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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& q% V7 y; y s J& [/ I AFTADS Army Field Artillery Target Data System. ; Q* K2 L- y& W7 ^1 CAFWAN Air Force WWMCCS ADP Modernization 7 Y0 Z, {4 V7 M% s- _3 {, HAFWL Air Force Weapons Laboratory (Phillips Lab).( p. l+ f: d+ A2 }9 K8 [ AGARD Advisory Group for Aerospace Research and Development./ ^* `2 u# y$ s9 Q% S AGC Automatic Gain Control.8 o, L7 y$ H5 v0 h" h AGCCS (1) Air Force Global Command and Control System (USAF term). 2 h8 R$ i6 c# P4 j% ](2) Army Global Command and Control System (US Army term). W7 \/ h5 t2 u2 X: cMDA GLOSSARY, VER. 4.0 A / n+ T1 @. c& r. i12: @: \1 n5 c% f: ]6 X0 |) ?- ]) S AGM-65 Maverick Air-to-Surface Missile. 1 p/ C0 ?0 ~7 c0 \& u8 O$ H0 R7 _( FAGMC Air Force Aerospace Guidance and Metrology Center, Newark AFB, OH.1 X8 J7 S7 H4 G AGRE Active Geophysical Rocket Experiment" b; D5 E) G7 J, G AGT Above Ground Test.; X3 A8 a2 a3 l* x1 L1 e AHIS Agile Homing Interceptor Simulator.6 J4 p6 _( s+ {3 ?! D AHSG Ad Hoc Study Group.& X. M( n/ G! k$ c- n4 u AHWG Ad Hoc Working Group : ]* h8 x7 ?( K. [. OAI (1) Artificial Intelligence. (2) Action Item. (3) Air Interdiction.: V! p/ Q) e" m, l, P e( ]0 ?( T' o AIA Air Intelligence Agency3 a: I3 n' L5 _. \ t AIAA American Institute of Aeronautics and Astronautics3 e8 [' X" A1 r3 ], W! r' ~/ i5 [$ _ AIC (1) Atlantic Intelligence Command. (2) Account Identifier Code.% R8 A4 d9 C9 M AID Agile Interceptor Development.; w; ?% l8 }$ N: i E AIDA Artificial Intelligence Discrimination Architecture (UKMOD). ; `2 v& W, F$ V, F/ W2 n( ~AIDPN Architecture Investment and Deployment Planning Notebook.% A8 [1 O! K5 t7 b' y8 V AIM Air Intercept Missile* ?3 i) C* }2 x. J2 P* V& G: t Aimpoint The specific point at which a weapon is aimed. The point may be on the earth's 7 ~0 s# c4 G" J4 q* t& l& ssurface, in the atmosphere, or in space. In some cases, the specific lethal point, S7 ]* F& R3 e* d1 } on a target to which a weapon is aimed. ) A- A* J4 R2 {( y* w# T9 X6 gAIP Advanced Interceptor Program (formerly Brilliant Pebbles).7 l8 p1 Z; v3 k1 v$ v- X Airborne4 o& f8 I0 T4 ~ Optional Adjunct 7 ^( ]" {$ ^7 t& P9 ~8 l1 S& Y; p(AOA): p3 B5 B6 H: _ A test program to place an infrared (IR) sensor in an aircraft. (Superseded by 1 d d7 C3 }" a* C4 k. X" I4 y# wAirborne Surveillance Testbed (AST).)

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12#
发表于 2008-12-25 19:57:27 |只看该作者
Airborne / R* K. t) } ~0 j' ?5 a: dSurveillance 9 a* h" e4 {0 [: E( W% I# @% x9 d0 sTestbed (AST) 6 F" }1 g+ A2 s/ ~A Boeing 767 aircraft with a large infrared sensor designed to address optical- p: ^+ i5 R" V sensor issues.4 G7 L! A7 a& ?+ o Air-breathing A flying vehicle that uses the oxygen in the atmosphere as the oxidizer in its) f& F% y% O, h5 T propulsion system. Examples are jet aircraft and cruise missiles. This category2 z$ ~, _. @8 C Z9 R6 V does not include ballistic missiles.+ \6 E/ Y$ m& u+ a- A) D& }$ } Air Defense All measures designed to nullify or reduce the effectiveness of hostile air action.1 P- X' h2 y( D3 w5 E, b2 U: z Air Defense 7 a6 F$ \; Y B8 ]+ rAction Area% b/ T; t( `8 O/ o An area and the airspace above it within which friendly aircraft or surface-to-air 6 ^# A* y2 @+ R) n7 b v8 L2 d% yweapons is normally given precedence in operations except under specific! |) V) k t- n5 E" k6 C conditions. See also air defense operations area./ T/ }( ~ V& A9 { Air Defense - P! t7 `3 x- T9 ]2 p! PArtillery! z" \' X; p) I0 _: e+ y Weapons and equipment for actively combating air targets from the ground. . c) t$ a1 l' E5 ^! K) UMDA GLOSSARY, VER. 4.0 A 2 R9 a0 }7 Q' O% c( m13 ; `( m+ y9 w0 Q# m) sAir Defense $ c: X8 Q# A( D" [6 G8 d' S" rIdentification' K8 y$ |2 e' S7 C- p: |- r1 K Zone 3 }: u; `+ k' h G% g3 Z( bAirspace of defined dimensions within which the ready identification, location,) O$ x" B0 Q. `( r/ U# S9 T. Z and control of airborne vehicles are required. Commonly referred to as ADIZ.! Q! y4 V( T9 ~. @& y: X See also air defense operations area./ S2 l% @5 u" A* Y5 g Air Defense# A5 c! c3 g5 ]( m8 b) N4 S3 c Operations Area , B& z" A/ N0 E! I9 x1 Z. IA geographic area defining the boundaries within which procedures are5 ^. _- O4 k! o1 P% e established to minimize interference between air defense and other operations.% W( ~5 Y, ~4 i- ~ May include designation of one or more of the following: Air defense action : P. {- h* t) i& E' uarea; Air defense area; Air defense identification; Firepower umbrella. * X6 P$ y/ |+ H! I/ C: z/ A+ F2 _Air Force * A, ^2 ~8 q( A* }Component : z- b3 u# [* S! f6 V& RCommand Center * m' G0 Q6 n# z9 O: ?(AFCCC) B2 @2 @( H- Y7 `- u7 [A segment of the Command and Control Element, which replicates capabilities of " a* S# U" s/ \5 M- Sthe CCC (BMD) segment and provides administrative and logistics support to Air# l; Y1 X( W! K' B* y Force Component Forces with the Strategic Defense System. The AFCCC was4 H; a' s0 d% j6 a1 Y( Y, u# C( ` eliminated from the CCE (now C2 E) architecture during the last SAS system 4 m% `' g8 q: G3 l& Farchitecture definition update. " o8 Q0 |/ r4 b. P T- yAir Force5 u, D3 E7 u9 `! [& R Ground/Global5 S: ]: f; a3 I$ Y3 o4 V8 a$ J" D3 D Weather Center# W' S" Y' f2 d# E0 r3 Y& d2 s (AFGWC)3 a W2 D6 R- y4 k8 z# p% ~. u' }" B) u AFGWC provides Air Force and Army with global information and products , L! h* g9 E( M5 ^relating to past, present, and future states of the aerospace environment. \# _$ j5 x/ S& o Weather data is provided to the Weather Support Unit (WSU) for use by the 6 O1 h, Q0 C2 ^0 ]6 Z9 KSDS. Also provides space environmental data such as sunspots,8 u4 {3 ^0 ]3 k, S6 u' G5 M T electromagnetic storms, etc. Located at Offutt AFB, NE. 6 k& O4 f% w/ d) |Air Force2 T5 N% W; s8 E6 C: n8 |+ \2 d Operational0 q# }- f7 i, P+ m/ b6 f. ~ Test and* @- L- Y: F" ` j% i Evaluation, F" V- @$ T+ G& j$ h Center (AFOTEC)% {) k5 B) k% I7 u5 j, W% z Responsible for the operational test and evaluation of systems being developed % ~# ?3 Q# {( ufor 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 n! R2 G+ Z* ~ Satellite. W8 }' h! t6 D, _: J Communications 4 K/ U/ M M/ M) p0 d" k9 q$ WSystem 0 U& J5 R; v2 b1 [% ](AFSATCOM) 9 p$ U& x& J/ L; e, B RA collection of transponders on host satellites used by U.S. Strategic Command& j+ a; B, V& a9 F3 O5 `: R4 y to pass emergency action messages (EAM) and damage assessment reports. . o8 O/ U7 c5 P7 p/ x& |# LAFSATCOM is also used to pass sensor data between sites and CMAFB. / y& M, D9 P: K' j, |Air Force ( }3 R2 f( q; b9 X$ J* RSatellite Control & f+ ]9 a/ L. c U& dNetwork - S7 y1 {6 B& X. G3 n, [(AFSCN) 5 Z- v# G) X8 Z6 d$ JA global, multi-command configuration of space vehicle command, control, and) Q' h' v: p% `% P+ d5 B communications resources operating in concert to support DoD and other' w: o; M1 d+ R8 U" U assigned space missions.( V, c! [$ T; [& _$ V# I Air Force Space: s3 @4 ~1 Z, Y2 J/ V6 `! g Command+ Z) @* }/ A! Q0 h. L0 g3 @ (AFSPC) + {2 z8 o) X2 c6 f9 `& ^ e& QA major Air Force command and the Air Force component of United States # h V6 |) U0 X, J' L: a* WSpace Command responsible for the training, equipping, manning, administering,& u S7 S5 u+ ]5 f" n$ }% N and funding of assigned systems. Located in Colorado Springs, CO. " i) }- _6 a* {) f9 o+ S2 LAir Force Space! W* |+ {6 t, ` Operations , C) u: }# h% W: v5 f# w9 V% s$ X/ b: qCenter (AFSPOC) , g! u6 q8 f: F5 H6 b8 e2 E1 {) ]An AFSPACECOM center responsible for the daily tracking of events at remote 1 b( y9 k" K2 Toperational sites. It may be updated and assigned responsibility for logistics* \2 W9 P# D: ~" d Q1 p2 l& {: O9 ^ and administrative control of assigned SDS elements. Located in Colorado / N5 b/ p/ V5 Y! b' T5 L F5 y6 i2 qSprings, CO.9 U0 c( g# \6 {6 x8 J+ ^ Air Force CRC Air Force Control and Reporting Center." ?( ~+ H+ C) Y _+ p4 M( b Air Force ; P& j5 \# s: C% sOperational Test" b* y2 p6 T1 a1 N+ b! N( H, r and Evaluation * \- [; Q3 b/ FCenter (AFOTEC): s+ V U7 s9 v0 ~ Responsible for the operational test and evaluation of systems being developed % o% Y, x8 s8 \/ E. V. v- \1 n& ofor use by the Air Force (Located at Kirtland AFB, NM). T2 ^' S" U+ v+ d Air Force Space 8 k0 r1 Z$ `4 S5 uCommand8 O% I2 [; R) P* D (AFSPC). K* r0 ^9 [% F( @: K4 \/ s+ } A major Air Force command and the Air Force component of United States * l, s9 w7 ?: b: n/ a# dSpace Command responsible for the training, equipping, manning, administering,, Y, D0 w3 \# } and 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 1 \- J' `3 Q% S& P+ O) @14+ q6 s/ U+ N, S& B$ U Air Force Space4 ~' F# { z" K* e' m" v) D Operations ' E6 N9 e2 Y9 m! Z* T9 ~6 ]Center (AFSPOC)6 x& w3 g% a; T4 M6 Z An AFSPACECOM center located in Colorado Springs, CO. & w" `% U6 g% r5 XAir Surveillance The systematic observation of airspace by electronic, visual, or other means,6 ]6 h9 |/ Q! Z1 R primarily for the purpose of identifying and determining the movements of aircraft& S) Y- _# n: d/ z8 q and missiles, friendly and enemy, in the air space under observation. ' x. l6 k% L7 ?