Defense5 P$ l$ k% r8 Z% c! T1 G" J7 Q Identification ' o( s1 h& A: x w8 a/ L# M0 [0 kZone- s8 o8 d" y% G p Airspace of defined dimensions within which the ready identification, location,5 L' t+ i" i" m3 x! S and control of airborne vehicles are required. Commonly referred to as ADIZ.; @+ Y3 h2 f7 I, o, @ See also air defense operations area. # j/ C9 a, ?' X1 P$ QAir Defense % Q: T" w& O& J/ IOperations Area$ R+ t, e9 A8 \* m5 H. ] A geographic area defining the boundaries within which procedures are) z+ _! v3 W' @7 ?/ z established to minimize interference between air defense and other operations.1 h; _* `. h% ] B- L; [- J May include designation of one or more of the following: Air defense action5 c V6 `9 R. d4 { area; Air defense area; Air defense identification; Firepower umbrella. * b+ z! X. W$ P; W4 z; n2 [# p) J0 pAir Force' J8 M% g; ]- E4 {% F# M Component G2 Y7 j% A, Q Command Center 7 u) U5 w/ J+ K) E6 b0 Q) `5 U4 M(AFCCC)1 d" R" i {% Q% T! w A segment of the Command and Control Element, which replicates capabilities of3 M/ Q- d9 [5 M/ o: f the CCC (BMD) segment and provides administrative and logistics support to Air+ Y) |" ]8 ?* T% R+ P5 w/ Q Force Component Forces with the Strategic Defense System. The AFCCC was * r9 V! m: R. keliminated from the CCE (now C2 E) architecture during the last SAS system1 W% b# k" w, p) |7 U architecture definition update.+ P% c4 F9 G7 ]9 @* N5 Z Air Force , z: Q5 U, M2 a$ G" i4 CGround/Global 3 p: u& U. B( w3 fWeather Center7 b! { D/ g- Y$ T# U. q (AFGWC) $ P" r& i3 I6 d$ oAFGWC provides Air Force and Army with global information and products/ Y. s, D1 P/ y8 l+ j& p1 Y relating to past, present, and future states of the aerospace environment. ' M# J8 [$ w7 ?9 o( p9 gWeather data is provided to the Weather Support Unit (WSU) for use by the ! v' P" q% @0 i& H( |& VSDS. Also provides space environmental data such as sunspots,5 [3 n3 _1 y u5 k/ O0 v, X electromagnetic storms, etc. Located at Offutt AFB, NE.! ^5 n! R6 ?8 P7 I2 s3 `4 T Air Force g1 r$ U2 j/ S6 C9 D9 T& pOperational - I A9 s! A7 X: n* s* cTest and - P2 ~4 P, `: ~" wEvaluation ) L2 B7 L8 k. p Z6 OCenter (AFOTEC)% A( ^+ Y! {+ m+ b Responsible for the operational test and evaluation of systems being developed7 L- H( D8 `: @+ h. E) Y 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 Force* I5 n% n9 B8 X( Y% h Satellite% Y" {; K ~8 O2 J Communications # V2 `2 O% C. X- o. `$ pSystem 1 o4 o! p0 d2 b(AFSATCOM)+ d( v. P5 X0 h, ~ G A collection of transponders on host satellites used by U.S. Strategic Command9 t3 n1 y8 B7 o8 @2 e! R: y- y+ m to pass emergency action messages (EAM) and damage assessment reports. : i J, L/ i. a% e$ PAFSATCOM is also used to pass sensor data between sites and CMAFB.) x) m4 v2 a7 B5 r Air Force 3 |( O8 O' d( Z" ASatellite Control, Q% h3 v* Y# b- c0 c# J' D Network2 n3 Q% J9 U. y/ t, Y" S" Z- Z1 A (AFSCN) ' t6 M( m/ `8 w8 X& ?A global, multi-command configuration of space vehicle command, control, and , J% R; \# Y$ ~) Ucommunications resources operating in concert to support DoD and other7 i8 ]0 v% E( X assigned space missions. ) ~# J/ L3 S2 YAir Force Space, t- r- X, X: S" g5 t) D8 \ Command0 z9 d' E% i! |1 m( w (AFSPC)/ K O9 T0 `( E# c6 t# i A major Air Force command and the Air Force component of United States 3 [* a6 H* A$ c" y8 P, GSpace Command responsible for the training, equipping, manning, administering, # A3 B B- o8 X/ [and funding of assigned systems. Located in Colorado Springs, CO.# Q* ]; g7 [6 J/ E; q0 V Air Force Space4 q) h3 Q4 S; c& W1 \2 r4 a$ t4 l Operations( R3 K( j; ?: E! F Center (AFSPOC) ; i/ g4 p% N% NAn AFSPACECOM center responsible for the daily tracking of events at remote/ M3 F m: C3 S4 L+ u9 q/ J* b operational sites. It may be updated and assigned responsibility for logistics ; X" M# w D5 R) P$ U+ ~ pand administrative control of assigned SDS elements. Located in Colorado) D4 L# X0 Z2 p! [ d" z9 N Springs, CO.& [8 g' X- c/ G+ W/ f- } Air Force CRC Air Force Control and Reporting Center. 1 j6 B* u6 n* a5 X' ?) b4 v/ TAir Force 4 Q- w. o, }4 O z) g9 g- ?! ^Operational Test 7 E" H, @$ z! Aand Evaluation - k1 b- g# b! R, ?4 `- zCenter (AFOTEC) 6 P! S* Z1 t8 [5 i$ VResponsible for the operational test and evaluation of systems being developed 4 M" r& m7 L2 o) H4 C' U, Wfor use by the Air Force (Located at Kirtland AFB, NM). - I3 c$ T4 C' u+ OAir Force Space * O' B6 H7 E7 `2 Q1 l0 D, wCommand' G J% Z$ w; W, L5 b, V. B5 Q (AFSPC) - G% p y; P6 QA major Air Force command and the Air Force component of United States$ ?0 h. \9 X1 q6 H; N' q+ K% w Space Command responsible for the training, equipping, manning, administering, 5 }/ J( V6 T# k1 A& n8 |* wand 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; x1 r# h" P+ F. n0 c5 o 14 7 w. d" z' R: S; b$ _# L- z! M8 r" GAir Force Space # |/ o3 {2 X5 I7 hOperations$ U( p4 P/ G8 o) a' D Center (AFSPOC) - |- E* H. b$ o4 pAn AFSPACECOM center located in Colorado Springs, CO. 3 t& H4 m7 L5 Q, @0 D }$ v! oAir Surveillance The systematic observation of airspace by electronic, visual, or other means, ; R h) U; i7 Y( c" Kprimarily for the purpose of identifying and determining the movements of aircraft* W: ]4 I H" U; `. S. q! k! h and missiles, friendly and enemy, in the air space under observation. ; L+ n8 [% P2 z7 x: C+ ?- E1 iAir-breathing A flying vehicle that uses the oxygen in the atmosphere as the oxidizer in its F; A0 D1 D% E: ^7 t propulsion system. Examples are jet aircraft and cruise missiles. This category 8 O3 M3 N% h. | Hdoes not include ballistic missiles.8 U' |; h+ }. r' ?9 e1 O1 k Airborne , o1 z1 i4 w9 z' _$ c: A# RSurveillance8 f2 Z5 |, M4 Z5 c Testbed (AST)) l# c) V P! x: N A Boeing 767 aircraft with a large infrared sensor designed to address optical/ r& G$ M3 }& l$ Y* x2 z1 c sensor issues. It's expected that this program will be retired in 2003 with its : |; z' F, A* P5 d4 G, c1 o3 H% `missions to be taken over by HALO II and WASP./ q1 B* Z" ~+ Z5 N. w' \* y AIRMS Airborne Infrared Measurement System- [: _8 ^: m" ^+ A3 X' g/ Y6 O7 @ AIRREQSUP Air Request Support (JFACC term)., F2 W9 Q5 H5 B- s; i3 Z6 K! I AIRS Atmospheric Infrared Sounder$ `, p1 `" J% O. m& V! F! ?+ k Airspace Control( \3 k; p5 A; z3 k9 @ in the Combat9 g, b/ a5 L0 p+ _" p2 B2 Y Zone G- K3 ]6 P( ^ A process used to increase combat effectiveness by promoting safe, efficient 7 {' d1 B$ `, b5 M! A/ i( Band flexible use of airspace. Airspace control is provided in order to prevent/ x# T! n: t$ t8 k! U! L/ e fratricide, enhance air defense operations, and permit greater flexibility of , u8 M) y- Y4 p* A" B3 ]5 xoperations. Airspace control does not infringe on the authority vested in+ ]. H! ]/ s, ~9 N6 V commanders to approve, disapprove, or deny combat operations.; `- I) U7 ?: B5 N# ~ Airspace Control 0 i+ S& T) x. _, d6 l$ O4 B3 L- p& QPlan 7 p+ P* L- V+ Y6 KThe document approved by the joint force commander that provides specific # X1 z9 o9 q$ ^' H: N. n/ Xplanning guidance and procedures for the airspace control system for the joint ' A5 Y) L& s+ ?! _: }' Iforce area of responsibility. * Q" d/ H6 l8 R) t3 m5 n3 LAIRSUPREQ Air Support Request (JFACC term). 2 v- z7 |2 _, s8 e% L5 wAIS (1) Automated Information System. (2) Architecture Integration Study. (3) ) k: q" R8 G9 B8 U" I+ dAirborne Intercept System. 1 ~$ i" n3 J& Q) oAIST Advanced Interceptor and Systems Technology. : _! f D" q1 u$ t- t8 uAIT Advanced Interceptor Technologies. 6 c5 q$ S& j* B5 t `# h% jAJ Antijam. E& B6 U6 i7 Z8 c AJPO Ada Joint Program Office. 0 {# ]: j+ K" C a0 R1 ?8 Q9 ~AJTBP Augmented Joint Theater Battle Picture.+ M' M! t/ x/ t; A, C' r, v AL Acquisition Logistician. & n! e) E4 t# S0 BALARM Alert, Locate, and Report Missiles. & X, A. }4 K9 d0 f2 XALAS Advanced Liquid Axial Stage. / x" J) T7 Y- b* fALBCS Airborne Laser Beam Control System.5 z& H* J+ I( D ALC Air Logistics Center (AF).+ b2 U3 L* T' J' h% u2 c ALCC Airlift Coordination Center (JFACC term). / K, p8 B. Z: q+ L3 z% Z8 d% S0 CMDA 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 : t1 C0 M* B( \5 Z- w' [& ^ALCE Airlift Coordination Element (JFACC term).) v, M3 g( R; v2 v ALCM Air Launched Cruise Missile. * y6 L+ y i0 E ^4 |1 aALCOR ARPA/Lincoln C-band observable radar. (USAKA KREMS) ! a: a( H+ I3 J2 Z* m! u) EALDT Average Logistics Delay Time.) o, t$ H" E: W6 q# a/ h: f ALE Airborne Laser Experiment. 