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121#
发表于 2008-12-25 20:24:45 |只看该作者
MDA GLOSSARY, VER. 4.0 T / ]7 i! U* ? t" w+ u" i298$ U0 B: t1 w8 h. A7 @2 h* F \& E Theater Missile # a: o4 B5 Q. D! {+ e; T0 {Defense Council ; @/ ^# r1 \3 ^(TMDC) , S2 R: s' F2 {; E1 s# g3 ~A consultative body for considering TMD family of systems planning and ) }, `& C- Q* z9 `9 Q- t$ _$ k/ ~programming issues; chaired by an Assistant to the MDA Deputy for! o# T/ ^/ e% Y Acquisition/TMD, membership includes MDA TMD Directors, representatives of- k, d, w6 |6 | each applicable Service Program Executive Officer, and TMD Executive Agents 6 K% w2 V) W+ f7 n- V6 Y4 Gand Program Managers.+ p- N& i. @: \- y' u Theater High* |0 Q4 v/ G: D! M; @! }5 W5 q7 { Altitude Area 2 `8 ?+ C+ {- I- R( bDefense System' S; r; S( X& w# {3 h (THAAD); `' M- H( |# k# I( Q3 u s A ground-based, air transportable interceptor system that will provide wide area A' L7 R9 M* V% X* o' qdefense capability by intercepting longer-range missiles at higher altitudes and at6 B# u; ~! a2 O4 i greater distances. Will provide an overlay or upper tier to point defenses such as / L4 |. b, n0 x4 H! K* CPATRIOT. " t$ V1 j) b. k3 G& u& TTheater Missile- V- ]3 P) K; E6 r (TM) 9 w d: L" y' qA theater missile (TM) is a ballistic missile (BM), cruise missile (CM), or air-tosurface guided missile (ASM) whose target is within a theater or which is capable$ O5 ^2 o- K8 a6 M* Q of attacking targets in a theater. ! a& ~# I6 A/ B8 w( ETheater Missile # V, d4 X v/ v& q: tDefense (TMD) 8 {0 B6 w4 ^% c: V. g T; KOBSOLETE. The strategies and tactics employed to defend a geographical area & n9 y3 j' {5 D5 j5 eoutside the continental United States against attack from short-range,5 r/ u' v: P! F( e1 R8 Q intermediate-range, or medium-range ballistic missiles. ( S9 g% f# u2 I3 Q0 NTheater Missile X- F' z Q. D9 m8 b Defense Ground-* v- Q% K* k- P1 N0 g. O Based Radar( u5 I6 X7 R( m; ? (TMD-GBR) i# G, x* k4 A4 m8 K' ?A ground-based, air transportable sensor that provides search, tracking and# q, k8 [$ X& I# b p0 W discrimination capabilities for the THAAD interceptor system. Also referred to as * S. k& i* C# ]THAAD Radar.% I% ?% Z5 }+ N& U: \ N Theater Missile$ t* z/ A6 N+ u Defense Initiative. J) B0 ^* T, X1 ]* T% t (TMDI) / }, O( Y' u- u* Z: XAn initiative under which all DoD theater and tactical missile defense activities are- V& |) l! Y3 Q6 N7 W% Z) Q q2 V/ K carried out. Section 231 of the National Defense Act for Fiscal Year 19931 J. }4 A' I% e0 g' a (Public Law 102–484) directed establishment of a TMDI office within the DoD.1 J) R) N4 _3 c/ K- n- H THEL Tactical High Energy Laser.! g+ f3 L6 I2 O5 d9 \4 H0 q Thermal Energy Electromagnetic energy emitted as thermal radiation. The total amount of ( O! p/ b6 H, z6 fthermal energy received per unit area at a specified distance is generally / p8 c$ |4 V% S7 |5 n/ Vexpressed in terms of calories per square centimeter. % W l2 f) u. j( M, c4 V g, F0 Q/ NThermal Imagery Imagery produced by sensing and recording the thermal energy emitted or* S! i" d0 Z y2 Q3 X6 a reflected from the objects, which are imaged. / m7 Z4 J* S( c0 GThermal Kill The destruction of a target by heating it, using directed energy, to the degree 3 D3 {& A! R' [that structural components fail.' I9 T- g$ p @( G, h9 _: h% Y Thermal ?) r( u' _- I* i" k/ I- U6 FManagement; v! }' V8 k+ I1 h/ K Technologies/techniques associated with the control and management of : F; ?/ ?9 d$ l. B* vthermal energy, its generation, dissipation, and recovery.4 Q: w% \1 [5 `, ^6 g Thermal # F+ z: `7 k7 u3 ]8 \5 b f* jRadiation9 o! E1 F) i) ~/ Q Electromagnetic radiation emitted (in two pulses from a nuclear air burst) from the 6 m/ z" |! F" F) w% [fireball as a consequence of its very high temperature; it consists essentially of ' s- B( X+ M4 G, R% Z" |2 Oultraviolet, visible, and infrared radiations. * ~) k" g- N; `4 N& g. M; F, BThermal X-Rays The electromagnetic radiation, mainly in the soft (low energy) x-ray region,5 A$ \; z: z. \0 r% P emitted by the nuclear weapon residue by virtue of its extremely high+ y- h/ ^/ d7 T H4 u: W( A temperature; it also is referred to as the primary thermal radiation. It is the3 `. U1 m( z. s, Y0 x$ A4 c+ A" _ absorption of this radiation by the ambient medium, accompanied by an increase * q3 I' o' B; [4 r; `in temperature, which results in the formation of the fireball (or other heated & ` n+ m3 K0 n/ L. Bregion) which then emits thermal radiation. (See X-Rays.) + ] L, f$ X$ G7 G, VMDA GLOSSARY, VER. 4.0 T . e: n( o% b( m u! N' R0 j( q8 n# k7 l299 5 R, c: x# b3 |9 v4 b8 lThermosphere The atmospheric shell extending from the top of the mesosphere to outer space; 0 j( W+ y0 O5 Kit is a region of more or less steadily increasing temperature with height, starting J" b# ~; R0 y( B/ l& t' ^ at 40 to 50 miles (70 to 80 kilometers); the thermosphere includes, therefore, the( c$ v, x; o; x/ z/ E9 P exosphere and most or all of the ionosphere./ P- p% Z0 j7 I Q+ x: w4 ?4 O Threat ) S% S: H( V% |' o& }Characterization ! S" {0 y5 `7 [% J2 G& yAn assessment of the nature, magnitude and intent of an attack in progress." R; d: r. Y" k0 D; ^ Threat Corridor& X8 i0 Y) I3 i( Z+ n7 e (Threat Tube)- Z6 |/ Q6 g4 q7 ^ A tube containing all the objects originating from launch sites and aimed at $ W' l- s- P# w+ j. \targets whose spacing is close enough to permit the tube around the object: h) O9 D. u; L. x& X2 {% T8 D trajectories to be represented by a single trajectory in battle management : ?! n$ l5 v, ?) Scomputation. . u* \" i* a+ x3 AThreat Scenario A hypothetical example of the employment of threat systems against ballistic Z$ m; }/ [! C" E1 cmissile defenses for the purpose of analysis and evaluation of those defensive/ Y) \! j4 F3 P! ]3 Z) F* l systems and architectures.& B1 q1 f. Y4 _5 _ Threshold Performance capability or characteristic level in terms of a minimum acceptable2 v0 H1 x7 B- t& M& i0 f value (threshold) required to satisfy the mission need and a performance K8 T P7 S$ {8 \" gobjective. : L7 {9 i2 J7 A4 a$ ]Threshold( [: }$ \2 ]: Q, [4 F" E Defense1 S; y4 D& v3 P: c- u A defense strategy that concedes that the target can be destroyed at a price 6 Y$ ?8 [3 @- I" wthat is not prohibitive, but the presence of the defense is thought to require the4 U$ u+ ?1 \! E5 u3 N! W3 Z% r offense to mount a relatively large and complex attack. ( t \ u+ N$ tThrow Weight All weight in an interceptor, above the sustainer, which serves as the kill vehicle. 0 t: s- K* e% t7 I+ D' qThrusted+ e# y/ G" ~- ^- C Replicas (TREPS)4 v. N8 N7 i& E- _2 r6 H% C Conical decoys equipped with a miniature rocket device. Generally used to( j/ _5 I/ ?, g& W. r% x. r) o( ? change the decoy’s optical signature to resemble that of an RV in the reentry# V- `! q7 U$ q. B phase. 2 g! S3 |; o) G9 q4 b9 bTI (1) Technical Instruction. (2) Technology Insertion." G) ^: I# Q6 }. \ TIARA Tactical Intelligence and Related Activities. # ^- ~0 ~# K) s9 m3 `: n5 PTIBS (1) Theater Information Broadcast Service. - e8 G0 u2 p- U) a( _) v, S# ?2 m(2) Tactical Information Broadcast System. % c+ D5 d+ V$ t$ z6 Z(3) Theater Intelligence Broadcast System.. h' \: f6 z% C- z& \ TIC (1) Thermionic Integrated Circuit. (2) Technical Information Center. , ~# o. y9 x; p& WTIDP Technical Interface Design Plan. / E0 j% W* d& X7 }TIE (1) Technology Integration Experiments. (2) Technical Independent Evaluation.! T0 i! U( t; H7 N* ^* U; } Tier An integrated set of SDS elements that address a particular phase of the threat0 J {, \4 t. F } (e.g., boost phase). " ^, o4 {, `4 {+ k, FTiered Defenses The use of defensive systems at different phases of the missile trajectory. D$ I; Q' E) U# @4 v% l% KTIES Technology Integration Equipment System.! H5 j; b9 U3 M2 e7 G TIIAP Telecommunications and Information Infrastructure Assistance Program. % x" z$ j, J5 ]1 u- p5 wTIL Technical Insertion Laboratory.& c! U) {4 x" S7 t3 g% S' ]! I2 g. W TIM Technical Interchange Meeting., z) L4 T3 O/ B MDA GLOSSARY, VER. 4.0 T3 o, ]3 W9 M7 G& c% f# E2 a. V 300 ) ?! w/ y# {3 n* j7 k7 _+ NTime-Phased % ^) v2 O* ~* K$ L% B0 mForce and . n% \& R- n8 J1 XDeployment List ! R( i7 `* k) f0 I$ M) @' L+ y; ?% ?Appendix 1 to Annex A of the operation plan. It identifies types and/or actual6 m$ ]7 W D0 ]: x5 w) P units required to support the operation plan and indicates origin and ports of1 `) L8 Z+ p8 N7 t" R0 A2 } debarkation or ocean area. : l/ Z# z/ h, L# Z( a3 ~8 i aTime of Flight , K/ K1 x o/ ]+ `(Max) 9 F/ X3 K" g& Y. AThe maximum time for a booster or vehicle to perform its function from time of- L! c4 u+ ~9 N2 C4 ` launch. " q4 @+ @; j8 [7 Z: BTime on Station The time the sensor is in its operating position. 4 E# N5 Q I$ e2 J& q1 F, c" T) WTime Sensitive * ~/ w" n: [ N/ p* m: \/ x" Y8 d& JTargets/ X* e6 Z7 J' d) g# M Those target requiring immediate response because they pose (or will soon # p, B9 ]4 G; K: ppose) a clear and present danger to friendly forces or are highly lucrative," d4 U2 C. d' j; T' L/ l; N1 e fleeting targets of opportunity.