/ F9 A5 ~9 `5 q$ j: G9 nAir-breathing A flying vehicle that uses the oxygen in the atmosphere as the oxidizer in its - E3 h, t' b" {' |1 p- P4 h+ G1 Jpropulsion system. Examples are jet aircraft and cruise missiles. This category * B( M% \0 r& V& _does not include ballistic missiles.8 T3 t4 c3 t& { J B Airborne 3 ^" I/ Z7 ~9 [: F0 E PSurveillance , }* L) F! s) F+ x) uTestbed (AST)% ?; w) B' v2 \9 ] A Boeing 767 aircraft with a large infrared sensor designed to address optical Z+ t! e+ Q# ]/ H! H2 Esensor issues. It's expected that this program will be retired in 2003 with its ( P5 v* `; Z; R' Jmissions to be taken over by HALO II and WASP. 5 J+ B6 j$ n% A% z7 D) ZAIRMS Airborne Infrared Measurement System 8 R- y0 W6 U) l; O, k, GAIRREQSUP Air Request Support (JFACC term).5 x4 g( v8 e7 e3 u3 }* E AIRS Atmospheric Infrared Sounder, e& D X& A8 ]* R7 p, y8 t Airspace Control6 m* Y7 h+ p0 ?$ m1 ]4 C in the Combat - E9 ]8 g, R8 q+ n# r0 Q" e9 ~2 fZone , f5 P- l1 }4 ]5 r+ f7 y" r, zA process used to increase combat effectiveness by promoting safe, efficient ; B3 z! v0 z4 G4 ^1 X" xand flexible use of airspace. Airspace control is provided in order to prevent , l. R; v* p7 V) @/ F) \( hfratricide, enhance air defense operations, and permit greater flexibility of & r/ E4 I* x9 O/ B# _7 C6 toperations. Airspace control does not infringe on the authority vested in! `# @/ i7 N Y& h+ w( R9 w& K9 T commanders to approve, disapprove, or deny combat operations. , {0 e# q4 F. y- DAirspace Control 0 I6 b, b9 Y* |1 V, w& zPlan 8 c% X6 k; N- t$ O# \+ xThe document approved by the joint force commander that provides specific ; g. C" m( h L+ [1 lplanning guidance and procedures for the airspace control system for the joint) m3 e3 S! }, T/ t/ \* o) m: X- ] force area of responsibility.. C g1 M) M# Q" x7 `7 m# Y AIRSUPREQ Air Support Request (JFACC term). , L& L# b& L" @# p# q$ W6 y8 Y2 _* UAIS (1) Automated Information System. (2) Architecture Integration Study. (3)- ]. m. E! n7 R Airborne Intercept System. 3 ^+ m4 @' m3 YAIST Advanced Interceptor and Systems Technology.$ F8 K$ X! T$ h2 i AIT Advanced Interceptor Technologies. ) @( ^ t5 ~& rAJ Antijam. 1 [6 D" r" X9 J, I D+ `AJPO Ada Joint Program Office. + G/ b2 R% s- j2 g9 w8 RAJTBP Augmented Joint Theater Battle Picture. 8 O5 H. J% |1 H4 |0 Z2 ~AL Acquisition Logistician. # v) y' ]) Y5 q) x; cALARM Alert, Locate, and Report Missiles.- G$ ~; W9 h1 C ALAS Advanced Liquid Axial Stage.. B- U* H" n% g& J: {9 U* D ALBCS Airborne Laser Beam Control System. # }' D" o- t2 b8 D( A6 c& V kALC Air Logistics Center (AF). $ k" U- g* h- X) }ALCC Airlift Coordination Center (JFACC term). % _1 z' j; X) \* _+ J& l, gMDA 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 2 o5 [. w, ?# h7 r/ \2 zALCE Airlift Coordination Element (JFACC term)., ~; D0 ]% b; i8 J) e ALCM Air Launched Cruise Missile.% s( X+ L" D1 F: B ALCOR ARPA/Lincoln C-band observable radar. (USAKA KREMS) 6 Q; j+ }+ y( c8 n" N3 m- ]- i' q" ^( {9 YALDT Average Logistics Delay Time. 5 u/ k: c4 I2 j( d" w& z: ]" xALE Airborne Laser Experiment. 9 u: s- q9 Q6 r* w% A( d+ f* KALERT Attack and Launch Early Reporting to Theater. : i! x% `0 |6 [. W7 ^0 ZALG Algorithm . M6 _/ V; A7 `) Z WALI (1) Alpha/LAMP Integration. (2) AEGIS Leap Intercept3 @7 r) D+ n7 _1 f6 r3 w. R8 q+ g ALIRT Advanced Large-area Infrared Transducer5 c# c2 p# c3 ]- ?7 k1 o ALL Airborne Laser Laboratory. / v! w. x5 U9 |5 \9 L# aAllocated+ x& d3 M: x3 ~ Availability 5 z9 u! C" k6 ]Requirement F( y1 \; G5 y, _" V$ T The requirement probability that an element is available to perform its function as7 n+ M. d0 m2 i3 ~5 W6 {% H allocated by the SDS." ?8 |) J( |9 ^9 m Allocation (1) An authorization by a designated official of a DoD component making funds 5 J# H( y; U- H8 Q$ l: G2 gavailable within a prescribed amount to an operating agency for the purpose of$ F: L% @1 z. y. w. q making allotments (i.e., the first subdivision of an apportionment). (2) The ; j- @$ t* A8 R+ Y4 A! S5 Mtranslation of the apportionment into total numbers of sorties by aircraft type$ k' ^3 H" G# Y7 V available for each operation/task.; I) T+ b9 h: [& Y) r5 F Allotment The temporary change of assignment of tactical air forces between subordinate+ v, R# [3 s ]/ p$ |; X+ Z commands. The authority to allot is vested in the commander having operational1 p6 ~; r* N" t- I command. 9 p! b' b* n2 {ALO Alpha Laser Optimization., G+ S& W7 J" M% X& F" H ALOD Adaptive Locally Optimum Detector (Navy term).( [& V! w: [, o' _ Alpha Particle A particle emitted spontaneously from the nuclei of some radioactive elements. 5 G5 ]! ]/ [- o. w, t9 eIt is identical to a helium nucleus, having a mass of four units and a charge of4 [1 j/ m% P, Q- V- E9 F& q% f positive two. * z. e" _$ @. Z5 c4 ZALPS Accidental Launch Protection System.% K) `7 k9 Y. N4 F ALS Advanced Launch System." m3 i: y+ t" n. B ALSP Aggregate Level Simulation Protocol. + p3 i ?; j3 G# j3 s, dALT Airborne Laser Technology.5 k+ ^3 n! w% Q! n1 J! `9 W' | ALTAIR UHF test radar at USAKA.9 X. c; u1 f6 l+ g) ^% g AltAir Project name for the feasibility demonstration of a short range, air drop, ballistic, t5 X" s* j( O missile target, dropped from a C-130 cargo aircraft. % R/ @" C9 p- G5 \! IMDA GLOSSARY, VER. 4.0 A4 n K/ s" w1 j' P5 j/ P+ ~ 16; N0 J9 v2 g3 a6 _/ A Alternate& T, |, x+ }& V/ C. _ National Military ) ^7 s- x1 N1 @ _) B/ ^0 bCommand Center . P" g; A) H! p. E(ANMCC)) b5 ?* F: G" r" X$ N: ?( Q An element of the National Military Command System (NMCS), which serves as" @' T& U9 O8 n1 Q an alternate to the NMCC. Located at Ft. Ritchie, MD. 4 d& P7 Q$ `5 k/ v/ J" ~9 b1 XAlternate+ R+ t9 l+ p) C: F+ X( j- B Processing and , u9 b* c3 ]& s+ L+ _ yCorrelation$ ?! A/ ?& Q9 O* M. | Center (APCC)) P- |4 Q3 `: `4 K% g3 M NORAD capability in USSTRATCOM Command Post that receives, processes,2 L6 Q, y f$ _; ~& i and analyzes TW/AA information. 1 U0 m( l# o% Q5 `# y) l6 VAlternate Space; H R& B g5 P- Q Defense4 V& F. g9 f' m# Z7 H Operations, h# n7 K6 e" m0 y# F3 ?) ^. s' } Center$ Y E+ ]& Q8 Z; p; r. }* g! g (ASPADOC)4 F& j% ~1 }- Q The backup to the SPADOC, maintained by the Naval Space Command, at 3 e% g2 m! n1 R( k0 WDahlgren, VA, collocated with the NAVSPOC and NAVSPASUR.5 o" J: R9 W) ^( V+ t ALU Arithmetic Logic Unit. & `- [, j; d6 T2 x: I+ K. w- [AM Amplitude Modulation. 4 j/ }3 D9 E0 {- ]3 c2 l) DAMC (1) Air Mobility Command, Scott AFB, IL. (2) Army Materiel Command. (3) 2 D% G2 y! z8 p: {# U/ t. A3 FMidpoint Compromise Search Area. (4) Acquisition Method Code. (5) . g- U: `+ V' E" ?7 zAdvisory Management Committee.1 s& {, i! O1 W8 n( j$ }; [- m AMCOM Army Aviation and Missile Command (Oct. 1996). 4 h8 @- Y! l7 @3 H! g fAMD Air and Missile Defense % l3 d. z+ P" J% WAMDF Army Master Data File ' G7 V- _3 T5 Y7 L0 Z6 WAMDS Active Missile Defense System.! a3 F# ]1 b1 ?/ {: E" n AMDTF Air and Missile Defense Task Force (US Army term) 9 j2 m: @4 P) T9 r }* vAMEMB American Embassy.2 h8 |1 \+ U# H AMFB Acquisition Management Functional Board. $ c7 t/ \5 {* c* w4 ?AMG Antenna mast group., g0 r T2 N& H1 b F AMOR Army Missile Optical Range. 4 |, f* k5 g! z0 o# W+ \AMOS Air Force Maui Optical Station. ; x. u# `# j% A: h1 {1 }) j0 [9 w. Jamp ampere! T/ i) k/ G. t5 s2 n' g1 A 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.8 T0 w; V. w3 D4 s' T- ^7 t AMS Aerodynamic Maneuvering System9 H2 d H2 G; q AMSAA Army Materiel Systems Analysis Agency. . _% ?! ]4 D9 HAMSDL Acquisition Management System Data Requirements Control List.4 J. A) A6 F# C! y1 v! G: u AMT ATCS Mobile Terminal.! r. F0 X5 W% w- E9 N# D MDA GLOSSARY, VER. 4.0 A * L! r1 {: E- w6 @17 4 d: N+ Y' A% U4 q/ sAMTB Attack Management Test Bed 4 h; C4 D ~4 u' H2 CAMTL Army Materials Technology Laboratory./ S% Y' X [1 C; `. |5 H0 f; O7 m5 ^ A/N Army/Navy , U C- b \8 Z. GAN/TPS-59 USMC Firefinder radar. $ v* P ?1 c, cANALYZE Static Code Analyzer. - z% ]- M0 }. w4 Y1 }5 j1 p$ RANIK E1 Canadian telecommunications satellite’s name.* F0 q4 h' ?' Y: Z ANL Argonne National Laboratory. J4 a, A% ~6 R9 H3 U$ \( F. d ANMCC Alternate National Military Command Center.9 @0 n9 H- m/ O% C ANMD Army National Missile Defense.1 J5 m3 d4 P( } ANN Artificial Neural Networks.: V3 F5 V1 ?! l' w1 u3 d8 ? ANSI American National Standards Institute.0 |- C6 [. B. ~$ T4 F! E& x Antenna Area The ratio of the power available at the terminals of an antenna to the incident 8 h$ K9 i( W/ ]) B( t7 Mpower density of a plane wave from the direction polarized.