8 A3 ]1 M8 T: E; B& k4 @% b: tALERT Attack and Launch Early Reporting to Theater. + n; F- U3 K% X7 ^' W/ i( ?% tALG Algorithm ; Z/ g! G9 H" @1 e( F' FALI (1) Alpha/LAMP Integration. (2) AEGIS Leap Intercept9 V7 n5 j% i, k8 {2 W6 L; y8 D6 A ALIRT Advanced Large-area Infrared Transducer / @, S( e4 S6 d9 W" o5 J0 wALL Airborne Laser Laboratory.( t" O' Q5 V) R2 X Allocated 0 R* F0 \0 N/ U3 @Availability ) h# A6 a4 Q2 {( URequirement ) _! b( ]' W/ LThe requirement probability that an element is available to perform its function as2 G( G- o. a S+ z5 Y allocated by the SDS.. h- O9 l4 b a A; `" `( o; H, ^ Allocation (1) An authorization by a designated official of a DoD component making funds / Z0 x+ h0 X6 e. ~8 U! w0 I. eavailable within a prescribed amount to an operating agency for the purpose of1 q W; V' f. a9 T3 H0 t/ k making allotments (i.e., the first subdivision of an apportionment). (2) The4 |' v$ [/ ~7 p' }5 P6 O( Y7 E& } translation of the apportionment into total numbers of sorties by aircraft type+ a; f# e* L, q J$ I H available for each operation/task. * x( T% g# c9 h* xAllotment The temporary change of assignment of tactical air forces between subordinate & I0 P2 ?( {9 U0 M/ acommands. The authority to allot is vested in the commander having operational " K( u3 d! L7 p- f/ tcommand.: I" F1 d( @2 f8 O ALO Alpha Laser Optimization.% G& p& O l2 x/ O( L* Z& O ALOD Adaptive Locally Optimum Detector (Navy term).6 T5 v4 |6 U' a! R+ x Alpha Particle A particle emitted spontaneously from the nuclei of some radioactive elements. , \4 C* ^ {8 P' e" Q* {It is identical to a helium nucleus, having a mass of four units and a charge of# p0 P2 \) I, a" g8 P# s6 E$ A" b positive two.# e( U5 ~5 f; a6 A7 G- X5 c6 a8 f ALPS Accidental Launch Protection System.5 @6 b: v; l% n1 @0 T& h* x ALS Advanced Launch System. 8 J* X6 B2 u1 K' j3 N4 Z9 zALSP Aggregate Level Simulation Protocol. & b: p1 T0 ~6 T5 z1 @2 \3 F- Z0 tALT Airborne Laser Technology., g2 g+ L0 {. e2 r/ h5 u9 a# ~ ALTAIR UHF test radar at USAKA.+ I3 |9 K2 P* p, V a AltAir Project name for the feasibility demonstration of a short range, air drop, ballistic' W' P ~' \, c5 K3 | missile target, dropped from a C-130 cargo aircraft.% V6 b$ S' Y# l' O4 R8 B8 J: l5 ` MDA GLOSSARY, VER. 4.0 A7 p N& S& M& j0 m* } 16 0 Z0 ~1 e, E* N* rAlternate$ {# o0 l6 _' L5 o1 M National Military 6 ~, l: P% r6 l9 q; u% }) {5 O1 vCommand Center; z! W* q' B3 Z" E# \ (ANMCC) 7 ^! U! M/ N6 d- J/ K& jAn element of the National Military Command System (NMCS), which serves as( w1 ^0 [7 p( m an alternate to the NMCC. Located at Ft. Ritchie, MD. # ?. P" D0 U! UAlternate 6 i* I% ?5 \/ I0 h& NProcessing and2 Y; ~" y" R, A1 i1 X Correlation9 ]$ l: K9 f- R$ H- l Center (APCC)0 I# o) M: R/ h: Z3 @ NORAD capability in USSTRATCOM Command Post that receives, processes, 0 \- f. d" ?* N: \' L* }and analyzes TW/AA information. : F" ?0 \3 u0 y3 nAlternate Space ! r( K9 S2 s; T' n8 z% _7 n9 NDefense' |6 Y. d1 Y' m" `0 _/ i/ a Operations) U; m# [$ [1 x1 n% A) Z$ P, J! l3 J/ v Center 7 M, m8 _8 a# O% y: P(ASPADOC) 4 T+ b, U8 y3 R! L) o+ eThe backup to the SPADOC, maintained by the Naval Space Command, at0 @" j7 n' Z: w1 ?4 Y Dahlgren, VA, collocated with the NAVSPOC and NAVSPASUR. 7 s* | n+ Y+ G8 t2 IALU Arithmetic Logic Unit. - \- B# k7 y6 K7 [& eAM Amplitude Modulation. / ^& c: n6 i3 ^6 G4 d' z/ GAMC (1) Air Mobility Command, Scott AFB, IL. (2) Army Materiel Command. (3) / }( \; J6 K7 P5 G9 d& yMidpoint Compromise Search Area. (4) Acquisition Method Code. (5)2 s+ l: n) {1 s9 {$ ^" l6 O' r Advisory Management Committee.( G! Q! ^" L9 u, n- n3 R AMCOM Army Aviation and Missile Command (Oct. 1996). 0 ?7 d, j# ^8 E7 K* t0 L- ^; W& SAMD Air and Missile Defense& s- x# w, O5 w+ v" e% q W AMDF Army Master Data File * v+ d4 P1 [$ ]$ PAMDS Active Missile Defense System.& @ `( y! d) ?$ a# F AMDTF Air and Missile Defense Task Force (US Army term)/ g4 U) Z% e" N y# J8 Z1 O6 A AMEMB American Embassy. 4 n. |$ o9 z( }; X+ \* [AMFB Acquisition Management Functional Board., k$ w) a f& P/ ]* ?( |- r" h AMG Antenna mast group. 5 {3 C1 q9 x& n; i1 EAMOR Army Missile Optical Range. + L2 S. E$ ]9 U$ O5 k" lAMOS Air Force Maui Optical Station. 1 `6 I% U0 w; N/ f6 Bamp ampere * p/ D+ z4 D* fAMP 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.! P; z$ a0 v' r, B AMS Aerodynamic Maneuvering System: C" `! c! ^) |3 e$ w AMSAA Army Materiel Systems Analysis Agency. " ^( e2 v3 w. {# P7 U G7 {AMSDL Acquisition Management System Data Requirements Control List.+ A! R- v2 Y' f3 S' Y AMT ATCS Mobile Terminal./ j. D6 ?: O- H0 ^' c% P MDA GLOSSARY, VER. 4.0 A 9 [# {$ Q% Z( _/ i2 r174 U" \; e3 J& @5 _% z AMTB Attack Management Test Bed0 \4 b$ E* x0 M AMTL Army Materials Technology Laboratory. + [7 ]& i# Z4 o* m7 m9 y# q) ~7 u t& r- ~# NA/N Army/Navy8 H: D" I3 A' C {2 I AN/TPS-59 USMC Firefinder radar. / p% C& r7 ~1 z+ p& o: Z$ D# X, KANALYZE Static Code Analyzer., C3 [, @( A1 V0 t. f# t ANIK E1 Canadian telecommunications satellite’s name. s$ b" Q3 K* k* R8 p/ c; A% C ANL Argonne National Laboratory 0 W- p$ s" Q2 ^+ X; z- \ANMCC Alternate National Military Command Center.0 H6 s1 M, A/ r6 i6 }( M ANMD Army National Missile Defense.6 p8 m5 V6 r2 Q& l9 `5 O ANN Artificial Neural Networks. 7 T$ a0 o7 a$ f" |+ bANSI American National Standards Institute. - o: a8 C9 _& n! P6 tAntenna Area The ratio of the power available at the terminals of an antenna to the incident 7 k) T% U2 J6 i8 \# @power density of a plane wave from the direction polarized. ( m, B' h" P( Q; P: V+ l, l. i: Q+ aAntiair Warfare Action required to destroy or reduce to an acceptable level the enemy air and4 J+ B. j9 N0 d6 Y' ?, j missile threat. It includes such measures as the use of interceptors, bombers, $ T% u6 |" o' E0 U" nantiaircraft guns, surface-to-air and air-to-air missiles, electronic. J+ o6 L, c5 ~/ |9 k W7 n$ L$ v% ] countermeasures, and destruction of the air or missile threat both before and5 x, w* \* v9 B) R D after it is launched. Other measures taken to minimize the effects of hostile air ! S# N0 y0 B4 }" B( X }action are cover, concealment, dispersion, deception, and mobility (Navy/USMC). ) L& U/ \" q- ~Anti-Ballistic* A3 t( i( `7 g Missile (ABM)* e5 D6 s' t+ A7 x6 w6 I- {/ A The term used for Ballistic Missile Defense (BMD) weapons developed to negate1 W8 K! e$ _9 z# c& d the ballistic missile threat in the late 60s and early 70s. ( \6 I# R6 U3 Z! |* A1 J* xAnti-Ballistic/ D2 }1 a) d8 B$ H0 Q& [/ I! X Missile System 1 J3 ]# k- K, R0 ]: G7 tA system designed to counter strategic ballistic missiles or their elements in flight. - {& R, c" D1 ^( v- [Anti-Radiation1 n7 j0 ?9 M8 N( P( U9 a; d! F Missile (ARM)" n+ d5 [" f4 s/ Q% K* {% B( N: m' f8 j A missile that homes passively on a radiation source. 0 ?. j. O% ~/ i, u( _Antisatellite 9 J! U* s" y+ ^' FWeapon (ASAT)6 H4 x0 w) E, w1 j. A A weapon designed to destroy satellites in space. The weapon may be : @( ?" I0 K: @& q3 o2 o1 \launched from the ground, from an aircraft, or be based in space. Either a2 ~1 d# `: s. y* B" p nuclear or conventional explosion may destroy the target, by collision at high0 W/ |# F& B# k$ b# m5 A speed, or by a directed energy beam. ) g" |( e: t3 E& O6 S2 nAnti-Simulation The process of introducing random variations to the signature characteristics of7 Z3 t4 ~# ^0 z' G+ X% K! P an object in order to cause misidentification of the object by the sensors. The 0 P/ v8 [* Q: q! gdisguising of an RV to resemble a non-threatening object such as a piece of * @ Q; ^8 s6 B2 zdebris, a balloon, or a decoy.7 v1 H- B2 ]* J. v9 U, k Ao Operational Availability+ v/ s4 B3 H* Y/ ~# D AO (1) Associated Object. (2) Action Officer. (3) Area of Operations (4) Acousto- 4 q# W- Q" V; xOptical. (5) Attack Operations.( a$ U c5 z$ P" H- u# D AOA OBSOLETE. Airborne Optical Adjunct (now called AST).$ e; z+ T5 @7 C5 J6 s MDA GLOSSARY, VER. 4.0 A! ?' r$ J, C4 c' x5 w5 ^# l/ R 18 4 t+ C' v- f4 R/ y/ i6 iAOC Air Operations Center. * H4 z5 Z4 a+ O' N0 W1 ~$ S* L! h, YAOCC Air Operations Control Center. . J Z4 k. m9 BAOEC Aero-Optic Evaluation Center, Buffalo, NY.9 [3 P% P! n7 B9 }$ t/ o; m AOI Active Optical Imager. " J' n1 J4 K* k5 L. b* QAOP Airborne Optics Platform. ; O$ o7 H2 ]3 i0 D8 z7 ?AOR Area of Responsibility.1 ^- ^8 b" P. H AOS OBSOLETE. Airborne Optical Sensor.6 ?5 D9 A/ N. E u3 G& \1 |4 m8 c7 n AOSP Advanced On-Board Signal Processor.+ x" u$ N3 F, {: k# {# N4 B AOTF Acousto-Optic Tunable Filter. 