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发表于 2008-12-25 20:24:57 |只看该作者
Time to Station The time required to move a sensor to its operating position.4 i. Q! `2 _% w6 z" e0 | TIMS Training Integration Management System (USAF term). 8 u3 g& z) E; V9 _% }1 ETIN Theater Intelligence Networks. 1 c0 _+ i+ I# WTIP TOPAZ International Program.! ^: \) T! g5 S% L+ e( Z5 w8 h5 G TIR OBSOLETE. Terminal Imaging Radar. (Predecessor to Ground-Based Radar $ s5 b% z/ ?! v3 B* b4 BTerminal (GBRT).)4 \ s3 x# e" ?' r% Q; A TIRS Telemetry, Instrumentation and Range Safety! z' u T' q) K" B6 _ TIS (1) Trusted Information Systems, Inc. (2) Technical Information System. 4 j) U% l- j. Q0 u8 K kTitan USICBM. - z. D1 o7 v9 ^TIU TIBS/Tactical Interface Unit. ( c8 R$ Z7 O6 R" E2 O! MTIWG Test Integration Working Group. (U.S. Army) 4 w" Y v) O/ _/ a5 f8 JTL Team Leader./ U. I8 t8 a, w- k TLA Time Line Analysis.9 g7 \; H7 B! R8 K* S% n0 w TLAM Theater land Attack Missile. / B, l3 a2 p D9 ZTLAM/D TLAN [with submunition] Dispenser (Navy term).# J& X3 D$ X5 j; p% E TLDD Top Level Design Document. ; _& U* B' }8 l1 \4 BTLV Target Launch Vehicle.4 _& l3 ^" D' J TLX Teletype.. b" _# s. s3 Y: F, {5 M TM (1) See Theater Missile. (2) Technical Manual. (3) Tactical Missile (US Army! n$ @/ }; m1 T/ i; a' @ term).- ?5 |* d! w: n0 M TMCC Test Monitor and Control Center.& T! K" I& w# t TMD See Theater Missile Defense.+ s% _! \$ c- ? TMD C2 Theater Missile Defense Command and Control.7 G6 r0 w( {: t MDA GLOSSARY, VER. 4.0 T& l! V L2 x+ i4 n6 h4 W 301" l1 G4 m+ P w- z8 X! |' J TMD C0 E/ _& B' b% @$ w' ^7 }/ D 3 " H6 V6 O/ S/ U7 e1 g2 i8 uI Those assets that provide connectivity between and among Theater Ballistic " x$ o, t& b8 j' _- Q% T3 JMissile Defense forces. 7 X1 W0 ]5 y; A4 y1 jTMD ESM Theater Missile Defense Existing System(s) Modification (MDA term).5 z* W: E( W v- i TMD GBR See Theater Missile Defense Ground Based Radar (THAAD Radar).; T8 n& b* w! b) o: M. ]4 @ TMD IA Theater Missile Interoperability Architecture. 3 I1 e0 Y- x5 I! n$ {4 h6 ITMD ITP TMD Integrated Test Plan. 8 {/ D6 V8 W, I% f- @TMDAS Theater Missile Defense Architecture Study. 0 [. Q! t7 ~7 i& J5 _: N& _6 n2 uTMDC Theater Missile Defense Council. 3 U% Y6 _" L; k! j7 N: H) i: D) jTMDE Test Measurement and Diagnostic Equipment (ILS term). # @1 N/ L' e5 k! J% e; A0 Y, ETMDI See Theater Missile Defense Initiative. 3 d0 ^, L9 N1 Q( D5 Q' WTMDSE Theater Missile Defense System Exerciser.+ {1 y7 ~: ]1 ?7 | TMMM TOMAHAWK Multi-Mission Missile.; C# W- v1 r1 I0 Q( o9 d TMP Technical Manual Plan (ILS term). $ P0 X7 [* {: [& t& y: K3 mTMPCU Tomahawk Theater Mission Planning Center Upgrade.+ i# ~) v+ A+ N. ?( D TN (1) Terrestrial Network (C2E term). (2) Thermonuclear." u+ v W5 d1 Y5 _3 N TNF Theater Nuclear Forces [Treaty term]. - y3 D; f! M/ m! {TNT Trinitrotoluene. , T# I2 A4 q& R7 u* [2 CTNW Theater Nuclear Weapon. D; ]2 |1 a9 i: u6 MTO (1) Task Order. (2) Technical Order.' D! W' | ]6 ?' X( g TOA Total Obligation Authority.6 f4 J; l& W( E; w8 p: y TOAM Tactical Air Operations Module.+ d/ H$ M5 h! l1 |/ `" D TOC Tactical Operations Center.! E/ o3 X9 n" W3 r TOE Table of Organization and Equipment.5 m! f' i9 ?: D& ?5 j, P TOF Time of Flight.3 d* C$ x! M# S* ` TOI Track of Interest. . |1 j; U& L7 D/ L9 F# x4 RTOIA Task Order Impact Analysis.% \2 C: G9 h; O# j: X Tolerance The ability of a system to provide continuity of operation under various abnormal , G" l9 E& {: ^7 ^. _* i5 g! rconditions. 1 A. v, I& O2 @TOM See Target Object Map.

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发表于 2008-12-25 20:25:05 |只看该作者
Tomahawk US ground launched cruise missile. - c) J" ]( G7 T wMDA GLOSSARY, VER. 4.0 T% \% K; z7 k& w/ M; F' V0 L2 w 302 ; m6 U- J5 | r+ z( RTOMD Task Radar Management Details. , z( Y7 q5 q$ y+ _7 e. DTOMP Task Order Management Plan. , z; v+ e- x# k+ R7 Y% ITOMS Total Ozone Mapping Spectrometer (NASA term)." Q5 l+ H0 d0 k& e/ v8 [( T TOO Target of Opportunity. & O' Y. V( F: A# T# T f( k/ QTOOL Target of Opportunity Launch. + R0 X7 c( s! E3 l- XTOP Task Order Plan. 4 P: y5 r2 ], H8 y4 C- ^' LTop-Down Pertaining to an approach that starts with the highest-level component of a 8 _6 Z9 e- |* g( i( v: Yhierarchy and proceeds through progressively lower levels; for example, topdown design, top-down programming, top-down testing. Contrast with bottomup. . p4 s& [, r. f# t) b/ {& {1 W6 CTop-Down' ~8 c |3 P- b* E! A Design" a% {' u8 K# P* s3 U. K) V$ g The process of designing a system by identifying its major components, / c' F8 b* J2 A0 t% T* f3 odecomposing them into their lower level components, and iterating until the" q% s/ Y. j) U, w) l desired level of detail is achieved.. a% b9 L: n/ ~* V+ n: p( T Top-Down1 H8 s @/ w" s9 Q- D Testing ! U. f2 M2 X* Z O" V# @. mThe process of checking out hierarchically organized programs, progressively,: G$ s- r. U7 g' z( i$ \ from top to bottom, using simulation of lower level components.6 Z" J- X$ w8 `2 F/ F0 Z6 n TOPAZ A project to demonstrate the transfer of Russian thermionic space nuclear power : t0 H) } \. {technology to U.S. BMD applications. * z) v" c4 s0 `8 C3 O0 v4 i: ]TOR Terms of Reference.1 r; Z: H' W6 ?4 z TOS (1) Tactical Operations Shelter (Station). (2) Task Order Status. * |& c" o+ i% Y0 f2 W, L1 }& `TOT Time on Target& ^4 L+ E& {! D. @7 G5 t Total Obligation 9 u( A# ?5 l5 I/ N; w& |$ i* X. CAuthority (TOA) 9 \: |; m5 U1 |' l- j U zA DoD financial term, which expresses the value of the direct program for a given3 q- f9 I' p% |+ A8 t fiscal year. 9 \! T- ]7 |; N/ D; G, }Total Quality- G* V$ [$ }; B+ o [8 R0 Z Management* g5 e& V/ V1 t# w (TQM) * b5 @0 b9 r9 }( r/ g, jA management philosophy committed to a focus on continuous improvement to ?$ Z* u) {0 c& s7 M product and services with the involvement of the entire workforce. ( P& l2 U% D1 S& f( L7 uTOTS Target Oriented Tracking System : F: K: S# j6 x% kTOVS TRIOS Operational Vertical Sounder. 7 H0 k4 u+ p+ J+ K/ Q. KToxicity The kind and amount of poison or toxic produced by a microorganism, or E) w- v1 N5 t( P% I possessed by a chemical substance not of biological origin. ' g( @ W9 I6 O' `TP (1) Telenet Protocol (Telecomm/Computer term). (2) Test Program. ; \! K! ~: n3 f: z% G7 @1 zTPALS Theater Protection Against Limited Strikes. % x* ]0 O/ q/ |1 T6 [) TTPBM Terminal Phase Battle Manager.$ d, @2 {+ o/ f0 U TPD Mobile Tactical Radar (US). 7 L# ?. P2 ^! p1 DTPDR Total Processing Data Rate (TelComm/Computer term).: f5 d- b) A; H2 D MDA GLOSSARY, VER. 4.0 T/ v+ ~1 w. T3 h3 Q; E 303& L3 j( }. u6 f) e* U TPEC THAAD Performance Evaluation Center.' B0 D) i, I" i$ f2 ?8 E TPEM Technology Program Element Manager (SDIO/MDA term).* k* t9 G @, }* E5 `$ c6 b TPFDD Time-Phased Force Deployment Data.+ l3 {$ t) L& k4 T2 K8 i7 J0 Y6 C _ TPFDDL Time-Phased Force Deployment Data List. $ y, ^ N' M% l/ d# }TPFDL Time-Phased Force Deployment List. 9 a8 N" n" S; I$ V1 N3 Z* X" E! u& J zTPM Technical Performance Measurement.5 M' M$ V! m2 } TPMT Total Preventative Maintenance Time (ILS term).( C/ e8 _' Q6 U1 T) p) ?8 U TPO (1) Test Planning Organization. (2) THAAD Program Office + G1 }# w+ e3 R2 c# }TPP Test Procedure Plan. * X& X/ ^ _' m) P/ d8 ?TPR (1) Terminal Phase Radar. (2) Trained Personnel Requirements. (3) Target ' W0 m3 J% o N/ c) @# ]9 _Performance Report. ) g9 y" k# C1 m+ z" v1 n) f) ZTPS Thermal Protection System., S* z+ z) @! W/ W* P TPT Theater Planning Tool. 1 N, m# V3 M5 n- i$ BTPWG Test Planning Working Group. (U.S. Air Force)# ^& u4 k2 ]" \5 l# w+ E TQM Total Quality Management.7 ^+ {( e/ x2 [; L% ]* g# j: R# [; k Traceability (1) The characteristic of software systems or designs or architectures or2 u" M/ \5 [7 @, a' {% c domain models that identifies and documents the derivation path8 I6 h# R9 `4 ~/ } (upward) and allocation/flowdown path (downward) of requirements and ; r% q) K& k- O4 b4 Rconstraints. / ]3 W- {8 ]+ e) O7 i3 a. L(2) The degree to which a relationship can be established between two or $ N$ D$ e, k6 x. E' \more products having a predecessor-successor or master-subordinate" k" {. ^1 ]( b/ S% }6 N' C& U* a. V7 ~ relationship to one another.