+ k( m- Y7 |' ]$ ~/ E Antiair Warfare Action required to destroy or reduce to an acceptable level the enemy air and! g* g& k; M6 B missile threat. It includes such measures as the use of interceptors, bombers,1 N& f6 F/ j6 X- J' v% Z antiaircraft guns, surface-to-air and air-to-air missiles, electronic ) y1 O/ _- ]# Mcountermeasures, and destruction of the air or missile threat both before and " z( e8 p$ W, Q! X9 Z8 pafter it is launched. Other measures taken to minimize the effects of hostile air F3 j/ x% |5 `( G& g1 Naction are cover, concealment, dispersion, deception, and mobility (Navy/USMC).) u9 a: W: _7 ]8 E Anti-Ballistic9 H" v& M8 ~; N! h* p Missile (ABM) 6 i x, _4 ^ e* O8 H6 DThe term used for Ballistic Missile Defense (BMD) weapons developed to negate % @. P7 ]1 _4 @: n. F2 }, r2 L8 R+ Wthe ballistic missile threat in the late 60s and early 70s.) S- X+ n# P+ ]) D: p. S3 Z Anti-Ballistic! ?# _% }% L9 c! l% P7 \ Missile System' ?5 s: a o2 w1 q$ C( H4 i A system designed to counter strategic ballistic missiles or their elements in flight.9 O0 L6 w; S' W+ s7 D/ Q' N8 ~( o/ Z Anti-Radiation0 D$ B) ]/ s1 a/ C Missile (ARM)" ~: c% d/ N8 L7 }) O' Z4 m& ] A missile that homes passively on a radiation source. 0 M0 ~5 z: H5 z- t3 L9 T, eAntisatellite: h& }" j6 S6 x" ~" v Weapon (ASAT) " ? S& |% ^! ~6 a; G8 eA weapon designed to destroy satellites in space. The weapon may be 5 _. u% O4 A$ q# o! W/ U' \9 Alaunched from the ground, from an aircraft, or be based in space. Either a 4 c* W' o0 Q+ ynuclear or conventional explosion may destroy the target, by collision at high ( Y2 |7 c! c+ ]- espeed, or by a directed energy beam.$ U% a4 ^. @) x) X( a5 y- o Anti-Simulation The process of introducing random variations to the signature characteristics of' e9 R& @. ?4 F7 E/ x: O5 h. o an object in order to cause misidentification of the object by the sensors. The 0 t& E) H9 r/ s6 Tdisguising of an RV to resemble a non-threatening object such as a piece of , @4 j9 q/ Z4 ?debris, a balloon, or a decoy. 4 V% J: X! R( `Ao Operational Availability ' t1 Q/ v d: c. o+ {$ jAO (1) Associated Object. (2) Action Officer. (3) Area of Operations (4) Acousto-- N4 X# ]6 b6 F) k g Optical. (5) Attack Operations. 1 C8 b2 c" b! t3 W. m. }' v' VAOA OBSOLETE. Airborne Optical Adjunct (now called AST).) X" y+ \1 n$ t! n3 j MDA GLOSSARY, VER. 4.0 A, q: F( g1 w/ w0 Y* U8 j# [ 18 9 Y5 S# R. _+ QAOC Air Operations Center.# b9 M$ r9 @8 B* @# |3 D* q AOCC Air Operations Control Center. # E$ J1 o# r" a6 p# fAOEC Aero-Optic Evaluation Center, Buffalo, NY. ) o5 Z+ g! A# x' j2 A7 }; GAOI Active Optical Imager. d7 r# y5 l4 o1 I2 ?. ^ AOP Airborne Optics Platform. * j8 f9 C& F: q/ U- ~( |AOR Area of Responsibility. 4 p X3 Y7 Y; K3 f7 e$ @3 MAOS OBSOLETE. Airborne Optical Sensor. . f9 Y. U& u, n8 f$ G1 m( YAOSP Advanced On-Board Signal Processor. 4 I" B4 `% R" z% j( V9 A6 X9 c) KAOTF Acousto-Optic Tunable Filter. [0 ?1 D* O( e$ J' V* wAP Acquisition Plan. 9 B# b; e4 s, }# KAPB Acquisition Program Baseline. + b% D. U3 w+ J, |) jAPBI Advanced Planning Briefing to Industry (MDA)., o0 a9 G5 p9 t3 T APCC Alternate Processing and Correlation Center. 5 {! C6 d% W: @APDP Acquisition Professional Development Program.+ q3 {) w' n' [1 j T! {/ L" e/ r APEX Active Plasma Experiment1 u9 W3 A6 I5 U# `* V API Ascent-Phase Intercept.' y) r+ P3 ^$ C0 J6 ?3 [ APIPT Acquisition Planning IPT (PAC-3 term). $ w+ c( Y6 _+ IAPL Applied Physics Laboratory, Johns Hopkins University, Baltimore, MD.' y4 n$ y1 |4 q: g: m9 @! c APLE Average Power Laser Experiment.0 K4 ^) q/ y, D3 q( G6 J APM Advanced Penetration Model.$ W3 y% N7 h8 v8 K APMA Acquisition Program Management Agreement.7 ~( c; H% T9 H& d& E+ U1 a0 T APO (1) Apache Point Observatory. (2) Arrow Project Office.$ q* Q$ i# q. V h2 g APOD Aerial Point of Debarkation.3 D& f, F2 i; ? p Application (1) (Software) It refers to a process; usually implemented as a software7 D" `/ Y7 |0 m9 H8 m+ E routine, at the highest level (Level 7) of the ISO open system7 d \1 K6 S7 h& _& {% \' z architecture. (2) (SDS) It refers to such processes as the Battle$ k! }' ~9 |. N; S# K* s, K Management, Navigation, Network Control, and other high level functions7 M4 s. \- i# E$ s) ~ which may originate or receive messages over the SDS Communication : E9 j$ h8 R" i5 z0 }) y# m8 O: {network, via underlying lower-level protocols. (3) Software designed to ) G1 F3 [$ C7 b, ?fulfill specific needs of a user. (4) (Acquisition) The process of selecting * F5 C O' g. ~requirements that are pertinent and cost effective for the particular $ }6 f l1 `0 t* [# C3 n4 ^materiel acquisition and contractually invoking them at the most- y$ m8 ]: i% A1 H+ ] advantageous times in the acquisition cycle. ; Y+ ?8 L' T. U g( X* D: F' LMDA GLOSSARY, VER. 4.0 A 4 ]; p1 L! k/ v' ^19 % q7 R& ]- T6 e7 `" tApportionment (1) A determination made by the Office of Management and Budget which 9 W5 }* I% A- _6 @/ Jlimits the amount of obligations or expenditures that may be incurred: D8 r0 {1 m1 C5 o5 w during a specified time period. An apportionment may limit all obligations0 V M- A( i8 R2 _# w+ N9 L0 S7 v8 q8 \ to be incurred during the specified period or it may limit obligation to be) F5 S# l: X' n incurred for a specific activity, function, project, object, or a combination F8 D$ O+ P# [) A$ J& X) pthereof. The third of four phases of the DoD resource allocation process.# b- B7 G6 k; g& X8 D$ b2 ] (2) The determination and assignment of the total expected effort by7 g$ L& a; p. h, J7 f percentage and/or by priority that should be devoted to the various air) {# T2 ^& c. L8 F3 h operations and/or geographic areas for a given period of time. (3) In the- K. a& R/ R2 J5 { general sense, distribution for planning of limited resources among ) g6 S( K( }$ s6 N8 h6 \competing requirements. Specific apportionments (e.g. air sorties and1 Y5 h3 S0 }" \8 j forces for planning) are described as apportionment of air sorties and / U' d+ C3 F# Oforces for planning, etc. N: [& a! d6 }+ y" F, Y0 F) BAppropriation An authorization by an act of Congress that permits Federal agencies to incur 8 S% i: t" t3 f9 [/ m7 vobligations and make payments from the Treasury. An appropriation usually# s. \8 p2 E0 @ i ?0 n follows an enactment of authorizing legislation. An appropriation act is the most u R9 f2 \# l3 }( ?! C0 O* s common means of providing budget authority. Appropriations do not represent4 T, r7 i. Y- @; p" [+ @ cash actually set aside in the Treasury; they represent limitations of amounts, 8 h! [ e& l1 Qwhich agencies may obligate during a specified time period. See Authorization. * {) v; T' R2 e+ W- jApproved4 E7 ^* u" M: W% { Program2 U# q ]1 n5 v n# \, f The technical and operational, schedule, and quantity requirements reflected in 4 }# I, s; q5 h( X+ u. ]the latest approved USD (A) ADM, or other document reflecting a more current 4 g5 k8 w% X" ^6 ^decision of the USD (A) or other approval authority, such as the President’s 8 K* }6 S3 [( VBudget, the FYDP, and supporting documentation. 2 N5 d8 T" ~& U9 P, BAPPS Automated POM Preparation Instruction.4 z9 J# ?9 p' V4 [, ]+ s: q APS (1) Axial Propulsion System. (2) Automatic Phasing System.+ q9 v& Q R9 w APT Acquisition, Pointing, and Tracking." e, `$ R p: V' a2 y" v APU Auxiliary Power Unit.1 A% l' \6 {' i' y/ p AR Army, Y6 c& d7 M8 W8 b9 v ARB Accreditation Review Board. + ^# ?$ H; G) xARC (1) Advanced Research Center, US Army, Huntsville, AL. : Q& g3 d% [- G$ e H3 o ] R/ g(2) Atlantic Research Corporation.' f- Q9 T: j% f, d ARC/SC Advanced Research Center/Simulation Center. ' S/ K: |, Z" K0 T% g' g2 a6 J, yARCCC Army Component Command Center./ ^8 ]# A! s; I4 P! C3 o% u ARCT Advanced Radar Component Technology.5 s3 c$ f7 h$ x0 I7 s+ P" V ARFOR Army Forces.6 m; o8 T- i/ d$ V ARGUS Advanced Real-time Gaming Universal Simulation.2 j1 x( z s: V; I Architectural n$ `4 ^ M. @' B% a$ a3 E Design % z" U4 b" d9 b7 AThe process of defining a collection of hardware and software components and6 F) \6 P' V' F& c their interfaces to establish the framework for the development of a computer1 B# b/ K4 E# j9 @& ?) T system.2 k- F' i' A8 N1 ? MDA GLOSSARY, VER. 4.0 A 2 W; x+ n$ K/ |0 X, q w# R20# k1 n& t3 z6 M' R- `. I) k Architecture& B4 M2 X5 C; v9 S- G7 } Integration3 e8 D: R9 h8 N. o' n8 T" q Study (AIS) 9 B% c9 w: C" \A study to determine the performance of alternative architectures and element. A# I7 L& d1 z* u# g designs that satisfy BMD System mission requirements, and to evaluate the/ ]# }0 ?& e. O6 X, F; l effect of changing threats and advances in technology on the systems, ; G# E. k* d" z8 ~5 J- ?! r% v( zsubsystems, and components making up existing and proposed architectures.9 S# g: A b) A, E5 U ARDSOC Army Defense System Operations Center. d8 M9 m) y. j/ ]8 r5 w& B# G& o, gARE Aerothermal Reentry Experiment. 3 q) i7 q. a! |# I8 UArea Air Defense 5 @2 c* A- X- S1 \) ?, cCommander& B4 R$ F8 G& H$ e (AADC) 5 I$ L+ e2 D6 _+ L6 gThe person given overall responsibility for air defense within an overseas unified * h( _+ w- N2 X& @+ p2 Ocommand, subordinate unified command, or a joint task force. Normally, this will 4 }% c: S) Z U4 A/ P( R' ~be the Air Force component commander. & k, v# b/ N" o+ c- C# eArea Defense Defense of a broad geographical area that contains both military and civilian) B- R! ]7 W+ s- U7 B assets (i.e., depots, towns/cities). (USSPACECOM)! O4 N+ \ }" c7 N G Area of Influence A geographical area wherein a commander is directly capable of influencing 1 g2 I* i( v. d* I# r/ e' ooperations by maneuver or fire support systems normally under his command or 4 `( I8 J+ \* M5 U3 d/ ~& Kcontrol.% W+ `. r3 p- g Area of Interest: ]$ L6 _' ^, A* V (AOI)8 Z" P. i% Y1 z. I* }% g" t The area of influence and surrounding areas that is of concern to the; K7 O: b* V0 i commander for the objective of current and planned operations. This may + R5 O' I8 \2 `: Sinclude areas occupied by enemy forces.1 w6 P% r- A5 N' J* G5 m Area of; o. o: W, C( W. L: d, { Operations 5 K; u8 H7 o+ u- MThat portion of an area of war necessary for military operations and for the' {( o* Q6 l% H0 X$ W administration of such operations. % \( f$ a- m/ {. ^% H! K1 MArgus An airborne optical platform operated by the Air Force’s Phillips Laboratory.6 b2 D7 J) Z, D& n2 Y3 O) N Argus is sometimes used by MDA to collect flight test signatures,$ P) H& B7 Q, f' u( c8 L- H1 ?* I phenomenology, and intercept data.0 J/ j9 p! R9 [- g2 V5 p+ S ARGUS Advanced Real-time Gaming Universal Simulation.0 ]( c8 R8 Q9 X4 m( x ARH Anti-Radiation Homing. 7 r/ z+ ^& g/ H- ~9 h, oARI Army Research Institute

