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11#
发表于 2008-12-25 19:57:15 |只看该作者
AFTAC Air Force Technical Applications Center, Patrick AFB, FL & G6 W" U+ H- @; J# h0 R# B6 VAFTADS Army Field Artillery Target Data System.2 W3 e2 \ ^/ _) z! I) X AFWAN Air Force WWMCCS ADP Modernization & E/ i( ?7 @3 o- q) j, j5 pAFWL Air Force Weapons Laboratory (Phillips Lab).1 C4 `+ Y1 Y7 F0 P0 }2 m AGARD Advisory Group for Aerospace Research and Development. ; p/ }4 P' T$ XAGC Automatic Gain Control.; I% R3 O1 y2 L( q) r# D AGCCS (1) Air Force Global Command and Control System (USAF term). * W0 ]* X; k, I( L3 a$ I(2) Army Global Command and Control System (US Army term). - w8 }+ b* v* j( K( a) o7 y2 ^MDA GLOSSARY, VER. 4.0 A3 A) c0 V' c X. B 12. L6 ?' i* A9 c# L0 B AGM-65 Maverick Air-to-Surface Missile. & B% b- x9 d/ g3 {8 o9 NAGMC Air Force Aerospace Guidance and Metrology Center, Newark AFB, OH.9 e, T3 l2 c: {& A5 z# I AGRE Active Geophysical Rocket Experiment ; y& N9 z3 L% S2 E1 lAGT Above Ground Test.- D7 p6 u r* h3 | AHIS Agile Homing Interceptor Simulator. % ~5 J+ i0 h" R! C6 TAHSG Ad Hoc Study Group. # Q% S) u! {7 b H4 Q! ~AHWG Ad Hoc Working Group W7 T. A2 v6 ]) m6 ^" |) r AI (1) Artificial Intelligence. (2) Action Item. (3) Air Interdiction. 2 _2 r+ b$ i8 \! b! K3 SAIA Air Intelligence Agency+ ^" ], M% ]' v; { AIAA American Institute of Aeronautics and Astronautics & s, @' L4 V- ]( [5 IAIC (1) Atlantic Intelligence Command. (2) Account Identifier Code. ' q3 z1 o7 o3 B& W3 mAID Agile Interceptor Development.4 w" F+ `7 V0 D( \6 j+ C AIDA Artificial Intelligence Discrimination Architecture (UKMOD). 5 f4 c1 s; Q. E8 M5 Y9 `AIDPN Architecture Investment and Deployment Planning Notebook. # S, z0 J: N: W/ L, yAIM Air Intercept Missile3 f( j1 H3 V( A' U Aimpoint The specific point at which a weapon is aimed. The point may be on the earth's" w* x% P/ |- c7 Y5 t6 c# I surface, in the atmosphere, or in space. In some cases, the specific lethal point# x' r; y2 ^# t on a target to which a weapon is aimed.; F" K; b& P* O' _. k AIP Advanced Interceptor Program (formerly Brilliant Pebbles)./ W( S) {. T1 l6 @ @/ i$ N$ Q) K Airborne3 V ]: g) `, z Optional Adjunct 8 Y R/ d% m, \6 P, H) w2 ~(AOA)3 h' h& c1 ]6 I! c: u* L A test program to place an infrared (IR) sensor in an aircraft. (Superseded by g x7 g5 Z- V% J( R! V( D6 y: a Airborne Surveillance Testbed (AST).)

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12#
发表于 2008-12-25 19:57:27 |只看该作者
Airborne 0 U% f; H0 \7 D" u$ ~- }) rSurveillance / {5 ^; w E2 oTestbed (AST) ; A K" Z- r$ k5 k7 h! o O) A* qA Boeing 767 aircraft with a large infrared sensor designed to address optical + n% k8 }1 ]& _7 A* T i9 i% ?sensor issues.. o. m0 Y, S# e K Air-breathing A flying vehicle that uses the oxygen in the atmosphere as the oxidizer in its + t5 Z- ?+ G4 a0 w1 x! b2 _/ Tpropulsion system. Examples are jet aircraft and cruise missiles. This category 2 Q5 y9 ~# i" ~0 cdoes not include ballistic missiles. * \. ]; y) i9 Z$ D; O; U6 A8 E: HAir Defense All measures designed to nullify or reduce the effectiveness of hostile air action. . ^1 M4 e; ^' {- G( ]Air Defense 3 P5 h* n2 [/ d, @% U/ YAction Area; Y/ \; w; M8 c An area and the airspace above it within which friendly aircraft or surface-to-air& x( Z6 O! b/ F! i& I9 A! Q weapons is normally given precedence in operations except under specific " W' E) B$ _! d- | bconditions. See also air defense operations area. * g" q% i& O. U+ D4 c1 R6 s) lAir Defense# r4 \! J& o) v- U Artillery ' b! m0 a U- p" f- KWeapons and equipment for actively combating air targets from the ground. 3 p* R2 M' b5 S s0 sMDA GLOSSARY, VER. 4.0 A/ [ x* g' Z. ^/ ] 13 2 Z, ~- g9 e& i* u( t# R" I8 i% sAir Defense : i. \8 X3 S2 g& [8 r0 }9 W3 \3 @$ GIdentification- q; l7 T2 u( i" v9 h& ]* j {7 _ Zone 6 s. q4 c- c8 J, DAirspace of defined dimensions within which the ready identification, location,& J I% V U9 G; k1 K: u, F and control of airborne vehicles are required. Commonly referred to as ADIZ. * M9 o7 r1 |1 S" a0 m/ B% N% @$ |$ }' RSee also air defense operations area.: ]; k$ i- `1 Z% G5 n( N8 f Air Defense 8 a5 p( R! @, jOperations Area 0 L& r2 | i; v# f7 \8 b, ~A geographic area defining the boundaries within which procedures are/ G5 U" J8 g' G9 Q9 J established to minimize interference between air defense and other operations.( _3 W1 z, }+ |7 T; B0 P1 ?8 A- Z May include designation of one or more of the following: Air defense action . n/ P. U! h- F! |; V( Aarea; Air defense area; Air defense identification; Firepower umbrella.8 E' G8 B" d2 ~ R8 T, J+ @1 X# c& P Air Force F; Q) b9 Q' X& q0 s* ]* E Component : G2 x0 e3 z1 d4 t' J0 ]Command Center * I1 P a/ d, E& C' \6 p5 T(AFCCC) / J, G. G7 g* f* W( g% p+ MA segment of the Command and Control Element, which replicates capabilities of9 m( }2 \* k4 s9 s. y# A3 x" I+ ` the CCC (BMD) segment and provides administrative and logistics support to Air # _' m& m6 Z6 X C* R2 rForce Component Forces with the Strategic Defense System. The AFCCC was / R- q- z/ U& Aeliminated from the CCE (now C2 E) architecture during the last SAS system ' ^. [, J8 m! e7 Narchitecture definition update. 5 h$ L' q. [$ VAir Force" J$ M( D5 n: }' J9 R6 v2 Y# v Ground/Global 4 |) H5 |: k" ~. \' EWeather Center M# c1 g( h9 O( d$ A! U7 s# H7 _(AFGWC) 2 e U9 P& T7 C. o+ y4 IAFGWC provides Air Force and Army with global information and products & I! g8 Z% |% Orelating to past, present, and future states of the aerospace environment. % K- a* s$ o" U+ F% A+ m! O% V0 m& n# `Weather data is provided to the Weather Support Unit (WSU) for use by the ( g% z1 v* v" ~: Q) vSDS. Also provides space environmental data such as sunspots,7 y# `4 @: `8 `) ]: B! M/ }0 F electromagnetic storms, etc. Located at Offutt AFB, NE. * @+ m, F7 H! iAir Force+ L3 b/ @7 P* b2 B1 C) t Operational9 e$ P0 E; S6 z% m4 s Test and( e7 h F0 a" g) @ Evaluation& \0 L% l* U9 i j4 } P- f Center (AFOTEC)* @' l! s9 |6 R! Q/ X# t/ S Responsible for the operational test and evaluation of systems being developed ! T! N) q5 C5 }) s! ]' F: }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 Force1 Q" }. l3 X' k$ f" H7 i Satellite8 Q6 ^ `1 J" X: W Communications2 g& S9 |7 c! n$ K/ o System / i/ O$ ?$ k0 f6 e' z2 e! {" d9 g' j(AFSATCOM)/ i6 l, m6 T" L A collection of transponders on host satellites used by U.S. Strategic Command7 c. w B3 T0 A! J to pass emergency action messages (EAM) and damage assessment reports. 9 Q1 G9 U; a, B; s" xAFSATCOM is also used to pass sensor data between sites and CMAFB.0 V: W# Q, I' ^3 n6 O Air Force( H9 b# d5 C! N2 v$ G Satellite Control + Q# ~$ c+ i! j, FNetwork1 F$ ?! p/ C3 V: a) E (AFSCN)2 s _: E ~4 x6 T A global, multi-command configuration of space vehicle command, control, and 7 I+ j" _2 S: P& x0 U* C& u7 _5 |communications resources operating in concert to support DoD and other7 v9 h3 U- _4 Z0 G& K6 Z' f7 {2 T E assigned space missions.7 Z1 s- |0 t! a- {9 @' W4 q Air Force Space % K& V! u6 j! q7 W+ P8 o* X& oCommand ) z( p! w% ~( f( M(AFSPC) 9 z; K3 Z a- F4 K6 |A major Air Force command and the Air Force component of United States % r9 S" b7 ^% h3 c8 GSpace Command responsible for the training, equipping, manning, administering, G, D9 o1 G/ y1 [ and funding of assigned systems. Located in Colorado Springs, CO. / d3 f% O8 C! T. G* }- t0 \Air Force Space$ V; K% @' h1 l9 H) o+ { Operations6 o3 o0 Z. i6 }- \$ d0 w Center (AFSPOC) 1 v/ Y4 Y4 T. e) _8 K) @An AFSPACECOM center responsible for the daily tracking of events at remote5 q3 r2 S, ^( V8 t operational sites. It may be updated and assigned responsibility for logistics7 m! F! C1 x1 S and administrative control of assigned SDS elements. Located in Colorado( }; f: l7 W8 p" ]# C% _* } Springs, CO.* j& e V v( y( V8 e& O Air Force CRC Air Force Control and Reporting Center.* U0 V. x: q9 k5 U& h1 T% `+ m Air Force& R% W* e. S7 t" n Operational Test% |$ M8 ^7 o) c; v* [ q and Evaluation 4 @- e' k$ d2 l& @, \0 w9 kCenter (AFOTEC) / Y* {8 d7 }/ z6 v: s/ eResponsible for the operational test and evaluation of systems being developed1 P/ @" c/ x6 c; G. m( h for use by the Air Force (Located at Kirtland AFB, NM).0 t, d! X6 u" p8 X Air Force Space : r" F) j* d2 J/ o+ |3 VCommand& ^& l/ y4 W1 Y9 ]5 s: \ (AFSPC) , t9 F( l4 l% _. k# C+ |6 DA major Air Force command and the Air Force component of United States0 ~2 P K {, Q1 F Space Command responsible for the training, equipping, manning, administering, 9 Q- R G7 ?+ n5 mand 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 2 O8 w' k3 o" [- k: J145 Y7 K! ]) Y, G1 d0 p Air Force Space ) J# u9 b% G& ?