4 V5 }* X: O& jAP Acquisition Plan. 7 r, W, ~' r2 ^/ cAPB Acquisition Program Baseline. 2 A* K6 D; }, M; K! n6 bAPBI Advanced Planning Briefing to Industry (MDA).6 b" Q. W) }. C! V& E: V, U8 X4 S APCC Alternate Processing and Correlation Center. 3 f/ p k/ [ L$ E, c+ ^3 zAPDP Acquisition Professional Development Program.# r$ E/ u; Q! @ APEX Active Plasma Experiment : T' ]. e, `0 ^: PAPI Ascent-Phase Intercept. 4 c0 F6 X/ m# i1 G4 H$ n/ lAPIPT Acquisition Planning IPT (PAC-3 term)." B8 t7 J7 e& i4 B; ]1 T8 H0 y3 S) \ APL Applied Physics Laboratory, Johns Hopkins University, Baltimore, MD.- X6 M( Q) i4 [4 @ APLE Average Power Laser Experiment.- T' {2 S. V$ Y! { APM Advanced Penetration Model.. }* ?$ u+ g* g: s0 q APMA Acquisition Program Management Agreement. 3 Y+ s5 s6 \- P8 v7 X5 ~6 L' @APO (1) Apache Point Observatory. (2) Arrow Project Office. ( u R6 {# ?8 C; h0 v' Z7 e& @APOD Aerial Point of Debarkation. 9 v G( [6 ?& H1 @6 l2 BApplication (1) (Software) It refers to a process; usually implemented as a software ! I0 K" G" d/ G! jroutine, at the highest level (Level 7) of the ISO open system- H2 M9 L, B; M# G architecture. (2) (SDS) It refers to such processes as the Battle . S# N* [; [. a, Z& nManagement, Navigation, Network Control, and other high level functions ; W8 C5 D- W# {# B- Bwhich may originate or receive messages over the SDS Communication. A) }) R" k+ q+ _2 H* {2 _ network, via underlying lower-level protocols. (3) Software designed to , Y8 V+ i! i _9 A/ Vfulfill specific needs of a user. (4) (Acquisition) The process of selecting0 e! t: S/ M" N requirements that are pertinent and cost effective for the particular + Q1 g1 ?: f9 @% X# x. V+ [materiel acquisition and contractually invoking them at the most $ j8 P6 I/ f* r# V7 q' U) v$ H, sadvantageous times in the acquisition cycle. |, u! v [0 \ MDA GLOSSARY, VER. 4.0 A 1 J6 {% {3 \; d9 ^: i" N. G( N19" M6 z. H4 J; t* S0 }& L4 k7 ^ Apportionment (1) A determination made by the Office of Management and Budget which- U- W6 j v2 A$ ^ limits the amount of obligations or expenditures that may be incurred ' x( |$ e7 ]+ Q, i1 ?) \5 [ a6 pduring a specified time period. An apportionment may limit all obligations, _. A5 O, e) l, y' B6 L- x to be incurred during the specified period or it may limit obligation to be j) l" q4 }3 V0 P4 t8 Lincurred for a specific activity, function, project, object, or a combination% u2 F3 u1 a2 D thereof. The third of four phases of the DoD resource allocation process.* i H4 A7 B! y& Y# d% `; d (2) The determination and assignment of the total expected effort by* p( u: z- G6 |6 D+ v% g5 P& K percentage and/or by priority that should be devoted to the various air 0 T9 O. B. A( l1 m K( joperations and/or geographic areas for a given period of time. (3) In the5 T! V3 ~" e' C9 B general sense, distribution for planning of limited resources among 0 w$ i' ~; T! ]2 acompeting requirements. Specific apportionments (e.g. air sorties and n* \6 y3 m+ q: {forces for planning) are described as apportionment of air sorties and ) x; M8 g3 I' v7 [1 O5 vforces for planning, etc.! V( c" Q8 ]5 L& L' a4 \ Appropriation An authorization by an act of Congress that permits Federal agencies to incur ( u: D( ` N) h8 p0 X$ D# h* Pobligations and make payments from the Treasury. An appropriation usually2 E( R# u) z S8 E% u2 C _ follows an enactment of authorizing legislation. An appropriation act is the most* z; T5 _! a1 X; {' w2 G: @4 a0 g- b common means of providing budget authority. Appropriations do not represent 4 X) n7 [7 y4 P) V+ |+ Rcash actually set aside in the Treasury; they represent limitations of amounts, 3 c. X3 x% z$ k* Y+ Y8 `which agencies may obligate during a specified time period. See Authorization. B2 o9 o! G' J# R& a Approved : J5 R) h4 N$ ~! b* jProgram3 U. V. [: v; z. k" f The technical and operational, schedule, and quantity requirements reflected in* V& m# c' Y: e, n; [6 { the latest approved USD (A) ADM, or other document reflecting a more current+ a I2 ]+ I9 l3 F+ e: n decision of the USD (A) or other approval authority, such as the President’s * e/ \5 h2 j3 {% N1 bBudget, the FYDP, and supporting documentation. % w0 f5 d( L8 [! bAPPS Automated POM Preparation Instruction. 2 x3 l' u; C: k' y7 rAPS (1) Axial Propulsion System. (2) Automatic Phasing System.1 o: ?0 Q% W5 L; K1 _ APT Acquisition, Pointing, and Tracking. 5 V7 E- U/ x |" j; DAPU Auxiliary Power Unit./ T1 t1 Y$ x; G9 U/ m) z AR Army( |4 B4 T0 s; M6 |! `' Z, S) k ARB Accreditation Review Board. " f& x* z; d4 u# PARC (1) Advanced Research Center, US Army, Huntsville, AL.8 v5 D" m0 F6 _5 |. c- L. e0 p (2) Atlantic Research Corporation. 6 y3 ~( P, ?( A) F& fARC/SC Advanced Research Center/Simulation Center. : ~% ^. Y( V5 D/ JARCCC Army Component Command Center. 7 H- {# V( l4 ?" f) O% d+ y7 _ARCT Advanced Radar Component Technology. * L5 H! I: M0 ]5 Y3 z) xARFOR Army Forces.8 L: I$ n" r2 Q1 s* { ARGUS Advanced Real-time Gaming Universal Simulation. 7 ?2 C% g0 V7 n: n/ ?: uArchitectural0 C- B9 F+ k* U, F Design* ^# f4 U2 R! ]* e9 @3 O The process of defining a collection of hardware and software components and* f) h+ S8 o( L4 @$ j9 h2 L" I# o3 Y their interfaces to establish the framework for the development of a computer ( q7 ?, \' H; ?% _system.6 s H; V1 T# ?1 E MDA GLOSSARY, VER. 4.0 A 5 c% D7 k! ^5 U3 ~# |. A8 P20 9 o& G7 W$ S, V! W s+ V* Z& @Architecture* ?* J. P, i' D9 x6 I" M Integration ! @; O. {6 x- {4 A$ K3 pStudy (AIS) ( O3 r! z8 W- F* PA study to determine the performance of alternative architectures and element& n# O. F+ p9 Q3 K( A# W1 w; L) N9 Q+ ] designs that satisfy BMD System mission requirements, and to evaluate the 9 J" ~5 E) ~9 f% K0 Peffect of changing threats and advances in technology on the systems,4 P4 S7 `7 F0 J" ] subsystems, and components making up existing and proposed architectures. 2 T! V9 c+ ^4 @2 f/ MARDSOC Army Defense System Operations Center. 9 h8 m: G$ R6 s3 |6 I( f5 qARE Aerothermal Reentry Experiment.6 V5 F8 _# ]& X: p" G3 ^ Area Air Defense & `* D6 n8 r+ j( s8 f1 sCommander 8 Y. t9 E8 ?9 G6 Q3 W(AADC) 7 s$ ?* L' B4 b1 o6 gThe person given overall responsibility for air defense within an overseas unified+ f3 N( Z8 `" o6 K command, subordinate unified command, or a joint task force. Normally, this will ( K, s% u- r& m f% hbe the Air Force component commander.7 j3 A; s+ g( m Area Defense Defense of a broad geographical area that contains both military and civilian 0 X! n9 a3 ]: z6 [" tassets (i.e., depots, towns/cities). (USSPACECOM)6 n b5 w: u$ `/ S* i9 \, o. C" _ Area of Influence A geographical area wherein a commander is directly capable of influencing+ q2 n- G0 g5 r5 P operations by maneuver or fire support systems normally under his command or ! [$ C S! @: `+ o! Rcontrol.# D! K+ ^5 y5 G. d2 Z Area of Interest# L# U. o; i) `8 X9 e (AOI) / I5 A% |% U8 u, uThe area of influence and surrounding areas that is of concern to the 7 i7 G& L3 Y5 q2 q# Y$ qcommander for the objective of current and planned operations. This may2 U( ]* u/ t: C include areas occupied by enemy forces.( }. o" X( ^ M2 b; Q7 V Area of: f$ a, [+ z2 t1 ? Operations+ |+ e0 z5 J4 Y( d5 i" M That portion of an area of war necessary for military operations and for the 9 e( b! _$ q2 t) N) b8 Nadministration of such operations. ' Q) W4 ~+ v! }' _: i+ y. j4 M0 MArgus An airborne optical platform operated by the Air Force’s Phillips Laboratory.9 L4 x4 m5 S9 n/ k M Argus is sometimes used by MDA to collect flight test signatures,9 a: F: N d; i0 A. D6 f phenomenology, and intercept data.( V. {* i- T. Y, t/ Q# U ARGUS Advanced Real-time Gaming Universal Simulation. 0 X7 P& {: ` k2 i$ {% W/ N6 uARH Anti-Radiation Homing. * O1 M3 f3 A9 e/ o7 N' jARI Army Research Institute