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ARIES Active Radio Interferometer for Explosion Surveillance.: D6 B3 r9 \ |* u# `7 @ ARL Airborne Reconnaissance-Low (USA term) [circa 1996 = Reconnaissance . o: |* @; J0 _equipment in Dash-7 airplane]. 8 Z) v# [; z* z* o e- J5 ]/ tARM Anti-Radiation Missile.3 v! I; D3 ?" [ Arms Export ! u* s4 e8 s/ x1 @8 L) y& qControl Board3 D1 r5 G2 ?9 w0 e (AECB) - m$ q0 [% N+ f. BAn interagency board, chaired by the Under Secretary of State for Security ' W$ G6 Z4 \1 |. Y+ eAssistance, Science, and Technology, that serves to advise the Secretary of # J2 D0 H( Z- q& LState on matters relating to security assistance program levels and arms transfer ( f; k% r7 z: H/ d! m7 bpolicies.' A1 g( u% m, h: ] Army Brigade ' K/ K5 n% f# |6 M+ DCenter (ARBC) 9 n; S3 E" f9 Y6 j' H( ^The Army center between the ARSPOC and the ARROC with C2 responsibilities) ^( n) a' _7 V( W( \ for BMD. / r. ~3 u. h4 U* p7 WArmy Component 3 _( c0 j9 Q3 j3 Z2 ~9 K% H, wCommand Center; g( ? \* `$ [' G (ARCCC)( U$ a% A: x3 l A segment of the Command and Control Element, which replicates capabilities of ; ]& m% ] D$ S/ w. u! Lthe CCC (BMD) segment and provides administrative and logistics support to3 w& O: D \$ N6 { Army Component Forces with the Strategic Defense System. The ARCCC was ' c1 q# ^. C5 feliminated from the CCE (now C2 E) architecture during the last SAS system/ Q# n6 n, O( H- Y architecture definition update.- Y* [$ `/ v( M' D9 d MDA GLOSSARY, VER. 4.0 A 4 @/ | X# _5 s, D21 , W+ c a# b+ r+ @# r* ~Army Materiel & T+ o$ }$ ~$ Y( [$ i2 H# @9 MCommand (AMC) 8 R5 }4 @1 U8 P6 k; WPerforms the assigned materiel functions of the Department of the Army, 9 O' D6 T+ I/ Zincluding research and development; product improvement; human factors - ^! i$ X: A4 j# S9 I/ qengineering; test and evaluation; procurement and production; new equipment5 I; m* Q0 f1 X/ J training; scientific and technical intelligence production; international logistics! {/ b! I9 [4 | programs; and storage, distribution, maintenance, demilitarization, and disposal1 g+ N* G3 @+ R7 |" M! I: x for the continental United States wholesale supply and maintenance systems as& G& l# j) d: ^ well as for overseas systems. Located in Alexandria, VA and moving to Fort0 ~. P7 y; c- ]8 V5 z Belvoir, VA in 2003.0 `" {9 x. i, ~1 [$ @6 Y9 b Army Space7 Q8 n9 w. K- m Operations * @6 G4 F" a2 d: ~! L5 F, ACenter (ARSPOC)' f7 t, _- ^4 @. G/ Y; ` The Army Space Command Center responsible for logistically/ administratively : W7 J( i W7 v# mcontrolling assigned SDS elements and which shall also include the capability to$ P) w. r$ F0 Z4 Z3 h( w assure the BMD mission is carried out should the USCINCSPACE CCC be lost.. D F$ H; N* c5 ? ARNG Army National Guard.6 b& p( X+ f; [6 r AROS Airborne Radar Optical System.% k* P7 a6 w" X ARP Address Resolution Protocol 6 V/ Q1 }9 `# E1 ~4 dARPA Advanced Research Projects Agency. (Formerly known as Defense Advanced' J1 E5 E% X% ?! t% m/ ~& t0 ` Research Projects Agency (DARPA).% ]3 x2 W& G, I; _ |- D ARPANET ARPA Network.1 q0 ~* X/ J" z6 I ARRC Allied Command Europe Rapid Reaction Corps.# u) f7 { [9 D2 l, u ARROC Army Regional Operations Center.1 I4 N9 ^# s1 n' l0 i Arrow A technology demonstration program started in 1988 and designed to meet+ k. p- i- G7 s( a j- T* A Israeli architecture requirements for area defense of population centers against1 Y. ~) h$ o( W7 a# ?( ] TBMs. ( k/ ^+ p F1 x8 e# k* t! g3 u! F! qARS (1) Airborne Remote Sensing. (2) Action Request System. ! Z# }5 F" K: p2 o& e+ QARSCS Automated Rear Services Control System. * }5 I' j: |- t' |* k% E1 }ARSPACE U.S. Army Space Command. % ?2 x4 N9 c* B! g% e' z9 kARSPOC Army Space Operations Center. , w8 i: b& ] @0 `; Z( yARU Alignment Reference Unit (PAC-3). # m5 R" z5 I9 h0 c0 `) `4 wASA Assistant Secretary of the Army. @# L( C8 X2 Y+ T* O! k- @3 y ASAF Assistant Secretary of the Air Force. * v4 G! f' g1 B ^9 EASAF (A) Assistant Secretary of the Air Force (Acquisition). 7 `7 M# B4 h: o2 C% d7 Z! b1 UASARC Army Systems Acquisition Review Council.7 J) t3 a1 _6 y ASARS Advanced Synthetic Aperture Radar System.1 @3 e, x' B [, X6 J& k ASAS (1) All Source Analysis System. (2) Advanced Solid Axial Stage./ M {2 c4 l8 b2 h( j: K! X ~ ASAT Antisatellite Weapon.; Y2 c, ^5 ^+ R ASB Army Science Board.: r: N! T4 `; Q. v/ ^; c' Y5 ] MDA GLOSSARY, VER. 4.0 A" U4 R i% A# } q 22 + H) w) ^. n; k8 A# cASBM Air-to-Surface Ballistic Missile.# r1 j, g3 n% W% @: Q ASC (1) Army Space Command (See also USARSPACECOM, ARSPACECOM). 1 D; |$ M: k( Z( e8 O4 G# I3 K(2) Aeronautical Systems Center, Wright Patterson AFB, OH.! n& B0 {% Y/ z: ]/ L ASCC Air Standardization Coordination Committee. * Q& b0 V& A6 P: l# pASCII American Standard Code for Information Interchange.; z( h) g3 J1 X7 [0 ~+ s ASCM Advance Spaceborne Computer Module) ~7 t# F' u$ `% v0 Y c ASCO Advanced Systems Concept Office 9 k+ [9 ]8 o) b' i ?" NASCON Associate Contractor1 s; q, |1 R6 W ASD (1) OBSOLETE Aeronautical Systems Division (AF). See Aeronautical: w0 k: L" G& E6 i1 M% l Systems Center (ASC). (2) Assistant Secretary of Defense. - O6 g0 L5 s! x. ]' v& M, L: RASDC Alternated Space Defense Center 6 m" Y' \. \6 P- IASDP Advanced Sensor Demonstration Program. % M/ j3 C- D& u4 MASEAN Association of Southeast Asian Nations, L9 p& F/ e& y/ K0 z- ] ASEDP Army Space Exploitation Demonstration Program. ; Y) j: N- Q& [5 FASIC Application Specific Integrated Circuit. - @4 {* F# w b( R' YASIOE Associated Support Items of Equipment (USA term).' V. \, ~; \9 v( H& w& C ASL Authorized Stockage List (USA term). # T# U- i3 P% P, qASM (1) Anti-Simulation. (2) Anti-ship Missile. (3) Air-to-Surface Missile. ' t/ J" r+ _# y3 WASMD Anti-ship Missile Defense.# |* {; l* Y# T( F* c( R ASMDC Army Space and Missile Defense Command, Huntsville, AL (1998).6 I7 M |; A D7 I ASMP French Air Surface Missile# m! D$ F& G" T* ~4 ` ASN Assistant Secretary of the Navy.* s' N1 u* u, s$ S, N& u% H ASN (RD&A) Assistant Secretary of the Navy (Research, Development & Acquisition). 2 A# L9 d& b3 r. b) RASN (SB&L) Assistant Secretary of the Navy (Shipbuilding and Logistics).7 c _5 m+ J ]. \- G ASOC Air Support Operations Center.( y9 z9 V. j' |& S ASP (1) Airborne Surveillance Platform. (2) Advanced Sensor Program. (3) ; B7 h3 K1 ]+ N$ {: bAdvanced Sensor Platform. (4) Annual Service Practice.* [& O) S# }! M9 ~ ASPADOC The backup to the SPADOC, maintained by the Naval Space Command, at/ g+ `7 M O; r* y7 p+ M, R Dahlgren, VA, collocated with the NAVSPOC and NAVSPASUR.# }% O [+ n! k) D5 e& P ASPIRIS Advanced Signal Processing for IR Sensors.$ L7 `% r( S. v, l% r0 X ASPJ Airborne Self Protection Jammer) x9 D5 I+ w* v- A7 j5 G MDA GLOSSARY, VER. 4.0 A 4 C; F$ i& m% E" f) i23 4 d4 S I' f5 ~+ J7 Y2 BASPO Army Space Program Office.$ y) Y, }2 O7 K9 u% M ASR Acquisition Strategy Report.: d: F( `7 h5 ?0 t S+ C8 ]2 t ASROC Antisubmarine Rocket.3 N+ H \9 ]& u ASSERT Augmentation Awards for Science and Engineering Research Training (DoD 4 e' \7 i/ l# e( P/ V: r& q7 kterm). ( B/ \! U. F" s9 e% \( I* dAssessment (1) Appraisal of the worth of an intelligence activity, source information, or( j+ q( y/ F5 I1 \% H9 \4 ]7 ? product in terms of its contribution to a specific goal, or the credibility, 1 K- e$ N5 Y5 S7 | Hreliability, pertinence, accuracy, or usefulness of information in terms of 3 `, C9 O! ~4 O$ gan intelligence need. When used in context with evaluation,. L) p( f* Y$ [ assessment implies a weighing against resource allocation, expenditure ( S8 f' P5 Z) I+ d4 uor risk. (2) An independent evaluation of a model or simulation by an; ^- Y+ y/ T/ |0 f MDA-sponsored Confidence Assessment Team for a specified purpose.7 b) U9 [$ x. J/ l ASSIST Automated Systems Security Incident Support Term (DISA term). ! ~# V* }, p$ qAssociated " I0 y( \9 z# Y* O ?) R- R- i! dObject' o. L" H: n* v+ L8 t, a% A6 | Object that remains near a deployed reentry vehicle, decoy or chaff puff.9 x, D7 b% M0 a, O8 P+ I Assume Course 3 J; X+ s( p& m7 j$ \Orientation, H1 V5 t3 g% g1 ~8 V# L Make course attitude adjustments to the weapon platform orientation prior to0 E5 `+ N- q/ R) E: r6 G8 {0 g, r engagement. 