/ h" H2 b$ MOperations8 M5 M( Z! }/ X- R Center (AFSPOC)+ q% g) i/ U. k1 R( I1 r An AFSPACECOM center located in Colorado Springs, CO. + B2 ?; {4 @5 jAir Surveillance The systematic observation of airspace by electronic, visual, or other means, 4 c- S- ]6 e6 _; b' g9 I; {primarily for the purpose of identifying and determining the movements of aircraft 8 r. @2 `6 T! l8 U) u/ |and missiles, friendly and enemy, in the air space under observation. : V9 c9 B0 d0 o; N% F0 V) U( @* }Air-breathing A flying vehicle that uses the oxygen in the atmosphere as the oxidizer in its4 m, C1 v; M" z0 W# |+ [' X propulsion system. Examples are jet aircraft and cruise missiles. This category7 u6 ]0 A. M4 ` does not include ballistic missiles. - c& P9 ]) b# R. C) Y6 YAirborne ( V$ n# G7 m6 ySurveillance8 H, z* d+ d$ V2 R( A Testbed (AST) ; U& [# F5 y$ ?A Boeing 767 aircraft with a large infrared sensor designed to address optical$ p0 @5 y+ P0 v# G8 e sensor issues. It's expected that this program will be retired in 2003 with its # ]# G; i2 `, L. M0 k& V6 @missions to be taken over by HALO II and WASP. : K9 C$ m! x, q% EAIRMS Airborne Infrared Measurement System ( O- o1 U* }! a8 r0 BAIRREQSUP Air Request Support (JFACC term).0 T$ \: U% R9 v8 y AIRS Atmospheric Infrared Sounder6 k7 p7 T: k: O! ]5 g Airspace Control2 N% f+ B" g1 J0 A0 o2 S3 u' j, N7 g% y in the Combat 8 n( u( Q& T+ ^% c! y2 NZone ! {7 N' o/ Y- B& r8 ~/ x$ C7 ZA process used to increase combat effectiveness by promoting safe, efficient 1 P/ D6 w5 B; E4 p7 e! `; {0 p/ h% Wand flexible use of airspace. Airspace control is provided in order to prevent: H4 `9 q* }( Q$ I& a( ?2 R fratricide, enhance air defense operations, and permit greater flexibility of 0 R+ @( s: v1 ^& Q+ }7 @operations. Airspace control does not infringe on the authority vested in * k% M$ u e5 t. icommanders to approve, disapprove, or deny combat operations.3 L8 m* m% u; O Airspace Control j# k+ c, D6 O4 \7 yPlan% p! ]: q& w* K" |% B. T$ I The document approved by the joint force commander that provides specific: U* }& a$ l- X& _ planning guidance and procedures for the airspace control system for the joint: d- i: D7 c; j6 | force area of responsibility. ! J0 j: f1 g! _+ M0 D GAIRSUPREQ Air Support Request (JFACC term).' q; G4 m8 m3 W( _ AIS (1) Automated Information System. (2) Architecture Integration Study. (3)+ c$ p& w8 [! _7 M- j2 |$ R( w: T Airborne Intercept System. 4 B' K4 u6 l+ g- C3 W6 P: mAIST Advanced Interceptor and Systems Technology.* d: s2 q+ i4 g+ b AIT Advanced Interceptor Technologies. 3 j3 ~! ]/ A3 Y% l, h3 nAJ Antijam." Q6 k; \9 _' V' d8 _7 h: l AJPO Ada Joint Program Office. ' A; f; Q& Q" w: U1 e: S+ i- cAJTBP Augmented Joint Theater Battle Picture. # u q% D/ p# B! }' b# H2 v. x% qAL Acquisition Logistician.1 d5 e/ K0 D. b& Z4 q% |6 i ALARM Alert, Locate, and Report Missiles. 3 ^. ]; k0 D4 R6 j0 NALAS Advanced Liquid Axial Stage.+ _6 S |( [% M ALBCS Airborne Laser Beam Control System.0 k' D0 _" v4 n8 ~4 S2 o- H9 L" Z ALC Air Logistics Center (AF). : G% H0 G. x/ J% CALCC Airlift Coordination Center (JFACC term).5 c+ h: s' q- o: h% A" L MDA GLOSSARY, VER. 4.0 A

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15#
发表于 2008-12-25 19:58:02 |只看该作者
15) V8 z; \' Q4 ?' ~+ r" R ALCE Airlift Coordination Element (JFACC term).4 ^3 z3 `# h- d }/ m ALCM Air Launched Cruise Missile.; v1 W- z( r, q ALCOR ARPA/Lincoln C-band observable radar. (USAKA KREMS). \- A8 u0 u$ w( h0 y ALDT Average Logistics Delay Time.# @$ u- f1 b' v% w ALE Airborne Laser Experiment.# E+ b6 c4 D0 P8 W ALERT Attack and Launch Early Reporting to Theater.* ?" s( e: u; t7 h9 E$ J0 A ALG Algorithm* J$ k! O9 {" u7 _7 \" v ALI (1) Alpha/LAMP Integration. (2) AEGIS Leap Intercept' l: `1 W9 q, p+ ]0 t, r) L- E' Z0 ` ALIRT Advanced Large-area Infrared Transducer6 C: ]- j+ p% r, B4 h ALL Airborne Laser Laboratory.+ F( D. X7 @( w# r% H+ R5 L Allocated 6 k# B" p5 v% F, A2 L( DAvailability! x/ U) Z8 S5 A0 L! x: c Requirement : F+ K- W9 Q" {" v+ h$ EThe requirement probability that an element is available to perform its function as/ U I; ]' Q, a0 ? allocated by the SDS. 7 X% H1 M) h5 }/ J! w4 ~% I2 |0 yAllocation (1) An authorization by a designated official of a DoD component making funds7 s1 j# J$ }1 {2 o available within a prescribed amount to an operating agency for the purpose of2 u4 Z% f2 y" F, e- J making allotments (i.e., the first subdivision of an apportionment). (2) The ; m$ x4 E' _6 j: ]translation of the apportionment into total numbers of sorties by aircraft type 1 j P( Z5 L: s% e8 O: Vavailable for each operation/task.! V W- z/ R5 R. r" X Allotment The temporary change of assignment of tactical air forces between subordinate. m* ~( ?; x; d9 I commands. The authority to allot is vested in the commander having operational2 n5 X" p- H$ N4 O$ c3 B command.: ~; H6 ~! \6 f* K# L0 Y6 l. A ALO Alpha Laser Optimization.3 W/ O ?( A$ j% C ALOD Adaptive Locally Optimum Detector (Navy term). 0 H; r) B8 l" d! eAlpha Particle A particle emitted spontaneously from the nuclei of some radioactive elements. 4 t6 F3 b0 @' P7 L% T gIt is identical to a helium nucleus, having a mass of four units and a charge of 6 v% {& E* _) v3 b5 o" p, z8 Gpositive two. ( B6 O# \! _! }* c OALPS Accidental Launch Protection System. 0 A. J! U+ P8 z3 X7 m5 ~. u4 qALS Advanced Launch System.& k' k! m; J; X ALSP Aggregate Level Simulation Protocol. W/ y+ h& b& {" m: Z4 ^: ]2 { ALT Airborne Laser Technology. 4 x, n( _7 ~3 ^) GALTAIR UHF test radar at USAKA. ' Z+ R' d: {# x- p% G& tAltAir Project name for the feasibility demonstration of a short range, air drop, ballistic % ]3 L4 {9 K9 s1 [: Hmissile target, dropped from a C-130 cargo aircraft.$ \8 `) {9 {' t* a: M4 m MDA GLOSSARY, VER. 4.0 A 0 ^3 h3 I" w, q/ R+ _" x16 " K9 Y. w* }7 A) q7 V4 X GAlternate' O6 D- B2 I& n! R/ |8 O( @ National Military0 w, p$ b; Y; { e8 B3 B; X0 } Command Center3 x' E% T4 M2 ^# y6 g! R (ANMCC) 6 Y2 a. f/ ^6 y5 n/ kAn element of the National Military Command System (NMCS), which serves as 4 e% e( W9 w- |' B- {: tan alternate to the NMCC. Located at Ft. Ritchie, MD. ! l# E9 `7 v: O6 H8 j, _Alternate % @. j: ^2 Y$ cProcessing and 4 Q$ S2 |7 z( ]( A! RCorrelation8 n& t0 X% H4 Q i6 R9 N Center (APCC)# j/ \7 Q8 i, x NORAD capability in USSTRATCOM Command Post that receives, processes, # O! l: }% w3 i. Fand analyzes TW/AA information." Q9 H& J! @& i- I" S Alternate Space0 }6 V' R( g! C Defense8 ^0 w" W9 R. m Operations: Y& A6 P) Y) \ Center+ f# f" O/ l+ Y1 x" L (ASPADOC) : v- r( Y2 D. X( N9 o* w* oThe backup to the SPADOC, maintained by the Naval Space Command, at 8 r1 F# u' z l2 ?- hDahlgren, VA, collocated with the NAVSPOC and NAVSPASUR.* ~. G. j- B) R' l ALU Arithmetic Logic Unit. ' @' x8 A0 Y! J `* c* S1 vAM Amplitude Modulation. ( u. l* R- |7 ?) qAMC (1) Air Mobility Command, Scott AFB, IL. (2) Army Materiel Command. (3)0 Y5 G4 S# ] N+ C. O& m$ g0 @ Midpoint Compromise Search Area. (4) Acquisition Method Code. (5) ' ~8 a; j* q4 r+ M0 iAdvisory Management Committee.. k, j+ o/ H3 l, y AMCOM Army Aviation and Missile Command (Oct. 1996).0 W. ?3 I& b# x5 D) L2 C* `$ H7 C AMD Air and Missile Defense * [; J) u F, N0 BAMDF Army Master Data File; `, D8 X1 ^; U0 H- \ AMDS Active Missile Defense System.. m. v. \3 X+ ]5 t AMDTF Air and Missile Defense Task Force (US Army term) ) O* `; t1 N: o6 q1 Y- yAMEMB American Embassy." J) O+ p! r \& W" h4 O% |6 u* H AMFB Acquisition Management Functional Board. ' j: Y- `% I2 }5 i1 ZAMG Antenna mast group. 4 w: R* m% E/ E2 l3 k% h( eAMOR Army Missile Optical Range. 2 e2 }+ H ?! b$ d7 KAMOS Air Force Maui Optical Station. G% O' Y) Q- X/ s' i amp ampere4 A7 p' c0 M( ?" h0 r& c. n- J 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.' T& K$ S/ N4 B6 [ AMS Aerodynamic Maneuvering System4 t4 y# F; y s+ L) d AMSAA Army Materiel Systems Analysis Agency. ' D# z8 T8 y* m* l# JAMSDL Acquisition Management System Data Requirements Control List.7 {4 X6 M6 j% ]% ?5 A& d* O, N AMT ATCS Mobile Terminal. / t9 I! I1 }. pMDA GLOSSARY, VER. 4.0 A; d8 y, P) g+ d' g+ X 17+ ^% b( G- @1 _% t4 \ AMTB Attack Management Test Bed # A0 M% O b1 \# N6 [2 ~0 f; zAMTL Army Materials Technology Laboratory. 5 _ l0 \% i4 g2 v `$ u: jA/N Army/Navy- |& b0 O% x4 j AN/TPS-59 USMC Firefinder radar. ) r9 H- F# k s2 `6 x$ x& bANALYZE Static Code Analyzer.& d. l3 a7 O' t ANIK E1 Canadian telecommunications satellite’s name. 2 [1 c+ l b4 b ~( nANL Argonne National Laboratory U- y: R3 c- |! GANMCC Alternate National Military Command Center. 