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ARIES Active Radio Interferometer for Explosion Surveillance. + h6 g/ u+ M0 Q5 F1 Z% P7 AARL Airborne Reconnaissance-Low (USA term) [circa 1996 = Reconnaissance 9 ^$ h) R/ I) N+ d6 U+ fequipment in Dash-7 airplane].- y2 q+ P2 t+ P/ {3 n& k v5 S ARM Anti-Radiation Missile.; \4 p7 a% q4 @- | Arms Export3 v7 o- D8 A' i' G Control Board3 T7 l" F6 p, ` D (AECB) V6 q2 B8 `: Y2 U An interagency board, chaired by the Under Secretary of State for Security P# w' p) r) o8 H Assistance, Science, and Technology, that serves to advise the Secretary of5 I+ \" u3 Z2 f, e9 i& W* O1 k State on matters relating to security assistance program levels and arms transfer0 B+ h, ]/ _* N% B( z/ M policies. 4 B7 G% c9 q2 t q5 ?- ^ H# U" DArmy Brigade+ o" p) H* }0 P3 r: R Center (ARBC)$ X% V/ |8 T g- L2 P The Army center between the ARSPOC and the ARROC with C2 responsibilities 7 @0 g' R1 }: j. `# X* E- r ~for BMD. 1 K r9 Z$ m; P( YArmy Component " \# ^& o( y8 p& I$ hCommand Center8 s6 `) i( q0 {4 B# ` (ARCCC)2 L0 V: i/ A: _7 t: L A segment of the Command and Control Element, which replicates capabilities of ! g6 ~0 D, t3 z" Q* m6 T8 Athe CCC (BMD) segment and provides administrative and logistics support to! C, z! h# E, I6 J$ r: u- s Army Component Forces with the Strategic Defense System. The ARCCC was . B6 `7 y1 C* r- K* ^& |+ E0 xeliminated from the CCE (now C2 E) architecture during the last SAS system* m' _- N p3 v" Q& g architecture definition update. 5 \5 S1 K P8 q* hMDA GLOSSARY, VER. 4.0 A 8 f2 u3 ?7 d j1 ^21 - Z& j/ k' _4 d( [, IArmy Materiel , [1 M. ?. |# I! k9 cCommand (AMC)/ m; [5 h9 b W7 L- |; M1 X9 i. H Performs the assigned materiel functions of the Department of the Army,6 v5 ?! p/ a o5 T including research and development; product improvement; human factors ! u5 T2 E( m. G% d; h" C# i) ~engineering; test and evaluation; procurement and production; new equipment3 Z) A7 V6 d* J( ~- s training; scientific and technical intelligence production; international logistics5 S' s+ v* r5 V programs; and storage, distribution, maintenance, demilitarization, and disposal 4 z3 p* Y& V' e4 y6 |! N& }for the continental United States wholesale supply and maintenance systems as) U6 H( K# k0 T5 U well as for overseas systems. Located in Alexandria, VA and moving to Fort - @- g5 S2 z1 }8 @! }Belvoir, VA in 2003. - Y5 ?9 H+ a- B) g7 d" j: @Army Space / G' |" {; A9 r9 M$ b( _/ x: `8 O' MOperations* J$ u) |, E. V: b8 z: S Center (ARSPOC) " G0 J$ n! Z& j* z- c3 [- nThe Army Space Command Center responsible for logistically/ administratively6 W( i; k; j2 ? controlling assigned SDS elements and which shall also include the capability to ) L6 m% u5 G# S( X lassure the BMD mission is carried out should the USCINCSPACE CCC be lost." I+ v1 _# S2 p! n8 ]7 w ARNG Army National Guard./ J! `! j5 x$ i AROS Airborne Radar Optical System. ' c$ H$ l4 c7 u' X% \8 S$ wARP Address Resolution Protocol, D, k- s1 p7 c H* V7 c: q8 O ARPA Advanced Research Projects Agency. (Formerly known as Defense Advanced; w& _3 ?8 K1 X+ r- e" n& [- [, u Research Projects Agency (DARPA). 1 o# e3 ]- b+ wARPANET ARPA Network. . Y/ V, A+ `/ j5 o. b& e. eARRC Allied Command Europe Rapid Reaction Corps./ f. ]( T2 W% J, B/ m& o ARROC Army Regional Operations Center.- X) D- ^9 ` k9 o Arrow A technology demonstration program started in 1988 and designed to meet 3 D8 A! h8 _% ]* S2 R' nIsraeli architecture requirements for area defense of population centers against. ]% U$ B' Q9 G. W. \. B TBMs. 2 L- g p' A0 Y8 a, D0 w( T3 jARS (1) Airborne Remote Sensing. (2) Action Request System.. S/ h4 H$ F( f* F6 Z; R ARSCS Automated Rear Services Control System. : K( b1 t' h, ~, u% }9 T* SARSPACE U.S. Army Space Command. U0 E; `& t2 L$ |8 RARSPOC Army Space Operations Center. - q7 x4 A$ d8 u; ?6 rARU Alignment Reference Unit (PAC-3). : N3 J5 p) A7 K7 H6 {% r8 K7 \# }$ uASA Assistant Secretary of the Army.% U# Z1 g* H0 C* J7 p- C ASAF Assistant Secretary of the Air Force. C( I2 T( Z. q" \( p ASAF (A) Assistant Secretary of the Air Force (Acquisition). , U' T/ ?. F* N$ I2 @ASARC Army Systems Acquisition Review Council.7 s0 L6 J- m/ H* ]1 e# G ASARS Advanced Synthetic Aperture Radar System.4 ^1 o$ p9 H) f$ G* u5 e9 z ASAS (1) All Source Analysis System. (2) Advanced Solid Axial Stage.# ~+ M8 d1 c# N! n& ^ ASAT Antisatellite Weapon. 8 F: G8 W& Y8 }ASB Army Science Board.! p3 b- j+ L4 I MDA GLOSSARY, VER. 4.0 A$ {0 g. W( y% \% b* b1 j3 q6 ^ 22: m$ W: {, R" e `/ F. Q ASBM Air-to-Surface Ballistic Missile.% f2 f( E% m9 ?. y9 L5 R! U ASC (1) Army Space Command (See also USARSPACECOM, ARSPACECOM).. h6 y: ?) h+ c7 f (2) Aeronautical Systems Center, Wright Patterson AFB, OH.. X) K% a2 p9 V" ` V w2 j ASCC Air Standardization Coordination Committee.; M8 L W( B9 a5 q4 r& P ASCII American Standard Code for Information Interchange.2 ]8 V1 S: ]( S& x4 p8 {! n ASCM Advance Spaceborne Computer Module / f/ ~! L; k% A- VASCO Advanced Systems Concept Office3 j7 q2 s5 Z7 l6 h8 u ASCON Associate Contractor $ A' Z* a4 ^, S6 k. JASD (1) OBSOLETE Aeronautical Systems Division (AF). See Aeronautical ) c8 C5 i1 E( o) ~" H9 p( WSystems Center (ASC). (2) Assistant Secretary of Defense.2 b8 h, x/ ~: v' M ASDC Alternated Space Defense Center . s" H; A: @* s- V; FASDP Advanced Sensor Demonstration Program. ) R! _8 t2 ]. i. O7 `" ?+ JASEAN Association of Southeast Asian Nations % Z* M5 W7 x/ P) n5 j, \. n( qASEDP Army Space Exploitation Demonstration Program. . i+ v# R7 k6 T/ d* s# m) xASIC Application Specific Integrated Circuit. , R* e- D+ L0 \ASIOE Associated Support Items of Equipment (USA term). - Q' |1 D9 s. X' J. x* gASL Authorized Stockage List (USA term). ; e3 h+ O ~; L& R: Z4 zASM (1) Anti-Simulation. (2) Anti-ship Missile. (3) Air-to-Surface Missile./ W' |- L# m& e/ _ ASMD Anti-ship Missile Defense. : G9 G; S1 j' O- Q! T- pASMDC Army Space and Missile Defense Command, Huntsville, AL (1998).7 I. @* D( W4 F ASMP French Air Surface Missile : q3 A! ]+ w. q* ], O x' iASN Assistant Secretary of the Navy. ' g/ o) O i- hASN (RD&A) Assistant Secretary of the Navy (Research, Development & Acquisition). & h# R7 j' A' ^, V0 B" l& FASN (SB&L) Assistant Secretary of the Navy (Shipbuilding and Logistics).+ ^3 j, Z/ \; [" ~# v ASOC Air Support Operations Center. - p% b1 G- l1 l& pASP (1) Airborne Surveillance Platform. (2) Advanced Sensor Program. (3) & l* V( Y9 W1 K. O- zAdvanced Sensor Platform. (4) Annual Service Practice. ( L. f( I* k3 X( p9 u# YASPADOC The backup to the SPADOC, maintained by the Naval Space Command, at " C0 X' Z" O6 v6 h7 fDahlgren, VA, collocated with the NAVSPOC and NAVSPASUR. . L3 K; S/ B, \% s) b! F! J# AASPIRIS Advanced Signal Processing for IR Sensors.9 g8 }. {3 c$ ? {" R$ l ASPJ Airborne Self Protection Jammer $ C1 N' t* I/ r C3 j& e! _( x) kMDA GLOSSARY, VER. 4.0 A/ e1 A& ]3 A& _6 I7 e- o 23 6 H6 T& b6 u% k9 p* DASPO Army Space Program Office.. g3 k3 o: `( D& `( f7 ` ASR Acquisition Strategy Report. 9 z0 W& E' [: {2 |4 aASROC Antisubmarine Rocket.9 S7 N: b) O% ~0 ?. q* o0 N8 z/ j ASSERT Augmentation Awards for Science and Engineering Research Training (DoD- T/ v c2 W+ e2 `. \& g8 |( e term)." M% A$ ^( t! J Assessment (1) Appraisal of the worth of an intelligence activity, source information, or% C5 C* a- I" p+ z7 V! H/ j0 ` product in terms of its contribution to a specific goal, or the credibility,, V. t9 y5 p+ ^( m2 N6 V5 ~ reliability, pertinence, accuracy, or usefulness of information in terms of v: t+ Y6 I3 i! _- P$ B$ Oan intelligence need. When used in context with evaluation,: _, o3 b" m1 O2 }# C! w1 K' y assessment implies a weighing against resource allocation, expenditure( x) r6 i* N" W5 F! l" M or risk. (2) An independent evaluation of a model or simulation by an6 T4 Z. T% u8 _+ @* v MDA-sponsored Confidence Assessment Team for a specified purpose." W7 I& {1 U- r! t5 H ASSIST Automated Systems Security Incident Support Term (DISA term).) u3 c! X [7 c2 m. G Associated 0 Y9 _1 }3 b9 nObject1 f5 Z3 Y' I0 @2 x Object that remains near a deployed reentry vehicle, decoy or chaff puff. 4 i% {* V6 ~ ?Assume Course $ K: w& l' W$ K$ A8 A" x2 F# A1 U+ BOrientation7 r* W+ A5 `( C# H0 ~6 H U! W, J Make course attitude adjustments to the weapon platform orientation prior to & ^. w v( W$ Zengagement. 5 P0 n/ F5 p* ^' B7 u& aAssured Defense Strategies and tactics that result in (specified) a high probability of kill against$ @ e5 p+ T' [0 E8 s- D designated targets, regardless of the interceptors required. (USSPACECOM) ! l3 V7 V3 Q- I( ]Assured Kill This option requires defense segments to employ tactics, which produce the. ?* V2 P( ?/ x% u6 G5 z' ] highest probability of kill consistent with the available number of defensive 5 S. q$ {5 Y( w: vresources (interceptors). ( b4 h4 X2 f9 y6 oAST (1) See Airborne Surveillance Testbed. (2) Advanced Sensor Technology. % h" q9 ^4 j" ?: t0 EASTMP Army Science and Technology Master Plan2 W( |8 v5 G% I: V* {. K$ {7 ? ASTP Advanced Sensor Technology Program/ T' u6 A8 X# S9 s! N/ d ASWG Architecture Systems Working Group. . F8 L; \, k$ k0 |AT Advanced Technology! y. w. k4 s3 q; [1 S+ Z6 h1 }1 b1 ^& @ ATA (1) Advanced Test Accelerator. (2) Avionics Test Article.9 P5 n6 l4 P" w ATACC (1) Advanced Tactical Command Central (USMC term). (2) Advanced Theater Air ! ~" _' Q# s# X( ?8 }4 ?