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发表于 2008-12-25 20:25:13 |只看该作者
Track (1) A series of related contacts displayed on a plotting board.* v7 M. x: H! z# s7 ]- c (2) To display or record the successive positions of a moving object.5 b+ R/ l& Z3 W (3) To lock onto a point of radiation and obtain guidance from.+ k1 i) B/ V8 _. [8 W (4) To keep a gun properly aimed, or to point continuously a target locating0 v* R% {6 v4 {7 O- I4 @' D C4 d' G instrument at a moving target.' @* C$ H2 s9 o7 U$ u: Q, t% \4 S% X (5) The actual path of an aircraft above, or a ship on, the surface of the + y: m2 `; y2 e+ }& [% hearth.' j; `) P# k6 | Track 3 A) Y. W. {7 m+ g. t c' AAssessment 7 j7 B3 b3 G9 H" Q/ V) `The Track Assessment looks for anomalies in an object’s track data. An anomaly: u6 t" [0 t# M$ H3 g0 f9 C7 t in the track may indicate a hit. 0 ]. ~1 ~8 i, B$ Q: ZTrack, Birth to6 P' D& U% y6 K* c/ u Death , L- `: h3 x Q% E! h9 {# T5 B3 yThe maintenance of an associated track through all phases of flight (i.e., boost+ p, O, \+ i2 k0 W. z' @; k to reentry).% P3 q8 `! P: k6 Z. J' Z W Track Correlation The combining of track information for identification purposes, using all available5 K$ u8 @% o1 k! `, t9 [ data.% O' L7 v4 K+ N0 ?9 E Track Extension This term usually applies to improvements in track estimates by use of new data.4 d- B: a+ E t# N, D D- ^. { It is sometimes used to describe a process of target extrapolation to a future time 6 I5 Z* W& W: j) T. Bor place (e.g., reentry).( J2 A. t/ {* b/ C- c9 v, e MDA GLOSSARY, VER. 4.0 T 0 G# }: Z# d6 i' y K3 o5 L; e3049 Z: @# H$ D$ a+ X6 F; s Track File A target’s stated estimate, confidence, covariance matrix, and associated LOS # M: K+ X2 f9 X6 cmeasurements with irradiances with confidence of association; or some subset of& j4 ^7 Z- P3 S3 G/ a0 K the above. : ~7 H$ _4 d& OTrack File-Track ; S% P3 e* b0 S9 g, QHistory4 x0 l% v5 Z' w* z4 O A set of individual track reports on a particular object, which taken together! C6 m4 L) ]2 z; _5 r/ h produce useful approximation of that object's future position in space.3 x/ _+ r5 o! v Track Formation The process of determining the track or tracks of detected objects. It is usually a5 _$ x( m# E& R. { three-step process of data association, track initialization, and track improvement 7 t* X1 {$ d, R- y* \4 `by filtering. , I: m+ N- B* |$ P+ }; WTracking The act of generating and maintaining a time history of an object's position and( X; B1 b. i& w' f any other features of interest. 4 B8 C( M- A6 M9 x" xTracking and, m& q# @4 C$ u+ } Pointing , @) ^# [4 q8 W; r ?' K& kOnce a target is detected, it must be followed or “tracked”. When the target is' R) e; k2 K$ d& t2 z! J) s successfully tracked, a weapon is “pointed” at the target. Tracking and pointing 0 h7 o3 Q. W% k( ^are frequently integrated operations.0 T# T3 p1 [; p Tracking Range4 O& j( ?3 }) e+ i# v (Max)/ F! o( } o2 u4 i/ q' T- J The maximum line of sight distance at which a sensor can maintain track of an' S B: U T# ?1 b8 f" g object. ! F% J% A3 P( ~9 v @' CTrack Initiation The formation of the first or initial estimate for a sensor system of the state vector: F& j8 i: Y% G: B of an object. The process typically requires observation from a number of 1 \7 I0 [8 {/ u, t0 I" E O* B+ jframes. ! c0 u% {3 S# F1 ^5 @Track Production 2 O& T3 ?5 G6 T6 ~4 u8 PArea ! ` s8 r! K) E) KAn area in which tracks are produced by one radar station. 9 r* Q# a+ o7 b8 m" F4 lTrack Symbology Symbols used to display tracks on a data console or other display device. ) b }8 T+ O) \4 N1 D( WTrack Telling The process of communicating air surveillance and tactical data information4 ?3 E ]0 U# g P/ m. Q5 ] between command and control systems or between facilities within the systems. * Y p' B T! Q5 aTelling may be classified into the following types: back tell; cross tell; forward tell;; |1 |* o K+ [. r3 o- z* ?, D lateral tell; overlap tell; and relateral tell. ' E4 T8 n1 _" o' {5 ^TRADEX Target Resolution and Discrimination Experiment.1 h" z+ n3 l d* |$ F; p TRADOC U.S. Army Training and Doctrine Command, Ft. Monroe, VA./ X' K9 C! d9 U# u% n8 t# U Traffic Capability ! s5 ?, m% A( eMaximum) ?8 F' z8 V1 c. V The maximum number of objects per unit time which the sensor system can ' v" R5 M6 g8 dmaintain track files.! v0 p& z2 ~: C$ y# b0 `2 n) i Traffic Decoy Decoy that matches RV characteristics in the exoatmosphere and high + Z' _# ^% l/ _0 {$ k( Eendoatmosphere.4 d6 p3 q/ Z/ l# V, n" l% Q; a Train Threat geometry with objects placed in a line (string) along the velocity vector of* s1 M) L. n0 d( o4 p reentry. , T7 }! W* [, r0 A8 H/ H$ WTrajectory The curve described by an object moving through space. 6 `' H- }" Z3 @5 r: fTrajectory* J/ w' i0 M! l7 f8 S: b+ q. [ Histories: C( ]2 r- I8 h- j5 | Trajectory information on targets recorded over a period of time. 0 [; H7 o6 H v/ ?# d2 }4 cTRAK A data base management system (not an acronym). 2 l2 E0 j& V: W/ s" o' G X% b* LTrans-Attack Period from first tactical indication of attack until termination started, i.e., postattack.# J& d& e7 z: i: d l/ R MDA GLOSSARY, VER. 4.0 T 5 |9 t# y7 _+ V# }0 S305 9 B/ q& X2 {7 qTRANSCOM [U.S.] Transportation Command, Scott AFB, IL. " `; O: A* N1 r' w! J4 ?+ |TRANSEC Transmission Security. 5 t6 O, i# ^$ H" L/ ]7 q8 ^Transition The period in which the world strategic balance would shift from offensedominance to defense-dominance. . ?8 R& X( q a; o4 T# \5 uTransition to : K% Y% \: W' YProduction J0 \# I' ]0 \$ p7 {' u( q5 H A risk reduction process during which the program shifts (passes) from8 H$ O! c- a- F8 _ development to production. It is not an exact point, but is described as a" {% }4 Z0 K4 r; a process consisting of disciplined engineering and logistics management to, G2 c2 \; M6 c" O! K ensure the system is ready for manufacture. (See DoD 4245.7-M.) 8 }7 L7 v2 u CTransmission+ I4 L- A) b( N; Q! F& K) r Security % v0 L9 ]! \) W, P2 v Y5 ]) @, d(TRANSEC) / B3 U2 O& W- _1 }That component of security, which results from all measures, designed to protect$ l+ T8 r- U2 \6 J' q communications transmissions from interception and traffic analysis. (See 5 X6 E( ^* E. g+ \COMSEC.)