2 T; h8 _9 f, E7 J! o+ G/ {& P8 nANMD Army National Missile Defense.3 a# s# s$ V; y$ ^( } ANN Artificial Neural Networks.3 N: W5 N- ^4 A) `/ k# s& L& x- j ANSI American National Standards Institute.: ~% }, L9 |/ c1 J: B/ ` Antenna Area The ratio of the power available at the terminals of an antenna to the incident ) B/ y# ^7 r) ^2 c8 w9 {: X# Cpower density of a plane wave from the direction polarized.; U& W; y) T6 W9 C- k4 ?0 i Antiair Warfare Action required to destroy or reduce to an acceptable level the enemy air and ( ~4 Z; z( g3 @; V1 dmissile threat. It includes such measures as the use of interceptors, bombers,: y+ [( C7 @: S& L: w antiaircraft guns, surface-to-air and air-to-air missiles, electronic V3 }. q7 v. N8 i; h' ?countermeasures, and destruction of the air or missile threat both before and v6 [+ i. ~" bafter it is launched. Other measures taken to minimize the effects of hostile air ! j. j9 v& @) a S6 T4 K8 taction are cover, concealment, dispersion, deception, and mobility (Navy/USMC). , t$ y. _- B: v& H0 u7 \Anti-Ballistic ( y! E$ l! z! j3 {* g. T+ _& {1 QMissile (ABM) $ ^0 T9 P' J' g! w0 ~% lThe term used for Ballistic Missile Defense (BMD) weapons developed to negate 4 p% I/ T# z1 I3 ^the ballistic missile threat in the late 60s and early 70s.1 T$ B3 Y7 r2 b8 ~$ G$ b+ Q Anti-Ballistic $ k6 P$ Z3 u5 s/ V9 WMissile System+ ~9 a: i6 Y8 o& D& L' E9 Z A system designed to counter strategic ballistic missiles or their elements in flight., ~8 p8 c' I" H' ~) Q/ W5 K5 D/ O, \$ g+ B Anti-Radiation - }0 S' I) @6 N" i* v0 RMissile (ARM)+ _9 u1 e9 x, Y; g" B$ F A missile that homes passively on a radiation source.3 f3 _5 H% z/ y6 [. w$ C: ~ Antisatellite - j2 W1 }) _" L' B7 [( x9 pWeapon (ASAT) / K+ y0 b. L- X- d3 e% y7 PA weapon designed to destroy satellites in space. The weapon may be 7 z N! X q7 Mlaunched from the ground, from an aircraft, or be based in space. Either a * h C: w$ Z% U- e- wnuclear or conventional explosion may destroy the target, by collision at high1 r$ O3 W$ `0 K& b( i. V) Q speed, or by a directed energy beam.$ P3 {; f3 a+ o% b$ c Anti-Simulation The process of introducing random variations to the signature characteristics of" [; n! t) l @9 ] an object in order to cause misidentification of the object by the sensors. The/ F9 j) z1 V& j% S$ h3 h disguising of an RV to resemble a non-threatening object such as a piece of* x u; z. t/ J debris, a balloon, or a decoy. 6 i2 Z' e0 E& R; A+ BAo Operational Availability 1 P, m N9 i0 ~" c, b* Q0 h5 B5 C& jAO (1) Associated Object. (2) Action Officer. (3) Area of Operations (4) Acousto- + x, K2 d: m, N! F8 EOptical. (5) Attack Operations.! @% V3 F% }7 f% Q1 V AOA OBSOLETE. Airborne Optical Adjunct (now called AST).) {) K; H8 s; M' g" R( D; Z MDA GLOSSARY, VER. 4.0 A# E/ n- H- I, |. B R 18 7 m0 j5 `( \7 B' ?AOC Air Operations Center.1 r% N2 ~0 H: o AOCC Air Operations Control Center.3 {( g2 F* r5 |/ t% a AOEC Aero-Optic Evaluation Center, Buffalo, NY.5 t) }* p8 ?- T0 p" |* m7 K% ^, @ AOI Active Optical Imager.2 y3 o' _3 A0 |2 L P) n AOP Airborne Optics Platform. 4 ]. H) F+ R( yAOR Area of Responsibility. ( E; R( \) U5 k. a" gAOS OBSOLETE. Airborne Optical Sensor.. T! ]0 n; }5 c) ~1 N$ w: d2 s1 z% h AOSP Advanced On-Board Signal Processor. $ E+ u4 @3 K1 U' d3 a4 K/ S0 y" z* DAOTF Acousto-Optic Tunable Filter.5 Q+ L$ b- M# _: ~1 b8 [ AP Acquisition Plan.3 @3 f* t' X1 M' Z9 R9 y APB Acquisition Program Baseline.1 a% u! J7 `; ?0 q1 K' H5 R! { APBI Advanced Planning Briefing to Industry (MDA).# ]( e# z4 l2 R9 y3 j7 |0 h. k, R$ ~ APCC Alternate Processing and Correlation Center.$ O" {" W( i' b1 w9 d# z APDP Acquisition Professional Development Program. 2 M( z/ e/ K- z# s7 E% p+ G( l. UAPEX Active Plasma Experiment3 ]- E* |) v! k4 m; ]+ x; T API Ascent-Phase Intercept.' d" J' i6 v- b& J; N# } APIPT Acquisition Planning IPT (PAC-3 term). 1 m$ e% R* ]2 PAPL Applied Physics Laboratory, Johns Hopkins University, Baltimore, MD. " r) W2 F! T# K" y) ?; J/ ?5 `APLE Average Power Laser Experiment. 4 e5 T4 I: N* A' y' UAPM Advanced Penetration Model. # U+ Q5 m# b! O; p) X; a: \( S6 VAPMA Acquisition Program Management Agreement. 3 [; `% |7 k- i |6 k7 L9 {APO (1) Apache Point Observatory. (2) Arrow Project Office.; N( Q- D. P$ y: l8 h/ o D% \9 c APOD Aerial Point of Debarkation. 4 N7 U4 ?& c0 B5 u0 T! ?% JApplication (1) (Software) It refers to a process; usually implemented as a software 2 P) G2 p: e4 ]8 J: Troutine, at the highest level (Level 7) of the ISO open system ) P) K! `7 Q* h2 N) M7 tarchitecture. (2) (SDS) It refers to such processes as the Battle 2 Y$ q2 i/ x: c) ?! PManagement, Navigation, Network Control, and other high level functions - c% \2 ]# b( F4 l; Hwhich may originate or receive messages over the SDS Communication & M4 B4 [7 h# h6 enetwork, via underlying lower-level protocols. (3) Software designed to+ P! W- P& M& u0 B fulfill specific needs of a user. (4) (Acquisition) The process of selecting ! y4 p8 C! ?+ O& u6 l1 irequirements that are pertinent and cost effective for the particular ( @$ H; M5 o# Q& L7 Nmateriel acquisition and contractually invoking them at the most+ N1 m- \; C6 U: y# j advantageous times in the acquisition cycle. ; f' N. z) w& _5 \MDA GLOSSARY, VER. 4.0 A * L1 c2 ?1 @0 t- ?2 h! ]19 : m) X6 R3 N* T8 }Apportionment (1) A determination made by the Office of Management and Budget which 3 @2 h; K8 N7 ]) N& xlimits the amount of obligations or expenditures that may be incurred 1 T6 r; s1 u( U9 Z( iduring a specified time period. An apportionment may limit all obligations; u' P$ F# m0 g; W to be incurred during the specified period or it may limit obligation to be % `4 B+ W/ h3 c; n: t+ v aincurred for a specific activity, function, project, object, or a combination 9 B. _1 n% A$ `# O xthereof. The third of four phases of the DoD resource allocation process.; N1 y& e- B* j* i) Q! T) c (2) The determination and assignment of the total expected effort by 6 k: B" y& D# P! bpercentage and/or by priority that should be devoted to the various air - ~4 r% i3 N1 i; L9 h8 G2 G2 n: [operations and/or geographic areas for a given period of time. (3) In the& {! x+ [8 [4 P' i5 F general sense, distribution for planning of limited resources among 9 l3 H- S* u+ s+ _% p8 N( Mcompeting requirements. Specific apportionments (e.g. air sorties and & M8 o6 G4 w& B- z1 uforces for planning) are described as apportionment of air sorties and ( K" {6 n1 I7 g* {forces for planning, etc.5 R- h) T _+ t2 T1 @ Appropriation An authorization by an act of Congress that permits Federal agencies to incur" T% ]) ], O! B- F, h; X$ T obligations and make payments from the Treasury. An appropriation usually7 O% L: c/ A" d) j( T5 ^/ Q7 j" I" ] follows an enactment of authorizing legislation. An appropriation act is the most; E2 A+ Y+ l9 n) h& y% P/ | common means of providing budget authority. Appropriations do not represent 8 V; I" z/ N, bcash actually set aside in the Treasury; they represent limitations of amounts, w/ a( W. _- _: ~2 z0 f" G which agencies may obligate during a specified time period. See Authorization. : V8 S1 N8 [$ R8 e+ G) }Approved: Z& L. X4 C+ v T- ]( z; ^ Program 3 @! B: [: y5 ~# l# TThe technical and operational, schedule, and quantity requirements reflected in ) K$ X, ]0 v( G# }; r& lthe latest approved USD (A) ADM, or other document reflecting a more current9 ?8 ^/ N( @: c. h6 ^ K decision of the USD (A) or other approval authority, such as the President’s ) A& p1 d# ?5 m. P& CBudget, the FYDP, and supporting documentation.& \" A6 h' C/ s+ n+ z APPS Automated POM Preparation Instruction. " K/ a( u: W* _: e4 ~7 R7 oAPS (1) Axial Propulsion System. (2) Automatic Phasing System.) l# T A& B' [! B; l1 U! j* U APT Acquisition, Pointing, and Tracking. # V8 r: h6 k+ pAPU Auxiliary Power Unit. % J# s0 s* M( u, r* {/ |: YAR Army 9 O- a a+ |- E, U& d8 @ARB Accreditation Review Board. ; P) ]/ n0 S: f" v# |" T( i4 eARC (1) Advanced Research Center, US Army, Huntsville, AL.9 y: E0 @& f- L5 r9 k3 U$ e (2) Atlantic Research Corporation. % _: G- a# s ZARC/SC Advanced Research Center/Simulation Center.) a9 c8 c6 e" A7 W' c" P1 E ARCCC Army Component Command Center. 8 o _6 {$ I$ _ a DARCT Advanced Radar Component Technology.+ X6 T. b$ Y9 d5 ? ARFOR Army Forces.1 Z5 W( [$ l( `$ h ARGUS Advanced Real-time Gaming Universal Simulation.; p8 e5 c5 w. w3 Z$ X7 X' W Architectural 3 K/ S& f. O5 m$ p* f$ ?% zDesign3 U ]9 ]% e/ `( r6 W The process of defining a collection of hardware and software components and ' r: n3 z- {/ ~; Vtheir interfaces to establish the framework for the development of a computer( |5 Q) ^0 Z2 R# C5 V system. : J8 v: w- q# V5 [( l c0 F& \& fMDA GLOSSARY, VER. 4.0 A7 m2 m& H/ E& ^- r* V% v2 \. r7 ? 20 C% X; \# Z {: H9 n0 cArchitecture. n/ W+ J8 O$ a% h0 D. O* r Integration. I4 Q* P5 M- F* [' I- f. h Study (AIS)+ D3 r/ E. l: H( M4 } A study to determine the performance of alternative architectures and element4 M- T) l6 X, B, a8 I( c7 K) X" c designs that satisfy BMD System mission requirements, and to evaluate the- }1 y, n* ~% g% n' x( N effect of changing threats and advances in technology on the systems,1 S! g/ |! [7 x7 M) D- I" V subsystems, and components making up existing and proposed architectures.7 x: n6 ?' i0 F1 z- H6 v ARDSOC Army Defense System Operations Center. 7 Q& e' N2 k4 j, \1 {& r6 ^( o& hARE Aerothermal Reentry Experiment./ V( g: S1 O9 S Area Air Defense, w- v8 d: W) X5 U3 J Commander ( V. L& ?* X4 w0 d( U) X(AADC) 7 A2 B# C2 g8 {8 k9 J, ^The person given overall responsibility for air defense within an overseas unified, \. S- t6 z1 F, N# e* n command, subordinate unified command, or a joint task force. Normally, this will: X, f# x% b8 w0 z7 J' { be the Air Force component commander. % C* \ Q2 j3 Y( I/ \4 qArea Defense Defense of a broad geographical area that contains both military and civilian 0 g6 t1 D1 _& j: o, c4 U+ vassets (i.e., depots, towns/cities). (USSPACECOM) 6 e/ w5 J0 o5 W. J+ R9 PArea of Influence A geographical area wherein a commander is directly capable of influencing ) F$ y( E) U$ U8 a; O( Noperations by maneuver or fire support systems normally under his command or ; \/ F0 R1 |0 g; s( Gcontrol. ( _1 o5 V* I( }# P) I( ? }( w% [Area of Interest! x1 q- v/ D2 P/ K (AOI) . n8 \$ S" Q' z, }The area of influence and surrounding areas that is of concern to the ' h5 k! b5 \- acommander for the objective of current and planned operations. This may, E! a( P0 B$ r include areas occupied by enemy forces. 4 \' I6 |, P& P) `. E. u1 eArea of( U$ }! e$ t; w Operations/ N+ i8 l- n0 k' `+ s6 w That portion of an area of war necessary for military operations and for the # ]; @% n h9 ]administration of such operations.3 c4 q4 f- j( v! C2 q' L Argus An airborne optical platform operated by the Air Force’s Phillips Laboratory. 9 K$ Z' f( E" A& e; MArgus is sometimes used by MDA to collect flight test signatures, * Y' B7 z' x$ J/ z# M4 E1 wphenomenology, and intercept data. + M! Y6 p k; d9 ^+ v# Y- HARGUS Advanced Real-time Gaming Universal Simulation.6 z; e/ f: X5 {) ~ ARH Anti-Radiation Homing. ' ~; a' O2 i, J# h9 IARI Army Research Institute