# NCommand Center 9 n; L S3 O5 m/ W6 Q d9 }ATACM Army Tactical Missile 7 m* l2 u2 q/ Y5 N F1 ~ATACMS Army Tactical Missile System.8 W! F- z0 g( G- L Q$ ^ ATAF Allied Tactical Air Force (NATO). ) ]; X" B" p6 G; xATB (1) Allied Test Bed. (2) Analytical Tool Box.' U+ f2 N3 |+ q1 w8 l ATBM (1) Anti-Tactical Ballistic Missile. (2) Anti- Theater Ballistic Missile& m0 b0 R7 U0 W! L% y MDA GLOSSARY, VER. 4.0 A 4 k1 ~9 h& x! U8 |3 \4 l# a( g24 9 w$ x# O: C- X& J) V1 XATC Automated Technical Catalog 1 o# m3 W, m5 p6 L. n5 E1 z9 nATCCS Army Tactical Command and Control System. }" v5 s5 Q3 j+ r ATCOM Army Aviation and Troop Command (pre-Oct 96) (See AMCOM) 6 _8 J Q7 e" }4 AATD Advanced Technology Demonstration. 3 @5 g0 t0 w+ T, O+ t# c0 UATDL Army Tactical Data Link. 6 g6 t- f3 H$ T6 q0 H8 p* b; ]% V& ^9 dATDM Adaptive Time Division Multiplexer. ! D( o$ C4 l2 j0 {ATDS Airborne Tactical Data System. 2 P) C7 I3 _( [; i7 ~! [" ~8 SATE Automatic Test Equipment. " b5 W: _3 o K3 @, f* {ATH Above the Horizon / U- z2 s9 g0 eATHS Airborne Target Handover System.: u. k5 b5 {5 f# f5 C ATI Advanced Technology Interceptor % H* l6 w! s' J& K& EATIM Advanced Technology Insertion Module 2 b- p: S6 e% z, ]6 M; S$ _. s9 MATIS Alliance for Telecommunications Industry Solutions, E* u* _( v. _5 X7 A) S: @: w ATM Anti-Tactical Missile. % T1 M3 A }% l% HATMD Army Theater Missile Defense.& e: S8 G5 s& [: K! { ATMDF Air and Theater Missile Defense Force (US Army term).% _, C0 s3 \3 N; m8 c: |+ W" p ATMDPO Army Theater Missile Defense Program Office.) ?4 O# B+ ^9 t- [0 @ ATO Air Tasking Order.- z' I' h9 v$ L4 d! L6 H' i ATOC Air Tactical Operations Center. 7 o5 r/ C- p6 gATODB Air Tasking Order Database.3 w# I! k) ~4 Z4 B1 X, C& l ATP (1) Acquisition, Tracking, and Pointing. (2) Authority To Proceed. (3) Allied ' a) f S! d9 G b: rTactical Publication. (4) Acceptance Test Procedures. (5) Acceptance) ^1 `, F& s: A. I Test Program. (6) Advanced Technology Program (Department of 3 x D( G# Z% y$ C( MCommerce term). (7) Authority to Process.8 t& i' Q7 a0 Z3 o: U ATP&FC Acquisition, Tracking, Pointing, and Fire Control.9 Z9 v* L$ d* |9 t ATR Autonomous/Automated Target Recognition.2 |8 [: P6 \0 o- f ATRJ Advanced Threat Radar Jammer. 5 u/ i5 a$ T4 D# l* YATSIM Acquisition and Track Simulation. * {2 `. \9 i- `6 d- y' f% x ] p( {Attack and/ [1 _# n8 \) ?( d Launch Early 3 e Z( c7 e i$ _ B4 UReporting to U, V) k7 o; Q: w Theater (ALERT)2 k9 G1 Z+ w8 K, @* n; T6 Z An upgrade to ground station mission processing which exploits inherent satellite( D' M' T6 A+ o6 b8 _8 A7 f3 x capability to provide theater missile warning and cueing.: ^$ w/ m H9 v9 ?$ w! o1 q7 x( t/ z9 t MDA GLOSSARY, VER. 4.0 A* a# ~& X4 g. Z: B6 }8 m 25$ b3 N2 N& Y4 Q Attack/ s# C. e$ g. n5 h Assessment (AA)) ?" a" t3 w7 J2 F" z5 J An evaluation of information to determine the potential or actual nature and8 Z( Q$ W; [/ ^ H objectives of an attack for the purpose of providing information for timely : r. |1 v" }5 W4 d0 ~decisions., l8 V+ m8 v4 h9 U Attack ?7 v. A- B' ~: Q6 j( jCharacterization 3 x2 u% {% f$ ?0 D, R; cThe process by which the parameters of an attack in progress are developed, : V, J9 ~% C- Wupdated and defined. 6 q9 l# v$ \, B$ N+ wAttack, y) d7 i" a" z. k a9 \: b6 ]" k Operations ( E8 Y! y) ?1 D# ? c1 E$ e4 Q(Counterforce) + K( T* H) L! v7 ^. ~; K/ ~Attack operations prevent launch of theater missiles by attacking all elements of% }& t1 ^9 \, p the overall enemy system, including such actions as destroying launch platforms, 3 g+ s1 v# _8 D, ]( n6 osupport facilities, reconnaissance, intelligence, surveillance and target acquisition $ O/ b. D5 _6 `$ p4 t6 N# E/ gplatforms, command and control nodes, and missile stocks. Attack operations o" ^' W& u" g2 C7 { can be executed by space, air, ground, maritime, and special operations forces. : ^6 Z+ s$ c) b: M- }' x& b8 \0 rAttack operations are considered one of the four pillars of TMD capability. (JCS A3 G- z6 ?: [ | N J-38 CONOPS), X5 d; X, \( g& p& f Attack Price A concept used to evaluate the performance of a BMD system that defines3 b: c+ j/ w6 d “price” as the number of Re-entry Vehicles required to ensure target destruction. ( T' Q8 K" m: H; aTarget destruction is defined as a probability of target survivability using the draw + x5 ~3 P( J+ Y# R# K* S6 adown curve.4 d) M* A4 W% X. m1 L Attack Warning/# `4 }- a. @, V# r Attack # _2 Q( Y' B- J0 Z5 J3 P nAssessment 3 U, P' F! G0 e(AW/AA) ! | X- U' }, C* {$ U! \Integrated air, missile, and space defense data used to determine whether an6 _! O$ J. {- y- U2 ?( T6 m- Q- p attack is underway and, if so, what is the type and strength of the attack.6 N9 H+ \- u: O9 N ATTD Advanced Technology Transition Demonstration. # M4 D) _! K; x$ }( q- NAttenuation Decrease in intensity of a signal, beam, or wave as a result of absorption and 7 Y+ M- Z M! {; oscattering out of the path of a detector by the propagating medium, but not ( P& G, I( H- T- Oincluding a decrease in intensity due to geometric spreading (e.g., the inverse, B$ w$ E7 n+ C, d& u+ p square of distance). - K# `9 d+ I# z) O, M' r/ {+ FATV Advanced Technology Validation. & J* ?+ i: w8 n* s$ c: hAULS Accidental or Unauthorized Limited Strike. - g {5 U# `% N) |( f( \. PAUPC Average Unit Procurement Cost. % F6 \( l* a1 V. T* f- Y; EAURORA Canadian aircraft.9 Z( h" J! E2 D7 ]- P) E Autonomous7 l; N" E$ L! r) _5 |# v Acquisition 4 E; z7 a* m8 r$ c4 iRange (Max.) " V5 S; ~4 {; j- J0 H8 q% P; XThe maximum range at which a target can be acquired by a sensor operating in4 z& k" l% Z2 q% O$ [9 g a non-cued mode.! ]4 c' Q. _; f0 f) n9 i+ P1 P AV (1) Air Vehicle. (2) Audio-Visual.* F+ c' E# u6 S! P AVATAR (SAIC) Flight dynamics simulator.( @. Q' E% ~. }2 ] AVC Advanced Vehicle Concept.' F- n! ~# c- m1 R0 @$ \( u AVCATT Aviation CATT (US Army term) 4 q2 O i. V$ q( zAverage Unit : Y; e' G# V# Y8 a5 H# k. IProcurement5 h- h1 [ z. B8 [9 P0 _. m1 ~+ ]# C Cost (AUPC)) J& p! ~3 \2 | Design to average unit procurement cost objectives, expressed in constant: J9 F! {9 V- F, r N dollars, are established for Milestone I, Concept Demonstration Approval. AUPC0 {, r3 B6 j% m( K includes recurring flyaway, rollaway, sail-away costs (including nonrecurring" m+ G- ^+ ~$ D8 u( y+ z production costs) adjusted for data, training, support equipment, and initial 4 |" J' [" `2 s9 m5 R/ yspares costs. : V; |# n( ~4 \6 H n, e+ ^MDA GLOSSARY, VER. 4.0 A" l( p: {2 F+ _% H 26 * [- R0 h! ^/ ~: UAVHRR Advanced Very High Resolution Radiometer. 5 J) x' }; }7 n* b, `3 m* i& PAVSCOM Aviation Systems Command (US Army). ' H+ V+ I9 Y/ v- PAW/AA Attack Warning/Attack Assessment., F: @: P5 f( T# P9 e+ K" g AWACS Airborne Warning and Control System.8 c/ F2 P' y1 \* o% T: m AWC Air Warfare Centre (UK RAF term).; n$ p0 r0 |1 s4 C6 c! c7 w3 _) I/ a AWE Advanced Warfighting Experiment $ M0 q7 X' d; J, F& `" P2 w( gAWG (1) Acquisition Working Group (GSA term). (2) Algorithm Working Group. 6 T& A6 [* a2 R% k/ {6 kAWS (1) AEGIS Weapons System (2) Advanced Warning System. (3) Arrow Weapons 4 X2 G8 s8 B% e' R: ]$ }/ }7 DSystem (Joint US/Israeli BMD weapons system). 1 h% ~7 i/ D" Q/ r$ XAzimuth Orientation of a vector projected onto a reference horizontal plane, relative to a . @: i4 Y" E1 X# R1 @reference direction in the plane.& X$ g% o1 ]) i$ g4 k* _ Azimuth Angle A positive angle measured clockwise in a reference horizontal plane from a " _% G' k2 `) d$ t! B6 _reference direction to a given direction. For a topocentric-horizon coordinate ( g* @! M9 [* Z( preference frame, the reference direction is due north (true north or magnetic 9 {; ?; E( T' e& Cnorth, depending on the application). 1 v Q4 g! Q) Q" B1 u1 DMDA GLOSSARY, VER. 4.0 B) F; `! C9 O$ U0 G/ G 27 / e2 H) f/ i i/ {5 RB Billion.9 ?3 ?' X2 z1 a* X* j6 |+ K B Spec Development specification.% Q: l6 ]" C: r9 a; F& U B2C2 Brigade and Below Command and Control System (Army term).6 {) T1 l7 U3 N BA Budget activity. The budget activity codes are: 9 n! {# L- F: V: ~01 – Basic Research) ^$ q4 k t" F+ K# Z5 c/ } 02 – Exploratory Development 6 x; x2 Q* q9 S7 O( C [* h03 – Advance Technology Development5 ~. m- d, w2 B% }# n 04 – Dem/Val r t; M/ D( ?