1 V L# S9 \- \1 K! K/ h( r3 p1 OAssured Defense Strategies and tactics that result in (specified) a high probability of kill against+ j+ D5 |% C* R2 u1 ^, o designated targets, regardless of the interceptors required. (USSPACECOM) 2 o, D: {1 t3 g6 I7 X- X* N, VAssured Kill This option requires defense segments to employ tactics, which produce the $ ^/ S( s$ s7 I$ Y1 U: p* c, ]8 @highest probability of kill consistent with the available number of defensive% s# J, _' Z8 m/ \/ y) H resources (interceptors).! L$ l. }7 V) D9 d B AST (1) See Airborne Surveillance Testbed. (2) Advanced Sensor Technology.' e' V. B! V. P& K ASTMP Army Science and Technology Master Plan; n3 q7 p' y& m! d' m: q+ D ASTP Advanced Sensor Technology Program: y8 i7 O9 q; G, [* t4 @' `* \ ASWG Architecture Systems Working Group. , v- q) y9 c8 u# G& d: Q5 XAT Advanced Technology o; N7 F! ~9 y/ b( mATA (1) Advanced Test Accelerator. (2) Avionics Test Article.8 p v: o/ w N5 w% S- E8 f ATACC (1) Advanced Tactical Command Central (USMC term). (2) Advanced Theater Air$ q7 y8 t9 w( J5 p Command Center$ r1 _+ Z7 ?& r6 z ATACM Army Tactical Missile 5 i. X, u+ G3 E! T' @$ w5 m( dATACMS Army Tactical Missile System. 4 e* q3 x# D# p, H2 DATAF Allied Tactical Air Force (NATO).1 L5 V7 K: s, o8 Y- D5 v ATB (1) Allied Test Bed. (2) Analytical Tool Box. & i3 O; c/ a/ c( _9 x0 \ATBM (1) Anti-Tactical Ballistic Missile. (2) Anti- Theater Ballistic Missile 0 i( A' C R: B- S I! ~, B8 ^MDA GLOSSARY, VER. 4.0 A $ k( B7 G$ Q; [& M/ C24 ( n7 r2 r( y S b0 y A7 w+ ?3 RATC Automated Technical Catalog" @/ k( V) Q2 ]- B3 X ATCCS Army Tactical Command and Control System! m' h9 @: C1 _4 W7 ?4 ~ r9 D6 n2 [ ATCOM Army Aviation and Troop Command (pre-Oct 96) (See AMCOM) 9 h7 O$ W& G0 QATD Advanced Technology Demonstration.$ n d! P2 M! a, o3 R! b ATDL Army Tactical Data Link. / @& j& l3 C2 t9 y- ^7 nATDM Adaptive Time Division Multiplexer. : c4 W0 E( O' l" t" }ATDS Airborne Tactical Data System.7 a% a3 h9 n* h6 H5 U" R ATE Automatic Test Equipment.+ r* |5 O, ]& v ATH Above the Horizon+ U* f% q) n3 r L( F7 e ATHS Airborne Target Handover System.4 u! ], y7 `& r; u! S ATI Advanced Technology Interceptor / L; J! [' e, } s" |, K8 a5 ]ATIM Advanced Technology Insertion Module ! `4 n; G* r' ~+ ^ATIS Alliance for Telecommunications Industry Solutions / ^2 D* ]% T4 I) `ATM Anti-Tactical Missile. p$ c% D' N2 `: V) {! p ATMD Army Theater Missile Defense., I4 ~; f' i7 E ATMDF Air and Theater Missile Defense Force (US Army term).- w7 P# u# f* C" Y, Z ATMDPO Army Theater Missile Defense Program Office.' [" [* L' g# q" @0 [ ATO Air Tasking Order.2 b# F$ F$ V0 [ m ATOC Air Tactical Operations Center. 9 B: o! |' |3 `4 kATODB Air Tasking Order Database.+ w$ X+ E) n; R# x2 E ATP (1) Acquisition, Tracking, and Pointing. (2) Authority To Proceed. (3) Allied & m& b6 J, S& P5 ITactical Publication. (4) Acceptance Test Procedures. (5) Acceptance0 s% j5 H% s& n4 J* V: H Test Program. (6) Advanced Technology Program (Department of, c( d0 e/ ~. b1 I. U# Z' t4 w8 q Commerce term). (7) Authority to Process.5 M7 N) W; E# @$ B ATP&FC Acquisition, Tracking, Pointing, and Fire Control. D8 {# O% _# c0 E ATR Autonomous/Automated Target Recognition. ' s2 W2 `$ D* T6 c/ s) dATRJ Advanced Threat Radar Jammer.+ ?: G: Z$ Z% `$ ? ATSIM Acquisition and Track Simulation. 2 ~5 I' |% q& m! _" g9 U. h- EAttack and , ?! v1 U& R: rLaunch Early 6 B" ^6 p$ g: M# OReporting to / c5 ~1 y% ~6 q/ O6 ^# c, x9 lTheater (ALERT), {; o4 S* v: h! } An upgrade to ground station mission processing which exploits inherent satellite : \- p8 r; `6 M* |/ T0 zcapability to provide theater missile warning and cueing. 3 B0 ~+ C) t4 D N0 Y, dMDA GLOSSARY, VER. 4.0 A- k% G6 o. X8 \1 L 25: R8 ~: r: s" g" c1 b Attack2 u# [' x, _- P: k* f. s/ z Assessment (AA); N- R3 r+ g/ q An evaluation of information to determine the potential or actual nature and4 n5 Y1 N5 U/ k2 D5 c% R C objectives of an attack for the purpose of providing information for timely K, v6 {9 n6 L! udecisions. ; ^ B9 y' {' A ~Attack7 q6 a! R* Q3 r- Z& a Characterization ! F: ^! W; e3 [+ ] r eThe process by which the parameters of an attack in progress are developed,9 S8 g6 Z" H0 {& x# I0 Y updated and defined. % w# ?) Q* \/ x; z. E0 k4 G1 PAttack5 r; ~, I4 Z" s) }2 C Operations+ E3 W# @$ K" p (Counterforce) ) w) s% ?/ h c7 cAttack operations prevent launch of theater missiles by attacking all elements of & M o& w2 w+ Jthe overall enemy system, including such actions as destroying launch platforms, , n5 C1 D7 d4 `% Y zsupport facilities, reconnaissance, intelligence, surveillance and target acquisition& w4 e+ t# ^) F* s platforms, command and control nodes, and missile stocks. Attack operations + G% S5 t5 D7 x0 m; q& R7 _can be executed by space, air, ground, maritime, and special operations forces. " A7 q& t3 s- h& [Attack operations are considered one of the four pillars of TMD capability. (JCS 9 Q4 D# H( p$ KJ-38 CONOPS)- w ]. s8 ~) }4 X9 x Attack Price A concept used to evaluate the performance of a BMD system that defines. {5 J$ w& u* I2 q) B* Q, `$ G “price” as the number of Re-entry Vehicles required to ensure target destruction.! {0 q0 d/ ? H# y1 d f2 U6 y L, j0 U Target destruction is defined as a probability of target survivability using the draw ' }6 @6 e7 q0 qdown curve. & x7 h' ^6 f e/ RAttack Warning/ - S |" I/ L5 mAttack) o9 Y* P8 N& @- i5 W& |8 t Assessment ! n5 X# H3 f8 |(AW/AA)+ i4 U* J1 D9 O2 q Integrated air, missile, and space defense data used to determine whether an - {/ c( x, }" u. Iattack is underway and, if so, what is the type and strength of the attack. 3 R J# X$ X N0 o% T% `& aATTD Advanced Technology Transition Demonstration. 2 h% h; h0 K% o; {Attenuation Decrease in intensity of a signal, beam, or wave as a result of absorption and* e( R3 F5 F/ A5 c: J& x7 E scattering out of the path of a detector by the propagating medium, but not 1 O/ ?3 C) r( @1 B: l2 n8 Zincluding a decrease in intensity due to geometric spreading (e.g., the inverse: W0 S" g, f6 ~ square of distance). , r5 r, D& z5 F% m. yATV Advanced Technology Validation., h7 ?5 `+ C: q; x! M# q& e AULS Accidental or Unauthorized Limited Strike. 7 P s/ r! g6 [" L! v# ^. DAUPC Average Unit Procurement Cost.5 l8 G" A& W5 }' @' B AURORA Canadian aircraft.9 W# z/ x) Z& X! W4 w0 K Autonomous ) g+ M3 _; N$ O4 k& ^% h2 U! C" NAcquisition 1 F1 j( j& a# e- Q, M! Y3 p5 |Range (Max.) z% N4 l! C- d/ Q$ bThe maximum range at which a target can be acquired by a sensor operating in4 m2 w G, k$ z( T; x. ^ a non-cued mode. ; G5 }) y4 o, d sAV (1) Air Vehicle. (2) Audio-Visual. - w) L7 q, c6 s: G( MAVATAR (SAIC) Flight dynamics simulator.% D9 w! V" y3 W* w AVC Advanced Vehicle Concept.$ [/ X- x: t/ [: q/ t/ V AVCATT Aviation CATT (US Army term) ( a5 S% Y7 _+ {- IAverage Unit. d5 [: n1 e" Y8 G Procurement 6 |( z9 J! [" q# C7 s% ^. GCost (AUPC)( \5 M% E& ?% ^7 j2 q( ] Design to average unit procurement cost objectives, expressed in constant( I( t8 G) \1 L4 }/ B dollars, are established for Milestone I, Concept Demonstration Approval. AUPC * r! v @5 D/ Lincludes recurring flyaway, rollaway, sail-away costs (including nonrecurring - s: M4 P( l$ M' D3 A& Eproduction costs) adjusted for data, training, support equipment, and initial 6 l, ^9 d) G0 l3 L; `6 rspares costs.5 ?* J" b2 c4 i2 S" j0 B& X MDA GLOSSARY, VER. 4.0 A 8 N3 S- d6 }0 b5 f26' W4 O3 b$ H$ L4 ^/ e7 ^- e AVHRR Advanced Very High Resolution Radiometer. , B$ q) d7 \# u- g; rAVSCOM Aviation Systems Command (US Army). . g @" j5 s, C# E4 e, {AW/AA Attack Warning/Attack Assessment.3 \( y$ f7 H5 I! J) J6 e4 V* P AWACS Airborne Warning and Control System.5 Z( e& W* K8 p" P% Q, W' x AWC Air Warfare Centre (UK RAF term). 8 r# [1 I8 O# ~& YAWE Advanced Warfighting Experiment% q$ w) P u( }; h7 a, P AWG (1) Acquisition Working Group (GSA term). (2) Algorithm Working Group. * i2 U2 N" b6 b3 y' f8 \AWS (1) AEGIS Weapons System (2) Advanced Warning System. (3) Arrow Weapons( p& S+ y: [1 T8 Q! S4 G M2 F System (Joint US/Israeli BMD weapons system).8 V0 q9 g' {! h/ X9 ?3 W7 o. c- ^% w Azimuth Orientation of a vector projected onto a reference horizontal plane, relative to a 0 Z5 N+ ]/ u3 lreference direction in the plane.) J. ^, p5 ?3 l# r Azimuth Angle A positive angle measured clockwise in a reference horizontal plane from a+ k* a4 S! u* `" {# i1 j/ T& i7 ` reference direction to a given direction. For a topocentric-horizon coordinate ; N9 l8 X; [# E( y/ Qreference frame, the reference direction is due north (true north or magnetic # } Y! E: T7 G/ b5 Tnorth, depending on the application).: m& U! Y, d- P8 C% v) a MDA GLOSSARY, VER. 4.0 B0 K% x" A) W6 d; B) R 27( t1 q' t z6 ^, n) D1 _ B Billion.8 p8 _% O: U) Y; a- @ B Spec Development specification.4 E5 Z! V* K& [7 ~$ d B2C2 Brigade and Below Command and Control System (Army term). 