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ARIES Active Radio Interferometer for Explosion Surveillance.9 z( z' @3 d. @. ^1 @ ARL Airborne Reconnaissance-Low (USA term) [circa 1996 = Reconnaissance$ x" k$ L2 F" q. U$ w3 w equipment in Dash-7 airplane].$ J* L3 g* R! \) o" |) N ARM Anti-Radiation Missile. + {) d( h) `9 }$ e* p6 FArms Export 8 b- u0 ?7 e8 PControl Board ) h) T; _: G0 j) S8 z- g. q6 t(AECB) " D+ z' D1 u/ x9 H- V8 VAn interagency board, chaired by the Under Secretary of State for Security9 u! g% Y0 b+ v2 _' Q Assistance, Science, and Technology, that serves to advise the Secretary of' @, V. A2 |$ f& q. R8 D6 Z State on matters relating to security assistance program levels and arms transfer& Q$ p+ E# c- ?. V policies.9 L( `4 V/ ^( p) f8 F! y8 L Army Brigade * M) Q: d8 F/ G0 A4 FCenter (ARBC) + }# }6 D* O) n: E. x6 {4 V4 H; `, wThe Army center between the ARSPOC and the ARROC with C2 responsibilities 5 z) V. H7 K- _% v. [for BMD.' k8 T9 o; c/ R" k: \* ? Army Component: j/ W+ A* e1 f2 Z Command Center " h/ m l1 q$ F3 y2 h) X(ARCCC) - `5 X" ~# r2 M# x t( ^- YA segment of the Command and Control Element, which replicates capabilities of0 m2 X E; P& t* Y the CCC (BMD) segment and provides administrative and logistics support to 6 ]- ~6 k$ N# v9 P7 [Army Component Forces with the Strategic Defense System. The ARCCC was 3 | W; H9 L7 [, Z- Ueliminated from the CCE (now C2 E) architecture during the last SAS system( ~! j7 O# w T- ^ architecture definition update. ' j; _& p% Z r2 N$ w1 W, BMDA GLOSSARY, VER. 4.0 A% `' }/ f% |9 r+ t; L* v 21 5 n3 F/ a7 Q7 Q8 K2 ?/ R6 [8 SArmy Materiel$ E0 ~* F/ v' @3 _ Command (AMC) 8 \/ ]5 R1 x0 k! O! a/ x+ RPerforms the assigned materiel functions of the Department of the Army, & C j6 y1 F) j# t% n1 b. W: e, Yincluding research and development; product improvement; human factors1 o3 {7 X) E2 a0 U" b; Z engineering; test and evaluation; procurement and production; new equipment) `( |; f% }8 e' @9 J training; scientific and technical intelligence production; international logistics: d2 H" v' F/ A; Z' }, D# ] programs; and storage, distribution, maintenance, demilitarization, and disposal , _8 q5 W8 z. U8 E! t9 Hfor the continental United States wholesale supply and maintenance systems as . F* g3 h. E5 E2 C# @well as for overseas systems. Located in Alexandria, VA and moving to Fort; b+ [& Q) ]8 h2 @4 l! I. C Belvoir, VA in 2003.. J( k* J7 C, M: A4 d6 \8 R5 I Army Space+ R2 |2 L) C& H+ _ Operations9 B2 u1 E' D {3 x2 T Center (ARSPOC)- x' T: U0 D0 U; k6 m7 X$ E' P The Army Space Command Center responsible for logistically/ administratively1 e2 P# d0 G. z5 Y( o' {# M controlling assigned SDS elements and which shall also include the capability to/ p; G0 x. {! q+ Z/ z& ] assure the BMD mission is carried out should the USCINCSPACE CCC be lost.1 Y- N, v7 Z" V! M: R: y4 s ARNG Army National Guard. 9 E0 n; D- N y; Z/ |AROS Airborne Radar Optical System.7 I8 r1 D, s+ |( M$ b ARP Address Resolution Protocol& m6 b. l; f# {1 k ARPA Advanced Research Projects Agency. (Formerly known as Defense Advanced o( X% j+ s& }- l) ], ?Research Projects Agency (DARPA). $ I. p( p; Z* P7 Z! k8 _ARPANET ARPA Network.1 p1 W2 _% T( V- b' H ARRC Allied Command Europe Rapid Reaction Corps. ( `/ c+ E6 q5 o; ~: z/ k: n) w8 sARROC Army Regional Operations Center.7 w( C' l( R2 W$ W Arrow A technology demonstration program started in 1988 and designed to meet % ~4 P5 u# I! b; [$ ], @Israeli architecture requirements for area defense of population centers against, N! `2 ]& k; R# y3 P- O1 U: r6 } TBMs. ( _0 _1 g- f2 ]" F- |6 WARS (1) Airborne Remote Sensing. (2) Action Request System. ( _+ H! k% `% G0 ^6 E+ S$ gARSCS Automated Rear Services Control System. ; n; b, x8 G: A! dARSPACE U.S. Army Space Command. _; F) X8 ^4 h: F ARSPOC Army Space Operations Center.6 V2 d7 X X7 y$ F3 Q. Q( v, K- v4 n ARU Alignment Reference Unit (PAC-3).! p. [9 f+ L1 F4 O+ [8 y; \* e& @ ASA Assistant Secretary of the Army. & o! }9 w6 [& Q- Y3 _5 W, CASAF Assistant Secretary of the Air Force. o+ ^6 S5 Q l" w3 Q$ D- h ASAF (A) Assistant Secretary of the Air Force (Acquisition).8 ~2 a+ \: p: D/ v0 F: h D2 ~! W ASARC Army Systems Acquisition Review Council.7 w! ], `7 n* R2 \5 l. N+ b' M ASARS Advanced Synthetic Aperture Radar System.- `* j( y+ ?7 \( O$ O( R) s. j ASAS (1) All Source Analysis System. (2) Advanced Solid Axial Stage. 2 d* A. O4 }/ a/ ^( D: dASAT Antisatellite Weapon. . p3 H; _ t5 ^* F e: k' L! aASB Army Science Board. ( j+ Y5 O7 ?8 f! v) H$ s: @MDA GLOSSARY, VER. 4.0 A # R k, h4 I% a1 L3 [2 u/ r& r* F22! z8 ^" S: |, u8 v' x ASBM Air-to-Surface Ballistic Missile., }- f2 r& V* t+ f. X ASC (1) Army Space Command (See also USARSPACECOM, ARSPACECOM). 3 H7 P7 B. d. }- Q& G(2) Aeronautical Systems Center, Wright Patterson AFB, OH. 9 P; c( h2 K/ S9 n4 x! EASCC Air Standardization Coordination Committee. 2 U0 {, _" D# i6 a# m# J* ^ASCII American Standard Code for Information Interchange. ) c! `3 r& c$ u' Q# KASCM Advance Spaceborne Computer Module w" I) u' h( a8 T" w5 b# @ ASCO Advanced Systems Concept Office! Z5 Q8 u O& B% l. R' J3 G I" ? ASCON Associate Contractor : ^: _, a6 f* e8 ?5 @3 cASD (1) OBSOLETE Aeronautical Systems Division (AF). See Aeronautical5 C$ [! W. q+ U) M Systems Center (ASC). (2) Assistant Secretary of Defense.5 v0 \0 U2 [. j) }0 l, y ASDC Alternated Space Defense Center* b/ H. X( B& d3 ~7 V6 E8 q2 D7 C ASDP Advanced Sensor Demonstration Program.- H0 [& ` R8 ~ ASEAN Association of Southeast Asian Nations , l, G4 W6 _! |7 E8 g! {# iASEDP Army Space Exploitation Demonstration Program.+ n2 o+ g+ T! g3 L+ M ASIC Application Specific Integrated Circuit.& w) K# x z8 \ ASIOE Associated Support Items of Equipment (USA term). 2 h+ u9 {+ }# D* J: bASL Authorized Stockage List (USA term).: {4 }9 u. S. n6 }! `, s: [ ASM (1) Anti-Simulation. (2) Anti-ship Missile. (3) Air-to-Surface Missile.$ M$ `) U% p4 V3 Q2 O1 l& e) f1 q* [ ASMD Anti-ship Missile Defense.- B- o& f7 _# ]) h: A ASMDC Army Space and Missile Defense Command, Huntsville, AL (1998).4 a0 y# G1 r. y7 I! m ASMP French Air Surface Missile ! l% d5 l, _& G5 d8 X, s; t' xASN Assistant Secretary of the Navy.4 ?/ r; n1 A6 B+ B, h! k4 A ASN (RD&A) Assistant Secretary of the Navy (Research, Development & Acquisition)., `7 F9 B! ^( V ASN (SB&L) Assistant Secretary of the Navy (Shipbuilding and Logistics). ( b; P6 D7 X2 x$ y& U6 |ASOC Air Support Operations Center. \$ a* _7 p2 x! m0 v! }- w+ N! u ASP (1) Airborne Surveillance Platform. (2) Advanced Sensor Program. (3)! W s) u& q* G: U6 b O Advanced Sensor Platform. (4) Annual Service Practice.5 P$ Q3 m* |# g9 @9 @ ASPADOC The backup to the SPADOC, maintained by the Naval Space Command, at ( k9 e4 E6 x* v- ~! VDahlgren, VA, collocated with the NAVSPOC and NAVSPASUR. + @; ]! {" N* v& v2 A, sASPIRIS Advanced Signal Processing for IR Sensors. 0 [( a6 |8 s) ?0 K3 }6 Q( g4 DASPJ Airborne Self Protection Jammer 9 G& }7 |+ b* h) X4 N" F2 JMDA GLOSSARY, VER. 4.0 A ( T! z0 u1 R x1 o. \5 |9 z23) P" h) W( _. |0 s ASPO Army Space Program Office., [3 [% x1 _8 G" ~' r ASR Acquisition Strategy Report.