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发表于 2008-12-25 20:24:45 |只看该作者
MDA GLOSSARY, VER. 4.0 T , f Z/ {) a S. s- J2984 z8 l8 o& j- J$ J1 E' [' ` Theater Missile7 P6 S4 R. i& s8 A0 O Defense Council% F, [2 |- M1 {, S (TMDC)$ R! G% D9 X. @' D A consultative body for considering TMD family of systems planning and ( _7 Y, z$ K5 V# e( dprogramming issues; chaired by an Assistant to the MDA Deputy for 2 N" v* o* F0 G2 K( }8 l- WAcquisition/TMD, membership includes MDA TMD Directors, representatives of8 a& A* A# x" J1 m( C1 ^ each applicable Service Program Executive Officer, and TMD Executive Agents2 t9 @$ l7 ]4 @6 C# [ and Program Managers.) L0 W5 B' v4 P, J Theater High 9 S# N# w/ w- W( {9 g2 wAltitude Area # s2 ?3 m! O) D5 H6 sDefense System. V1 Y" F* s+ t- h5 W/ c/ ] (THAAD) 4 M- P4 e% G$ X1 EA ground-based, air transportable interceptor system that will provide wide area ' ~/ W$ V' z7 U6 V6 }) pdefense capability by intercepting longer-range missiles at higher altitudes and at i1 f: J& Q; @1 Y0 P greater distances. Will provide an overlay or upper tier to point defenses such as - q3 a( _& Z4 B8 C0 ZPATRIOT.6 u$ ~# ]6 b" \6 @4 q" [ Theater Missile8 b8 K+ a; e4 [& _- F0 ^ (TM)- R% a3 C* v+ q; t' T! A9 Y' p a) t A 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 ) C# \# \& Q1 Q# R3 i6 F$ sof attacking targets in a theater.1 m$ l; T9 g4 Y( }) h- ?" P Theater Missile " I! L9 z6 Z% t' ]* Y% oDefense (TMD)/ i% c& S5 c3 p4 ]1 G% ?2 l6 S OBSOLETE. The strategies and tactics employed to defend a geographical area) t6 F* N9 H1 n9 m; i# m outside the continental United States against attack from short-range," {; x1 c+ I; y$ k intermediate-range, or medium-range ballistic missiles.( f( P2 \1 L% r# R Theater Missile # i( b6 ?1 W+ D$ G2 `8 xDefense Ground- 6 k6 n1 q% w H+ z0 r0 GBased Radar3 N G5 a# J& x0 {! m6 _ (TMD-GBR) + `, m+ B# e2 B; \% \2 `8 |A ground-based, air transportable sensor that provides search, tracking and) {" n- N( K/ T% Y1 B9 O \ discrimination capabilities for the THAAD interceptor system. Also referred to as 6 G% G$ D* F5 E9 V4 ~: yTHAAD Radar./ b* E5 F7 N! Z# q. z Theater Missile 3 `" }- K" u8 @! y& PDefense Initiative % N8 s6 O% |( S ~(TMDI)4 e) ~) {. |: a; C- r An initiative under which all DoD theater and tactical missile defense activities are/ V) D" {2 o8 s9 Y* U carried out. Section 231 of the National Defense Act for Fiscal Year 19930 E. T% z" |$ \1 V. \6 S$ m0 G$ y (Public Law 102–484) directed establishment of a TMDI office within the DoD. R* J: [" R" e# o THEL Tactical High Energy Laser. 4 a4 c2 z9 v" t6 M5 X6 oThermal Energy Electromagnetic energy emitted as thermal radiation. The total amount of2 l3 o8 O7 X, w5 K) K+ A thermal energy received per unit area at a specified distance is generally2 ^2 s- n) ?+ J+ r% u$ F4 {! ` expressed in terms of calories per square centimeter.5 Q/ U+ E3 ?; U" o( u: T, ?- {- b Thermal Imagery Imagery produced by sensing and recording the thermal energy emitted or2 W( S$ G; @* L. k reflected from the objects, which are imaged. 0 Y6 J3 X3 @: t! @6 K* |Thermal Kill The destruction of a target by heating it, using directed energy, to the degree. a8 c) z% R7 E that structural components fail.+ O1 q2 _. r- m8 \6 l Thermal D' w( Z7 `4 T* ?3 v Management ( {0 ^' U$ ?- p8 Z z. R) TTechnologies/techniques associated with the control and management of4 z' v6 [% t1 C7 N2 o thermal energy, its generation, dissipation, and recovery.& V' |. d4 t# @7 F* K5 c/ { Thermal & A1 i$ Q- p; e8 V% j+ VRadiation 3 F3 n. f0 V' |, PElectromagnetic radiation emitted (in two pulses from a nuclear air burst) from the R- N6 a7 `% R9 e8 f1 k fireball as a consequence of its very high temperature; it consists essentially of/ K! G. d4 Q& K0 d9 P6 H# }0 S ultraviolet, visible, and infrared radiations. . t" x" u; h( q2 i' WThermal X-Rays The electromagnetic radiation, mainly in the soft (low energy) x-ray region,; r3 Y( d/ X+ P0 _8 [ emitted by the nuclear weapon residue by virtue of its extremely high- V8 [7 N: Y3 T: Y& I1 M temperature; it also is referred to as the primary thermal radiation. It is the, z# C) F3 }$ E! g absorption of this radiation by the ambient medium, accompanied by an increase% y8 |& A, g. W; C in temperature, which results in the formation of the fireball (or other heated " k0 i* J* r" J: ]: [! zregion) which then emits thermal radiation. (See X-Rays.)9 ?( M1 q1 I, Q3 v MDA GLOSSARY, VER. 4.0 T 4 H9 q( @/ ?( Q/ d9 E4 [6 W299! T4 p5 ?& P8 N/ U5 z Thermosphere The atmospheric shell extending from the top of the mesosphere to outer space;5 p1 ^ L: S9 e it is a region of more or less steadily increasing temperature with height, starting 2 g; B/ g( n& p. _; w# z# Vat 40 to 50 miles (70 to 80 kilometers); the thermosphere includes, therefore, the + {4 ]& l' U$ ~9 O, X: g8 jexosphere and most or all of the ionosphere.% ^) n: `9 H; L# G- f Threat( U1 O/ p! n" R! p7 B6 `! R Characterization( p' [; D1 ?8 z& y An assessment of the nature, magnitude and intent of an attack in progress. % M2 c& o) n. N% JThreat Corridor \$ v { [6 b$ f(Threat Tube)( {& r( I0 {. v% ]; z' H A tube containing all the objects originating from launch sites and aimed at ' _3 S; e' s) Vtargets whose spacing is close enough to permit the tube around the object* J* _7 k( P. L+ y" w+ Z trajectories to be represented by a single trajectory in battle management : N' `3 F; t3 f+ l0 i5 [# i% r" Wcomputation.) q& X# b2 p, B Threat Scenario A hypothetical example of the employment of threat systems against ballistic3 {# ^+ }& y t missile defenses for the purpose of analysis and evaluation of those defensive3 {: D5 P+ c. Q2 Q* S systems and architectures.