- _" w! W 05 – EMD( T3 r2 b3 s( g! d4 J 06 – Management Support + W$ a2 X9 Z, S j07 – Operational Systems Development* B+ s. `" S: N, N BAA Broad Agency Announcement. : m0 @4 z: Q% \7 ]) dBAC Budget At Completion. , o2 y0 F* Y3 ]5 R' N9 |Backbone - W) C4 z5 }3 b* o: r+ gNetwork ! Q9 t; ?- m _9 ~Consists of the space communications network, the ground communications * Q! L+ d3 W$ X/ _9 y! Wnetwork, and the interconnection between the two.( {: b8 J' S) A( G7 N1 u/ _ Background ' i. s1 L- O/ s# B0 _+ O0 v3 U5 WRejection 6 q" f& i5 ^4 ` m(Surveillance): k+ P9 a8 H ^& d6 l; ^ The suppression of background noise for the improvement of an object signal.( ?& }9 i8 V/ Q( A- T3 b7 H8 ~, F BAE Battlefield Area Evaluation (USA term).. s! y/ m! H2 R6 B2 M BAFO Best and Final Offer. ! U4 b9 A' ]! x+ V' b1 yBAI Battlefield Air Interdiction. 3 Q ] g- T5 C+ K- w0 a6 QBalanced0 r' M/ F4 a. H& C* h$ P! V Technology0 p( i6 ]/ k3 h: M$ e. | Initiative (BTI)' S' M7 U8 l; K+ g+ ^ DoD’s program to hasten application of advanced technology to the most critical) l3 j! Y) @4 L: V7 A3 F and urgent operational needs. BTI projects are demonstrating leap-ahead / X/ G; R4 h8 i& Z' kcapabilities enabled by emerging technologies in smart weapons, target / f) W: \) R. t1 P9 d/ r' {acquisition, battlefield C3I, active countermeasures, and ultra-wide bandwidth8 B5 D- B( z( Q! I$ P5 d6 r radars and high power microwave systems. 0 `4 y1 r& E& N2 s3 RBallistic ' `! p: `0 p% ~$ c5 CCoefficient) ~4 N$ ^1 q6 j, f7 G The weight of the object divided by the product of the coefficient of drag and the : F: I* ?7 f* {, jprojected area (W/CDA), in kilograms per square meter. 3 O6 k5 H% t* D. ~/ MBallistic Missile2 z) ~8 X9 D b* h2 K K# H (BM)) M4 Z1 M" i" _6 R/ p7 F' K Any missile that does not rely upon aerodynamic surfaces to produce lift and 0 a/ |6 o+ P: d5 o( ?# M7 pconsequently follows a ballistic trajectory when thrust is terminated.2 G) M1 i/ F! W! l p9 G Ballistic Missile: L2 m! o# B7 {4 Y Boost Intercept ' C! j- L, G. a(BAMBI) - o9 _+ Y/ Q6 E& hOBSOLETE. A 1966 system concept that a Lockheed study group developed in % x" H5 h/ s ?anticipation of possible government interest in the development of an ABM$ Z, i9 a. m& T$ p capability. 0 n- u" L8 i) j1 U- \Ballistic Missile 6 t% S0 q" T) n' p/ C& F MDefense (BMD) `2 D4 q) v% v' U" j* HAll active and passive measures designed to detect, identify, track, and defeat7 M" L% K5 Z, K! z7 w attacking ballistic missiles (and entities), in both strategic and theater tactical , m+ {8 E$ E, p& b# w& ~roles, during any portion of their flight trajectory (boost, post-boost, midcourse, or6 Y5 G) m. p" [$ t3 U; O terminal) or to nullify or reduce the effectiveness of such attack. - Q" g% |) I" a( E" W9 Q4 KBallistic Missile * q! @: d) E0 p# b9 x; t: eDefense Battery 2 c$ F m y/ ]* b9 EAn Army operations center, which operates and maintains BMD ground-based * E* |0 v6 b8 L5 L( Qweapons and sensors.; j$ G+ a- T& U6 x. v. Z: ~ MDA GLOSSARY, VER. 4.0 B+ T! E/ {% L( H) v8 H 28 + p6 I1 i% Z! g' sBallistic Missile 1 X7 Y2 [% A8 h0 b0 aDefense (BMD) ) }& s, e/ @: V. [2 }" R0 ?Cell! H0 g1 E7 i7 i; u- g: Q This facility will be located in the USSPACECOM Consolidated Command Center8 u& `- C+ c# W (CCC) and Space Control Center (SPACC) to support the Space Force + @$ j. c1 y3 t& b8 GApplication mission area interface between the BMD system and ) [7 m# `$ i9 h# _. _USCINCSPACE. The BMD Cell will provide command and decision support to 1 E0 {* t2 c. ?3 x2 n6 \USCINCSPACE.& h0 V7 b$ ~, }8 S* O8 X- @ Ballistic Missile 8 s! k7 p9 y; n i/ U$ vDefense ; [: d' r4 i- H c [, L8 Q% f! mOperations( \5 h0 r4 x! A, K& p- r Center (BMDOC)5 M3 g- j% f# t! {9 [ ] OBSOLETE. Initially located at the NTF, and ultimately in the Cheyenne8 T. J) v: Y3 n7 T y" D, H Mountain Complex, this facility supports the BMD Cell-USSPACECOM information7 y5 f0 B: g; R interface. The BMDOC hosts a BM/C3 processing suite and the operations - i5 w9 U$ ~+ ~" G3 a" R) jpersonnel necessary to coordinate and integrate system-wide BMD activities and " _( q) x# v4 ]+ J8 Gsupports the USCINCSPACE planning and decision process.$ P8 F/ @8 ` g6 U9 g$ ]& T Ballistic Missile: N2 F& X7 I: k S* p q3 _4 J Defense5 B- H: j" g V" ` Organization0 p1 s N7 ~; E. N5 x (BMDO) 1 h1 V3 y( e* f; u& r" B0 COBSOLETE. The former name of an agency of the Department of Defense( E4 b4 g8 s" M& ?* m4 a2 _1 y5 p whose mission is to manage and direct the conduct of a research program 7 x/ n5 _ o$ fexamining the feasibility of eliminating the threat posed by ballistic missiles of all1 _# p+ n( d% L: J' E2 M ranges and of increasing the contribution of defensive systems to United States: K3 e( R. e: \, @5 t- x3 t7 K e9 m/ N and Allied security. MDA is the successor to Strategic Defense Initiative4 F( |6 L- o h3 a0 L! @/ G; i Organization (SDIO). See MDA. 2 e6 l7 a+ g& LBallistic Missile3 q: B0 [8 T7 L8 l' i) [: c! s0 | Defense Program. R9 ^, o- d) m& s An architecture comprising three objectives: Theater Missile Defense (TMD),& ^% h- I$ d* W0 p National Missile Defense (NMD), and Follow-on Research Programs. ) q2 A8 R6 N* K1 C& I sBallistic Missile6 y* j$ ]8 w# T4 M Defense (BMD) 0 g3 ~ R+ b( L2 fSystem 1 ^# C7 `1 z/ W3 A" Q(1) An integrated system that employs layered defenses to intercept missiles & B( t# |% N- Wduring their boost, midcourse, and terminal flight phases. (MDA Lexicon), ?- M. b7 b8 r6 U& R" ?& } (2) The aggregate BMD BMC3 and BMD forces that, in total, provide defense 4 q1 V2 B4 @) a! sagainst ballistic missile attacks to North America and other areas of vital interest. + ?* O! C' [: W3 ~, D(USSPACECOM)% \0 ]9 q! E9 t Ballistic Missile' w# J0 G- x- {1 ]2 c Early Warning s, I3 L' r# Q/ h, j) d/ e, W W" g System (BMEWS)& h2 D' x5 ]$ m1 Q- q6 g Provides tactical warning of ballistic missile attacks, and is part of Spacetrack$ Z& T4 Q! d' b* D& C0 K; a system. A two-faced phased array radar located at Thule AB, Greenland; three ) M) g9 z" m8 l8 C, |7 Vdetection radars and one tracking radar at Clear AFS, AK; and three tracking8 L) i4 p; S9 J; }2 K$ Z radars at RAF Fylingdales, UK., b U7 K0 ^4 I6 n2 _- {% L. K3 E Ballistics The science or art that deals with the motion, behavior, appearance, or * ?$ ]/ }0 ~: o k( [0 w- lmodification of missiles or other vehicles acted upon by propellants, wind, gravity, 6 g5 ~" g9 C0 g6 jtemperature, or any other modifying substance, condition, or force., y! L' \7 ^# K: j# Z! G. j Ballistic. C( k( _( }% P+ I+ V3 z# \ c Trajectory S8 ~4 i, ^9 k5 m" |. |$ e7 d3 OThe trajectory traced after the propulsive force is terminated and the body is* G' Z6 K. A+ G! X5 }. }: l acted upon only by gravity and aerodynamic drag. 8 ^& { c8 Z3 NBalloon A spherical inflatable decoy used as a penetration aid to mask the location of - @2 \- `0 m5 c& p. R$ }8 Vreentry vehicles. 0 g6 ] X* P( Y' A( T" ]4 ?BAMBI OBSOLETE. See Ballistic Missile Boost Intercept. & r6 X2 {/ ^8 m }8 EBandwidth The range of usable frequencies assigned to a channel or system; the difference0 }# _/ r3 b+ m4 g) `4 w expressed in Hertz between the highest and lowest frequencies of a band., d/ C) X7 Z u3 W% @" `: e% L1 V5 a BAR Bimonthly Activity Report.' q$ a f, R- D! ]) X BARBB BMDO Acquisition Reporting Bulletin Board; f9 x$ K5 b1 I Barrage' z* I$ m- ^+ r! G! N/ A- |; \ Jamming * L$ m- v5 n$ N: Y+ W) ?Simultaneous electronic jamming over a broad band of frequencies.# R! r5 _6 s0 } Battery Tactical and administrative artillery unit or subunit corresponding to a company or - J% U4 m% N* d' Ya similar unit in other branches of the Army.! R W5 S- z4 R MDA GLOSSARY, VER. 4.0 B- g. U9 s6 Q& \, w: R 29! m4 X8 p& H; l: ~! u7 c Battle Damage 9 T# N7 f9 z1 C4 _/ e; J" mAssessment 1 [% Y; j& ^$ r(BDA) ! c1 F4 o U g7 Q) x& |The estimate of damage resulting from the application of military force against a& e6 F% e6 M2 N1 W- L predetermined objective. Battle damage assessments can be applied to the use8 m0 l6 o# S& o2 r of all types of weapons systems throughout the range of military operations. $ i6 h1 S- w7 S# n# W. h8 e5 mBDAs are primarily an intelligence responsibility with required inputs and) }) p7 }% \8 M. C) @( o; ]+ S coordination from the operators. BDA is composed of physical damage# |5 `+ F1 v, a6 c: T- K- D+ w assessment, functional damage assessment, and target system assessment.