7 Z5 O1 ~4 S/ m& u N3 O, g4 i" T: UBA Budget activity. The budget activity codes are:& z& \) z% y+ Z0 T0 N1 m# @ 01 – Basic Research$ T4 o4 I" k" F8 D& z 02 – Exploratory Development" P' J% R9 H) b2 F- E 03 – Advance Technology Development7 h- V8 z4 t/ P/ D* z- T7 ~ 04 – Dem/Val5 y3 M* ~! H& l4 {! B 05 – EMD ) L' N' R& I$ Z06 – Management Support, E7 u- c' N$ a5 A 07 – Operational Systems Development ( z7 b! w6 z" y0 NBAA Broad Agency Announcement. M( ~# y s1 k9 Z BAC Budget At Completion. ) o+ v" F0 A) f4 _. s/ i0 ^6 ~Backbone 8 r5 z5 a6 a$ A4 \) @3 @Network( `$ p) ^! ^# ^5 Z Consists of the space communications network, the ground communications & F/ N3 X7 z& i# Y3 \* lnetwork, and the interconnection between the two. : s* F6 g+ e$ p7 hBackground ) P u. V0 @; z' aRejection & p9 K1 o% z4 L(Surveillance) . M* k% {3 e! O' E) z& rThe suppression of background noise for the improvement of an object signal.6 h* O9 w4 ~; i5 ^: J% ]% m9 Z BAE Battlefield Area Evaluation (USA term). , ~8 Z z' T' x: ?! }7 p+ A: xBAFO Best and Final Offer. " l' K/ j+ U; s% q: o5 M6 HBAI Battlefield Air Interdiction. - _: h5 i0 o4 {9 k$ E0 S+ LBalanced 9 j; k4 `5 @: d7 C5 cTechnology ( b9 B* _/ @0 V& G" m# R5 iInitiative (BTI)5 Z, ^, e6 a1 J3 q/ D! I8 J) G DoD’s program to hasten application of advanced technology to the most critical , D H2 R1 n, I' Y7 d% d' H& mand urgent operational needs. BTI projects are demonstrating leap-ahead5 l$ H3 D4 I& ?) X capabilities enabled by emerging technologies in smart weapons, target. c7 H' j3 C3 P+ B+ J' V* b9 H acquisition, battlefield C3I, active countermeasures, and ultra-wide bandwidth 9 r# a) n) q! R! Fradars and high power microwave systems.) ^$ P: Q: N& d" H Ballistic 0 K1 _4 G' Z& U' }* _$ vCoefficient ! h# q k. u3 l9 BThe weight of the object divided by the product of the coefficient of drag and the7 \" y# h) ?' L* G( ?, H { projected area (W/CDA), in kilograms per square meter. : ~0 L1 n4 s1 |. Z7 Z7 KBallistic Missile : ]+ e9 w) e% q+ ` d/ w" v(BM) ! L# C- x5 j+ N4 v' E: S: qAny missile that does not rely upon aerodynamic surfaces to produce lift and: g$ S) O- J, g5 K( X: A( f% N consequently follows a ballistic trajectory when thrust is terminated.% O8 ~8 L' `" _( L# `. ?8 {+ Q Ballistic Missile ; r4 c; K) V$ s( r; C' t: \' z$ x1 JBoost Intercept$ L* b" o W+ Y! }9 b( h3 [ (BAMBI) % F5 o4 n# |8 e* p5 x' SOBSOLETE. A 1966 system concept that a Lockheed study group developed in/ b+ \/ C/ D+ o8 j4 r anticipation of possible government interest in the development of an ABM ) a% d4 ^7 G# o% Bcapability. % o j; `2 B8 j+ n# pBallistic Missile# [3 M Z0 g1 B Defense (BMD)( @! C7 x* d. R' U) c' Q7 C All active and passive measures designed to detect, identify, track, and defeat9 V+ k- p3 s) b( w4 x, } H& ~; _ attacking ballistic missiles (and entities), in both strategic and theater tactical 5 x$ P' h+ b/ g! z$ Mroles, during any portion of their flight trajectory (boost, post-boost, midcourse, or5 E4 \0 v3 {5 r3 e9 C terminal) or to nullify or reduce the effectiveness of such attack. $ Y7 |% A' _0 J- g& K0 {" }. E5 kBallistic Missile ! _, W% [/ s3 _: j: F3 |; `0 oDefense Battery . v) M8 r* `: S* ?An Army operations center, which operates and maintains BMD ground-based' p' Y* M3 W% d2 \1 s' b weapons and sensors. 8 Z) c2 w, w$ I8 x( EMDA GLOSSARY, VER. 4.0 B6 S5 ^$ p6 b3 N/ _8 T 28 ' {' |) A1 O/ B; E: r5 gBallistic Missile % |! E3 Y" l9 X! E% ADefense (BMD) ( d# i6 o: w. V6 k$ N8 UCell: Q3 m& g9 T# h3 r$ a3 ? This facility will be located in the USSPACECOM Consolidated Command Center 3 C6 O/ t# c( D2 L(CCC) and Space Control Center (SPACC) to support the Space Force . @1 S. `; t! Z- j6 v+ ^* I+ `Application mission area interface between the BMD system and1 u$ m0 z) `! F; R' p$ U USCINCSPACE. The BMD Cell will provide command and decision support to7 [* j( J7 g& F A& H+ x USCINCSPACE.7 \0 {+ z1 K9 x; v9 e5 i! O Ballistic Missile ! y" W, P& l+ M* a0 rDefense - P1 `$ q5 G G; g6 U6 @3 n: OOperations & k; O2 Z; }! S4 f) cCenter (BMDOC). X, Y6 Z! \2 @ OBSOLETE. Initially located at the NTF, and ultimately in the Cheyenne' {. s& N1 I7 w Mountain Complex, this facility supports the BMD Cell-USSPACECOM information3 }) n) r8 e+ P& J interface. The BMDOC hosts a BM/C3 processing suite and the operations : n" @6 {( |, e$ U7 X! ^4 u9 tpersonnel necessary to coordinate and integrate system-wide BMD activities and9 H& P9 C5 ?- b supports the USCINCSPACE planning and decision process." ]7 ^8 @- U7 ?5 `2 D8 | Ballistic Missile ' t8 L; o: H0 w, yDefense. T w" f, G8 e8 N Organization, C( V& S% j* j2 h3 Y; b (BMDO)4 \$ i6 d, [2 L OBSOLETE. The former name of an agency of the Department of Defense. h( f$ | e% j& \' a whose mission is to manage and direct the conduct of a research program " N2 T! x& G0 a& Fexamining the feasibility of eliminating the threat posed by ballistic missiles of all. @7 H! {5 V/ `% z9 B ranges and of increasing the contribution of defensive systems to United States' X# Q) l2 u5 C* ~: X and Allied security. MDA is the successor to Strategic Defense Initiative o4 L% w. i, F, g$ _" q/ B8 W Organization (SDIO). See MDA. 4 F& o5 z6 J7 l' x: J0 | {1 nBallistic Missile ' m( A, Y* N! n4 u" CDefense Program 4 ?4 A4 A6 I4 _- `) a+ Y: P: N) QAn architecture comprising three objectives: Theater Missile Defense (TMD), W* d: \: L4 U" Z' T9 L; yNational Missile Defense (NMD), and Follow-on Research Programs.! o; W- t' q# F' g8 Q Ballistic Missile 0 y* C% s: W3 B/ u& ^" YDefense (BMD) " r6 W; k, J! A0 t( S/ C& JSystem% f9 c4 a; m$ z. k! C' {% X (1) An integrated system that employs layered defenses to intercept missiles, |* x, L+ c, w9 O' [0 |+ ~# N4 ?( u during their boost, midcourse, and terminal flight phases. (MDA Lexicon)& p: s$ `$ r8 U H! K! J2 g% q (2) The aggregate BMD BMC3 and BMD forces that, in total, provide defense% y( x1 u. {. O2 l, Z% ~ against ballistic missile attacks to North America and other areas of vital interest. ) G5 U4 ~1 p. Y) o) n6 M(USSPACECOM)' ]. L4 C& C2 [! { Ballistic Missile$ y) A. T M0 ^* V: R5 z, h Z0 B1 B Early Warning ( A7 a3 G! n% ]- M6 l/ ^System (BMEWS) & z, k5 L/ y" S) p. @3 }Provides tactical warning of ballistic missile attacks, and is part of Spacetrack8 c3 B' w5 D; ^; g system. A two-faced phased array radar located at Thule AB, Greenland; three0 q k- T1 ~% C) I detection radars and one tracking radar at Clear AFS, AK; and three tracking ; F% _& a# D) h0 D3 ?' ^0 Aradars at RAF Fylingdales, UK.5 z0 M4 g, p" f% J& M0 F Ballistics The science or art that deals with the motion, behavior, appearance, or; k# [; O; B& h modification of missiles or other vehicles acted upon by propellants, wind, gravity, 4 L7 T K" p! M- j7 L: p% rtemperature, or any other modifying substance, condition, or force. , V- d$ }' U, nBallistic* c1 W1 m, i1 h) o Trajectory6 \" f- S/ z0 f* J& t3 o The trajectory traced after the propulsive force is terminated and the body is3 \, K. Q/ f: ^# }( |, L9 W acted upon only by gravity and aerodynamic drag.( x; P. b6 C d6 Z4 o/ R Balloon A spherical inflatable decoy used as a penetration aid to mask the location of 7 Y2 F2 A2 u" S d- z/ dreentry vehicles. % p' O9 v: s3 J' e/ hBAMBI OBSOLETE. See Ballistic Missile Boost Intercept. , @3 y% f) h. t5 U3 _% ~: lBandwidth The range of usable frequencies assigned to a channel or system; the difference- x$ o, K: I5 B5 K( Q) D/ e6 O expressed in Hertz between the highest and lowest frequencies of a band. $ m6 b$ f, J$ I* Z& w* b6 z" WBAR Bimonthly Activity Report. 4 p. r5 _4 `/ V0 x' r. p6 nBARBB BMDO Acquisition Reporting Bulletin Board7 j8 u1 S, m8 s& P Barrage, b# ^1 t9 D4 q4 Q9 \! C Jamming 4 Z7 x' ?0 d1 ]- M5 @/ T1 MSimultaneous electronic jamming over a broad band of frequencies. . y; t: b2 I5 ^) \; ?# u6 G" QBattery Tactical and administrative artillery unit or subunit corresponding to a company or : U5 u0 z9 a4 t+ e5 Ka similar unit in other branches of the Army.( b9 p% O5 T# C/ Z& v3 n% ~2 h/ N MDA GLOSSARY, VER. 4.0 B9 [4 [; H. ~) G9 e+ n2 m 29 8 a m( U( Q# K6 s, ]4 V& {Battle Damage$ F8 v7 ] S& n: D Assessment7 D9 M9 B- c1 D) O/ g- T (BDA)( v* N& w7 C8 e4 q5 q The estimate of damage resulting from the application of military force against a$ Y, [3 I' ~1 o4 P predetermined objective. Battle damage assessments can be applied to the use * z- K9 K' }3 x' _; l, Y5 f0 Zof all types of weapons systems throughout the range of military operations., I7 n0 K# }) {/ K$ ]0 C BDAs are primarily an intelligence responsibility with required inputs and 1 a; n a9 z1 w% Ecoordination from the operators. BDA is composed of physical damage' o+ h/ _* C; c( ~" v6 P assessment, functional damage assessment, and target system assessment.