( q; B c; d ~0 M3 _" o Threshold Performance capability or characteristic level in terms of a minimum acceptable & [/ I) G. |6 D" _( Kvalue (threshold) required to satisfy the mission need and a performance ! |$ P1 x- d N0 U: a, \: Q# bobjective. % G Z4 J3 `& [0 q: g/ {' CThreshold- u" m# e; X3 ^- n, @5 [* q Defense/ S" j1 H, @9 X* C! `! n7 |$ Y8 P" K A defense strategy that concedes that the target can be destroyed at a price3 x2 @. K: q* k" M that is not prohibitive, but the presence of the defense is thought to require the0 F! b' ~* T, L2 g D, e- x+ a9 p A offense to mount a relatively large and complex attack.0 t) l$ m: b" o& w0 ~' V Throw Weight All weight in an interceptor, above the sustainer, which serves as the kill vehicle. + Y7 G: }. d' r6 S6 e- S2 c. C% qThrusted7 C9 Q# M Y" E- N; N* [ Replicas (TREPS)! E2 y+ [1 p/ D4 E Conical decoys equipped with a miniature rocket device. Generally used to0 s$ [. P% h' a; |5 {( Y, G% M change the decoy’s optical signature to resemble that of an RV in the reentry 7 F. p' F1 C; f4 Q/ ~) d9 R* Y4 ophase.+ K/ ?5 |! b- Q) U+ p+ M TI (1) Technical Instruction. (2) Technology Insertion. + B& m/ N: Z. E6 ETIARA Tactical Intelligence and Related Activities. ' b9 k' f& L: w+ o' VTIBS (1) Theater Information Broadcast Service. 7 U, U4 \# `; j7 _1 }(2) Tactical Information Broadcast System.' r x$ a; D9 l+ v3 T (3) Theater Intelligence Broadcast System. . \; I+ I! ]5 WTIC (1) Thermionic Integrated Circuit. (2) Technical Information Center. 3 U: U! ~2 d) D# ]( ^TIDP Technical Interface Design Plan.; k2 v7 |( |5 R* g TIE (1) Technology Integration Experiments. (2) Technical Independent Evaluation. W2 n- o" f3 U Tier An integrated set of SDS elements that address a particular phase of the threat; C% O* V9 y* a& k (e.g., boost phase). 8 V1 q3 f5 P* YTiered Defenses The use of defensive systems at different phases of the missile trajectory. 4 @7 d# S) m$ CTIES Technology Integration Equipment System.* p$ ~6 ~* X4 h1 u TIIAP Telecommunications and Information Infrastructure Assistance Program. - P/ `- x6 v! xTIL Technical Insertion Laboratory. ! R2 j2 s1 _7 S% H$ J! kTIM Technical Interchange Meeting.. O* s$ n! {" l$ z. [ MDA GLOSSARY, VER. 4.0 T/ M, U6 q9 C; \5 a% J% x/ R 300 ! s' R7 r# i: @. DTime-Phased( B. D% f ]4 k1 p7 _ Force and 7 ^" s) o) K R C/ u% cDeployment List 5 C/ R# T4 |: K6 [2 r) ^, KAppendix 1 to Annex A of the operation plan. It identifies types and/or actual 3 J4 R6 W4 {! y2 G* @0 ?units required to support the operation plan and indicates origin and ports of ( E# b+ ~6 V% fdebarkation or ocean area. 2 m* @9 _/ B# z. N$ `6 p1 l& m/ y* rTime of Flight$ b2 @; U/ t! t, V* F$ a8 y7 M3 T (Max)* B0 w6 B& A; w) k0 l! U* K, O The maximum time for a booster or vehicle to perform its function from time of $ N% \' W8 Z" }& N2 ~( Z+ _launch. 1 P- @( k% ]6 ^0 A( c7 ?5 ~# l: GTime on Station The time the sensor is in its operating position. 3 `& K& ?# c5 |. F! W: R+ DTime Sensitive' w4 J' ~5 _6 B) h% e9 S Targets * |! w3 E$ o: e$ v! FThose target requiring immediate response because they pose (or will soon 3 L9 f) Z+ @% F' v# @9 U% e8 ypose) a clear and present danger to friendly forces or are highly lucrative,- p, \; X7 N; ~3 f8 U; F( ~( G 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. \2 k2 W: K) A* _; q# ^/ fTIMS Training Integration Management System (USAF term).( ^2 w% p6 l) a% a9 H+ d TIN Theater Intelligence Networks. ; O+ P3 b/ z: A! fTIP TOPAZ International Program.+ K2 b" v: j8 [6 s+ X TIR OBSOLETE. Terminal Imaging Radar. (Predecessor to Ground-Based Radar 1 I1 }3 c" @( F0 }& q* N2 L. uTerminal (GBRT).)/ L; e1 m1 a0 X3 ? TIRS Telemetry, Instrumentation and Range Safety 4 ~# Q8 [; p2 k1 u' _: J$ PTIS (1) Trusted Information Systems, Inc. (2) Technical Information System.' Y/ s% s) S8 q F+ a2 ? Titan USICBM.- X# p: ~6 P1 n v TIU TIBS/Tactical Interface Unit.1 z: T* j/ P4 x+ w6 b TIWG Test Integration Working Group. (U.S. Army)/ f0 f( l% K/ a0 B$ v) g$ ~ TL Team Leader. 2 ^; Z2 J" q2 r9 G" s" T0 eTLA Time Line Analysis. " b& s( R/ C/ o6 o ^1 g1 m9 L+ eTLAM Theater land Attack Missile. & ^; S; ^% s# n: [. R' uTLAM/D TLAN [with submunition] Dispenser (Navy term).% s! H3 z0 S3 k0 j. q0 P: k- S TLDD Top Level Design Document.) f# }% N, E' q TLV Target Launch Vehicle.7 [; R* c/ q. ~7 B TLX Teletype. ' U9 U3 S, G- L4 p3 eTM (1) See Theater Missile. (2) Technical Manual. (3) Tactical Missile (US Army. V" F. B( M' n, z3 ?' a- A) Y term). 5 j& _3 l: I- {# G, kTMCC Test Monitor and Control Center. . H+ U- c: X7 U* p7 L, ?: yTMD See Theater Missile Defense.' ~6 i; t5 }. ^& B TMD C2 Theater Missile Defense Command and Control. 3 g8 j8 B; \( F3 Y0 W- q) M- uMDA GLOSSARY, VER. 4.0 T 5 b8 Z# c x" T, d& S/ F7 Z301/ v- u& s+ T; F/ I; I+ { TMD C) J! b4 Z1 j8 ]2 n2 P 3+ Z" a* o& {1 V/ o0 | I Those assets that provide connectivity between and among Theater Ballistic f& G& [. x( ?" g1 C: g1 g Missile Defense forces.7 c m( j/ o2 f! M TMD ESM Theater Missile Defense Existing System(s) Modification (MDA term)./ N+ i: l' o+ v; P/ q TMD GBR See Theater Missile Defense Ground Based Radar (THAAD Radar). 2 z+ [3 L5 w9 [% Q3 fTMD IA Theater Missile Interoperability Architecture. & X. J7 j# w( u3 d; {. v7 UTMD ITP TMD Integrated Test Plan. D; _, I0 N( j I4 x' z TMDAS Theater Missile Defense Architecture Study.# x) c5 y% K% L8 g- f TMDC Theater Missile Defense Council.$ |! S1 o+ \2 }( q2 {3 S TMDE Test Measurement and Diagnostic Equipment (ILS term). ) n. K/ B: i; F) X8 U' \TMDI See Theater Missile Defense Initiative.3 r% Q7 \$ u9 A9 ^ TMDSE Theater Missile Defense System Exerciser.& c5 d7 v3 q# v2 w2 q TMMM TOMAHAWK Multi-Mission Missile.) u d& W( r1 [+ h+ i TMP Technical Manual Plan (ILS term).6 y, O1 q: {/ p/ B TMPCU Tomahawk Theater Mission Planning Center Upgrade.7 N1 B% g3 {6 j8 F TN (1) Terrestrial Network (C2E term). (2) Thermonuclear.% x, b) l% h) C# P TNF Theater Nuclear Forces [Treaty term]. 4 y2 u* s! ]; v! YTNT Trinitrotoluene. % }% J, k( f1 ^3 D1 R# gTNW Theater Nuclear Weapon. 8 E9 F5 [$ i) P5 d+ J$ _6 QTO (1) Task Order. (2) Technical Order.5 j' ]4 F8 B3 ?0 ^# N; m( @3 G TOA Total Obligation Authority." @9 p1 \7 a5 i4 ]+ Z* a4 o TOAM Tactical Air Operations Module. 9 C" a9 s' ]" d/ e( vTOC Tactical Operations Center.2 m* ~, V* }" V$ N TOE Table of Organization and Equipment. # \8 n$ d7 Q& f7 m; ^* q, kTOF Time of Flight. ( u1 t E! A! Z, {; R' M3 w$ bTOI Track of Interest.3 o* [* M. y- n- I% k TOIA Task Order Impact Analysis., O; ]3 y& k( o Tolerance The ability of a system to provide continuity of operation under various abnormal , @. Q9 i# h; z6 k# P, \" d8 Yconditions. 1 u0 X y5 g2 r5 JTOM See Target Object Map.