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Battlefield % m8 _: l! K; B4 q; u6 q/ _8 J4 x8 nCoordination1 ?# R6 m& o0 F Element (BCE)9 o2 ?) o0 z& ?( Z9 C7 j% f An Army liaison provided by the Army component commander to the Air ' f2 ]$ `) y2 }2 V$ o. E1 I. _) IOperations Center (AOC) and/or to the component designated by the joint force2 i$ B# E$ h1 A8 s9 D* [0 N commander to plan, coordinate, and de-conflict air operations. The battlefield % c: t) K1 x9 a+ z: C: J8 ~coordination element processes Army requests for tactical air support, monitors' S8 _; P) S, N/ ? and interprets the land battle situation for the AOC, and provides the necessary9 S" ~- Q" M4 y* S+ U( }& @ interface for exchange of current intelligence and operational data. - {4 Q8 n, y! H8 ^0 nBaseline Defined quantity or quality used as starting point for subsequent efforts and O' S) \" x8 |progress measurement. Can be a technical baseline or cost baseline. ; B! V. I; _0 OBaseline : d# t) |1 c: _0 ^Comparison) K ]/ d% W9 O" G* w0 A System (BCS)4 a# ^& X; i4 @1 M, g Y A current operational system, or a composite of current operational subsystems,! v; U# O7 g1 i# e ~# x2 B which most closely represents the design, operational, and support4 X1 s7 C$ v4 _. X' r% u characteristics of the new system under development.9 Y1 P$ z+ q9 {: V5 w* C7 I, @) D' B Baseline) P% u2 X. h( G5 U* t2 h Conditions2 s; D) g, r* s( j6 s9 }; U The natural and human environmental conditions, which are present prior to 6 u2 J ^7 A/ g! P& q% g" w7 ]( @implementation of a program and against which impacts are assessed. ! L, t. y* c! P: ]7 W/ K& w# eBaseline Cost / a# L' [5 y7 } o) n DEstimate (BCE) 8 w' c$ _1 _- y( {A detailed estimate of acquisition and ownership costs normally required for highlevel decisions. This estimate is performed early in the program and serves as / \- o* i* i6 i; ~the base point for all subsequent tracking and auditing purposes.6 t/ f# L8 e5 C- `3 w3 O( W+ s4 H' b Base Program The base program is the program described in the Future Years Defense9 _& [1 R( k6 | Program base file, when updated to conform to the budget presented to $ U8 b1 J0 V3 k0 [Congress in January. It constitutes the base from which all current-year program , G" e5 b- r, O$ Q" Z3 l6 U3 Cchanges are considered. " X4 y, A& }" [% @Base Year A reference period, which determines a fixed price level for comparison in . P; P: Q: R" @7 Qeconomic escalation calculations and cost estimates. The price level index for* N' a& D- z) M% g$ i the base year is 1.000. F' Q9 J3 C2 p% h; l* C# z5 | s% tBattle Debris Battle Debris are the fragments produced by the hypervelocity collision of an " F6 w+ K: ^& Qinterceptor with a ballistic missile, post-boost vehicle, or reentry vehicle, objects 6 ]/ {% j' i# Y2 sresulting from intentional fragmentation or accidental detonation of booster 9 O! s4 R, j u$ a; ^components, and objects normally associated with the deployment and1 N1 U& P; L2 u propagation of threat objects (such as nuts, bolts, inter-stages, fairings, shrouds, : w3 B' m2 o8 q7 d8 s, U9 `etc.)." Y: \) ^# @/ ]" q: J: |9 Q* I) Q Battle Group (1) Domains into which the battle space is partitioned. (2) A data processing: r# X. }) c, u approach implemented in the battle management computer, which e6 f ^2 b9 t0 J+ A- K0 X minimizes the processing load by partitioning (grouping) threat data + M- y& @; [! U# B/ l5 d(Virtual Battle Group). (3) A group of associated system elements which [/ _0 H& v, i% boperate together in a segment of the battle, based upon their3 X4 a9 X* ~: u! o9 c! x capabilities and relative location to each other and the threat./ V( q$ p& l* X/ n5 q Battle Integration Preplanning processes and/or real-time coordination that occur to minimize - z7 q& o4 O Q4 D9 f$ p6 R+ B3 Hresource wastage between battle tiers or battle partitions.3 g \7 G) ]" o. S( ?$ W1 M$ A* N MDA GLOSSARY, VER. 4.0 B 9 w, u8 k B. \$ o+ E3 b, C30 % e9 ~" O i1 Z* `) I. ? K7 kBattle: X4 |" d) L9 l m Management0 l6 k9 \8 F- {/ v9 V# ` D" f! R (BM) 0 D6 l- S+ J9 \Battle management is comprised of two parts: strategies and the collection of 0 V+ G. P4 G0 x6 P+ g: P7 d0 ytasks to be performed to successfully implement chosen strategies. Given a set" H- K5 c+ U! x7 U. H; s4 }2 w of strategies, resources, and hostile asset deployment, battle management * G& m1 v! Z$ M3 A6 Faddresses the problem of choosing a specific strategy or set of strategies and & z' b2 ?# s' f$ M% m/ Z y" ?6 }performing the associated tasks, which would result in the most desired outcome.0 X3 c% U" Q2 L9 b5 b7 P Battle; f0 Y' ~! d3 v; V" b Management/4 n# K) B a# F8 | Command,: a! b3 K% g; }8 m4 q8 e4 U6 ~ Control, ' h; [* [) S5 m6 o: q" u( \( UCommunications,' z' q" B) Y8 ]2 S2 k$ @' A and Computers7 p" c2 o/ P# h/ o0 s (BM/C4 )1 [- R0 y. G9 w8 Z BM/C4 is a set of automated processes, which respond to the C2 system’s control( i! ]8 |# l! k6 N4 X directives. The BM/C4 will provide the BMD system with the capability of % u3 ?: O8 X1 j3 fplanning, coordinating, directing, and controlling the surveillance and , X! X% u k) A& w. h: Z6 h! F2 nengagement operations of the system. It will consist of a distributed* t/ q& z9 v0 R4 P2 Q* ^7 ~ arrangement of personnel, equipment, communications, facilities, and * ?& L) X; k: R- ^; I8 ^procedures that will ensure timely human control of the battle management( f# J, F! c/ W3 c process. BM/C4 consists of a battle planning function, an engagement planning& X0 X2 V3 N9 I- H function, and a battle execution function. (USSPACECOM) , Z" x; v% C. m4 [Battle - s6 M' [' @4 ^2 N- ]% c, F/ ZManagement % d" h# Z6 R7 b1 A' D, YDatabase8 Y% x8 \. a( O4 {. V6 C Battle Management data files including: battle management message file, object $ v# o% D( Q3 J. W8 ^2 jfile, track file, discrimination file, engagement file, kill assessment file, and battle5 k S" e" t+ L9 L. q% s# `2 C; U management health and status file. 3 `$ g6 u: _+ Q3 y1 R: R! S: r( cBattle - w& v3 a: d4 l) p5 z4 k* xManagement 8 O0 G m3 A* x) c; {, cSystem 4 W; `6 E- y& h" R4 NThe hub of the command and control process. It consists of computer hardware8 A* r/ d7 m: y* E" ] and software that integrates elements of the command and control system into a 5 w2 Z$ _+ O% j& [8 Q$ q& zsynergistic operation. (USSPACECOM) $ X, j1 k6 H- Y+ o7 h& PBattle Management System q: [0 Z$ }& X$ |6 ?! jConfiguration" e8 {2 N7 ~5 g+ ~( P! F2 H The battle management elements currently in the system together with their , M% y% |; r4 S5 u7 j7 e& Slocations, connectivity and currently activated modes of operation. ! K) }$ Q. }! e$ F5 u& N: ?: pBattle Manager The automated set of hardware and software equipment that performs the battle 7 O- l/ G6 h, |7 Smanagement functions at an element.$ _1 H5 n# \ C Battle Plan One of a set of BMD operational approaches to counter a ballistic missile attack.( Q( N* ^& a* Q1 C- Y It contains the rules of engagement, battle strategy, and intercept tactics to be . E% Y2 `4 r" p Simplemented by the battle management processors. It is directly responsive to) f9 n) u& K4 b+ [) x% U the attack type (e.g., counterforce). 3 _$ L! C4 @2 h( Q2 A2 UBattle Space A characterization of the BMD area of operation generally expressed by Tier9 ]# r( C: Y) T d7 A (Boost, Post-Boost, Midcourse, and Terminal). (USSPACECOM)2 c: Y- e5 B+ [! q$ Z7 Z% H Battle Space. P9 q: D3 b& s [7 f Partitioning5 q! s8 w2 u1 z* \' v. y9 C, A Assignment of management, sensing, control and firing responsibilities to specific 5 k: f5 o( x# p4 y4 jplatforms/facilities within the deployed constellation of platforms/facilities.+ J$ y9 r0 ~1 j/ k7 f2 q/ t. T& N Battlefield1 u9 k" D- u+ A, D/ } Y+ M7 G Coordination* n; i K4 Y p( Q0 K- w Element* h0 ]" g5 Q& ~5 b- W An Army liaison provided by the Army component commander to the Air ( u, i3 l6 D: Z6 R' W; {Operations Center (AOC) and/or to the component designated by the joint force* `' h+ T. K0 z: b6 K9 P: r commander to plan, coordinate, and de-conflict air operations. The battlefield ; m1 L: a* `) A6 p/ Q; ]2 Scoordination element processes Army requests for tactical air support, monitors 7 ]6 t/ t7 H0 C: J$ }' Fand interprets the land battle situation for the AOC, and provides the necessary / [! w7 t3 ]/ t' x1 n- `interface for exchange of current intelligence and operational data.# z! U/ e, o) n BBS Bulletin Board System.- L. `+ E" k- u6 A8 [ BBSF Brass Board Seeker Flight( i& x4 o' n; ?7 O* N$ g3 s: O6 e BBT Booster Burn Time.. K& }9 L ~8 F* r; `6 J BCAS Battle Management and C3 Architecture Simulator. 3 u6 E' o" V( ~1 YMDA GLOSSARY, VER. 4.0 B ( O' j" g5 g) c% I# C31 * o0 n) t% B# bBCAS (1) Battle Management and C3 Architecture Simulator. (2) Base Contracting* a6 h; p: e0 z Automated System.