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Battlefield , w6 ]# ^' V* s7 W9 ]1 G' eCoordination ' K3 L7 j! N. F8 ?$ m; dElement (BCE) 7 S2 Q9 [) u, t h9 U! ^An Army liaison provided by the Army component commander to the Air 5 y( u9 Z, l/ w, A! v4 l! IOperations Center (AOC) and/or to the component designated by the joint force Z5 P$ N# ^& b# y) J" }commander to plan, coordinate, and de-conflict air operations. The battlefield% _: n7 D; e, i- B coordination element processes Army requests for tactical air support, monitors \& U. z8 e' H! b# Land interprets the land battle situation for the AOC, and provides the necessary% g; c, h3 k2 n* X/ O% M* S interface for exchange of current intelligence and operational data. V& N- A) ~, J. S% f+ | Baseline Defined quantity or quality used as starting point for subsequent efforts and, h7 |2 m0 ^) A2 q2 I progress measurement. Can be a technical baseline or cost baseline. . C, U2 ~; M. e+ j3 |8 h7 ?6 K- r+ d8 mBaseline . j7 R9 M* v. O, y- E/ a4 N( @Comparison : @" J+ a9 I9 P5 J1 m" J" ASystem (BCS) 5 T8 Q3 p6 O6 u/ o8 h" d1 Q3 }' kA current operational system, or a composite of current operational subsystems, $ u: v, i, i8 m: i6 v, S7 Swhich most closely represents the design, operational, and support. o- X3 o5 m% a, V! I; z, ~9 e characteristics of the new system under development.' {- M. ^" @2 d Baseline ( X, n) U8 X4 @# _" gConditions$ g% C6 l- O, ~! J) F$ I0 r The natural and human environmental conditions, which are present prior to " \5 b( Q' H c& ^( k' n! k9 Ximplementation of a program and against which impacts are assessed.( |9 A/ W7 ~& @! T; j4 H: B Baseline Cost 0 s) A. T4 z; |. R- [. ]( EEstimate (BCE) # [% _1 H/ j* F3 o0 Y% l oA detailed estimate of acquisition and ownership costs normally required for highlevel decisions. This estimate is performed early in the program and serves as- `9 v" A5 O( D the base point for all subsequent tracking and auditing purposes.. B% S# c9 T. U Base Program The base program is the program described in the Future Years Defense 7 ^. I, j- x) H, G7 B4 _, WProgram base file, when updated to conform to the budget presented to: E# J. a7 u! Y1 y/ K$ o Congress in January. It constitutes the base from which all current-year program , T- ?9 l$ ^1 G! ^: Hchanges are considered.& S. P% {4 [# ]' m7 K0 C Base Year A reference period, which determines a fixed price level for comparison in * r. X/ _- H) p$ g8 veconomic escalation calculations and cost estimates. The price level index for - ^, b. T1 i, f6 E: Fthe base year is 1.000. : Q% Q8 q- r" O3 f1 b/ Z" pBattle Debris Battle Debris are the fragments produced by the hypervelocity collision of an% T! L d/ u5 L% Y: U) q interceptor with a ballistic missile, post-boost vehicle, or reentry vehicle, objects' t8 ~/ p, l( D( n- f& P+ D5 r resulting from intentional fragmentation or accidental detonation of booster3 w" _6 Q. X: {5 X' r8 @. S* ] components, and objects normally associated with the deployment and9 Z! B. [+ p. q# d w4 x propagation of threat objects (such as nuts, bolts, inter-stages, fairings, shrouds, / W* F3 l6 @, W" g2 ietc.).8 T( y$ ^' c3 p Battle Group (1) Domains into which the battle space is partitioned. (2) A data processing ; A7 ]! }% y# a0 W. ]approach implemented in the battle management computer, which ; u5 T: v! B' S, B. Sminimizes the processing load by partitioning (grouping) threat data + a) S) L6 H/ ~" V' V(Virtual Battle Group). (3) A group of associated system elements which' y5 }, N; |% T9 m# Y1 l operate together in a segment of the battle, based upon their: j/ a! [ u' _8 K3 F. S1 X4 m3 K capabilities and relative location to each other and the threat. ) P, a x+ M" y* ?% L- HBattle Integration Preplanning processes and/or real-time coordination that occur to minimize* x, @( X9 ^- D9 q+ { resource wastage between battle tiers or battle partitions. A: J( Y& S& }$ ~, x* J MDA GLOSSARY, VER. 4.0 B# T; G" Q( v. b% h% i2 }3 J 30& W/ Y5 N3 D7 Y* x7 {% v9 R' J Battle9 F4 h: j3 ?& y! f Management : e: U( |" v- U; m* {: y6 H2 `(BM) % D' S+ u6 T# CBattle management is comprised of two parts: strategies and the collection of + c3 x- z5 y) L4 ?! S% l! M' x/ Htasks to be performed to successfully implement chosen strategies. Given a set 4 L- r0 H, n) y \7 h: Jof strategies, resources, and hostile asset deployment, battle management' q* z8 O6 o9 \ addresses the problem of choosing a specific strategy or set of strategies and - h" t; t! @( h" L, P! q- Operforming the associated tasks, which would result in the most desired outcome. . a+ J2 G- i( T' tBattle ' g4 ~$ @/ x- u* _: F1 IManagement/ " W! `4 o$ Y: Y9 w5 ]$ O3 XCommand, 0 s, C% f4 s8 pControl,/ q) ]9 I; I6 R Communications, ; e' ]$ W& b' b" \& l3 Fand Computers ' O& H/ Y2 t4 x/ m, k5 [(BM/C4 ), m3 P& ]' P* n/ M BM/C4 is a set of automated processes, which respond to the C2 system’s control8 b/ n6 y, f P, d4 L( ^$ n directives. The BM/C4 will provide the BMD system with the capability of 3 o9 i4 L7 N$ x9 K; f3 R$ d1 Yplanning, coordinating, directing, and controlling the surveillance and ' Q( q- b2 k: l4 c. E, }, `engagement operations of the system. It will consist of a distributed . f" _/ q& ?( p8 \, Larrangement of personnel, equipment, communications, facilities, and 0 h0 R) G4 f5 T" P$ ?. ^- t4 Aprocedures that will ensure timely human control of the battle management% @ S f! J6 G4 V" R4 N process. BM/C4 consists of a battle planning function, an engagement planning 1 U9 ?5 H( S9 |1 e) [* _0 nfunction, and a battle execution function. (USSPACECOM) 8 Q# e* q* J" wBattle $ u6 c& B" p- [7 gManagement 6 o+ b1 \5 t: l) v3 g9 XDatabase " W, N" K$ ~ _ R! sBattle Management data files including: battle management message file, object7 V. X+ g9 c7 V E7 R file, track file, discrimination file, engagement file, kill assessment file, and battle + {' x4 k* F9 @6 k& j0 bmanagement health and status file. ; g4 w3 Z& M" I+ t) Z( e7 Y- IBattle! i% }# \3 p3 s _3 { Management# H5 `" s) j, [6 D: v6 i System ! r$ q/ I0 \; @2 D* d& CThe hub of the command and control process. It consists of computer hardware ! p. L) O& Q% F" }& \ _! uand software that integrates elements of the command and control system into a0 ]- Q0 y3 G9 [. L0 i1 f9 b+ E G synergistic operation. (USSPACECOM)3 }6 l- j( R. p5 _. B Battle Management System ) K4 x% W8 b; D- gConfiguration9 N* z. F9 a; K, _) z The battle management elements currently in the system together with their ; S A* z( i7 i$ H0 X& Glocations, connectivity and currently activated modes of operation. , J1 C8 r0 ]& R* _6 vBattle Manager The automated set of hardware and software equipment that performs the battle W6 i% K$ W6 A b& P7 q management functions at an element. 6 H, ] e- R, B: {Battle Plan One of a set of BMD operational approaches to counter a ballistic missile attack.: g' P* e8 C8 o. e/ U It contains the rules of engagement, battle strategy, and intercept tactics to be' C5 z9 R/ _( [# E implemented by the battle management processors. It is directly responsive to 0 g( O5 g" S5 W8 g4 e) U9 athe attack type (e.g., counterforce). . X ^: t1 ~/ p# E+ E0 K5 LBattle Space A characterization of the BMD area of operation generally expressed by Tier ( X& U" O. {# q' d, o7 g5 N(Boost, Post-Boost, Midcourse, and Terminal). (USSPACECOM)/ s+ o* b" [& G Battle Space / s; j4 ]4 W# w F1 Z z& uPartitioning - z/ w. m& g# u4 J, ~5 M% KAssignment of management, sensing, control and firing responsibilities to specific) i R( e6 ^" @$ g* d platforms/facilities within the deployed constellation of platforms/facilities.; ~' A1 D) @. z# y& \ Battlefield / q; x4 A2 z6 f6 oCoordination $ H" @7 h# }6 h3 c2 nElement/ e9 z( T/ W7 i. r% c1 P An Army liaison provided by the Army component commander to the Air . z9 x& d% g8 a" z; f6 YOperations Center (AOC) and/or to the component designated by the joint force 9 y) ~$ S& L; S# ?4 jcommander to plan, coordinate, and de-conflict air operations. The battlefield5 z7 N! M7 ]! s6 N coordination element processes Army requests for tactical air support, monitors8 h+ ^$ u/ T R/ |9 ?3 y and interprets the land battle situation for the AOC, and provides the necessary8 d, Y: j0 s% e+ G) _ interface for exchange of current intelligence and operational data.+ n+ b# x$ a! o0 P+ d! D7 @& B* S BBS Bulletin Board System. 4 Y' [( V) s2 UBBSF Brass Board Seeker Flight& i: p. [% |& p7 p9 t' ], Y BBT Booster Burn Time.1 G) g, ], z( U- A; c BCAS Battle Management and C3 Architecture Simulator.! q8 p8 J$ E. @( u* a {6 E MDA GLOSSARY, VER. 4.0 B9 }9 C0 @5 T( B }- D5 M7 j 31: t" D+ D( M) ^; U BCAS (1) Battle Management and C3 Architecture Simulator. (2) Base Contracting ( @. E+ C; f8 _" l |. N& c; PAutomated System.