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Tomahawk US ground launched cruise missile. % i/ w& a% D% t z& l- B* p$ g% ~: L, LMDA GLOSSARY, VER. 4.0 T% L# ]( C+ r0 c; @4 J# d$ L 302 1 n6 F- |3 ]* M, |TOMD Task Radar Management Details. B [ O; ~3 oTOMP Task Order Management Plan.- @4 _+ {: f6 B v1 j9 d/ @ TOMS Total Ozone Mapping Spectrometer (NASA term). N( f `0 g1 v0 R& D8 T9 b TOO Target of Opportunity. $ l' ^3 k( T/ V1 M4 [5 j( wTOOL Target of Opportunity Launch.6 I* X9 H+ d( v* E% n TOP Task Order Plan.) r$ }4 }6 s! h Top-Down Pertaining to an approach that starts with the highest-level component of a* x, Y' G2 H+ g) a hierarchy and proceeds through progressively lower levels; for example, topdown design, top-down programming, top-down testing. Contrast with bottomup. 7 O/ h; N' I _' p- w9 P, O) gTop-Down $ f: c& z0 o3 ]# `9 MDesign6 K2 L. q4 w- L9 P( q7 l' Z9 W The process of designing a system by identifying its major components,- Z' h; c5 b0 o- y' N8 c decomposing them into their lower level components, and iterating until the ; a3 N3 [4 b3 o8 ~desired level of detail is achieved.0 j* ^: i Z; O' ^4 S8 M Top-Down/ p" V2 k% e$ m/ j* A/ J% A Testing' ~) e3 g6 A2 `) Z2 [+ A The process of checking out hierarchically organized programs, progressively, 9 T7 u1 H$ v; G ofrom top to bottom, using simulation of lower level components. 9 x( y! ?6 ~: ?& E' oTOPAZ A project to demonstrate the transfer of Russian thermionic space nuclear power k/ K+ B% G' A7 Q technology to U.S. BMD applications. & j' L# \$ _: I3 n0 \TOR Terms of Reference.# K3 M( u1 }, t* ] TOS (1) Tactical Operations Shelter (Station). (2) Task Order Status.9 |# M% E4 Y/ e& n5 w& R; L0 E TOT Time on Target 2 z& M' s5 P1 H# mTotal Obligation' L$ R- G2 m. r4 v; j# Q Authority (TOA) 3 k# k! J2 b1 B" nA DoD financial term, which expresses the value of the direct program for a given% R5 V* Q8 h. ^& Y6 T7 t8 u7 ^ fiscal year. / ?: J8 Y0 E9 ?! E |! QTotal Quality ( J2 g4 G8 ~( c% X' J( {/ TManagement2 k3 ]) ^1 k' U" _ (TQM) ) P( \8 ^- N8 h; C* Z4 QA management philosophy committed to a focus on continuous improvement to- t, q7 e) r0 }- P- F+ m2 j: K product and services with the involvement of the entire workforce.* ?8 E b# F! V' m TOTS Target Oriented Tracking System( z$ t7 _' v- f p9 u( l- i$ K TOVS TRIOS Operational Vertical Sounder., C. Z+ `4 s! L) B$ x8 T Toxicity The kind and amount of poison or toxic produced by a microorganism, or$ A3 B! B y9 [& {4 w7 N' c possessed by a chemical substance not of biological origin.1 ^1 R7 K7 o; x6 T TP (1) Telenet Protocol (Telecomm/Computer term). (2) Test Program. : D# I7 {( \3 T Q+ d, H, ?TPALS Theater Protection Against Limited Strikes.+ y0 N5 f* g+ A/ s* d+ X2 ~$ H TPBM Terminal Phase Battle Manager. 1 U) X8 [* W) jTPD Mobile Tactical Radar (US).2 g, Z% r9 v* v7 ]/ }: E v! ~: l TPDR Total Processing Data Rate (TelComm/Computer term). " V2 ^- A- Y! |. RMDA GLOSSARY, VER. 4.0 T y1 R+ w0 P6 E303 : X7 J- K4 X! B3 i7 m, P6 e4 lTPEC THAAD Performance Evaluation Center." T: z' K$ Y: { TPEM Technology Program Element Manager (SDIO/MDA term). 8 d9 l/ ]4 l f8 I1 B& H# |! b; @TPFDD Time-Phased Force Deployment Data. % c3 Q2 S- z: N! r3 ^8 ~: PTPFDDL Time-Phased Force Deployment Data List. " l1 ^' k B# G% r# rTPFDL Time-Phased Force Deployment List. [) n4 ]* Z9 N1 F8 v TPM Technical Performance Measurement.0 O# I9 A7 [1 x+ h2 [8 Z TPMT Total Preventative Maintenance Time (ILS term). & x; j* l% Q2 R; _ fTPO (1) Test Planning Organization. (2) THAAD Program Office+ j7 `5 F( w2 x4 E- y8 K TPP Test Procedure Plan.$ `( ?* P3 M' ^4 H9 Z TPR (1) Terminal Phase Radar. (2) Trained Personnel Requirements. (3) Target % ~' g6 p0 c5 z' \% W6 rPerformance Report.. ~& n8 ^: S3 E: q4 V TPS Thermal Protection System. 4 s$ L6 w- l& }4 i4 D* J) mTPT Theater Planning Tool.( }) q4 ?" e: q3 _1 O TPWG Test Planning Working Group. (U.S. Air Force) 7 b- E4 F3 `: P( L; ?1 u9 q2 ~0 W: ATQM Total Quality Management.- d8 r, [% U( z" U Traceability (1) The characteristic of software systems or designs or architectures or 7 A4 q, Q+ ~& bdomain models that identifies and documents the derivation path 6 D7 C/ G) }3 h1 \1 U(upward) and allocation/flowdown path (downward) of requirements and; h4 ?6 r5 |! b, [ constraints. ' T; l) T2 D( V& M$ p- p! ^(2) The degree to which a relationship can be established between two or( }" T. H; c' k" K$ [ more products having a predecessor-successor or master-subordinate' Q! h9 ] e1 }( o9 J. x relationship to one another.