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Transonic Of or pertaining to the speed of a body in a surrounding fluid when the relative 1 Z: ^! A: f" z2 B) Espeed of the fluid is subsonic in some places and supersonic in others. This is: q8 k5 U4 \; M: I! l5 x5 H+ j" W encountered when passing from subsonic to supersonic speeds and vice versa. 3 B; }5 t" b: D, I% k9 m* _Transponder A receiver-transmitter that will generate a reply signal upon proper interrogation. / _4 W4 y/ C- S: h4 d7 _ ITRAP Tactical Receiver and Related Applications. . T! c4 R! J; ?, ~# `' P2 A ~Trap Door A hidden software or hardware mechanism that permits system security 0 k5 G. b/ C+ C. E8 K# Xmechanisms to be circumvented. 4 T( a* n* [$ F6 N+ J/ x9 S- CTraveling Wave, y) M4 F, v6 i; Q. @6 ]; { Tube (TWT)7 M U6 h$ B+ V! T1 K( Z( p An electronic tube in which a stream of electrons interact continuously or! P, h" p' L, P; ], \, m repeatedly with a guided electromagnetic wave moving substantially in. q- ~, i: T9 V; S% u; N synchronism with it, in such a way that there is a net transfer of energy from the( a+ J9 x6 L3 p9 G# b q& s stream to the wave; the tube is used as an amplifier or oscillator at frequencies in 4 N+ [ j# g- z& |1 i# E5 [% w/ b. ethe microwave region. " W! V& S% |; cTraverse (1) To turn a weapon to the right or left on its mount.6 I# k1 A- j0 v! \- j/ m' E (2) A method of surveying in which lengths and directions of lines between5 q! M- ^/ w, @) U+ k% H points on the earth are obtained by or from field measurements, and' p7 U( p7 N3 u3 a used in determining positions of the points.. h* }; V2 h( L1 U! \; s+ i Traverse Level That vertical displacement above low-level air defense systems, expressed both$ M# k/ m$ p6 F* ]5 o as a height and altitude, at which aircraft can cross the area. $ Q/ y& r h2 G3 z/ hTRB Tactical Review Board.# q- K% o5 a- o3 G& g0 }% j8 B% b: t7 k TRD Technical Requirements Document. 6 ~& C6 I! V k2 A# Q* QTRE Tactical Receive Equipment. ; C. Q& v" [; G U2 q5 ^6 g) LTREA Transmit/Receive Element Array (THAAD).5 l) V v. W8 b! e TREE Transient Radiation Effects on Electronics. 9 ~ C3 b4 c) O+ d rTREM Total Radiation Environment Model. " n5 G" e0 w2 h2 C9 c/ yTREPS See Thrusted Replicas.7 y" D, ~9 j% n2 S TRESIM Tactical Receive Equipment Simulator. + q2 z+ P) ^; x- EMDA GLOSSARY, VER. 4.0 T* h0 d- b! t) e' V7 e 306 " B' n( [3 h+ o; a/ ]- QTRG Threat Reference Guide. & ^# U' q! v$ k5 y% ?4 f5 zTRI-TAC Tri-Service Tactical Digital Communications System. ) Z5 c: _) n8 Z0 I3 K& w1 V2 FTRIDENT Class of US ballistic missile submarines (USN term). + W9 ?* f7 O0 E5 @" M8 oTRIDENT I (C-4) US SLBM (USN term). . f# Z! T8 p0 {+ R/ M. ]TRIDENT II (D-5) US SLBM (USN term).+ {/ G t; _! `, b2 o TRIM Toxic Reduction Investment and Management.5 U, A7 X/ z+ n TRM Technical Reference Model.; L3 c4 P0 p0 ` TRMP Test Resources Management Plan. $ S( ^! @& q. K, R, O2 l8 y- f3 |TRN (1) Task Requirements Notice. (2) Test Requirements Notification. 5 w& D8 v, w1 m2 U L2 fTrojan Horse A computer program with an apparently or actually useful function that contains ! s- R$ N1 ?5 I5 ladditional (hidden) functions that surreptitiously exploit the legitimate 5 H, D$ d9 o; d* L! k# b& Rauthorizations of the invoking process to the detriment of security or mission 4 a0 i1 @" f* u# i2 D* G Lperformance. 1 ^' u9 |' c8 ^TROPO Tropospheric Scatter. ) m" e4 h; \0 i8 n! L' n& L4 lTropopause The imaginary boundary layer dividing the stratosphere from the lower part of the: c9 Y: p* i5 E: }/ s" g6 v atmosphere, the troposphere. The tropopause normally occurs at an altitude of' d7 g' G- F* D$ v4 P" j1 E) M+ o about 7.62km to 13.71km in polar and temperate zones, and at 16.76km in the ; @8 X7 Q# o0 ]. ?/ _$ ctropics. (See Stratosphere, Troposphere.) % M" I& b0 V* H2 g' h$ D' h- kTroposphere The region of the atmosphere, immediately above the earth's surface and up to, d3 M$ l5 y# q; } the tropopause, in which the temperature falls fairly regularly with increasing9 m- _/ d' `4 n8 N6 J) @( A* I* f altitude, clouds form, convection is active, and mixing is continuous and more or ; f5 a- e/ B: c8 dless complete. 6 X0 Q( e7 V8 S1 Q& HTropospheric 5 m7 I2 P' k; N$ L5 \ CScatter ) u1 f5 e& k6 P& C) }The propagation of electromagnetic waves by scattering as a result of2 h- L5 l8 N# g& f$ ~ A5 G% ^ irregularities in the physical properties of the troposphere.5 S* M/ C1 j& d+ e& c1 a- q/ G TRP (1) Test Readiness Program. (2) Technology Reinvestment Program. z5 x" h% T! r5 n2 p; ]8 `& i (3) Technology Readiness Program (pre-acquisition program status). # R3 l7 Y5 a# o. w8 e1 @8 |- ?; o(4) Technical Requirements Package.6 A3 H. T& Z! C, S$ q: b TRPC Technology Readiness Planning Committee. # E8 w) M' s$ ?TRR Test Readiness Review.6 O- p+ a" I$ l Trusted ! ?/ z l$ q4 v0 b3 Y' ^Computer' U6 @- }; Z4 f, S& e: _1 Z System/Software & t$ H. L7 L9 p+ vA system or its software that employs sufficient hardware and software integrity \# A7 g3 O) \ m: q; \, q measures to allow its use for processing sensitive or classified information. - Q4 O8 \ G {2 R) K e( XTrusted Path A mechanism by which a person at a terminal can communicate directly with the4 C3 \4 b' |8 i! o1 G- I Trusted Computing Base. This mechanism can only be activated by the person$ u! I$ q5 f+ Q! W& @9 `: m of the Trusted Computing Base and cannot be imitated by un-trusted software. 4 m: R* `2 q# O1 J. F1 {TRW TRW, Inc. 5 E4 Y2 j5 g) \1 N. w/ \6 ITS (1) Terminal Service. (2) Top Secret.: d3 l, J: [6 C MDA GLOSSARY, VER. 4.0 T. \8 X! P3 |. q# { 307 5 W; W2 e3 k. {8 I" B8 g) VTSA Technology Security Analysis.: k- q* `- P" S% c/ H: d TSD Tactical Surveillance Demonstration. / Z J: h7 u3 a3 b, |; l- ?* pTSCM Tomahawk Strike Coordination Module (USN term).# g6 O& Z& c) r; A TSD Tactical Surveillance Demonstration. * y) H3 ^" _/ I. \3 `TSDE Tactical Surveillance Demonstration Enhancement.- f* j. _& R7 y/ U9 o8 U* o& @ TSEU Technology Seeker Evaluation Unit.1 J, v Y+ i% a2 i' @. \ TsIAM Moscow’s Central Institute of Aviation Motors. 9 ~ o+ u. Z3 ]1 V: LTSM TRADOC System Manager.6 C: s& c1 m: x) C+ @ TSMA Theater of Strategic Military Action. o) J: E5 g( j( d5 D9 WTSP Target Support Plan. 4 d& Y% C. L, Y6 u+ {3 j5 j( ITSPI Time, Space, Position Information. ! |* ]) L0 Q/ ]0 _TSR Target System Requirements.