- d1 X' X+ x* d: R- u ASROC Antisubmarine Rocket.; m8 {) a5 f' e+ d ASSERT Augmentation Awards for Science and Engineering Research Training (DoD/ k* I+ x x3 R% q, b# b3 J8 ` term)." b7 a& s4 `5 `9 y; d Assessment (1) Appraisal of the worth of an intelligence activity, source information, or ' E6 T- @" n6 A4 D; p7 z$ J/ d# Yproduct in terms of its contribution to a specific goal, or the credibility,6 X4 c- e% H: R0 y% Y reliability, pertinence, accuracy, or usefulness of information in terms of/ F6 J7 [/ }! y5 P* c" |; M5 f an intelligence need. When used in context with evaluation, 2 \) z% Y& w" \assessment implies a weighing against resource allocation, expenditure * P S! x2 r. C7 }0 l0 z+ zor risk. (2) An independent evaluation of a model or simulation by an / V: H" x: T4 MMDA-sponsored Confidence Assessment Team for a specified purpose.5 J3 U$ O! a3 X& ]6 D# [# @6 x ASSIST Automated Systems Security Incident Support Term (DISA term). & O% I g: l# q$ Z/ X1 H+ g& C. SAssociated7 L& S& R7 @& @/ `% g ~ Object : O4 {. y. v0 T; |& y5 o: {) UObject that remains near a deployed reentry vehicle, decoy or chaff puff.2 @1 U7 t `' D1 f8 A! v Assume Course 9 Q ? O% q( S# BOrientation ! m: }4 S! ~+ u) \. IMake course attitude adjustments to the weapon platform orientation prior to - b |* j) Z& _7 M: k5 U% xengagement. ! X! O) }) n, `1 O( Y/ [ p5 lAssured Defense Strategies and tactics that result in (specified) a high probability of kill against 6 ^ n' o" `9 @designated targets, regardless of the interceptors required. (USSPACECOM) 6 @3 U' j& c2 E$ i9 K5 B4 M3 vAssured Kill This option requires defense segments to employ tactics, which produce the " d) H9 a; C6 F0 Q) D3 L6 Nhighest probability of kill consistent with the available number of defensive, U/ c2 \0 G6 b1 D. ]. m resources (interceptors). ~6 d5 b3 _: z AST (1) See Airborne Surveillance Testbed. (2) Advanced Sensor Technology.5 ?8 s( Z) E$ b$ y( |4 ?7 u ASTMP Army Science and Technology Master Plan' g% j$ Z5 b1 I' u9 x* B0 R% N ASTP Advanced Sensor Technology Program! ~8 r- P. d& P/ z1 O4 { ASWG Architecture Systems Working Group.7 t% @5 S( Q8 ~- _ AT Advanced Technology' `$ D; I. \& r* E% f* @' E! ]/ p0 P ATA (1) Advanced Test Accelerator. (2) Avionics Test Article.% l& k/ S: Y0 Y6 I% m ATACC (1) Advanced Tactical Command Central (USMC term). (2) Advanced Theater Air $ r. @ g" Z5 P7 ]Command Center2 n# ^$ b6 ?, p. y& J, t0 _ ATACM Army Tactical Missile+ C, h+ u6 ]6 f4 p8 A6 h ATACMS Army Tactical Missile System.% S! X- B' _; R8 Z9 z3 W7 Z ATAF Allied Tactical Air Force (NATO). ) w! `- [: c; XATB (1) Allied Test Bed. (2) Analytical Tool Box./ x& N3 g* B8 v0 q v' J ATBM (1) Anti-Tactical Ballistic Missile. (2) Anti- Theater Ballistic Missile 0 `0 G0 M% ?1 _: {$ DMDA GLOSSARY, VER. 4.0 A) c: f) Z' d6 G7 J z' O* Z7 ] 24 " ^2 I$ U+ T; m0 n0 U" uATC Automated Technical Catalog& L6 O$ `/ ^$ b( m+ ? ATCCS Army Tactical Command and Control System # [1 y* h( x% @% z1 uATCOM Army Aviation and Troop Command (pre-Oct 96) (See AMCOM) 2 M; J5 M" H1 J4 N7 }% w% C! WATD Advanced Technology Demonstration. " b) q) H* b2 r n# a+ y* ?. r9 ^4 S' FATDL Army Tactical Data Link.( q# e& r) X8 c* o( R8 f" f1 H ATDM Adaptive Time Division Multiplexer. 5 {3 X% r. S; I/ J2 y4 ^& \! ?ATDS Airborne Tactical Data System. / i5 e( G: L" P9 ]- LATE Automatic Test Equipment.# i) y$ e/ `" ? F3 k ATH Above the Horizon& Y5 u+ C3 m3 s. L& d ATHS Airborne Target Handover System.) b; Q7 Y/ L4 U. Z6 v ATI Advanced Technology Interceptor$ z* s& t3 Z5 d: ^- i1 D ATIM Advanced Technology Insertion Module 3 e; V/ J6 a) M: l( ]7 o6 {4 n4 jATIS Alliance for Telecommunications Industry Solutions * d' L' x9 A ~8 M7 @6 q! _( xATM Anti-Tactical Missile. 1 r$ d" u' j, a2 t7 E# q9 i1 mATMD Army Theater Missile Defense.; Y( [1 Z6 X+ E+ b- T+ {3 K3 c ATMDF Air and Theater Missile Defense Force (US Army term). 9 J0 F$ V3 M8 D2 i7 H8 tATMDPO Army Theater Missile Defense Program Office.* Y9 ?( G" b- B2 s; p ATO Air Tasking Order. ! t4 z9 Y R3 \- t% j6 DATOC Air Tactical Operations Center.! W. ^5 [2 n0 J+ R ATODB Air Tasking Order Database.7 [ |3 Y2 X I1 u" `% D8 e$ @ ATP (1) Acquisition, Tracking, and Pointing. (2) Authority To Proceed. (3) Allied - ?6 i" W2 U$ A1 }$ |Tactical Publication. (4) Acceptance Test Procedures. (5) Acceptance$ X4 w. V# b' X: _ Test Program. (6) Advanced Technology Program (Department of0 R9 \ f9 v" m Commerce term). (7) Authority to Process. * H7 `8 }1 F9 s5 Q, LATP&FC Acquisition, Tracking, Pointing, and Fire Control.: L5 Y" T. r5 o& ~ ATR Autonomous/Automated Target Recognition. a- u' [: E# g4 _ ATRJ Advanced Threat Radar Jammer.& \1 D( K# A8 g1 u1 E7 X0 g! b6 h- _ ATSIM Acquisition and Track Simulation. 1 z: x; C; ~. dAttack and5 a2 [* X* n6 D `# |4 @7 L9 H Launch Early; u# p2 Y, g! n8 M" z$ | Reporting to 8 o: a. t- ?# ?% d3 v! fTheater (ALERT) ) |; n* h# l/ E% I/ ?An upgrade to ground station mission processing which exploits inherent satellite) c2 c1 I/ x. W capability to provide theater missile warning and cueing., k! ~0 _3 N, h( ?3 R8 R. Z9 p MDA GLOSSARY, VER. 4.0 A ' o% ?; B8 b3 r+ u- V( {" q25* ^1 H1 x; n* B* F% F Attack3 r9 s W# z4 k2 k: |( R2 r" | Assessment (AA) / b, I; B+ M' E' p3 p6 p" IAn evaluation of information to determine the potential or actual nature and " K) O3 u( j' r, }) r8 n$ zobjectives of an attack for the purpose of providing information for timely6 C* W5 o1 R( U7 z decisions.* l/ x; E+ u. \) p Attack5 I# ~( k1 b/ Z; N Characterization ! O) s3 m, h a& T1 ]7 t3 gThe process by which the parameters of an attack in progress are developed,% A1 q+ h% v: i. I" K updated and defined.8 p9 r! J2 C' H t) @5 k7 e Attack 7 h( H( `0 [$ v4 C( SOperations " Z( B, _# y# C, ?( Z/ N. p(Counterforce)3 M5 h" r% B% M+ _9 t: R- { Attack operations prevent launch of theater missiles by attacking all elements of2 v1 s* [2 U4 M$ P the overall enemy system, including such actions as destroying launch platforms,: U8 ]* i* x$ z+ d support facilities, reconnaissance, intelligence, surveillance and target acquisition 1 H" [ c! {! B# O* f Eplatforms, command and control nodes, and missile stocks. Attack operations8 n3 g/ g6 J. _) O can be executed by space, air, ground, maritime, and special operations forces. # K0 h1 t: j+ K3 @) t7 a& PAttack operations are considered one of the four pillars of TMD capability. (JCS : B) c. B0 b* k) f6 VJ-38 CONOPS)5 ~8 j3 M8 _" M, A- E( v m1 g; ~' \ Attack Price A concept used to evaluate the performance of a BMD system that defines/ D8 \* n1 }/ e+ Z9 m5 N “price” as the number of Re-entry Vehicles required to ensure target destruction.5 f4 M7 F, d* U# m8 k1 I3 |- h Target destruction is defined as a probability of target survivability using the draw D9 k- X3 C4 r4 B9 [; Adown curve. 3 \" [2 K1 }' @+ s+ e, eAttack Warning/% \7 U6 s* }6 G& c& @ Attack6 h" V3 D2 N9 Q5 T; k( c; e9 R Assessment9 t3 j* b& G+ b, D (AW/AA)* \1 O3 `0 N+ ~# Y% e; l Integrated air, missile, and space defense data used to determine whether an $ V+ O" w7 U+ h* D9 Nattack is underway and, if so, what is the type and strength of the attack.# i! Z" D& T9 ~5 D ATTD Advanced Technology Transition Demonstration. : j5 N3 J/ v% i+ a$ NAttenuation Decrease in intensity of a signal, beam, or wave as a result of absorption and1 L1 A+ C2 ~" A9 v1 z scattering out of the path of a detector by the propagating medium, but not 0 w& K8 t0 Y, \including a decrease in intensity due to geometric spreading (e.g., the inverse 3 e6 o( E( [7 V2 Dsquare of distance). ' Q2 ~! k' e4 c* m, U- QATV Advanced Technology Validation. - G$ B5 z, L3 `: B/ aAULS Accidental or Unauthorized Limited Strike./ g6 W5 X9 y9 C AUPC Average Unit Procurement Cost. + A" p% C0 c7 ^AURORA Canadian aircraft.6 s. F$ F4 q$ K/ V9 z Autonomous ) Y7 P: h3 t' F5 k3 @5 kAcquisition" l0 p7 N# `2 H7 @ Range (Max.)% h: L; C' N j5 T0 _! k* w: p The maximum range at which a target can be acquired by a sensor operating in - G# D- k, `/ H) U, g/ g/ ra non-cued mode. . `: S2 l" n" a6 H# EAV (1) Air Vehicle. (2) Audio-Visual.: g0 K. \- U1 l AVATAR (SAIC) Flight dynamics simulator. , ?/ W: ^% N X2 ]' s- b( qAVC Advanced Vehicle Concept. . r. o: j; D- a5 r& B$ X7 YAVCATT Aviation CATT (US Army term) 4 W9 M: _3 ?( H- `8 mAverage Unit3 u$ Z9 r* z! G, L2 @, } U$ u4 i Procurement ; |" f4 s' Y7 A/ e$ e8 O( U U7 WCost (AUPC) * v( ^% ~' M& p' K2 f. C+ iDesign to average unit procurement cost objectives, expressed in constant + [6 m+ C: U: I& d$ F% v4 rdollars, are established for Milestone I, Concept Demonstration Approval. AUPC2 J5 y) q: H0 e& j/ y includes recurring flyaway, rollaway, sail-away costs (including nonrecurring; Y& s# \+ P8 E7 @; T production costs) adjusted for data, training, support equipment, and initial0 Z: ?3 y6 K% m3 g* d. W# F1 i spares costs.9 C; O" p+ R+ g/ p MDA GLOSSARY, VER. 4.0 A ; g) q1 D. t$ c5 I& I26 5 ?( z/ Y; A2 _6 |5 v0 U2 e* I ~+ k. aAVHRR Advanced Very High Resolution Radiometer. A: e6 P! q( d! T6 H5 pAVSCOM Aviation Systems Command (US Army).- j/ U0 @* b. s1 k AW/AA Attack Warning/Attack Assessment. & j& Y& `" h c; uAWACS Airborne Warning and Control System.3 c! R. W Y( a* `) f3 K AWC Air Warfare Centre (UK RAF term)./ @3 h" C- Y; u$ k3 T! E! o AWE Advanced Warfighting Experiment 3 E5 S4 A8 a: zAWG (1) Acquisition Working Group (GSA term). (2) Algorithm Working Group.0 X' r5 b( A& @3 K! U AWS (1) AEGIS Weapons System (2) Advanced Warning System. (3) Arrow Weapons ' p" G9 X& H1 N3 d3 x" g( c. iSystem (Joint US/Israeli BMD weapons system). 9 w# c" r$ Q( Q! U) CAzimuth Orientation of a vector projected onto a reference horizontal plane, relative to a % U. K: x, [; F# c" Preference direction in the plane.: \: v- [8 R7 C y6 N: @ Azimuth Angle A positive angle measured clockwise in a reference horizontal plane from a " r: p& M; g1 s" ureference direction to a given direction. For a topocentric-horizon coordinate : ]) R5 M. D. W6 u7 {3 s9 ~- Mreference frame, the reference direction is due north (true north or magnetic& u) w7 h x1 \! \3 _8 G north, depending on the application).3 Q! I1 r3 P* n; s. Q0 e MDA GLOSSARY, VER. 4.0 B* l9 P( N! p2 T. ?