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BCBL Battle Command Battle Laboratory, Ft. Leavenworth, KS. % ?3 L3 _+ x, h$ e. v- j0 \0 YBCCE BM/C3 Consolidated Capabilities Effort. & T* a$ ~" Q# N5 P c8 aBCD Baseline Concept Description.) }9 V6 q' \* l! m: _$ ~: B$ M BCE Battlefield Coordinating Element.5 I/ v( g9 r+ U# C BCFR Battle Command Focused Rotation. * O( ^1 [ O! @& J! EBCIS Battlefield Combat Identification System (US Army term).# _9 @9 T r7 g0 w. C BCM Baseline Correlation Matrix (AF term).8 h& \0 q6 r9 y7 \# R& G, v6 |- T3 K BCO Broad Concept of Operations.! c5 f9 V, n, l" X BCP Battery Command Post (HAWK).- c/ k, g, T1 M, X BCS (1) Beam Control System. (2) Baseline Comparison System. ' Z: `' v: z' o0 s: bBCTP Battle Command Training Program, Ft. Leavenworth, KS C8 o: w# f4 i) A ~4 b- ?4 S BCV Battle Command Vehicle (US Army term). 0 M7 ~7 c, u2 Z. i/ PBCWP Budget Cost of Work Performed. 0 k- I$ V% k6 zBCWS Budget Cost of Work Scheduled 9 c* p; D X* GBD Baseline Description. $ ^$ @/ e D9 a) |$ ?0 bBDA Battle Damage Assessment./ j9 x+ Z1 y7 ]1 T8 E& g BDC Backgrounds Data Center, Naval Research Laboratory, Washington, DC & Y5 d7 s9 D6 W, Q* ~% O9 bBDE Brigade ( I# r: ?0 u4 L$ D* o2 K! x gBDL Battlefield Demonstration Laser. % R% R$ n$ O, l kBDP Baseline Data Package / u1 {3 }6 {& f2 V9 X+ X7 Y% TBDPI Baseline Data Package Integration. & ^4 Y( z1 z* B) t8 z: h6 e% w: G8 d: kBDS Boost Phase Detection System.# m/ |8 o; ^9 H" h1 c4 w" K* @: B BDT Birth-to-Death Tracking. ' `0 k( Y+ ?# t1 g8 o5 p" UBDY Burst Detector Y Sensor. 1 A7 f/ i7 E8 PBe Beryllium.0 J* ~ q$ R9 E% K BE OBSOLETE. See Brilliant Eyes.- k, Q# I3 {; |9 H: ?# w MDA GLOSSARY, VER. 4.0 B

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32. ^6 w6 I9 C# G Beam Control Technologies associated with controlling the physical properties of high-energy - z7 ]* G% l9 [3 u, e. f! P) Abeams and steering the energy transmitted by those beams to the target vehicle;3 B. y/ j2 j F9 O9 C3 w$ ? also, the management of signal or image beams within a complex sensor system.; t& w( }5 V. t- b, t- S Beam Width The angle between the directions, on either side of the axis, at which the " i! k9 g i& @8 Zintensity of the radio frequency field drops to one-half the value it, has on the ! O, d3 ]2 [- [- xaxis. # C' C% E8 T. w. s6 `2 B( SBEAR Beam Experiment Aboard Rocket (NPB Technology Validation Experiment)., ?* D5 m) U' Q1 i) p, O BEAST Battle Experiment Area Simulator Tracker.; b# t9 n# @6 j5 d$ ^4 w: V- N: ~ BECO Before Engine Cutoff.9 N& E3 E, l! R0 y3 g BECS Battlefield Electronic CEOI System (See RBECS) / f# Q. ?$ }8 k3 i3 e* _$ ^. 7 n5 A& X) c _6 x% dBell-Lapadula 0 S6 [0 N# J9 cModel" f0 f# r& U% n0 X X A formal state transition model of computer security policy that describes a set of $ Q- a [/ |9 L" Qaccess control rules. 3 q5 U3 u) F4 r( k2 O+ oBELLCORE Bell Communications Research, Incorporated.1 X* K: S; {0 A o4 C# C! b BEP Brilliant Eyes Probe./ b ^; L7 w8 t( R- W' S BES Budget Estimate Submission. 6 [+ m @ t2 y: @' E- vBESAM OBSOLETE. Brilliant Eyes Sensor Algorithm Manager. 9 T6 [' @7 ]% J# F- WBESC BM/C3 Element Support Center( I- {. j" y9 t- E* r+ B& e" | BESim OBSOLETE. Brilliant Eyes Simulator.6 u7 i& g' T! M+ G5 f x BESim/AT OBSOLETE. Brilliant Eyes Simulator Analysis Tool. 4 ]* v$ a8 J2 w) BBESim/RT OBSOLETE. Brilliant Eyes Simulator Real-Time.) z% U4 E% \. l6 {) \! _ BEST BM/C3 Element Support Task. 4 A0 w( {, E, j/ W* N* G; S$ IBET Best Estimate Trajectory.3 i1 D8 s! ?" Y8 E: i* u BFAC Blue Forces Analysis Center. 2 H* s3 v8 ]/ i; S' t* {) tBFTT Battle Force Tactical Training. ' \. R3 F4 u# `( B. w0 |BG Battle Group (USN term). 0 d0 k. Z% i. P( R2 jBGM Battle Group Manager. - _. l5 i8 |! s( ^" Z- EBGSE Bus Ground Support System (USAF term)., s }# l7 ^( I& Q: I; ~ BGV Boost Glide Vehicle.$ V6 P& n. [4 v# b( v BI (1) Background Investigation. (2) Briefing to Industry.5 _5 D+ Z0 @3 N9 W2 P* S BIB Blocked Impurity Band. 8 K. f, @& [* C; a4 ?3 dBIC Battlefield Integration Center. : V4 h W+ O1 P" j0 V! yMDA GLOSSARY, VER. 4.0 B & t0 B$ `, J6 i3 L: G33+ e% C% p; S5 d5 n* e8 U2 ` BID Built-In Diagnostics. 1 q5 c4 \; r; K1 VBIDS Biological Integrated Detection System. ' }) _- ~% P' t& m& SBiennial Budget The FY86 DoD Authorization Act required the submission of two-year budgets for , b8 k- S8 T. B& s) Z2 L5 C7 A* Xthe Department of Defense beginning with FY88/89. The department has 1 d$ X# Z) z7 W: Ninstitutionalized a biennial cycle for the Planning, Programming, and Budget + `: Z6 b& y' `System (PPBS). A biennial budget, as currently structured, represents program # |( T0 M6 I: B. W5 m; nbudget estimates for a two-year period in which fiscal year requirements remain ( O/ H9 C! F- @1 P2 Tseparate and distinct. # }6 e4 R' [- R9 x* jBig Crow A suite of aircraft, helicopters, ground vans, and electronic equipment, which is " r, }8 ^- m$ {used to emulate an electronic warfare environment for testing, weapon systems3 L1 I( g' o% e" N, h on test ranges.+ g$ R9 A" z8 @- z BIM Ballistic Intercept Missile.0 ?8 w1 U- }) N Biological. C: H) S: b/ V Weapon8 e& ~% z1 G) T3 W. v$ t: u1 L4 q An item of material, which projects, disperses, or disseminates a biological agent ) `$ _% w6 d, Xincluding arthropod vectors., }' p9 L3 O6 ~8 Y: m$ ^! l BIOS Basic Input/Output System.! k) i0 [4 `, Z' s, ?# u BIPS Billion Instructions Per Second.$ d r- J; ?0 Z- b+ B! y Birth-to-Death8 Y" } ? U( R+ D5 N Tracking (BDT)8 J; t, m3 v R The tracking of space objects (e.g., satellites, reentry vehicles, or decoys that ' H; n% D$ y7 g! } ?simulate these) from the time they are deployed from a booster or post-boost( w1 S, K6 T+ v0 V$ ? vehicle until they are destroyed. & U8 Q7 ~* e! Q( uBistatic Radar A radar system that has transmitters and receivers stationed at two- T5 [/ N8 y( d: A7 p geographically separate locations; a special case of multi-static radar.. R0 ~1 O h0 } BIT Built-in-Test2 O( W. z) @& i! h' M Bit Binary digit. 4 W; Y ~0 V) U/ l' ?' ^/ G! i aBITE Built-in Test Equipment.: P7 G L" @% y6 [: a Bit Transfer 2 N2 \- `5 F8 ?1 V1 Q+ qRate. i# v3 t. j6 C* U- g4 a The number of bits transferred per unit time, usually expressed in bits per second1 R* y- V# y |7 v (bps).# f* u8 R: e. g. T" ^# h Black Body An ideal body, which would absorb all (and reflect none) of the radiation falling* e/ i. M2 |7 g, u9 f y" T upon it.* H }( a. }( L' @! H Blackout The disabling of electronic equipment by means of nuclear explosion. The1 f. e+ a9 ]5 H2 P5 `% C5 d intense electromagnetic energy by a nuclear explosion obscures signals and - A- |, |3 ]6 ~& h+ D6 l# erenders many types of radar and other types of electronic equipment useless for+ J4 c, j+ \3 ?5 V5 q' \ minutes or longer. 8 I" w% j f8 Q. c0 H/ M2 _) nBLADES BMD Long Wavelength Infrared Advanced Exo-atmospheric Sensor. $ N$ K; q$ |7 J! M3 TBLADT Blast, Dust, Thermal Effects Model. ! Z$ F; m1 w* w! |Blast Effect Destruction of or damage to structures and personnel by the force of an - H! a) D; Y# y" N [explosion on or above the surface of the ground. Blast effect may be contrasted4 J: h- {! M" G8 a with the cratering and ground-shock effects of a projectile or charge that goes off 4 O. R: N# e' ~/ j# Qbeneath the surface. ; }1 _& L, g0 \2 L0 rMDA GLOSSARY, VER. 4.0 B8 ^* Q6 v7 \: ]# E) M 34 - @! E/ ?$ K# {" P4 X9 L" n- bBlast Wave A sharply defined wave of increased pressure rapidly propagated through a . g4 T7 q7 |) m/ \' b1 |' R gsurrounding medium from a center of detonation or similar disturbance. : ]% g+ @" N+ k) j8 X( V% q, mBLCCE BMDO Life Cycle Cost Estimate. ( n" W6 z6 G* H: GBLK Block (system production lot): F8 K( J K% { Blk IVA Navy Standard Missile Block IV-A. . H1 `3 a- l" W( Y/ e3 v j8 A# hBlock (1) A biennial increment of the Ballistic Missile Defense System that provides an 1 `) Y$ [1 k' A @' H9 Yintegrated set of capabilities which has been rigorously tested as part of the; G& w4 s( @( t/ G BMDS Test-bed and assessed to adequately characterize its military utility. Once H) Y5 Y7 W ^2 l7 N tested, elements and components are available for limited procurement,- h: r/ j# B- [% p2 G4 M$ b/ M transition to production, or for emergency deployment as directed. These “offramps” may occur at any time during the Block Cycle to support timely execution 7 G& r6 G! J# ?7 ^3 zof these transition or deployment decisions. * C! V1 X; }& S+ `* C8 UThe configuration for each Block is drawn from the following sources: . K2 y+ I" ^& i3 a% O•The prior BMDS Block; S$ I/ U5 T) C- _5 B# n% _ •BMDS elements, components, technologies, and concepts;7 n$ H) J1 F# w •BMDS Battle Management, Command, Control, and Communications ( @, R7 D. J' M( r(BMC2/C) specifications and products; ; T/ T" z4 v3 l+ o# G7 X+ }7 o" @: X% S•Externally managed systems, elements, or technologies (e.g., DSP, ' u$ P" d1 B* s; F0 ?" MGCCS, MILSTAR, etc).

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