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TSRD Target System Requirements Document.5 h4 [$ ~4 O5 W; s TSS Terminal Surveillance Sensor. 7 j- X' V6 b6 U9 i6 U, P) TTSSAM Tri-Service Standoff Attack Missile.# F$ J; P! R) w# e" Y; o4 \9 F TSWG Target Signature Working Group. 1 k/ i% L$ G$ fTT Total Time. : v6 V9 S, w5 s8 GTT&C Telemetry, Tracking and Command. 6 z7 E4 P( X+ |, jTT&E Technical Test and Evaluation (Army). 6 \" I( r; u d. P6 V- RTTA Total Time Accounting. ! w: X( }: p# K; y# Q$ KTTBM Terminal Tier Battle Manager.* t7 l! X- _8 g* j) o# Y2 q TTBT Threshold Test Ban Treaty. ' [! R% a$ o5 k7 e: B$ N) GTTD&D Test Technology Development and Demonstration. A portion of the CTEIP% K6 ~' `$ C7 H/ p6 C2 u" u program, which funds the development and demonstration of technologies,. N8 ~1 j' a' t# e! k/ | which have significant potential for improving testing. & @- j9 X5 D j" u: L2 R! tTTEL Tools and Test Equipment List (ILS term).$ {9 q8 Y1 S |# G TTL Transistor-to-Transistor Logic.8 I! D. L' `$ r) O4 R TTP Tactics, Techniques, and Procedures.3 k, c* [- V& S$ v) d* `" C TTSARB Technology Transfer and Security Assistance Review Board.9 W7 a! C7 ^1 } TTT Test Technology Transfer.: P; s3 O: l( Y MDA GLOSSARY, VER. 4.0 T7 F% ]& W8 ^7 s P6 i, b4 B 308 ' m7 J' z* h! a. {/ f6 }& B; O2 m1 ATTV Technology Test Vehicle.0 t: W% K2 ]* s5 O2 p TTY Teletype.6 i: c7 C" z |4 o% g8 Z TUG TRACE User Group. 5 r( ?5 e t7 g3 RTV Thrust Vectoring (rocker engineering term). D2 A' Z4 P) I TVC Thrust Vector Control.5 C/ `* l& r4 h0 [$ R9 w+ v) r6 z TVE Technology Validation Experiment. 2 u' y2 _" L' oTVM Track-via-Missile.- }7 k9 ~3 E6 o" t TVV Technology Validation Experiment. ; j- ~7 [2 o. D5 f6 r c+ ~+ {, oTW Tactical Warning. 5 G- Y6 E1 r# k; I, e9 O' OTW/AA See Tactical Warning/Attack Assessment. 4 V M! O. F4 K; s+ V7 cTW/SD Tactical Warning and Space Defense. R) G e( B8 }0 UTWG Technical Working Group. : o. Z' S8 C8 M5 S. r; L) sTWS TOMAHAWK Weapons System (USN term)., |* X% d0 ?2 L% U/ H, T TWT Traveling Wave Tube. 7 k E: u+ j" M5 jTWTA Traveling Wave Tube Amplifier. (Electronic Engineering term). " _" u. Y( K/ vTY Then Year (PPBS term).1 u( T8 h; U$ P% B. {8 G TY$M Then Year Dollars Millions. 0 {) b; u/ J6 l# F& VType A - System$ x$ E1 k4 s. ~6 o' j" e1 e Specification! B' ^0 Q4 O; o# B# U/ S; N States all necessary requirements in terms of performance, including test1 U/ K! w3 K* `0 K2 Z, {/ U3 n" l provisions to assure that all requirements are achieved. Essential physical5 u) A# K0 H- V) H$ t8 h# z constraints are included. Type A specifications state the technical and mission' Y- v5 z) O9 p! _ requirements of the system as an entity.) S' F( ^( R2 `. q' Z& | Type B -; Y- `5 X& g- p- x" R Development $ @+ B# e3 c9 x' E. ]7 W9 u! oSpecification + C9 J2 |: Q8 ]8 bStates all necessary requirements in terms of performance. Essential physical : X& b) [8 y' [* z; b" g X- H5 cconstraints are included. Type B specifications state requirements for the : D9 |5 b, }2 R& {7 jdevelopment of items other than systems. They specify all of the required item" r# y( X7 p+ I0 C3 g functional characteristics and the tests required to demonstrate achievement of : ]5 L: k/ w( ~( V j& b& r7 Kthose characteristics. . H& T) d8 g0 ` M' L6 YType C - Product 4 ]$ p3 ]- y0 j; p$ l# z' fSpecification( d) u( G/ [$ [( w+ T; [/ ^ Product specifications are applicable to any item below the system level, and $ B" z+ D4 u6 `4 b. r2 \/ A! c# m3 lmay be oriented toward procurement of a product through specification of0 \8 j+ n' ^5 {. X2 T7 y; T+ T primarily function (performance) requirements or fabrication (detailed design) " \: w( y0 y: i1 ~% P% ]4 Urequirements. Type C specifications intended to be used for the procurement of2 H- h o$ J# @ w# T items including computer programs. 7 d0 }+ `9 L: B7 K9 J0 P7 `. K" wTyphoon Class of Soviet ballistic missile submarines. G6 l6 E7 T6 e2 i+ ? Typing The act of recognizing objects by measuring a set of observables, computing a5 V: X; q1 |& F0 h set of characteristics, and associating the characteristics with a specific class of 8 Y- z( A/ ?& D h1 x! j$ a# robjects (i.e., SS-18, SS-24). " ^! D' ]$ V B/ L3 |& d3 f+ _4 T, UMDA GLOSSARY, VER. 4.0 U - p( \8 \# q2 E; I. A6 Q7 `5 R9 H309+ X, a" m( [* F- t U Uranium. ) I2 ^! c$ a$ ]0 y( x; ^U&S Unified and Specified [commands] (pre-1996 term).' _$ d: l: g3 u2 o1 `' z U.K (UK) United Kingdom. 0 e" n( N2 l/ d+ T# q2 _7 u. h' k$ s# ZU.S. (US) United States.8 Y- B7 R; J& @ U.S. West U.S. West Incorporated.! v ~! g* e, N6 x U.S.S.R. Union of Soviet Socialist Republics. $ z( I7 `1 m8 Z& Q3 UUA User Assessment (NMD BMC3 term).: s3 F4 x# g0 i! W; ? UAE United Arab Emirates.. e, Q* |6 n( {2 V/ R6 X UAV Unmanned Aerial Vehicle. $ E- ]7 l' J0 ?" p$ H( ?UAV BPI Unmanned Aerial Vehicle-based Boost Phase Intercept. " {5 q/ }, _% zUCAP UAV Combat Air Patrol. ! q! P% q4 b8 y% J# a' gUCC Uniform Commercial Code (US legal term). ' r2 X8 C. l+ ~1 q) wUCP Unified Command Plan.9 Z/ B: S% y; e2 {+ B UD/ASD United Defense/Armaments Systems Division.- d1 e( ?. E0 e4 S% j UDMH Unsymmetrical Dimethylhydrazine (a liquid propellant rocket fuel)." f$ G L. g2 d1 ^2 D) ~; V- V0 Y UDS Universal Documentation System. A standardized comprehensive tool for stating; h+ Z9 W9 d+ U. t3 W6 J4 }# ~ and coordinating program requirements for testing MRTFB ranges, as well as the ) E$ S5 K! v7 I, s$ Q$ s/ n8 \& ?! gcapabilities and plans of test ranges to support program requirements. It $ O1 F7 `+ W: k0 j& W3 o: qconsists of a series of six planning and execution documents: 10 are the $ b c0 L9 @& a3 \Program Introduction (PI) (also called the Program Introduction Document (PID)),$ m) m" z: m" p& ]% t 2) Statement of Capability (SC), 3) Program Requirements Document (PRD), 4) ; P5 f# G5 P6 q; COperations Requirements (OR), 5) Program Support Plan (PSP), and 6) the1 R( h" V" a" i. V* x8 H$ M6 u; S Operations Directive (OD). The UDS was developed and is regulated by the6 ~9 z5 L+ s0 e9 Z: h9 B0 J% W Range Commanders Council (RCC).

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UE Unit Equipment.$ C) p) k) A, n/ [* i% o+ i0 q UEME Unified Electro-Magnetic Effects. 2 Q! Y2 N0 f9 \- P9 F ^UEWR Upgrade Early Warning Radar. , M7 C& E& |% M8 xUF4 Uranium tetra fluoride. 4 H4 O+ U6 E( E( ] d8 R- Z9 YUF6 Uranium hexafluoride.: B# t* n+ l% w* N+ D& ~ MDA GLOSSARY, VER. 4.0 U! f+ o7 U6 J+ Y! o 310. {5 x0 Z) S& T6 P UFG User Focus Group.9 j' j4 W% x+ m8 f: m1 E$ V6 ] UFO UHF Follow-On [Satellite Communications System]. 2 F$ u; ?- m: M8 N3 X9 TUFP Unit Flyaway Price. * w, S' X3 H/ W( j* D4 j( O6 yUGF Underground Facility.0 k' A6 j# @9 a; q! b UGS Unattended Ground Sensors. ( P0 b, m# I: kUGT Under Ground Test. " `3 u- A! t/ e( JUHF Ultra High Frequency.0 o/ b, w- [7 g2 Y! g UIC Unit Identification Code.1 y+ Z$ K$ J% D' n9 s UIN User Interaction Node. ) h: Y3 Y5 t: f& ?% M5 \; RUKAS (1) UK Architecture Study (2) UK Associate Studies. # h( P9 f- n* d. dUKEADTB UK Extended Air Defense Test Bed., u+ [. I+ [" G3 K2 Z% o$ ?0 M UKTB United Kingdom Test Bed.. ?3 z9 S/ Y F- Q ULCS Unit Level Circuit Switch (SINCGARS term).4 \! J, }# _ E, Z4 z ULS Unit Level Switch. 4 }9 U1 u" ^& `* @. BULSA Ultra Low Sidebobe Antenna. 6 o \4 n3 F$ j% ]% B6 T& p4 cULTDS Unit Level Tactical Data Switch (SINCGARS term).6 w3 g' L& c4 U; k Ultraviolet (UV) Electromagnetic radiation of wavelength between the shortest visible violet & ]8 \3 M& c% F2 J. h" }(about 3,850 Angstroms) and soft x-rays (about 100 Angstroms).+ N0 X5 K& o" l UMD Unit Manning Document. 7 L6 V' S; c/ wUMMIPS Uniform Material Movement and Issue Priority System (ILS term).2 L+ r0 U* Z3 c5 Q% ^ UNAAF Unified Action Armed Forces. Y' Z- }9 o, |9 T' \# HUNC United Nations Command.; N n& e I- K% Y- ?0 p Unconventional$ Q5 S. B1 F/ }4 \6 b Warfare- f) K( \1 b! _+ L; y, H A broad spectrum of military and paramilitary operations conducted in enemyheld, enemy-controlled or politically sensitive territory. Unconventional warfare ! |1 V& k7 `6 W* Yincludes, but is not limited to, the interrelated fields of guerrilla warfare, evasion1 }' X, Y8 x! M% H7 d and escape, subversion, sabotage, and other operations of a low visibility, + q* e) I$ [' V5 E+ T6 O* L3 N- qcovert, or clandestine nature.+ l, [, R% ~( Y5 ^/ s9 O$ P" K+ g Unified Action9 y) ~! w: Y# p2 f& S Armed Forces4 v$ ~% M0 d3 p: X4 n A publication setting forth the principles, doctrines, and functions governing the! E' g* Z, g+ @$ w$ i# B$ j5 V5 M activities and performance of the Armed Forces of the United States when two or) t# K& }8 `* T more Services or elements thereof are acting together. 