- o8 O9 B 27 / a+ S8 v5 x H C7 |7 zB Billion.& v: h5 i8 h" n( F B Spec Development specification.+ D2 |+ |, c# o! Q& N. [ B2C2 Brigade and Below Command and Control System (Army term). 7 P+ D) ` F, lBA Budget activity. The budget activity codes are: , V7 t8 o. h3 \! u( D+ L5 s4 s4 g& B! P01 – Basic Research 2 }; f$ g2 h3 o0 F02 – Exploratory Development1 s* E5 _1 f7 m& ]6 r 03 – Advance Technology Development6 M6 w3 B* H6 @% s 04 – Dem/Val 2 g/ y; T1 @; A& a. L, |05 – EMD! m4 C7 y! {7 N3 K! J 06 – Management Support7 E5 {% j5 z: L2 X; Y6 i% Q 07 – Operational Systems Development 5 q* f. n, w( P2 Y* N; W: u+ W v$ j0 p3 RBAA Broad Agency Announcement. 0 |. n S* b6 B O# lBAC Budget At Completion.- I& F+ Z" P6 d% |1 X, C5 O+ F1 x- n Backbone6 b6 W9 X& R* h0 S6 t1 R Network 2 b) w% W. _3 T" K- X MConsists of the space communications network, the ground communications& b' q+ X/ N5 v# P$ Y) D$ \' Z e network, and the interconnection between the two.* {; x% ?% V4 s0 `! V Background ' L' t8 h, k) JRejection( G( y8 S+ r8 `) L (Surveillance)( p, p) \: x# _ h5 l% n The suppression of background noise for the improvement of an object signal.* U: [" h! N$ f# K BAE Battlefield Area Evaluation (USA term).* }: b I4 ?) [- A! d BAFO Best and Final Offer. 5 Z6 P' D8 r/ vBAI Battlefield Air Interdiction.) h1 |' y3 T! c Balanced/ e$ Y% ^2 o$ S5 ^& K6 Y$ M Technology 6 Z1 g9 Y, |: TInitiative (BTI)1 C: L; ^+ m) }6 I' P9 U DoD’s program to hasten application of advanced technology to the most critical& q# L, c. q1 ~' G( F4 b+ ` and urgent operational needs. BTI projects are demonstrating leap-ahead+ b* I9 Q- {' V% i; ]! p1 u capabilities enabled by emerging technologies in smart weapons, target& C# z2 i! h! F3 ~4 G0 n- t y acquisition, battlefield C3I, active countermeasures, and ultra-wide bandwidth L1 H% \3 `. g' e" ?; f( h radars and high power microwave systems. 0 L: p$ _1 [* j# x6 kBallistic U5 \% @- z1 E/ v) TCoefficient; ?% ~ T1 ~/ }) u3 f The weight of the object divided by the product of the coefficient of drag and the 4 n! V% @+ ?3 R' w+ g. G7 B* s0 {! rprojected area (W/CDA), in kilograms per square meter. ! ~; `) c- W" J$ qBallistic Missile7 {9 P. u% I/ Z& I8 m; q; h (BM) ( c7 T! ]2 n) j' ?3 b! \, N! n/ y$ UAny missile that does not rely upon aerodynamic surfaces to produce lift and$ }: S, e+ n8 d" y4 L: B- x" X: ? consequently follows a ballistic trajectory when thrust is terminated.( n M" n/ {$ \. p0 p6 m Ballistic Missile ( T3 B" X. F9 _( O* bBoost Intercept2 y0 }! y- N5 k (BAMBI)# i% `* x' v# Y4 @' K! C) E OBSOLETE. A 1966 system concept that a Lockheed study group developed in ' g2 v; r. Z. tanticipation of possible government interest in the development of an ABM % H# E" a9 ]% jcapability. 9 y7 @: \( Q% }Ballistic Missile ( P; d2 B0 ]2 R$ T: V. CDefense (BMD)( V0 m1 P% i) G5 G7 a4 |% H6 C All active and passive measures designed to detect, identify, track, and defeat q- C0 n- U. ?; h2 h, Q5 u+ zattacking ballistic missiles (and entities), in both strategic and theater tactical 8 j: Z# ~2 i9 O4 P% p7 sroles, during any portion of their flight trajectory (boost, post-boost, midcourse, or " k- {0 s# D' v% t0 N0 F. J4 }' yterminal) or to nullify or reduce the effectiveness of such attack. ; y8 }4 Q. d: r# m4 K0 bBallistic Missile% h0 I0 U$ d! O$ u% T$ D% r2 q9 s Defense Battery2 M$ C1 q: K3 W, Z* L An Army operations center, which operates and maintains BMD ground-based % U$ T9 R9 R; F; z Kweapons and sensors. / l+ C5 h4 c- V0 H9 G. sMDA GLOSSARY, VER. 4.0 B , i) N$ d, K- x28 * P( U; {' _) Z+ s7 [( v- HBallistic Missile( l8 B9 }+ ~; C' h+ [ Defense (BMD)/ K i, h- U/ B1 C; C8 F Cell+ O# t4 r# {; ^2 s: K This facility will be located in the USSPACECOM Consolidated Command Center ) e* x! `2 {/ C' |6 S(CCC) and Space Control Center (SPACC) to support the Space Force E3 F6 X, v5 S$ j5 A Application mission area interface between the BMD system and + L/ L- L( n7 KUSCINCSPACE. The BMD Cell will provide command and decision support to , R" U( ^. j; Y" f% y3 o9 x/ Z6 K! AUSCINCSPACE. " L& V( C' u" ]2 {: ZBallistic Missile* z G( X( G* h5 J Defense$ F, b y$ p' M2 z( ? Operations, A9 {3 C" s/ W+ r Center (BMDOC) ! m% p( W/ U3 j V1 OOBSOLETE. Initially located at the NTF, and ultimately in the Cheyenne 6 H4 x0 i) ~) n( N, O$ S& fMountain Complex, this facility supports the BMD Cell-USSPACECOM information! h3 b$ }# I3 L3 d$ ?9 V interface. The BMDOC hosts a BM/C3 processing suite and the operations ( |0 w9 F1 u* E1 q! S6 }personnel necessary to coordinate and integrate system-wide BMD activities and 9 A5 J+ q a3 F: R8 M. T) q8 I1 ysupports the USCINCSPACE planning and decision process. % j/ o/ [* W4 u% F+ gBallistic Missile/ B' d8 ~5 p6 h7 T5 k' j i+ \ Defense . j1 P: ?- L. U0 e0 g3 \/ qOrganization C1 V2 k( q; w2 L9 L* A) j5 l' V# |0 { (BMDO); F) ]4 n. |- x, B1 }8 ? OBSOLETE. The former name of an agency of the Department of Defense w X4 Q6 L5 r5 |; u7 D% @8 o5 p whose mission is to manage and direct the conduct of a research program . B. ~' ]' P. G, O, K! z$ \* _examining the feasibility of eliminating the threat posed by ballistic missiles of all / A v Y H7 ` m2 w1 }ranges and of increasing the contribution of defensive systems to United States* ]0 |5 W; j4 q$ p; K% J! P and Allied security. MDA is the successor to Strategic Defense Initiative8 W4 W6 p" n" s9 C8 f f. J7 P Organization (SDIO). See MDA.$ Z# i" U/ [7 D8 K) C, {5 J! L7 Q Ballistic Missile; f V- o' Z! N: n9 H# L: o6 G2 Y Defense Program 3 D( k! S, a# f: T q, r" ZAn architecture comprising three objectives: Theater Missile Defense (TMD), % q) o: A2 s& \7 N7 A; v( b7 cNational Missile Defense (NMD), and Follow-on Research Programs. # H% U3 z- C! N# N" A, _" zBallistic Missile # H$ z4 [* Q! t FDefense (BMD) - F3 M, Z) b2 \+ D5 fSystem$ k1 o" q- A& P2 b5 i (1) An integrated system that employs layered defenses to intercept missiles 5 O% Z: i+ o7 {" |4 e! A6 Lduring their boost, midcourse, and terminal flight phases. (MDA Lexicon) $ R4 n' w- H# K. R& L(2) The aggregate BMD BMC3 and BMD forces that, in total, provide defense2 R9 W- R- C4 {6 i- ] against ballistic missile attacks to North America and other areas of vital interest. $ X+ @1 p: [$ k, w1 L(USSPACECOM) 2 z7 x: C7 e, s9 `Ballistic Missile8 b8 E% `6 h" C, Z5 v; x, C+ y* m Early Warning . L7 s/ R3 t+ h: I2 Z7 X( HSystem (BMEWS)" W' I: u' F$ | }, o Provides tactical warning of ballistic missile attacks, and is part of Spacetrack+ G" @2 i" j. U- }8 z system. A two-faced phased array radar located at Thule AB, Greenland; three . C+ @& M! f. ^7 Hdetection radars and one tracking radar at Clear AFS, AK; and three tracking 7 B* @7 Z; U- t8 Xradars at RAF Fylingdales, UK. * y5 v# h" p$ z1 Y0 H% h. b$ ABallistics The science or art that deals with the motion, behavior, appearance, or 7 |: |% W8 u/ [$ `4 |modification of missiles or other vehicles acted upon by propellants, wind, gravity, - T( c* j( \0 W* s3 u% _8 Itemperature, or any other modifying substance, condition, or force. 5 B. h5 a {+ mBallistic $ a9 N I8 ~8 N, `! t* WTrajectory : H* h& f9 l+ G+ S+ u, Q+ cThe trajectory traced after the propulsive force is terminated and the body is5 m( u# a" q& r: j& j6 Q4 s acted upon only by gravity and aerodynamic drag.$ B7 m& T8 g# G0 C" c8 z, Q- v Balloon A spherical inflatable decoy used as a penetration aid to mask the location of5 b7 H* d! H# h reentry vehicles. " e' C4 w* e& A4 C- ^& ^0 R2 JBAMBI OBSOLETE. See Ballistic Missile Boost Intercept.3 w- o. A+ j# D! v7 Q Bandwidth The range of usable frequencies assigned to a channel or system; the difference 7 H5 p' B7 K ~) I P4 Bexpressed in Hertz between the highest and lowest frequencies of a band. 7 c' E# ~* Y9 G( N. {) S2 l& U- KBAR Bimonthly Activity Report. : Y0 x0 B- f0 n6 S7 |6 U8 M5 u7 JBARBB BMDO Acquisition Reporting Bulletin Board ; n# B1 e6 I' A6 s4 _Barrage 9 y; @% O' G f4 d# oJamming % x) H) s- f }. B1 cSimultaneous electronic jamming over a broad band of frequencies. ) V$ N* |6 R$ w; e) { _5 X- }5 yBattery Tactical and administrative artillery unit or subunit corresponding to a company or5 O+ R2 o7 z. p0 Q, E- T a similar unit in other branches of the Army. 9 ^" x' v9 k6 }. F) d& [1 pMDA GLOSSARY, VER. 4.0 B . U: G7 c; \ h: X29 9 d' G3 P+ I( [Battle Damage 7 A/ I+ u v3 M; l' X! l5 WAssessment & I0 Z# D% G2 {1 |% a(BDA) ( Z B1 A2 i0 h; IThe estimate of damage resulting from the application of military force against a: Z+ V/ P" s1 P% q predetermined objective. Battle damage assessments can be applied to the use/ t) y' X% s% _" l$ a, q$ N of all types of weapons systems throughout the range of military operations.6 Q; R4 i6 x4 a BDAs are primarily an intelligence responsibility with required inputs and7 y, a, E" F U% ^, |) a3 h coordination from the operators. BDA is composed of physical damage5 M0 v5 l% }. ?5 G assessment, functional damage assessment, and target system assessment.