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Track (1) A series of related contacts displayed on a plotting board. ) b1 i2 E2 [! q' n(2) To display or record the successive positions of a moving object. / Q5 j& B& C; l9 N& w(3) To lock onto a point of radiation and obtain guidance from., \/ K1 L9 C3 i& u (4) To keep a gun properly aimed, or to point continuously a target locating. _' ~# M* c. _' H% ~ instrument at a moving target. ' N, K( J% ~" Z: ~& c: [; o' s8 z(5) The actual path of an aircraft above, or a ship on, the surface of the % m4 P: y1 l1 I% d& B! M4 Cearth.+ b9 S7 W3 ^; f0 S$ B. E Track6 D7 Y0 R: y# ]4 a Assessment % y, Q$ h: c- ^The Track Assessment looks for anomalies in an object’s track data. An anomaly 0 z# |( G/ r, u5 {9 Kin the track may indicate a hit. " w7 n: E. R2 v: ~1 l9 VTrack, Birth to# j4 N# H5 _7 A T; X+ ?* q: p) \+ m4 t Death# v! t/ _( \4 R6 E# L# k9 ^* k The maintenance of an associated track through all phases of flight (i.e., boost 3 I/ t: q% g5 v1 I3 hto reentry).( z8 r u, G* {6 x) ? Track Correlation The combining of track information for identification purposes, using all available 3 k$ j5 M9 o g" X& I! E+ Xdata. % H9 e# c- ~- ?& O5 |9 B' YTrack Extension This term usually applies to improvements in track estimates by use of new data. ; T5 q! g& h, a& U* eIt is sometimes used to describe a process of target extrapolation to a future time % E# m I! k" e2 D3 Bor place (e.g., reentry)., d6 N7 {! N% h MDA GLOSSARY, VER. 4.0 T5 i2 U% q5 t3 _4 a6 x @3 [( D1 Z 3049 x1 d# C% Z; m% X( ?% t# { Track File A target’s stated estimate, confidence, covariance matrix, and associated LOS! @: R( w; b& G8 w- W measurements with irradiances with confidence of association; or some subset of - S9 h! ^. n# ]/ q+ I: bthe above. 2 K+ ~: c3 F9 V/ S( p* nTrack File-Track : U" L; W, O9 EHistory$ j' `) D% s% W A set of individual track reports on a particular object, which taken together . V0 s) O2 K* J" y' Q: V6 u2 Kproduce useful approximation of that object's future position in space.# }7 Z- \8 P/ |* r: Y7 R8 W6 l' N Track Formation The process of determining the track or tracks of detected objects. It is usually a$ f& ?0 E: T' {. x* H6 _ three-step process of data association, track initialization, and track improvement + i o; J- ~0 ]" T$ S' l, cby filtering. ] M! ]7 ~7 m; C4 g( B. z Tracking The act of generating and maintaining a time history of an object's position and ; p+ I0 [( i3 Y1 s xany other features of interest.6 F; Z% h) }7 ]( ?1 {- P Tracking and 3 t1 }" u w! v0 g8 JPointing# J( S8 T0 o2 p/ q# I$ U Once a target is detected, it must be followed or “tracked”. When the target is4 D7 G9 v( Q& y2 g* X# L! e( g4 e successfully tracked, a weapon is “pointed” at the target. Tracking and pointing# S' v6 E( R# D8 G are frequently integrated operations. ( M" P6 @& r5 Y; T* \7 T, lTracking Range" u' u2 O& U% ~8 T" { (Max)% P! Q3 v* ]( \; E- Z The maximum line of sight distance at which a sensor can maintain track of an * k: o# l6 H' D2 b! k4 j) y4 p% kobject.8 m! a( K4 x& k# O& c Track Initiation The formation of the first or initial estimate for a sensor system of the state vector 2 A/ O& K6 P0 g" }, B; H0 bof an object. The process typically requires observation from a number of3 Z g+ q9 q( Y, }8 c frames. * V' s! y! |& D7 XTrack Production ; |# K1 m8 g# T& @6 A3 @Area0 Y) O9 l: n% T2 M6 Z- D) ?3 z4 { An area in which tracks are produced by one radar station.* q, |8 |9 ]4 D f. t Track Symbology Symbols used to display tracks on a data console or other display device.( z+ m' c0 T! Q; {2 | Track Telling The process of communicating air surveillance and tactical data information ! A/ r* b2 Y7 D; {- p! P' ^0 abetween command and control systems or between facilities within the systems. " J. d% d$ ?& W( I$ MTelling may be classified into the following types: back tell; cross tell; forward tell;, Z( H- W# B" W' [- G B! o5 H) s lateral tell; overlap tell; and relateral tell. : _1 d6 Q8 ~& g' f) p$ m, cTRADEX Target Resolution and Discrimination Experiment.8 j* }4 S/ x' W% o& p( n1 f2 i TRADOC U.S. Army Training and Doctrine Command, Ft. Monroe, VA. / u& V( I" Z VTraffic Capability 5 o! p# I+ w( j, D( v: s6 ]2 CMaximum 4 W1 h+ ~1 R' y6 H$ q( `5 ZThe maximum number of objects per unit time which the sensor system can* I. w9 `5 H9 I" I maintain track files. # @1 i: `' o- c5 q( P- STraffic Decoy Decoy that matches RV characteristics in the exoatmosphere and high) j3 G: d u0 u! o endoatmosphere.8 F% R5 r6 C# M/ e) b. M Train Threat geometry with objects placed in a line (string) along the velocity vector of: h4 |* E0 ^ c# i0 N3 u reentry. : L7 [% Z$ d* q- z+ STrajectory The curve described by an object moving through space.6 s/ J0 b6 y/ J1 y) r) m Trajectory( A4 h2 h0 H0 u Histories3 U, e6 B+ o% m( T% l. o$ d Trajectory information on targets recorded over a period of time.( V2 o- @) M K2 B4 |1 n9 Z g0 `7 p TRAK A data base management system (not an acronym). / J' l/ i/ H$ X7 w- t9 [8 _6 qTrans-Attack Period from first tactical indication of attack until termination started, i.e., postattack.& |3 k$ A$ o( A2 V" S7 ] MDA GLOSSARY, VER. 4.0 T* R R' ?1 }# O1 `/ ~" P) r. ? 305 8 N. G: a7 E% p, h% C zTRANSCOM [U.S.] Transportation Command, Scott AFB, IL.4 ]- O: a2 p7 I TRANSEC Transmission Security.# N" t, v# q+ E m' t Transition The period in which the world strategic balance would shift from offensedominance to defense-dominance.5 c# z; j3 f) n" a8 Q2 K Transition to6 {, J( Z3 \' b+ G Production7 O' R8 W6 h+ P5 Z1 C A risk reduction process during which the program shifts (passes) from, F) m: Z9 q- N# ] development to production. It is not an exact point, but is described as a* S6 D! c% s1 G" j& F; O process consisting of disciplined engineering and logistics management to4 B% Y1 G* u+ @ V! v ensure the system is ready for manufacture. (See DoD 4245.7-M.) & l# I" u% O C6 Z K4 STransmission* r4 H" m4 z9 J+ ?! `& G Security% g, X8 X! f* q, l& X* I (TRANSEC) + O$ G4 U) X# N. \& WThat component of security, which results from all measures, designed to protect: d2 c6 J7 R9 U+ [- {. J! e6 N6 Z communications transmissions from interception and traffic analysis. (See * [8 b9 G; X9 e1 r0 |) XCOMSEC.)