2 `! q4 x. q$ ~. {6 a! FUnified Command A command with a broad continuing mission under a single commander and R& u/ k* C1 K8 p composed of significant assigned components of two or more Services, and ; l4 j) t4 p, x- s. X2 s/ v# V3 \2 ywhich is established and so designated by the President, through the Secretary* o* \' G: {' H4 { of Defense with the advice and assistance of the Joint Chiefs of Staff. . |, j( @5 p, S5 lMDA GLOSSARY, VER. 4.0 U, ~+ Q8 w4 z+ R4 y 311; @9 a* x% ?8 T; ]( I UNISYS UNISYS Corporation. 8 k- j4 W5 l2 Q8 @) E2 vUnited States; \* y$ c) s0 k8 j; n2 }" M7 w Army* J2 X6 u5 J: ~! H/ M1 v; w5 W9 s Space Command 8 m7 _' w. x+ }1 b(USARSPACE) 1 o8 \2 Z1 D- r% ~, B5 e+ WThe Army component command of USSPACECOM. Responsible for the Army$ Z1 @5 r# q- w; L9 ~! o elements of the SDS system. Located in Colorado Springs, CO.# E3 m- y6 `+ ?# ?1 a+ s+ X6 y) b, ^7 e United States9 f! F6 }$ {) g: E Space Command & ^6 O8 Q4 o4 [6 `1 N: p" _(USSPACECOM)/ C1 H% w4 ]. w The unified command responsible for planning and conducting ballistic missile 9 t; `. C$ c. a3 c$ ~; c- V" vdefense. Located in Colorado Springs, CO.) k! X6 V6 x$ t United States 8 |3 N; V1 H6 e" c- N- KStrategic " l+ u7 h& I& ]! g( o. v2 a+ W1 WCommand 2 S$ T1 G- c' r(USSTRATCOM)9 C; P o( |2 G4 t0 {2 ] The DoD unified command responsible for carrying out directed nuclear and nonnuclear strategic air, intercontinental ballistic missile, and sea-launched ballistic . o$ @7 c# m5 J( xmissile offensive combat strikes. Located at Offutt AFB, NE.2 m7 @, d+ X: T% | United States ; @# w1 D: x4 y, ~ NTransportation 8 \+ t6 C {! qCommand3 M# n: u4 C1 O5 D; _: A q (USTRANSCOM)1 _/ I3 e1 a$ c; E2 i9 S The DoD unified command responsible for providing air, land, and sea 3 s0 K1 a! g3 t8 i4 S) S7 gtransportation for the Department of Defense, both in time of peace and time of9 M3 z# |2 b0 K war. It is also responsible for providing airlift, sealift, surface transport, and 0 i2 z/ H: Z# g1 x6 xterminal services, and commercial air, land, and sea transportation, including as # r8 `% O0 }/ nneeded to support the deployment, employment, and sustainment of U.S. forces5 ]/ v0 ?9 ^- r2 g on a global basis, as directed by the Secretary of Defense. Located at Scott ' b7 ]+ ~, \5 L$ PAFB, IL.

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发表于 2008-12-25 20:25:58 |只看该作者
Unk Unknown.8 D- }" g, d- H& k$ l5 Q Unresolved9 [( j$ ^' J! R1 |; s2 Q Objects" N1 t) F+ i" d8 f Objects so closely spaced with respect to the sensor focal plane as to be' }# P- a0 S$ A- ~ indistinguishable from a single object. 2 d5 I; ?/ G9 W2 |4 j' PUNSC United Nations Security Council.) e* l" v* R& Y* q8 Q5 [6 ` UnSecEnergy Under Secretary of Energy.+ Y0 T. r- x0 r2 q* S UOC Usable on Code (ILS term).% F6 i$ j( |8 \1 q! V UOES See User Operational Evaluation System.8 [3 g: ]2 z8 T UPD Unconventional Passive Discrimination. - v% Q. \ e( @" C2 W1 i1 kUPS Uninterruptible Power Source. # r0 x. x$ t, `$ B0 n. A H& N1 LUQT Unit Qualification Training (ILS term). $ Q% B( f4 {: @# eURIP University Research Initiative Support Program./ A6 ^# V L% a; n URL Uniform Resource Locator (internet protocol term). 5 s6 [5 ~" N F+ gURT Upgraded RTD. - ]; g+ u3 W T! @US/UK United States/United Kingdom.4 k! I- W/ X9 I2 H% K6 R' \# |& k2 P" ~5 Z USA (1) United States Army. (2) Under Secretary of the Army.- ]1 X3 G, s" V$ d USAADASCH U.S. Army Air Defense Artillery School.' A r' q0 n. q/ x( D2 r5 d9 g USAAE U.S. Army Acquisition Executive. 2 E4 g ?& i; U. J+ t" j! LMDA GLOSSARY, VER. 4.0 U 7 C; J, d: l ^2 f4 f: L. N312 2 y$ u( ~" F! p9 WUSACE United States Army Corps of Engineers.1 q7 a0 M7 x% `% z8 ~& f; P6 O9 S" Z+ N USACOM United States Atlantic Command, Norfolk, VA. 8 ?! x; {- B9 I) vUSAF United States Air Force.( |! T W7 @+ N5 I0 S& e. ?9 W USAF/AFMC/ESC U.S. Air Force Materiel Command, Electronic Systems Center; ex-ESD. ( u: s9 ?( F6 ]" x6 ?2 rUSAF/AFMC/SMC U.S. Air Force Materiel Command, Space and Missile Systems Center; ex-USAF ( [) b! a9 Z) p% e- JSystems Command /SSD.2 H& H. ^3 E8 ~4 S* Q L; { USAF/OTEC U.S. Air Force Operational Test and Evaluation Center. 6 V) K. h( e# o: ~USAF/SMC U.S. Air Fore Space and Missile Systems Center, Los Angeles AFB, CA.; M7 B9 q/ z' ~6 Q/ _0 w5 C USAF/SSD U.S. Air Force/Space Systems Division; See USAF/AFMC/SMC.' x) |8 N+ ~0 d$ N$ t+ w8 | USAFE U.S. Air Forces in Europe. 4 J3 b7 K! M$ [, ^8 uUSAFLANT U.S. Air Force, U.S. Atlantic Command. - H4 z6 j$ _9 N& jUSAKA U.S. Army Kwajalein Atoll.) f" M: [# w% j2 u( N2 h) M, D USAMICOM U.S. Army Missile Command, Redstone Arsenal, AL., ?9 t3 m) U. ~. t \ USAMSIC See MSIC. 4 V' ?; m4 J2 Z$ NUSAMSAA U.S. Army Materiel Systems Analysis Activity. - j3 v+ w! R0 _# g9 G& Y) d3 UUSAOEC U.S. Army Operational Evaluation Command, Alexandria, VA. 3 ]1 o/ W0 b; P. Z9 _4 \& w5 XUSAOTEC U.S. Army Operational Test and Evaluation Command.. [1 A0 D4 F' `9 y& w, `' j USARCENT U.S. Army Forces, U.S. Central Command.: P9 C# p+ b# B+ x USAREUR U.S. Army Forces, U.S. European Command. - S1 B' {9 L0 G2 M0 B3 C) \USARLANT U.S. Army Forces, U.S. Atlantic Command.4 |) w5 n+ q$ m5 b. Z0 b3 n USARPAC U.S. Army Forces, U.S. Pacific Command. 7 Y9 b' r) c8 _& [+ ~! r! b6 iUSARSPACE See United States Army Space Command. ( V* U- a0 C8 C5 \1 u Z1 ZUSASDC U.S. Army Strategic Defense Command (<1Oct 92). 1 C( S% ] z- `1 |USASSDC U.S. Army Space and Strategic Defense Command, Huntsville, AL7 }7 m6 b, G0 v4 h& p6 Q/ l u" q USATECOM U.S. Army Test and Evaluation Command.# \2 y; p3 y: t7 X# f2 Z USATRADOC U.S. Army Training and Doctrine Command.0 _+ G# X, r$ Q) B- y" p USB Upgraded SBD. + \) H# Y6 @+ n' a# a+ t2 `USC U.S. Code. * v9 _' M0 A( q' O7 Y2 H; ^0 dUSCENTAF U.S. Central Command Air Forces. * N0 b& p) X/ e! u, bMDA GLOSSARY, VER. 4.0 U: M6 U3 c' N- b4 F# ^ 313 / a5 o' M% v$ j/ v, BUSCENTCOM United States Central Command, MacDill AFB, FL.1 Q2 g* x |' R USCG United States Coast Guard. 2 ^/ q6 W, j9 r: W* A* [USCINCCENT Commander in Chief, U.S. Central Command. ( v2 ~9 i. A/ g& e& Y! `# u: vUSCINCEUR U.S. Commander in Chief, Europe., ]$ o1 k9 ~2 Q- Y% l7 j: J USCINCLANT Commander-in-Chief, U.S. Atlantic Command.( i, J, G( l3 ^: ` USCINCPAC Commander-in-Chief, U.S. Pacific Command.0 J. s% e9 C6 `9 {9 G USCINCSPACE Commander-in-Chief, U.S. Space Command. 5 i# l! }) Y& N9 { S) ^USCINCTRANS Commander in Chief, U.S. Transportation Command. 4 r+ R4 n' J3 ^# u0 MUSCS U.S. Customs Services. 0 o Y# R4 p. nUSD Under Secretary of Defense.: R2 Z2 e3 k S3 a USD(A&T) Undersecretary of Defense (Acquisition and Technology). * M7 ?* J. S! ` @4 }/ YUSD(A) OBSOLETE. Under Secretary of Defense (Acquisition.). & m- O7 D1 z( vUSD(A)/STNF Under Secretary of Defense, Acquisition, Strategic and Tactical Nuclear Forces. / T g, J0 i$ f- @" o! oUSD(P) Under Secretary of Defense for Policy.: J# e2 t! p) P$ @7 }" [0 ? USDA United States Department of Agriculture." R2 M9 n; |+ l/ F+ y: p USDAO U.S. Defense Attaché Office. 4 `: J8 P& o& i: ]8 OUSDELMC U.S. Delegation to the NATO Military Committee. 2 F6 Y* W' r2 vUSDR&E Under Secretary of Defense for Research and Engineering. ! v5 n6 d+ o1 @) XUser Friendly Primarily a term used in automatic data processing (ADP); it connotes a machine * U/ h6 h. c, n2 q+ G0 v(hardware) or program (software) that is compatible with a person's ability to G3 Z* a# r- [' E( U3 u' Ioperate it successfully and easily. . O& F: j" z! Q6 e; QUser Operational ! E8 B& B% h7 w, ]' UEvaluation 3 E* L/ N% V! ? @+ y/ vSystem (UOES)+ O9 o6 I O: m6 W( r Prototypical system developed and tested as part of the early phases of the" g+ R- l6 {; l( X1 r6 U development process. A UOES has two objectives: (1) testing, evaluation, and% c0 o, ~* x( d) {. H training for a system proceeding through the normal acquisition process; and (2) , B( S' T) Q) ^) s# u9 ~contingency defense capability should the need arise prior to completion of the ! `! \5 m% u; i0 unormal acquisition cycle.* C0 L5 k' R8 l+ [2 w, Y' f. r USEUCOM United States European Command, Stuttgart-Vaihingen, Germany.9 W7 Y& P2 y3 B' f3 W USFJ U.S. Forces Japan.+ H7 _4 H& z, R9 G! d USFK U.S. Forces Korea. , {3 k. P( m" ]8 G6 `% X# uUSFK/CFC CSFK Combined Forces Command.8 G; I' S2 i# w USG U.S. Government. 9 _4 N" K0 h. L4 PUSIA United States Information Agency.