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BCBL Battle Command Battle Laboratory, Ft. Leavenworth, KS. " q# l) M! }$ y. x7 D! GBCCE BM/C3 Consolidated Capabilities Effort.& L! |9 C. M7 i$ g/ N9 s9 X! D BCD Baseline Concept Description.& g/ l7 T8 F7 D9 E# k( h, n( r* z BCE Battlefield Coordinating Element.8 x) \" e/ n" K) C; X/ \1 a; V BCFR Battle Command Focused Rotation. % p: f' [8 X& U4 fBCIS Battlefield Combat Identification System (US Army term). # [2 ^ g$ D* P9 ABCM Baseline Correlation Matrix (AF term). 8 U. g* g! u& o8 lBCO Broad Concept of Operations.! Y4 g+ g( h$ {- G' ~ BCP Battery Command Post (HAWK). 0 z( @- a+ o2 W! i% }+ I: m8 n4 l6 iBCS (1) Beam Control System. (2) Baseline Comparison System.9 f' H; f$ h2 k( o& j0 d BCTP Battle Command Training Program, Ft. Leavenworth, KS) N0 V2 ]- c# r; h+ z- `; j1 f BCV Battle Command Vehicle (US Army term).$ k$ t8 u9 a" @* p2 r" x BCWP Budget Cost of Work Performed. k6 U- u4 @+ q& bBCWS Budget Cost of Work Scheduled " p Z9 J- k: UBD Baseline Description. o2 I# Z/ O: {0 j7 S' @2 P BDA Battle Damage Assessment.2 Y( r1 q( u5 P: F2 z4 a BDC Backgrounds Data Center, Naval Research Laboratory, Washington, DC @) A& P& L; h. u" w. P. hBDE Brigade / O, H- U4 E% o5 k; @' N0 DBDL Battlefield Demonstration Laser.# w" G; `+ U3 [9 \% B BDP Baseline Data Package ! x; P; F3 B5 w* Q7 U6 xBDPI Baseline Data Package Integration.1 n7 g3 z1 m( ^( ` BDS Boost Phase Detection System. ) |2 \2 N% O) B( D1 Y3 U2 V. ^7 mBDT Birth-to-Death Tracking./ g; b- R4 g# S, v BDY Burst Detector Y Sensor. - r* ~3 v, r; @2 Y, d( _1 pBe Beryllium. 8 t; j, G% k7 f9 U& Q0 BBE OBSOLETE. See Brilliant Eyes. 6 [' h. I: E5 {9 ]7 sMDA GLOSSARY, VER. 4.0 B

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32$ l. k% w+ j$ g1 S0 e: p Beam Control Technologies associated with controlling the physical properties of high-energy ; ?, O* _% X: ^4 Ibeams and steering the energy transmitted by those beams to the target vehicle; + s# X8 `! Z9 B5 X" Balso, the management of signal or image beams within a complex sensor system. / k7 H5 X4 M! Z* {Beam Width The angle between the directions, on either side of the axis, at which the # l D! o; P, Uintensity of the radio frequency field drops to one-half the value it, has on the1 C, _* M$ i5 Q3 n I( e axis.3 {& N0 s8 `3 }" c( C0 O4 v BEAR Beam Experiment Aboard Rocket (NPB Technology Validation Experiment).6 c$ k# x" G2 r! e6 ^' R% K- L BEAST Battle Experiment Area Simulator Tracker.; p9 X( z& q* U( G/ b& ^) V BECO Before Engine Cutoff.# A* e) Q% m* f9 b, r7 R1 [) O; W BECS Battlefield Electronic CEOI System (See RBECS) 9 D) D3 ?/ \3 [8 q) k9 i& p4 `.& ] o3 w( m& Z; O5 M3 r Bell-Lapadula 6 Q4 L+ d2 k* aModel% }$ b$ ]) [- i+ {) ^1 w" x9 a A formal state transition model of computer security policy that describes a set of : w1 k' t6 K) I* t, W1 x2 gaccess control rules. * }1 C1 V/ ~$ n2 w" ZBELLCORE Bell Communications Research, Incorporated.6 v. l$ w7 i/ K$ B$ |! Y4 Q8 M* B BEP Brilliant Eyes Probe. 9 _* z4 ?% u4 I& F( ABES Budget Estimate Submission. $ R/ B6 _7 D; C4 W9 GBESAM OBSOLETE. Brilliant Eyes Sensor Algorithm Manager. 6 @( `5 b& o; U8 J8 I7 QBESC BM/C3 Element Support Center 8 d2 j, {% N4 |* e+ A8 K+ @9 R2 dBESim OBSOLETE. Brilliant Eyes Simulator. & T' \+ ?. Y2 P- n! ABESim/AT OBSOLETE. Brilliant Eyes Simulator Analysis Tool. - `- t! H- Z2 n, i- O+ qBESim/RT OBSOLETE. Brilliant Eyes Simulator Real-Time. ! @* O: q/ L: v( HBEST BM/C3 Element Support Task.3 S. p4 p! N2 y' I BET Best Estimate Trajectory. & }( B- G3 _" ABFAC Blue Forces Analysis Center.; ?8 m. |; D8 i; c! ?% ]: { BFTT Battle Force Tactical Training. t% X9 \7 b- p+ y- {" d0 i) w% iBG Battle Group (USN term).2 O+ j5 P y# e* G2 t9 C BGM Battle Group Manager. 2 c) v1 b2 o4 RBGSE Bus Ground Support System (USAF term).( g& B9 m: i/ T, c1 d7 b BGV Boost Glide Vehicle.3 }5 Y% s V0 a" D6 N: j BI (1) Background Investigation. (2) Briefing to Industry. 5 ?; g [: K0 q) `" q. T: bBIB Blocked Impurity Band.5 V2 i$ [: V. N. G# `. ?3 c BIC Battlefield Integration Center.$ x2 D7 J* ^. A) j MDA GLOSSARY, VER. 4.0 B+ B/ d+ i9 f2 U 33: ~+ e# o$ |! ~1 j BID Built-In Diagnostics. " a# U9 W- k! Q* P: ]3 uBIDS Biological Integrated Detection System.8 ?7 C: n+ q+ y1 } H Biennial Budget The FY86 DoD Authorization Act required the submission of two-year budgets for r P/ ]$ U' W) y8 P, n- p the Department of Defense beginning with FY88/89. The department has' m0 S, o/ K" k5 y( H# Z- [# y institutionalized a biennial cycle for the Planning, Programming, and Budget , v8 K h- L/ {& S8 cSystem (PPBS). A biennial budget, as currently structured, represents program$ t- s2 q3 g# T3 H- u9 e budget estimates for a two-year period in which fiscal year requirements remain . x, l, u& e! A& l; C. Rseparate and distinct.: d+ m& U5 ?2 K# L1 s Big Crow A suite of aircraft, helicopters, ground vans, and electronic equipment, which is$ J1 n0 G9 U' T$ I* s9 ~; B. f7 Z used to emulate an electronic warfare environment for testing, weapon systems " @- C0 G# E, X8 A$ \2 A3 Uon test ranges.5 V6 S5 K4 K) e" i: H4 U( k BIM Ballistic Intercept Missile. |, E; H" f" p9 N- EBiological ?* M" {. ], _7 a0 L, e" XWeapon( j; |6 Z9 p' }# q& N An item of material, which projects, disperses, or disseminates a biological agent 6 F4 i% \" m+ G' M% e8 ], |9 Dincluding arthropod vectors. + L2 Y: h7 [2 R$ V. a0 D- ~+ GBIOS Basic Input/Output System.* q9 q$ I' K6 T( g' Z" P BIPS Billion Instructions Per Second.# V. u, E. K# M5 U Birth-to-Death . Q% c3 {" d! S7 [. lTracking (BDT)! K, Y& G$ C+ y" o% \: a The tracking of space objects (e.g., satellites, reentry vehicles, or decoys that7 G2 y$ {' m0 m% M simulate these) from the time they are deployed from a booster or post-boost m/ r" E; O3 v2 M8 m' [1 x vehicle until they are destroyed.2 T" j; U3 P/ O5 u4 U1 { Bistatic Radar A radar system that has transmitters and receivers stationed at two 9 h& W2 R0 l7 o. y. ?- }: }geographically separate locations; a special case of multi-static radar. & y: w/ o+ h) c- y# v$ EBIT Built-in-Test: e+ k4 W! `+ S# e Bit Binary digit. & h3 j2 ^8 L% O9 G) N+ KBITE Built-in Test Equipment. 0 N& Z& E$ t! e9 \. u uBit Transfer , L4 |( ?0 q( [Rate 4 e. D/ ]6 P9 g; z! LThe number of bits transferred per unit time, usually expressed in bits per second ! s/ h8 v, l3 v(bps).0 Q7 y7 Y4 H- j Black Body An ideal body, which would absorb all (and reflect none) of the radiation falling; m) \) c1 y# D- u0 k9 U upon it.9 X; _( J: O! k* X0 a' ~; h Blackout The disabling of electronic equipment by means of nuclear explosion. The i- ]& X7 W# w( W1 pintense electromagnetic energy by a nuclear explosion obscures signals and. U# Y8 Z E5 g) m) O) f. c renders many types of radar and other types of electronic equipment useless for6 `, L2 R& W$ _, h minutes or longer. # w( X1 Y* e* T1 RBLADES BMD Long Wavelength Infrared Advanced Exo-atmospheric Sensor.6 S. m. i7 i% R: t, ? BLADT Blast, Dust, Thermal Effects Model. & k% K" J* U7 d+ Y/ L8 R- Y/ e1 WBlast Effect Destruction of or damage to structures and personnel by the force of an # _/ r3 |' l8 a, h. i8 s+ zexplosion on or above the surface of the ground. Blast effect may be contrasted( z$ F" t7 T( k. |1 s9 v% ?, m with the cratering and ground-shock effects of a projectile or charge that goes off 7 h( }3 |% |- e0 y3 Ybeneath the surface.6 V1 g. r7 k4 c# H1 _7 ? MDA GLOSSARY, VER. 4.0 B5 Y, o$ ?% P5 s' O- g1 H 34# W1 f: f/ |4 M" w& `. w Blast Wave A sharply defined wave of increased pressure rapidly propagated through a: D# v" v- s. `$ o2 d0 ?. F/ C0 u surrounding medium from a center of detonation or similar disturbance.2 t3 \, Y! E' g% Z% J BLCCE BMDO Life Cycle Cost Estimate. 0 r! x4 S4 m( ?/ W, {0 j$ o TBLK Block (system production lot)5 }3 v3 S, R4 W1 ]2 C Blk IVA Navy Standard Missile Block IV-A.! |8 b# j: b+ X* @+ X7 E5 { Block (1) A biennial increment of the Ballistic Missile Defense System that provides an / c y' k% C# p8 L, u9 f8 fintegrated set of capabilities which has been rigorously tested as part of the! i/ o- ?& Z; e b Z/ i3 p$ i BMDS Test-bed and assessed to adequately characterize its military utility. Once/ a7 o U2 S$ E5 R$ _( l/ l, t tested, elements and components are available for limited procurement,; f( H; T9 w7 D' ^/ P% V transition to production, or for emergency deployment as directed. These “offramps” may occur at any time during the Block Cycle to support timely execution ' V- b/ X3 I' W1 R) `of these transition or deployment decisions.5 X' q @' Y% a4 ]( E! z The configuration for each Block is drawn from the following sources: 6 i( s& y! ?7 X" i) H2 s5 J% m* N•The prior BMDS Block; $ M; l, y9 p: t% ~" u) F•BMDS elements, components, technologies, and concepts;( V ^' V. {4 k5 a •BMDS Battle Management, Command, Control, and Communications; x/ ]$ z: m6 ~! C5 s (BMC2/C) specifications and products;5 w% c; |" G. `! f% ~% i •Externally managed systems, elements, or technologies (e.g., DSP,2 ^& l7 Z# T E4 a* b! o GCCS, MILSTAR, etc).

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