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Transonic Of or pertaining to the speed of a body in a surrounding fluid when the relative 8 E0 u Z$ N' [ Jspeed of the fluid is subsonic in some places and supersonic in others. This is # G( Y. K9 q) g4 y6 o3 @7 D& Hencountered when passing from subsonic to supersonic speeds and vice versa. : U+ U, h5 L1 Y( wTransponder A receiver-transmitter that will generate a reply signal upon proper interrogation.* P. z( K6 K6 ?$ f# ?9 E TRAP Tactical Receiver and Related Applications. P' z9 D) {1 P$ n Trap Door A hidden software or hardware mechanism that permits system security Q9 j( u1 H; R- T7 N5 W, x5 O: C7 kmechanisms to be circumvented.$ T+ i: G* ]2 t! U$ S$ ` Traveling Wave * m; B, v4 {/ P+ r- R' w. ~Tube (TWT)% Q9 Y& d4 L2 c# l8 N1 u An electronic tube in which a stream of electrons interact continuously or2 l5 J( j, j6 t2 q6 V1 `0 g; V repeatedly with a guided electromagnetic wave moving substantially in 3 F* i- K/ j. q& G9 n0 ksynchronism with it, in such a way that there is a net transfer of energy from the D/ G$ O+ s5 ~) g* A! j J stream to the wave; the tube is used as an amplifier or oscillator at frequencies in , B" y5 D4 h6 G) xthe microwave region. % \7 C1 n- N* f6 w# [Traverse (1) To turn a weapon to the right or left on its mount.4 b/ j1 N8 G, }3 u7 D (2) A method of surveying in which lengths and directions of lines between / v1 a8 p1 R4 dpoints on the earth are obtained by or from field measurements, and% A- A: _$ J. D$ w9 x used in determining positions of the points. 4 R3 ~2 V# i( I" o3 S: C7 l: S& p4 XTraverse Level That vertical displacement above low-level air defense systems, expressed both . ~, m6 l& L0 @2 z6 fas a height and altitude, at which aircraft can cross the area. : n% d, j) p \9 `4 G w8 `8 Y8 k6 vTRB Tactical Review Board.' U8 d4 E9 ^& }# N" @" z TRD Technical Requirements Document. - f6 T9 r1 L3 B3 ~! u! f! A' i/ fTRE Tactical Receive Equipment. ) g/ B& W9 `9 b& y" ]TREA Transmit/Receive Element Array (THAAD). : J. L9 E# i V0 x- NTREE Transient Radiation Effects on Electronics. * u. |- |4 o# V& u/ i5 e0 N. _TREM Total Radiation Environment Model.7 z. ?- W" ]& e) \2 j3 N, T* A( V0 t TREPS See Thrusted Replicas.8 I5 l- ?2 Z; t$ H TRESIM Tactical Receive Equipment Simulator. * r% I) ?6 c @( m( B! ~# J1 HMDA GLOSSARY, VER. 4.0 T / Q$ x- @+ r' c3 T306# U+ y7 U7 q) W TRG Threat Reference Guide. % n3 G3 k0 c6 ETRI-TAC Tri-Service Tactical Digital Communications System. 5 h8 H* W0 e4 s8 E* e2 jTRIDENT Class of US ballistic missile submarines (USN term). # J- `/ d: g9 U# r; _8 @* xTRIDENT I (C-4) US SLBM (USN term).! x7 ^; M3 ^2 C8 R; j TRIDENT II (D-5) US SLBM (USN term).* X- M: k' m( X$ |( J; {, W! k) S TRIM Toxic Reduction Investment and Management. 1 k9 i& A( _0 q8 q/ y# STRM Technical Reference Model." V# U f) w+ v TRMP Test Resources Management Plan. : {4 M7 A$ |- A* L4 k7 oTRN (1) Task Requirements Notice. (2) Test Requirements Notification.# }7 \. N/ i4 [9 U" p9 l J Trojan Horse A computer program with an apparently or actually useful function that contains2 m+ ^5 r& l; u. d: O( c' @ additional (hidden) functions that surreptitiously exploit the legitimate 6 P+ e4 z( V) ]- t; L# }$ H, Rauthorizations of the invoking process to the detriment of security or mission 9 O8 J* _* i2 wperformance.$ P- Y0 ^( j/ s# U2 t$ l# l TROPO Tropospheric Scatter. 8 S! j0 M0 y8 n0 g: C4 p. C% RTropopause The imaginary boundary layer dividing the stratosphere from the lower part of the # |; M' C! {" {) vatmosphere, the troposphere. The tropopause normally occurs at an altitude of 5 v* G0 L; E, n) oabout 7.62km to 13.71km in polar and temperate zones, and at 16.76km in the 8 S# G2 _/ E1 {5 ]; H% Y3 Btropics. (See Stratosphere, Troposphere.) ) ^9 w2 [+ g# w: oTroposphere The region of the atmosphere, immediately above the earth's surface and up to* S# ^$ {: A% l2 `1 T2 m5 w7 T, s the tropopause, in which the temperature falls fairly regularly with increasing2 G" w4 q+ k, k0 y+ k9 m altitude, clouds form, convection is active, and mixing is continuous and more or! ]9 F% Z+ v# t6 | e' S less complete.) |; t3 g( u4 h& L Tropospheric - I$ q& C( d ~( G% jScatter5 x9 p( G* u+ g3 e( z9 n; g The propagation of electromagnetic waves by scattering as a result of 3 E0 F0 g( `* t7 i7 B4 [4 h* y2 Mirregularities in the physical properties of the troposphere.$ V9 B5 h% F9 M; i: P& B7 x. @& T TRP (1) Test Readiness Program. (2) Technology Reinvestment Program. ) ]5 [! i. Q F6 K" E(3) Technology Readiness Program (pre-acquisition program status). 1 i" W; I0 T; ~5 _3 g' \(4) Technical Requirements Package. 1 x- P) r* @2 K3 B+ c* r! ^! j* A# STRPC Technology Readiness Planning Committee.+ N) _3 p$ N" Q- [ TRR Test Readiness Review. . t3 r" s4 _5 N% s/ \* |' rTrusted) U3 W$ q& o) Q" q" Y/ W5 ~ Computer* `) D5 z7 C: A1 L System/Software 8 }; n3 X* x! I: B# ^- _, o7 tA system or its software that employs sufficient hardware and software integrity" y! r; n6 d! H( S measures to allow its use for processing sensitive or classified information.: ]+ I% H0 g& _0 C2 I- d3 y Trusted Path A mechanism by which a person at a terminal can communicate directly with the 8 z4 X8 D9 `4 o0 K/ n0 WTrusted Computing Base. This mechanism can only be activated by the person3 |, [4 O3 [3 I |: q" h# W6 [ of the Trusted Computing Base and cannot be imitated by un-trusted software. 0 Y7 j1 ^# Y5 i; o _. mTRW TRW, Inc.( @& V2 v9 I5 |$ k, w# W, n2 | TS (1) Terminal Service. (2) Top Secret.$ U3 [% m/ Q, K9 ^ MDA GLOSSARY, VER. 4.0 T + n! ~2 s* U: ]1 K2 _8 {7 g& Z307 8 K% g( N- ^5 u0 Y+ pTSA Technology Security Analysis.1 l2 L! B* o+ v% _: o4 U+ ~9 [* i" K TSD Tactical Surveillance Demonstration.& W* K7 p9 c7 |& N0 w TSCM Tomahawk Strike Coordination Module (USN term). : q5 D4 o: M4 _' q. F; pTSD Tactical Surveillance Demonstration. 7 ~$ L6 p; j' l. D: YTSDE Tactical Surveillance Demonstration Enhancement. 7 G' D. w. G! y& U. E7 o0 ]TSEU Technology Seeker Evaluation Unit.5 \, G7 y' p, d2 V! w/ w TsIAM Moscow’s Central Institute of Aviation Motors.7 k2 ]0 |5 l7 } [* O+ S9 f TSM TRADOC System Manager. 6 w: q! t3 I: ~$ A# Q# e* bTSMA Theater of Strategic Military Action. 0 t4 y2 s9 I# w- `4 bTSP Target Support Plan. ' q0 v$ |5 R) U2 c$ K& lTSPI Time, Space, Position Information.. l, C7 \! W/ l: D6 \; B TSR Target System Requirements.