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发表于 2008-12-25 20:26:08 |只看该作者
MDA GLOSSARY, VER. 4.0 U; Z& u! l" `2 C% l2 Y8 c 314% u6 I# E9 K. R8 H" i5 [: o6 ~) | USLANTCOM United States Atlantic Command (Now see USACOM).- P, K3 C. V( i$ h @ USLANTFLT U.S. Atlantic Fleet. 5 N5 J& u# K$ E# w- _5 Y; cUSMAR- " I3 O' _$ I1 {" q' |FORCENT $ w9 j9 Z) c% \& [+ HU.S. Marine Component, U.S. Central Command. ; N0 q* ~, z) U% h1 L# {% wUSMAR-FORLANT U.S. Marine Component, U.S. Atlantic Command.1 m* Q* y( @: ] S1 h( V USMAR-FORPAC U.S. Marine Component, U.S. Pacific Command. & [1 L) X5 _* h# p) _. rUSMC United States Marine Corps., E, ~0 ]- t$ V3 k0 r USMCR United States Marine Corps Reserve.. S* a9 E! w6 a2 k/ l USMILREP U.S. Military Representative.& G) s4 A. K9 e; X USN United States Navy.+ I8 J5 U9 u# ^2 ` USNAVCENT U.S. Naval Forces, U.S. Central Command.2 B8 M: i0 J8 j% E7 i+ e ~ USNAVEUR U.S. Naval Forces, U.S. European Command.3 O- @* F; J; o1 }5 n6 \ USNIP U.S. Naval Institute Proceedings. % q8 I6 [" u( X# \8 IUSNO U.S. Naval Observatory.: C4 \' ^- L$ S* _# ~1 c) \; b0 X USNPGS U.S. Naval Post-Graduate School. 8 f) U- c) H" P. ]USPACAF U.S. Air Forces, U.S. Pacific Command.+ Y6 L# T/ O- Z# r' q- J! g6 G1 ~ USPACFLT US Pacific Fleet. # E9 @8 t+ {4 Z: _USPACOM United States Pacific Command, Pearl Harbor, HI. - R) }8 a! Q% y8 C( U+ Q! Z6 Z2 pUSREPMC U.S. Representative to the Military Committee (NATO). & p* e1 ?8 {( O% B) \% tUSSC United States Space Command. 4 f/ x- f: L oUSSOCOM United States Special Operations Command, Tampa, FL.! I* [4 s6 G; [: ^" }9 m6 I$ b USSOUTHCOM United States Southern Command, Panama Canal Zone, Panama. 1 v; |/ G2 \) f6 j8 L8 LUSSPACECOM See United States Space Command. 2 j+ y$ |0 p. E9 tUSSS United States Secret Service. 5 V- O$ O5 J2 z7 b6 S6 t* [1 qUSSTRATCOM See United States Strategic Command. 8 D& ]$ [ d; I( G( T: H& b3 S' R2 BUSTA United States Telephone Association. 8 c! o H# |- V4 O* |& K1 ZUSTRANSCOM See United States Transportation Command.+ l8 c: _' l9 H/ |8 _- m! l UT Universal Time.% {. M' f3 D4 p1 V$ b! e UTC Unit Type Code. 2 ?0 P6 x! @" n1 z j8 H* A/ ^1 `MDA GLOSSARY, VER. 4.0 U2 M/ b7 X5 Y/ r) f) n# ^" y( X/ o 315- c5 F! _! c4 ?0 F! d! l# f3 Q4 J UTM Universal Transverse Mercator.; q+ {6 M, x9 ]( [3 x+ w* W4 V$ p UTTMDS Upper Tier Theater Missile Defense System. See THAAD System. s# ^6 L" F( e; F( }+ V UUT Unit Under Test (ILS term). 9 ^3 x+ {4 @; h* |* `UV Ultraviolet.1 E W5 Z! a2 b! v. | UV Electro- . o/ ?, t# R5 ?" b4 Q! hOptics . z, U$ {4 i2 u# PTechnologies/techniques employed by optical sensors in the wavelength * e! c4 h9 I8 v( J2 f6 Mspectrum shorter than visible (e.g., less than 4,000 A). 4 @# R- G6 b3 G" ~- vUVPI Ultraviolet Plume Instrument. % A& D/ X" k7 e ?UW Unconventional Warfare.6 @, ?' z4 {7 V$ v; U, Q MDA GLOSSARY, VER. 4.0 V 6 d. ]7 B5 d+ ]- u; B& N3165 c* T/ u0 n' e V Volt. 0 m) {5 Q) W% r! m1 {6 b6 oV&H Vulnerability and Hardening. 8 R+ P. `: {3 Z; L' [0 Y1 H0 U9 ?V&V Verification and Validation. (See Verification, Validation, and IV&V.)* m, f* l' T, a% D! S) P1 ^$ H V/STOL Vertical Short Takeoff and Landing [aircraft].' H5 C) ?) {3 C8 g/ |2 Z$ \ VAFB Vandenberg Air Force Base, CA.6 {4 Q; G5 c8 X8 B1 D Validation Confirmation that the processes and outputs from a test resource parallel real$ O: Q" d8 b* L$ Q( \ world processes and are realistically sensitive to change in the environment,$ M: g8 e) @: N# L' ^ tactical situation, system design, tactics, and threat.; T1 ~: i- o+ t: l% e VAMOSC Visibility and Management of O&S Costs.+ U4 u3 ?! q6 | R! `3 i VAR Visitor Access Request. . T {3 e8 n! a3 K1 FVariability The manner in which the probability of damage to a specific target decreases, i/ Z* P4 {0 [3 V; A with the distance from ground zero; or, in damage assessment, a mathematical3 P1 s! _* V* `( R+ c8 c factor introduced to average the effects of orientation, minor shielding, and . {7 g, d: C* c. j, buncertainty of target response to the effects considered. . X7 E' {+ p2 r/ IVBO Vertical Burn-Out (velocity).5 y" j2 U/ L& V6 P$ p3 H VCC Voice Communications Circuit., o% [* `1 H+ ?' t9 h VCRM Verification Cross Reference Matrix. 5 n: F @" n9 B# \) eVCS Voice Communications System. 4 r, ^, O, v) S# } g- [VDC Volts Direct Current.5 l- b ]' b6 S3 n# F6 M, j VDD Version Description Document.7 l7 A( P+ M, N/ ]5 ^+ H VDU Visual Display Unit. i9 P( r+ V5 U, `/ V VE Value Engineering.6 \, z' r7 t' X VECP Value Engineering Change Proposal.) ~+ [( n8 c) F( N" Y1 i7 i. q Verification (1) Confirmation that all data inputs, logic, calculations and engineering ; O( `4 x, t" C4 D4 L1 [$ Jrepresentations of a T&E resource accurately portray the characteristics,0 w' ]1 R. ~& v calculations, logic, and interactions of the system under evaluation.9 O. `! l! f7 c# d% E: c (2) The process of evaluating a system or component during or at the end * t4 F, u" d0 f7 ]0 rof the development process to determine whether it satisfies specified - C- U4 k; ?0 `- P l$ H% M- ^: ]. ^requirements.% ^6 ?6 O% o4 B$ ]" \+ @" N VESA Video Electronics Standards Association. * [ s0 |- R3 pVFR Visual Flight Rules. " B3 a" l @7 i+ w$ h1 wVGA Video Graphics Array (Telecomm/Computer term). * P2 r n2 }4 T- ^9 u, `9 }VHF Very High Frequency.# _( U6 J, ~& Z5 B4 E- D e VHSIC Very High Speed Integrated Circuit.. H& o r4 @7 R k! _+ _: g MDA GLOSSARY, VER. 4.0 V 2 M- h6 {2 k6 K. \) j6 |* J317 - C+ X' K2 g/ W0 ZVIDS Vehicle Integrated Defense Software (USA term). + k" h/ s7 {; _VIGILANTE Viewing Image/Gimbaled Instrumentation Lab-Analog Neural Three-D" n9 A2 l) \- f# n Experiment. VIGILANTE involves building a small computer (ANTE) offering 1/12 # {$ T# u, P) h9 }& I* ]' s4 NOperation Per Second (OPS), using a mixture of experimental three-dimensional( s a0 F4 d/ y8 |- S- E circuitry and commercial components. Project also demonstrates VIRGIL, a/ t6 D9 F3 V5 ?3 {0 N; U gimbaled airborne sensor with visible, experimental UV and quantum-well IR . M* V% a4 v4 S. k7 P) ucameras capable of tracking targets that can be detected, identified, and & q+ {% g4 @9 m# Nprecision-tracked with the ANTE processor.0 c# S* `3 r8 O$ _6 \- G( R2 t VIM Vibration Isolation Module.& ^ j6 r! m5 t! a- v1 c VINSON Encrypted Ultra High Frequency Communications System.; p% S' k% `% X4 p | VIS Visible. 7 y1 Y {; s7 Z8 G1 IVIS/UV Visible/Ultraviolet.* ^* ~: X9 F0 T* J' S Visibility Range! V. @( w# y+ M! L* n" ~1 u# z (or Visibility) ! f" e e7 m. ]5 eThe horizontal distance (in kilometers or miles) at which a large dark object can / I4 O( I. L! s+ d( Ejust be seen against the horizon’s sky in daylight. The visibility is related to the ! x4 N, T" R2 Z& K6 h% Wclarity of the atmosphere ranging from 170 miles (280 kilometers) for an0 w3 e9 W6 c/ W% v/ _$ H exceptionally clear atmosphere to 0.6 mile (1.0 kilometer) or less for dense haze* ?: Y8 I6 u& G$ I or fog. The visibility on an average clear day is taken to be 12 miles (199 }7 R" M* n6 M kilometers).6 _1 S4 ^! Y J O, _% {& s( V& q Visible Electro-1 N y5 s% n. G- l! U Optics 0 E; P+ b4 t; |; i5 Y; ?Technologies/techniques employed by optical sensors in the visible portion of ) I: B4 M1 K5 ~* Y) f0 E' hthe wavelength spectrum.5 C# g, y* _& Q5 ^) l- W9 B6 Z3 d8 q3 R VLAR Vertical Launch and Recovery (UAV JPO term).; R- ?' `/ ~+ }* ^, o VLF Very Low Frequency.0 f! r& o, E6 |3 L8 P# f' v2 G VLOS Vertical Line of Sight.