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Battlefield . h4 P6 q. P7 {$ p- @Coordination : n0 c0 t" ^; o6 g6 t& I! Z1 XElement (BCE) |3 ?1 h. w: X8 S2 Y An Army liaison provided by the Army component commander to the Air7 w$ k( u/ o' Z/ W9 T, k8 |9 ` Operations Center (AOC) and/or to the component designated by the joint force5 |+ P& c$ @: i" t7 K commander to plan, coordinate, and de-conflict air operations. The battlefield8 \9 h0 C6 d: U coordination element processes Army requests for tactical air support, monitors / ?% O. Z4 m9 A. Mand interprets the land battle situation for the AOC, and provides the necessary1 k* t( d4 s6 i& N* e1 j! O0 t; \6 K interface for exchange of current intelligence and operational data. f/ `8 E! X7 B, | F8 Z+ y0 vBaseline Defined quantity or quality used as starting point for subsequent efforts and l. K# G& e9 g. ~* E0 g* xprogress measurement. Can be a technical baseline or cost baseline. ( l$ W; }! f. g* a3 uBaseline% h1 m* {& F+ k y Comparison" s* c! h( u3 R/ n1 `" C9 W System (BCS); m$ V4 V5 L( @; e8 e0 _+ L A current operational system, or a composite of current operational subsystems,' b J* a' l4 H9 r1 e$ U which most closely represents the design, operational, and support' B+ K2 q" E- z! A characteristics of the new system under development. - m/ E) V2 R P) f( NBaseline % ?+ x7 @% I& |' g# YConditions 9 s: v# ~# D6 ^* _# F% L3 C/ FThe natural and human environmental conditions, which are present prior to! H* c% W+ K/ X7 T m# e Z1 L implementation of a program and against which impacts are assessed. * v5 O) }) k6 ^# }7 @5 KBaseline Cost 6 x9 T3 j6 u4 W# X; e+ H1 mEstimate (BCE) # `6 A" P9 B$ C; qA detailed estimate of acquisition and ownership costs normally required for highlevel decisions. This estimate is performed early in the program and serves as1 D' Y$ H- h9 \% u. V the base point for all subsequent tracking and auditing purposes.0 m: ]& d2 g- @3 i9 O Base Program The base program is the program described in the Future Years Defense2 @% ~4 k/ b5 D+ _0 d" p J* ` Program base file, when updated to conform to the budget presented to- f+ `% c- g% @* x Congress in January. It constitutes the base from which all current-year program 2 I1 v4 r0 _7 _; Q/ j" dchanges are considered. L, x9 [/ V3 o; O w' T Base Year A reference period, which determines a fixed price level for comparison in# y* d( I" V4 Z& k# [( ^1 I economic escalation calculations and cost estimates. The price level index for; h+ o* ?4 }% i# X/ l1 Z the base year is 1.000.! @" r) g0 M+ I Battle Debris Battle Debris are the fragments produced by the hypervelocity collision of an 0 W, `0 _" Z) R8 N& i! q Uinterceptor with a ballistic missile, post-boost vehicle, or reentry vehicle, objects ' C6 e5 D4 _3 ^% V* v/ k, n8 Iresulting from intentional fragmentation or accidental detonation of booster 3 H) M7 H& s' o8 A0 Jcomponents, and objects normally associated with the deployment and" o9 c# M) R3 H* g9 ] y, t" I3 k propagation of threat objects (such as nuts, bolts, inter-stages, fairings, shrouds,7 j: Q- k5 S, W" j etc.). 8 v: j6 `4 m0 S2 g9 {( A, h( QBattle Group (1) Domains into which the battle space is partitioned. (2) A data processing , `6 p7 E* E9 i2 H3 `5 a' gapproach implemented in the battle management computer, which 2 M3 c/ h( f: f0 }, Y+ ominimizes the processing load by partitioning (grouping) threat data ; y: y% z6 H+ l(Virtual Battle Group). (3) A group of associated system elements which9 D( W1 S# ^1 c# k5 y3 ] operate together in a segment of the battle, based upon their# e4 v8 A! u7 O7 W8 x3 n capabilities and relative location to each other and the threat. ( f1 ^: t' X/ m3 z4 q' n! A) fBattle Integration Preplanning processes and/or real-time coordination that occur to minimize, @# z/ m# ^. }: J* U, S/ S3 O! m resource wastage between battle tiers or battle partitions. i6 V- }) o# \/ V0 g0 I& ^MDA GLOSSARY, VER. 4.0 B ( q( b9 \ d( m% s. L0 P) G30+ _0 x4 v @$ r Battle ( D1 T; U; o3 x; }3 M* A5 SManagement$ q" y6 P h8 a7 ?# F; x( k, X (BM)0 N6 Z% y& j) J5 K1 M0 H( [ Battle management is comprised of two parts: strategies and the collection of ( f1 N, I( j+ g3 @; ztasks to be performed to successfully implement chosen strategies. Given a set & x! ~# z: V$ g% m& T0 oof strategies, resources, and hostile asset deployment, battle management ( i0 z: U+ T: `% L R3 [" C9 }5 ]addresses the problem of choosing a specific strategy or set of strategies and& ^% b- Q8 N+ V! C7 ^ performing the associated tasks, which would result in the most desired outcome. . A& h+ y. J9 Q( o- _Battle ! m. a0 S# Z9 P+ ~& |3 _6 `Management/ 2 C* G3 c. c$ `9 `. O0 M$ yCommand, / W2 [8 b2 z; ~$ H( l- {9 }Control, , q# @- `5 M/ ZCommunications, 1 h. E) v- H2 }and Computers 4 V+ a* G& s ~1 A5 L4 w(BM/C4 ), O& v8 x7 O0 i4 _' \9 Z BM/C4 is a set of automated processes, which respond to the C2 system’s control8 h6 g1 ~1 }/ M6 x directives. The BM/C4 will provide the BMD system with the capability of : v3 C1 P+ _2 n! x+ I# Eplanning, coordinating, directing, and controlling the surveillance and 3 _; ~/ ^3 S; G9 k0 u8 \3 {& ~engagement operations of the system. It will consist of a distributed ! g0 T4 F* g% }1 C! I4 R7 P& t/ Warrangement of personnel, equipment, communications, facilities, and / V, N2 ]# C, ^; gprocedures that will ensure timely human control of the battle management' H+ {4 e- Q% M& P' d process. BM/C4 consists of a battle planning function, an engagement planning 3 ~) q8 `2 T0 \2 vfunction, and a battle execution function. (USSPACECOM)0 h9 p4 X5 I+ K9 L7 t1 B Battle - Y' v+ K. E0 f1 YManagement/ L: f% x; K8 _/ n# M Database% Z4 U! r5 ?1 y& a Battle Management data files including: battle management message file, object " `) {: U9 y p, o' Yfile, track file, discrimination file, engagement file, kill assessment file, and battle) N* O0 U( V9 R6 l7 z0 C management health and status file. a6 @. t2 R& H, E i1 i& h& v" W Battle& T4 q/ O9 q4 }/ t: n5 Z5 I8 C Management; Q- J6 M, l" w/ |% y- F5 ^ System* g( e- Y8 g" G# g0 _ The hub of the command and control process. It consists of computer hardware 4 p0 m! e$ F, M, b0 C1 `and software that integrates elements of the command and control system into a# V" K y' @) h& e$ p) g synergistic operation. (USSPACECOM)# l+ K+ |& O1 m; Q8 ^ Battle Management System8 P/ w1 Q9 t. D& r/ r( [ Configuration. ?/ U5 N$ m2 y9 j# q" B: x The battle management elements currently in the system together with their ) k1 P& p+ ~' P9 Ulocations, connectivity and currently activated modes of operation.2 D& E; u1 `* _# R: ~, j Battle Manager The automated set of hardware and software equipment that performs the battle( ~2 b. V* o9 l management functions at an element. 5 u" O3 Z# _. b3 w% x; qBattle Plan One of a set of BMD operational approaches to counter a ballistic missile attack.3 h5 G3 R& ]6 g) }) l0 b* I ^ It contains the rules of engagement, battle strategy, and intercept tactics to be5 P9 _ O4 B! F) y implemented by the battle management processors. It is directly responsive to ?+ b2 [- X* ]" ]( W7 q the attack type (e.g., counterforce).8 q; s( r: M7 q' P" M Battle Space A characterization of the BMD area of operation generally expressed by Tier 9 y5 c" k% z6 a9 \, h) R(Boost, Post-Boost, Midcourse, and Terminal). (USSPACECOM) 0 l; b1 K X1 R6 |Battle Space6 \' z4 o; {1 v( p& ` Partitioning2 N" I1 K" k4 ^) j Assignment of management, sensing, control and firing responsibilities to specific" d' G3 {" N# J. n2 T$ s platforms/facilities within the deployed constellation of platforms/facilities. 3 b& V1 ]* f2 i0 ?' B }8 JBattlefield # m y9 x/ F! Q% s" A2 u4 ~Coordination , v; I' `0 W$ a% X+ FElement0 \0 O# R* t. \5 f An Army liaison provided by the Army component commander to the Air ! R$ O/ I9 C9 Z; AOperations Center (AOC) and/or to the component designated by the joint force 4 g" w; ?, H G4 K8 u3 }& ^commander to plan, coordinate, and de-conflict air operations. The battlefield , m3 W% q7 }% B! E3 C7 X! I0 ucoordination element processes Army requests for tactical air support, monitors 1 v$ u! n: D. u% |) kand interprets the land battle situation for the AOC, and provides the necessary % g/ }# }( J) ~2 U. ] |) k' xinterface for exchange of current intelligence and operational data. 7 K, Y- F5 z9 K$ k7 aBBS Bulletin Board System. 7 G8 c7 H$ N7 c' w3 ^BBSF Brass Board Seeker Flight5 X; j6 s4 t' S5 K BBT Booster Burn Time. 9 j% m# Y1 ~$ K- xBCAS Battle Management and C3 Architecture Simulator.! a1 w9 U! @; v v9 W% ^ MDA GLOSSARY, VER. 4.0 B 4 ]7 \/ q' b/ q2 V# I( c/ ~: o31 3 Y1 V3 S K) EBCAS (1) Battle Management and C3 Architecture Simulator. (2) Base Contracting' F* W% h7 t# X: S Automated System.