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TSRD Target System Requirements Document. % W. r5 a, B( U, Q% j& O% C% bTSS Terminal Surveillance Sensor.8 o, ]* u, w, a2 R TSSAM Tri-Service Standoff Attack Missile./ E: k3 R0 T; ?% I% Z! k TSWG Target Signature Working Group., c* k) i8 K4 _* Q TT Total Time. $ V: y- u& {2 ?# STT&C Telemetry, Tracking and Command. & g# [1 h* N, R& l' \% M4 YTT&E Technical Test and Evaluation (Army). ) W( |- @" {. Z7 x* ]TTA Total Time Accounting.7 p; b! r" t" ^' [9 Q TTBM Terminal Tier Battle Manager.; {% I: Q* P2 k6 z TTBT Threshold Test Ban Treaty. % f1 J" U( L, j4 Z$ e( cTTD&D Test Technology Development and Demonstration. A portion of the CTEIP # h0 s- U8 M3 z/ o0 hprogram, which funds the development and demonstration of technologies, ' T1 q2 A- p/ S/ R* twhich have significant potential for improving testing.& I! I( [7 K3 z! ]: |( e/ z TTEL Tools and Test Equipment List (ILS term).7 z# ]6 [- i2 |7 { V+ F3 S) R TTL Transistor-to-Transistor Logic. 0 y) m/ R! I; P8 a. p# jTTP Tactics, Techniques, and Procedures. 7 F, [6 v2 U5 g# gTTSARB Technology Transfer and Security Assistance Review Board.6 H; [0 n7 u4 ? D! G- ~; S6 H TTT Test Technology Transfer.4 S, w( l4 i4 w8 f+ z MDA GLOSSARY, VER. 4.0 T* d* \7 L9 m7 F0 K4 F R 308 9 ~, l" f3 v; P0 R5 [TTV Technology Test Vehicle. % s+ _" q% c7 x7 C8 K. G( s/ wTTY Teletype.0 L$ w# ~2 F7 k4 k& \# M# V3 _ TUG TRACE User Group.. h; }6 d% G5 c0 m Y7 @ TV Thrust Vectoring (rocker engineering term). $ ]9 A! h% _$ Y: V5 j xTVC Thrust Vector Control.2 c: ?1 E% ^6 c) O TVE Technology Validation Experiment.3 m' a" W8 b8 h+ @ TVM Track-via-Missile. u% R; R! W& @6 {5 N2 B% [* r TTVV Technology Validation Experiment.1 N1 ^3 E( l% r* ]# C) T- h9 U( x TW Tactical Warning. 0 L* k$ W8 b% ~4 p- G: ?8 NTW/AA See Tactical Warning/Attack Assessment. 6 f1 K* }: S( VTW/SD Tactical Warning and Space Defense.! K3 S* M2 l7 N* q TWG Technical Working Group. 9 a; x2 Z- Y8 o. ~TWS TOMAHAWK Weapons System (USN term).4 L& c) O7 W1 w% j6 X% ` TWT Traveling Wave Tube.% W5 E8 ^, E' g$ l1 t$ y TWTA Traveling Wave Tube Amplifier. (Electronic Engineering term). , K, \: A0 k# _TY Then Year (PPBS term). 7 K$ F) T/ d9 |; q+ Q _; g" ~5 ETY$M Then Year Dollars Millions. & ~4 E; }6 |! ^Type A - System ' v* S2 K6 @8 h: g$ Q( eSpecification3 |. Y8 S: [2 m1 f$ D States all necessary requirements in terms of performance, including test; Y( Y$ r. s! v3 U4 ?; n4 @ provisions to assure that all requirements are achieved. Essential physical1 B% i0 a% a( \; R: ] constraints are included. Type A specifications state the technical and mission& T7 J" w) z7 K" \ requirements of the system as an entity. : O2 B3 j9 u% |8 d/ b# b2 RType B -3 l; S* h7 I# `: C5 z Development % `$ |1 _% t$ R5 ]+ {Specification* [# ^3 A' `' }8 V ` States all necessary requirements in terms of performance. Essential physical- `7 U6 ]3 s. N* i* N [ constraints are included. Type B specifications state requirements for the" T/ M. h0 S& G4 \/ s* r development of items other than systems. They specify all of the required item ! `2 y/ D! R! ]& y: Ffunctional characteristics and the tests required to demonstrate achievement of ' l" M! n7 e1 W$ s7 f7 o% X4 y9 ?: |those characteristics.) H+ I: r0 u7 D- P U7 O+ s Type C - Product % d1 {/ d3 F% _* NSpecification! x9 Y( [0 B+ v$ b. I& \8 X Product specifications are applicable to any item below the system level, and; m- v5 L) d! } may be oriented toward procurement of a product through specification of ) q" }" Z5 O$ R* ^4 {5 h# Aprimarily function (performance) requirements or fabrication (detailed design) . r7 J1 R+ Z2 P5 N/ `requirements. Type C specifications intended to be used for the procurement of 1 [8 h; R6 e' A8 ?/ }+ {4 }* oitems including computer programs. 3 a H, m+ Y' S" j6 t& [Typhoon Class of Soviet ballistic missile submarines./ c' p! u2 O9 [0 s) Y% T( p Typing The act of recognizing objects by measuring a set of observables, computing a1 Q% \9 N1 L5 W6 {/ D" q4 q) Y6 v set of characteristics, and associating the characteristics with a specific class of- Q6 q. R# y& Z% D( C/ l objects (i.e., SS-18, SS-24).4 H1 t1 ^( m$ P/ h3 C MDA GLOSSARY, VER. 4.0 U 7 [/ p( i$ [3 M# h: O' o! k& }309. \# i3 ~( X; u( [, l+ W U Uranium.1 e) U) X7 U3 w3 ]. Q B4 a6 D! b U&S Unified and Specified [commands] (pre-1996 term)., g3 \5 x* \: r9 e ?" e4 F U.K (UK) United Kingdom.6 D/ j5 O) Q& L0 R! \6 H U.S. (US) United States.& X4 Q) z7 G% Y1 S+ L+ I U.S. West U.S. West Incorporated. & A# R% _1 A5 p6 @ g* O' [U.S.S.R. Union of Soviet Socialist Republics.$ G+ [. m% Z( i' O UA User Assessment (NMD BMC3 term). % E: j6 w: f7 \: v4 GUAE United Arab Emirates. 8 r$ U% d q2 n0 J. u' r6 tUAV Unmanned Aerial Vehicle.' C0 o% _" t& c" l- @ UAV BPI Unmanned Aerial Vehicle-based Boost Phase Intercept.0 H* G) i/ C1 n; }3 o$ i UCAP UAV Combat Air Patrol. # _8 { c1 A1 v" ^& W. FUCC Uniform Commercial Code (US legal term).& ?. D" k4 t6 ], ~$ J UCP Unified Command Plan./ `5 c4 }+ A6 D l3 z. r UD/ASD United Defense/Armaments Systems Division.( Z2 n2 \& l/ p+ i9 Z UDMH Unsymmetrical Dimethylhydrazine (a liquid propellant rocket fuel). l" v0 [- ?) yUDS Universal Documentation System. A standardized comprehensive tool for stating: {, a* W0 F( C, E and coordinating program requirements for testing MRTFB ranges, as well as the 7 X9 O3 X6 K- s$ hcapabilities and plans of test ranges to support program requirements. It ' Z$ A* Y! ~) ~- V/ ?1 v8 e/ s. |9 Tconsists of a series of six planning and execution documents: 10 are the " b8 U7 h* s3 a! `+ vProgram Introduction (PI) (also called the Program Introduction Document (PID)),: X: g" T; p7 s5 u 2) Statement of Capability (SC), 3) Program Requirements Document (PRD), 4)5 ^& E/ }5 \8 H' U7 {9 d Operations Requirements (OR), 5) Program Support Plan (PSP), and 6) the # r3 V1 l( \. F8 ^% }2 i3 v4 tOperations Directive (OD). The UDS was developed and is regulated by the 9 M$ |( M0 Q6 m' y7 T( |: e) YRange Commanders Council (RCC).