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发表于 2008-12-25 20:26:19 |只看该作者
VLS Vertical Launch System.$ f' \! Z' U6 o VLSI Very Large Scale Integration. [2 s9 N& @) t: X; e8 _( R! s VLSIC VLSI Circuits. 0 o7 q; a& d2 j d2 o( uVLWIR Very Long Wavelength Infrared.- F! _+ V& _* [+ _: r6 C# r6 @ VME Versa Modular European [standards].3 k7 q4 R& M8 D" `: [ VMF Variable Message Format (Telecomm term). 1 L5 X" j2 `7 XVOX Voice Actuation., o, v- J4 |8 j/ @ VRI Vanguard Research, Inc., Fairfax, VA. . B, x0 e4 a! E. i# h' gVTC Video Teleconference. & G$ W8 M# s ?! v; T! Q' k* d7 vVTOL Vertical Takeoff and Landing [aircraft]." h" y) S8 p! S" _4 X VTOL-UAV Vertical Takeoff and Landing Unmanned Aerial Vehicle. $ {* R5 S# ?" _1 F- fVUE Visible Light/Ultraviolet Experiment. ^2 A" c& f' k/ Y9 @ MDA GLOSSARY, VER. 4.0 V, j! M. O9 e1 }" T: q 318 - s! h3 j9 I8 k9 M$ @Vulcan UK bomber.; k, k6 |, u* _# P* h j VV&A Verification, Validation, and Accreditation.1 s$ B% U; l; S# c5 y! l( |8 x VVER Pressurized water type nuclear power reactor.5 q+ W4 W! d' J; P VVIRF Verification and Validation Information Request Form. ) x' x7 g% K0 ^4 ]! M2 oMDA GLOSSARY, VER. 4.0 W8 C: B6 i4 h2 ^% o. T& V) f 319 ! A0 ]3 X; n# A, [, w2 |( _/ t4 GW/ With.- ?: A( X8 s, F8 V5 k1 G w/o Without. / ^6 X0 @7 }0 ] G& {; yW/TD Warning/Threat Detection. + S% I. F, s( f/ d& F$ k! Z* J6 wWAA Wide Aperture Array.5 {$ m/ k, h" {# z. a+ y WALEX Warfare Analysis Laboratory Exercise. ( T& y1 U7 ^$ M+ {WAM (1) Worldwide Military Command and Control System (WWMCCS). (2) Wide Area$ w' ]0 R2 s7 V$ f Munition. (3) Wide Area Mine. (4) Wide Area Missile. * G- u& i% N+ j- a7 ZWAN Wide Area Network (Telecomm/Computer term). 6 v4 n0 o4 f. b, {* {( {9 E9 kWAP Wide Azimuth Probe. - Q9 F) _4 g" \4 n1 v: ]War Game A simulation, by whatever means, of a military operation involving two or more 2 E$ X& I5 }3 L! Kopposing forces, using rules, data, and procedures designed to depict an actual5 e3 W: f4 V% @6 S" N7 z or assumed real life situation.; R# p1 {# {' F. ~" g Wargame 2000 Title of MDA program for development of a state-of-the-art simulation tool at the8 d5 }! j& t$ T; T/ n* e JNTF for use in CONOPS validation, missile defense program design verification, 4 k: F+ w$ j: a" w4 Q5 l4 ivalidation and accreditation, and support CinC/Allied wargames and) D8 L( K) E$ c assessments.+ x7 D3 I1 V9 Q6 E& _! E Warhead A weapon, usually thermonuclear, contained as the payload of a missile.! N0 w7 [8 H+ c! V9 z Warhead Mating The act of attaching a warhead section to a rocket or missile body, torpedo,- ^+ e0 ?3 U( \ airframe, motor, or guidance section. % q. ?- T6 g) t* A9 j: IWarhead Section A completely assembled warhead including appropriate skin sections and related 8 _) e5 C T: W D8 _4 J0 Hcomponents. $ A( ^! a+ v+ X! Z9 o4 mWARM Wartime Reserve Modes. . G. y M; _. [9 m* U$ K, ?Warning of Attack A warning to national policymakers that an adversary is not only preparing its 4 {4 ]1 }& i. h1 _armed forces for war, but intends to launch an attack in the near future. 7 E7 B6 K C, PWarning Order A preliminary notice of an order or action that is to follow.* [% `% j& \$ J( y WARSIM Warfighter Simulation (US Army term).' r5 U7 {9 W; h5 \- a WARSIM 2000 Warfighter Simulation 2000 (US Army term).4 F/ {" h e- X/ b1 s Wartime Reserve % V X3 C( [9 J" {4 M- s' l& XModes (WARM)# O7 L3 w, B% i5 s$ g* b" o4 ^ Characteristics and operating procedures of sensor, communications, navigation / a5 l/ a, S* j5 {* ]/ |! Naids, threat recognition, weapons, and countermeasures systems that (1) will4 w+ R' h2 I8 G3 i6 ]: f7 a contribute to military effectiveness if unknown to or misunderstood by opposing ; W" y4 ]! \; lcommanders before they are used, but (2) could be exploited or neutralized if! k" ~& Q) Q0 r7 c- ^0 R known in advance. Wartime reserve modes are deliberately held in reserve for( c& |4 v$ B5 Y* a9 W: x* p! W8 y wartime or emergency use and seldom, if ever, applied or intercepted prior to% K- Z/ a3 f: h z. S" \+ k such use. , c( i: x/ q3 ?* u8 ?" eWAS Wide Area Sensor.! c+ y1 y2 e% p$ _# x3 Q9 ^. j WASP Wide-body Airborne Surveillance Platform. A modified DC-10. - A' r# k0 T; F5 [' C* l. jMDA GLOSSARY, VER. 4.0 W! y4 j" y; \5 W8 ?3 ]0 r7 h 320 - y% N5 p9 M2 \1 J9 oWASHDC Washington, District of Columbia. x& \0 k- a% N1 B+ x1 XWastage (Max) The maximum number of defense weapons which, when used, will be ineffective$ e" w$ i& j4 _% \% | in contributing to the defeat of the offense. # ?. y5 @# K; F; X XWatch Condition 3 m# Z- |! X' S+ u+ r3 B7 u(WATCHCON) ) v$ X. a% e! e0 R/ r) eSeries of readiness conditions used by the intelligence community to alert staffs+ T' L# c: y) i7 b! H) w* Z; W to watchfulness without raising DEFCON.: L, q6 n# d* ]" k. e7 n WATS Wide Area Telephone System.1 t4 J9 |+ f y( n) F. | WAVE Wideband Angular Vibration Experiment. 7 i4 @- g. U$ _Wavelength The distance between two points having the same phase in two consecutive3 q. D: I( ?) m# X7 j cycles of a periodic wave, along a line in the direction of propagation. / J7 ? ?5 M: y1 X. SWB Wideband. 9 X( v! B' y" J/ P! D/ xWBM Weapons Battle Manager(s).4 P/ g4 K' B, Q- [4 U WBS See Work Breakdown Structure. 5 K) n' G. l; ~- fWCC (1) See Wing Control Center. (2) Weapons Control Computer. 6 [) K R9 T* h$ j+ l8 GWCG Workstation Computer Graphics (Computer term). 3 v! E$ G! I2 o; y, l6 N2 ^; v# YWCP (1) Weapon Control Processor. (2) Weapon Control Platform. ( a: H' u# ^: ?, z) W# yWCS Weapons Control System. * y9 ]( a4 r2 @: PWDM Wavelength Division Multiplexon.) V$ Z* t7 `5 H Weapon Enabling The set of control functions without which defense weapons cannot be & G1 ^& G% d: L2 m! D' }launched.

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