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发表于 2008-12-25 19:59:06 |只看该作者
BCBL Battle Command Battle Laboratory, Ft. Leavenworth, KS. n: V" g( B% o1 R1 E1 QBCCE BM/C3 Consolidated Capabilities Effort.1 e1 j' n. q3 z7 U BCD Baseline Concept Description. , q) C$ l I+ a5 M5 X! ]& fBCE Battlefield Coordinating Element.3 N) b; V' Z' p/ s0 E BCFR Battle Command Focused Rotation." H6 B4 n6 ~$ `- l BCIS Battlefield Combat Identification System (US Army term). $ S5 n3 d8 w& t7 ^; ] t$ MBCM Baseline Correlation Matrix (AF term). $ g! _6 `( q/ G6 w# [BCO Broad Concept of Operations.$ n& m( ^( ~( b. \0 Y' O$ V( C6 a BCP Battery Command Post (HAWK).7 t( K! a7 _" R. Q BCS (1) Beam Control System. (2) Baseline Comparison System.1 ?* T4 e A5 }' ^ BCTP Battle Command Training Program, Ft. Leavenworth, KS1 s% q2 J5 g" E( ~ q$ b9 L% u- f BCV Battle Command Vehicle (US Army term).( I7 a8 a3 ~6 Z% Z BCWP Budget Cost of Work Performed. 8 p1 ]3 R' B6 N8 N3 ~- tBCWS Budget Cost of Work Scheduled + T1 ]9 p( d# Y1 f6 \& E+ x- E) cBD Baseline Description.5 o& j& _0 ~0 a4 F) d BDA Battle Damage Assessment. 9 v* @- w7 f) F, V1 e1 y$ [. WBDC Backgrounds Data Center, Naval Research Laboratory, Washington, DC * u# I# [0 [, f+ Y" T: w/ u/ o9 HBDE Brigade $ B6 R4 E% s9 T* {BDL Battlefield Demonstration Laser.5 N3 |/ r: E5 J+ u. t3 k BDP Baseline Data Package( ?8 v# Y8 }0 J; N, ^ BDPI Baseline Data Package Integration. ( n2 P: q+ o4 U, j0 C% ^$ dBDS Boost Phase Detection System. 1 [& R# s1 d+ Y; i' {8 R& BBDT Birth-to-Death Tracking. * W5 N) J' Y) G; IBDY Burst Detector Y Sensor.+ `# z) [$ n8 H! O# z# @. i; [ Be Beryllium.1 |' K1 k% e: D! b0 N2 T BE OBSOLETE. See Brilliant Eyes. 4 u3 E/ [; |: f! F8 J8 ZMDA GLOSSARY, VER. 4.0 B

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320 q+ n# x& q% q+ X0 I* ~9 C5 G Beam Control Technologies associated with controlling the physical properties of high-energy 0 V O( r0 `$ ^/ J) j9 S% Gbeams and steering the energy transmitted by those beams to the target vehicle;1 x+ u- ]$ \% b. C also, the management of signal or image beams within a complex sensor system.7 a6 \9 X: m$ x4 e6 Q% y" u Beam Width The angle between the directions, on either side of the axis, at which the 0 X' h, i4 d4 k# @. b( v; ^intensity of the radio frequency field drops to one-half the value it, has on the ' a: |% _/ h2 R7 G# daxis. 6 N4 q j9 _3 mBEAR Beam Experiment Aboard Rocket (NPB Technology Validation Experiment). % o, n4 P* F2 j4 gBEAST Battle Experiment Area Simulator Tracker.* T" X+ n X" \: V0 ` BECO Before Engine Cutoff.- z+ {7 M, N6 ?. S* P* f& E+ n BECS Battlefield Electronic CEOI System (See RBECS) 9 V& k0 S+ J" a1 H" w& u) M5 D9 f: y.5 d7 k" t* i* `( Y, ]( Q3 f# i Bell-Lapadula- d: {& e% b- }$ w o' {3 v2 f+ { Model. u9 _. ^8 j7 y A formal state transition model of computer security policy that describes a set of # g% [$ i* x1 v) w" gaccess control rules./ ^0 a4 u) R# B/ S8 c9 Q! Y1 T" r BELLCORE Bell Communications Research, Incorporated. 8 \8 {: ]. L/ C- ]BEP Brilliant Eyes Probe. ' r( ~6 v4 [# t/ v, Y& HBES Budget Estimate Submission. * t: J2 D9 S7 b* p$ p- G$ @BESAM OBSOLETE. Brilliant Eyes Sensor Algorithm Manager. 5 ^. B/ J2 l6 R) [; N3 u) j+ aBESC BM/C3 Element Support Center 8 j! z2 [4 K% j0 _BESim OBSOLETE. Brilliant Eyes Simulator. 5 T% f4 I4 Z2 @" ABESim/AT OBSOLETE. Brilliant Eyes Simulator Analysis Tool. 0 }# e6 w/ u2 j* I5 U u3 h# RBESim/RT OBSOLETE. Brilliant Eyes Simulator Real-Time.2 T. {3 }9 o! ]+ ~: B3 y1 h# Q$ N$ T1 Y BEST BM/C3 Element Support Task. % S2 x- e1 {, A9 E2 pBET Best Estimate Trajectory. & W* n+ E, z. cBFAC Blue Forces Analysis Center. 0 O( {2 N" V, A. o) xBFTT Battle Force Tactical Training. ! I! K/ |6 J* XBG Battle Group (USN term)., L* I0 w- U1 j: P1 k BGM Battle Group Manager. 3 B; M' E# g" V% Y2 OBGSE Bus Ground Support System (USAF term). / v# u; r$ Q/ v Y- T+ E; k/ RBGV Boost Glide Vehicle. 9 Y* [& q; O, v+ iBI (1) Background Investigation. (2) Briefing to Industry. ; ]+ D( s" {+ R6 HBIB Blocked Impurity Band.3 Z z( q# N4 J2 g6 H3 R* P BIC Battlefield Integration Center. 1 i j! a1 B& h w1 g' Y/ x: LMDA GLOSSARY, VER. 4.0 B! C8 G8 u3 Y$ [& P# X$ w7 d/ i 334 {) D5 q" @: F1 V0 C/ T BID Built-In Diagnostics. / H# ~) ~1 l# |; _. j' P. oBIDS Biological Integrated Detection System./ B, E; T6 h7 u' _5 e6 \9 f" \# l Biennial Budget The FY86 DoD Authorization Act required the submission of two-year budgets for0 k" U% ?7 l- ^6 _# y5 k. X the Department of Defense beginning with FY88/89. The department has+ T: X9 c1 [; ^1 { institutionalized a biennial cycle for the Planning, Programming, and Budget 6 m7 T; c( K- c+ D" cSystem (PPBS). A biennial budget, as currently structured, represents program8 F$ w0 o' A9 }( |$ D: j7 f: R budget estimates for a two-year period in which fiscal year requirements remain l7 h6 z3 H* C2 W4 E& m separate and distinct.3 U) q1 c# [4 u1 [7 d3 d Big Crow A suite of aircraft, helicopters, ground vans, and electronic equipment, which is 0 P3 J; e4 A6 \" ^4 H% J% Wused to emulate an electronic warfare environment for testing, weapon systems7 _; `6 F M: n0 J) V1 j on test ranges.5 v3 [7 z# V0 p- E BIM Ballistic Intercept Missile. 3 Y q+ f2 I2 h% u# vBiological( n T) o7 t8 B( u: o0 o% n Weapon 6 l* ~; _ K4 K- s, I" ?$ S; |An item of material, which projects, disperses, or disseminates a biological agent2 U; b/ T* k+ l( n3 k$ t& ? including arthropod vectors. ( v( f' M+ [' W. g6 G, CBIOS Basic Input/Output System. 7 l% E0 V* p3 D( I( i p7 yBIPS Billion Instructions Per Second. W, e9 j+ A; j! i$ B$ Z5 T/ w Birth-to-Death; m- T6 r6 f: v; o) q& Z Tracking (BDT) 0 q7 S& I" [; \+ AThe tracking of space objects (e.g., satellites, reentry vehicles, or decoys that : k" _6 A4 f2 F( Z( O$ x; Hsimulate these) from the time they are deployed from a booster or post-boost 8 B" X2 X* |) U1 G, b- tvehicle until they are destroyed.' [% ^) \% c% Q1 x% N: _7 V2 S' H Bistatic Radar A radar system that has transmitters and receivers stationed at two 4 [0 e! \% F6 y% X3 B! b7 Pgeographically separate locations; a special case of multi-static radar.3 r( _7 M( H7 \' ^% n BIT Built-in-Test, b {/ `: j3 V3 U! J Bit Binary digit.% ^& \9 v$ y4 ] BITE Built-in Test Equipment. & q% y, p& y5 C6 X( {Bit Transfer2 m5 P' W3 P S* m' n [' n$ t Rate . u) z0 U8 d" l# q" eThe number of bits transferred per unit time, usually expressed in bits per second: P7 l- ]4 W) O9 u (bps). * M0 y0 b0 p' i; I/ OBlack Body An ideal body, which would absorb all (and reflect none) of the radiation falling# M0 N" ?( S! Z1 B upon it. + h! X5 w6 e0 J9 y( ]5 c$ aBlackout The disabling of electronic equipment by means of nuclear explosion. The 0 p% ~) S% P8 n. b) X( A5 C( {# P7 s! ?intense electromagnetic energy by a nuclear explosion obscures signals and 9 z9 t" V+ Z; {* g( Zrenders many types of radar and other types of electronic equipment useless for * \% J/ E" n9 T: cminutes or longer." W! L; x3 X" D1 ] BLADES BMD Long Wavelength Infrared Advanced Exo-atmospheric Sensor.' @- s$ l4 V6 L# t5 e) k BLADT Blast, Dust, Thermal Effects Model. 5 w, f. n+ M% _4 \8 w" z/ TBlast Effect Destruction of or damage to structures and personnel by the force of an6 n8 u( d- S% N+ E$ Y$ w& a explosion on or above the surface of the ground. Blast effect may be contrasted 9 b# P1 T3 t/ N( h9 Zwith the cratering and ground-shock effects of a projectile or charge that goes off + Z* f- c' c7 ]! V5 p$ @* {beneath the surface.4 [& [# J" z# p6 c1 F3 e+ W/ o) Y MDA GLOSSARY, VER. 4.0 B }+ c! n! P. \( J; k* H% x8 b4 v' l 34 ' N9 S" l) j5 BBlast Wave A sharply defined wave of increased pressure rapidly propagated through a3 m7 Y! P% c/ f2 @, O5 g surrounding medium from a center of detonation or similar disturbance. 1 s; R4 B7 k% B2 _BLCCE BMDO Life Cycle Cost Estimate. $ i4 t+ O p7 L$ d4 B' FBLK Block (system production lot)2 |$ U/ I8 v0 e% U4 T& @ Blk IVA Navy Standard Missile Block IV-A.* r5 @3 p# T6 H+ F6 V' d( H& @: @' E Block (1) A biennial increment of the Ballistic Missile Defense System that provides an 5 F# N7 i* Y0 y- {integrated set of capabilities which has been rigorously tested as part of the5 s1 q: V7 E* S9 R5 W BMDS Test-bed and assessed to adequately characterize its military utility. Once; Z: a# r+ W' P, L: \6 Y tested, elements and components are available for limited procurement, " ]$ _6 \) |5 I8 [transition to production, or for emergency deployment as directed. These “offramps” may occur at any time during the Block Cycle to support timely execution . ?0 H* n+ i5 I3 b! F3 f8 Wof these transition or deployment decisions. 3 m4 p$ s2 ^, X& }# E# ^) KThe configuration for each Block is drawn from the following sources:6 @- {7 a, Z& o# c) q6 T •The prior BMDS Block; 6 c* t! t8 z2 x; T) V* W4 s- g•BMDS elements, components, technologies, and concepts; % X( O+ ` G) L$ k9 ^•BMDS Battle Management, Command, Control, and Communications8 G. ]$ @" _1 G( W (BMC2/C) specifications and products; + |' b* ?. W8 q( y•Externally managed systems, elements, or technologies (e.g., DSP,0 c6 S6 G9 ~' f- H! v1 T7 k! x GCCS, MILSTAR, etc).

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