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UE Unit Equipment.+ {) G4 @1 @- r UEME Unified Electro-Magnetic Effects. , X8 \$ _1 O8 ^1 p, ]6 o, O6 zUEWR Upgrade Early Warning Radar. $ Z8 N! ]4 g5 E2 P) C: Z IUF4 Uranium tetra fluoride. " F; q* |* V7 I6 O( o8 N5 AUF6 Uranium hexafluoride.% k3 h* }2 K- L' w MDA GLOSSARY, VER. 4.0 U + B: e$ }; x* a8 o8 ^ t- N3 i310' i! n3 l& a4 q0 [5 I) Q0 Z UFG User Focus Group.* x4 G# ]* U6 q) H) i8 S2 ?7 r UFO UHF Follow-On [Satellite Communications System]. , c; D* f* b/ G+ ~8 U) V nUFP Unit Flyaway Price. ; r; t. U8 P+ ~- s8 c8 S9 w; X! nUGF Underground Facility.4 n3 L% s, o! q8 R UGS Unattended Ground Sensors.- M* M/ J5 ]8 S( d/ [( A6 C UGT Under Ground Test. 6 |( i* j! |9 v, _' f$ @# I# EUHF Ultra High Frequency. / x4 N& S9 E5 J2 }UIC Unit Identification Code.# r$ P' Y. S7 _+ U% L' N Q UIN User Interaction Node.- R2 U6 ^# _" p5 }/ H+ N UKAS (1) UK Architecture Study (2) UK Associate Studies. 4 O) o* e, Z6 FUKEADTB UK Extended Air Defense Test Bed. / P( A' K" V" T* q8 gUKTB United Kingdom Test Bed. * M$ Q- N6 Z. q( j& @5 X1 BULCS Unit Level Circuit Switch (SINCGARS term).2 P; o9 ?9 ~3 j. X) b/ R8 U ULS Unit Level Switch. ~) ]$ ]+ E( S ULSA Ultra Low Sidebobe Antenna.1 D0 s$ e& u% \0 i4 f8 } ULTDS Unit Level Tactical Data Switch (SINCGARS term). " ?6 o+ ?9 t% W/ _0 V( B- \Ultraviolet (UV) Electromagnetic radiation of wavelength between the shortest visible violet * [9 c+ U% v! S, F: {; W(about 3,850 Angstroms) and soft x-rays (about 100 Angstroms). ) [5 v, B G. q! j* m) T4 L dUMD Unit Manning Document. ) W& k4 `+ u" FUMMIPS Uniform Material Movement and Issue Priority System (ILS term). 7 a6 n" B$ O7 z9 ?4 F1 H; q$ w* ?UNAAF Unified Action Armed Forces. # e5 |, ?9 P4 r6 k) g: hUNC United Nations Command., K: H* x8 \' l$ y3 K Unconventional) p% k7 ^" }5 O" j& _ Warfare 7 Q# w3 V- y6 f5 zA broad spectrum of military and paramilitary operations conducted in enemyheld, enemy-controlled or politically sensitive territory. Unconventional warfare3 O& i7 h3 T& d& E9 Z includes, but is not limited to, the interrelated fields of guerrilla warfare, evasion + R, j5 r% f, F5 d2 X- ^and escape, subversion, sabotage, and other operations of a low visibility, ( ?* `* L7 e3 T0 B: X: r1 Y& ecovert, or clandestine nature. & ^: l5 u' Z, u/ S6 B# b9 vUnified Action8 `3 K5 ^! }' ^+ u Armed Forces 0 D. J5 ~3 z8 |- d+ eA publication setting forth the principles, doctrines, and functions governing the 9 l! D( U2 O, K/ I! aactivities and performance of the Armed Forces of the United States when two or5 |2 U: ^$ C( Z8 J more Services or elements thereof are acting together. % R, v# i6 @3 lUnified Command A command with a broad continuing mission under a single commander and 8 P% w) @! b6 Y6 Z6 [: I) zcomposed of significant assigned components of two or more Services, and+ z# R* f0 G7 X) x7 k" A which is established and so designated by the President, through the Secretary# q3 Q# ?' U$ J. V- v$ ]: D p of Defense with the advice and assistance of the Joint Chiefs of Staff. O; T& j) V; X+ U0 P- N: n9 b9 HMDA GLOSSARY, VER. 4.0 U $ c9 j/ X+ x0 ^, h3 F6 Z; X. T7 ?311 + m1 J K5 C0 ~+ JUNISYS UNISYS Corporation. 0 |# j3 f- A3 \% v/ E# jUnited States; S% E) {2 A" |% q; p7 B+ V! x Army; W" N4 R0 c2 r Space Command3 }, N! x2 y/ ^% M (USARSPACE)9 ]4 G: y) P9 w) W1 M: ] The Army component command of USSPACECOM. Responsible for the Army 3 u; y, W/ ?% }8 O. }) Velements of the SDS system. Located in Colorado Springs, CO. 1 U E- `, ?2 {9 IUnited States $ f: c" V. \2 g7 x8 D( QSpace Command 1 |5 U9 `7 b" s% N, I" `5 A(USSPACECOM) # v9 ~6 a/ _1 K5 `1 n, eThe unified command responsible for planning and conducting ballistic missile # d" N! f x2 h3 bdefense. Located in Colorado Springs, CO." @$ u$ }8 t, R United States- \6 Y% @$ z* m) G& n Strategic # ]% e: q7 u3 `Command/ c0 }# c8 ]7 a2 M (USSTRATCOM)' L8 L ^* I9 \# B0 b The DoD unified command responsible for carrying out directed nuclear and nonnuclear strategic air, intercontinental ballistic missile, and sea-launched ballistic : i1 I* o4 N" g- m( bmissile offensive combat strikes. Located at Offutt AFB, NE. ) M u6 Q6 c, W: p' RUnited States 9 c4 J# O# n( ^0 {( BTransportation + j. Y; ^& [4 e8 x& ^$ xCommand& r I) t9 x. u. x6 q7 U) J+ S (USTRANSCOM): x4 y0 F1 h5 S: {. t The DoD unified command responsible for providing air, land, and sea N' X. L& m) I1 V6 L7 X1 Ttransportation for the Department of Defense, both in time of peace and time of; W& d) O% C, q# J war. It is also responsible for providing airlift, sealift, surface transport, and3 s# w( x7 f9 N, `& K9 G6 G6 a terminal services, and commercial air, land, and sea transportation, including as ' j6 X; A/ W, U( O9 E9 Dneeded to support the deployment, employment, and sustainment of U.S. forces : E* M* r: G4 d* F8 Xon a global basis, as directed by the Secretary of Defense. Located at Scott 6 l# F5 u! {6 o. N/ }9 oAFB, IL.

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发表于 2008-12-25 20:25:58 |只看该作者
Unk Unknown. 6 C" u) V! C7 U6 y. HUnresolved) C; M1 x- F3 l Objects 4 r I0 @9 l( V# oObjects so closely spaced with respect to the sensor focal plane as to be8 `3 w+ i1 [3 p. n0 T$ l6 P indistinguishable from a single object. 9 f+ O) |* f1 sUNSC United Nations Security Council.: i+ B! Y' T N5 K3 h4 {6 M, P UnSecEnergy Under Secretary of Energy. 1 z! \) c$ q Q) oUOC Usable on Code (ILS term).% _& E; G. f% k8 F8 k0 s0 g UOES See User Operational Evaluation System.8 l+ }/ n% |5 V7 c UPD Unconventional Passive Discrimination. ' @0 J% ]; b& |. t8 _& L4 q2 k. ]UPS Uninterruptible Power Source.8 ] \0 C4 Z. G UQT Unit Qualification Training (ILS term). * y4 t, \ d6 `& L: X4 z0 yURIP University Research Initiative Support Program. ) S" i/ G, M8 c6 GURL Uniform Resource Locator (internet protocol term).: }5 X# q8 x: a* E URT Upgraded RTD. $ W# ]6 F* G0 G5 x% t+ @US/UK United States/United Kingdom.: G5 I: C$ _# N' K; ^6 ]+ L3 ]; { USA (1) United States Army. (2) Under Secretary of the Army. % k* {3 D3 s5 cUSAADASCH U.S. Army Air Defense Artillery School. ( |. G" F! z+ K. BUSAAE U.S. Army Acquisition Executive./ C% y" _+ h( Q/ g8 _ MDA GLOSSARY, VER. 4.0 U 3 ~8 F( a$ }' _' n8 [+ m/ s312 1 i! Q ], s) g3 i6 t) f% E9 zUSACE United States Army Corps of Engineers.$ u4 W/ A- |( j, X: X; { m* U USACOM United States Atlantic Command, Norfolk, VA.4 I* F0 B4 }! K8 }1 | USAF United States Air Force./ E* X$ s' E+ v USAF/AFMC/ESC U.S. Air Force Materiel Command, Electronic Systems Center; ex-ESD.: i, b% s+ Z: }. q7 E+ i( |* w USAF/AFMC/SMC U.S. Air Force Materiel Command, Space and Missile Systems Center; ex-USAF & Z" ^! {. a- ~/ } n& D) ESystems Command /SSD. ( J* |5 {5 ]8 `0 X7 T' kUSAF/OTEC U.S. Air Force Operational Test and Evaluation Center. W" q) L/ N, N, L4 L USAF/SMC U.S. Air Fore Space and Missile Systems Center, Los Angeles AFB, CA. & u9 B4 I3 V2 Y2 nUSAF/SSD U.S. Air Force/Space Systems Division; See USAF/AFMC/SMC. 0 D! b' q# X4 z* [- VUSAFE U.S. Air Forces in Europe. $ T' L3 N, l" r& c4 F. YUSAFLANT U.S. Air Force, U.S. Atlantic Command. * m3 I. o" q+ }; bUSAKA U.S. Army Kwajalein Atoll.2 D6 U1 q! i4 X" N3 j) M: E' H USAMICOM U.S. Army Missile Command, Redstone Arsenal, AL. 0 S k2 r [) b, j- S8 |USAMSIC See MSIC.# C+ i- X' C) M u. ]. f USAMSAA U.S. Army Materiel Systems Analysis Activity. k8 d+ y6 M; K* _+ _: t! WUSAOEC U.S. Army Operational Evaluation Command, Alexandria, VA. " l2 T. ?2 p. J V! [USAOTEC U.S. Army Operational Test and Evaluation Command.( X! f0 c9 Y* M5 Q& O4 c/ F. k USARCENT U.S. Army Forces, U.S. Central Command. ; ^0 ?* O4 l- q7 A! V* GUSAREUR U.S. Army Forces, U.S. European Command.3 A3 N% S/ @9 X3 N6 v L6 D USARLANT U.S. Army Forces, U.S. Atlantic Command.& V) Z7 X+ K; A. t2 I USARPAC U.S. Army Forces, U.S. Pacific Command." U5 } Z0 q8 Q% |% `* r USARSPACE See United States Army Space Command. 9 O4 V1 V$ O) H( AUSASDC U.S. Army Strategic Defense Command (<1Oct 92). ! n* X/ W1 @) b: Q8 v$ `1 ?USASSDC U.S. Army Space and Strategic Defense Command, Huntsville, AL2 w2 c1 I& @6 K USATECOM U.S. Army Test and Evaluation Command. , B6 R# [: u, b+ U4 N5 @/ L4 I" yUSATRADOC U.S. Army Training and Doctrine Command. ! q. D. u0 x' Z( _# q% S5 SUSB Upgraded SBD.0 v7 C' k. l8 |9 M# z USC U.S. Code. ; D [7 s, l$ B+ ]1 `0 X0 ]USCENTAF U.S. Central Command Air Forces.; p% J" b5 [ Q7 J$ ` MDA GLOSSARY, VER. 4.0 U ) k9 k0 x: T+ U3134 z, r' ?6 z# O n* J1 }, _8 Q USCENTCOM United States Central Command, MacDill AFB, FL.& M s# V6 D! W p3 F USCG United States Coast Guard. ! A! V0 c+ `, ~: u/ b# c3 rUSCINCCENT Commander in Chief, U.S. Central Command.. I" I$ u& J2 {9 W USCINCEUR U.S. Commander in Chief, Europe. + Q1 p$ _ g$ [6 g' @USCINCLANT Commander-in-Chief, U.S. Atlantic Command.: z' f8 L" F5 a9 o& P USCINCPAC Commander-in-Chief, U.S. Pacific Command.4 Y" {2 g* Y- A* G( V) C' v* D8 M USCINCSPACE Commander-in-Chief, U.S. Space Command.$ t/ I# W4 ?, [0 ~& y$ E8 [ C* B" q USCINCTRANS Commander in Chief, U.S. Transportation Command. # ]- F& I$ G d' ?1 d; V9 uUSCS U.S. Customs Services.& H0 f) V6 c% {1 B T, A USD Under Secretary of Defense. * Q& T- W, V. H+ Q0 j% ~- fUSD(A&T) Undersecretary of Defense (Acquisition and Technology). 3 c4 [ { o+ i* T7 d3 i, `! GUSD(A) OBSOLETE. Under Secretary of Defense (Acquisition.). + v0 m2 {( [4 Y% G& aUSD(A)/STNF Under Secretary of Defense, Acquisition, Strategic and Tactical Nuclear Forces. 6 A9 ]! n3 G& Z. D1 f. bUSD(P) Under Secretary of Defense for Policy. . B" J! \! l# N; y6 F. j+ M `USDA United States Department of Agriculture. 8 d0 [* g/ V u* D" zUSDAO U.S. Defense Attaché Office. ; E0 |7 v/ O \8 |( d" \. PUSDELMC U.S. Delegation to the NATO Military Committee.# ?6 S4 _* e; L- @/ S' S4 g USDR&E Under Secretary of Defense for Research and Engineering. . W( L# t. H0 C3 g0 e/ |& AUser Friendly Primarily a term used in automatic data processing (ADP); it connotes a machine 7 E, K- f; \0 z6 o5 T1 H; F" _$ h(hardware) or program (software) that is compatible with a person's ability to ' z" @1 j9 i5 L$ |2 loperate it successfully and easily. 1 T; K v- v; BUser Operational & V- ?! o# h! `: V! S+ rEvaluation! K I2 J c/ O* {/ ~ System (UOES) k2 r$ M* y, Y3 V/ _ Prototypical system developed and tested as part of the early phases of the * I: U$ z3 w" N; O' g9 Bdevelopment process. A UOES has two objectives: (1) testing, evaluation, and9 W+ l- V1 G, v' j training for a system proceeding through the normal acquisition process; and (2) 4 ], M5 V; E" W/ icontingency defense capability should the need arise prior to completion of the ' x7 j' ?8 U8 c* m" w5 [normal acquisition cycle." H6 Q* }& J% T6 ?; G0 C7 Q USEUCOM United States European Command, Stuttgart-Vaihingen, Germany.3 z5 Y0 [4 [& p7 l USFJ U.S. Forces Japan. 9 E5 Q8 a+ X* KUSFK U.S. Forces Korea. . u0 Y1 X: A+ h+ \+ HUSFK/CFC CSFK Combined Forces Command. 4 S* s! @0 A( w s& TUSG U.S. Government. ) A* }$ [& h3 eUSIA 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" ?6 P ~* u( r' n5 V 314 + T3 c: } u' p8 c0 c7 b+ lUSLANTCOM United States Atlantic Command (Now see USACOM).# e- r* J2 W9 a6 L: _ USLANTFLT U.S. Atlantic Fleet. `7 X3 W8 W" |& `9 T6 p8 gUSMAR-9 L( C. O* J( H# T" E, Q FORCENT 5 z9 p/ k9 ^, N: w) B% g; }U.S. Marine Component, U.S. Central Command., |- ^' N U, A" c1 S USMAR-FORLANT U.S. Marine Component, U.S. Atlantic Command. & K- I" }3 ~9 OUSMAR-FORPAC U.S. Marine Component, U.S. Pacific Command." h) _3 X7 l; ]% X- |1 H USMC United States Marine Corps.8 f! Y3 c0 y3 L& |4 ~, @8 N# ~ USMCR United States Marine Corps Reserve. ' c5 T; d0 n: v9 ^5 u% zUSMILREP U.S. Military Representative.& X3 g; {9 J+ U7 W! c7 E USN United States Navy. " f L# M2 ], H6 QUSNAVCENT U.S. Naval Forces, U.S. Central Command. + {" G% p6 N4 @2 v$ m: gUSNAVEUR U.S. Naval Forces, U.S. European Command.8 Q) H9 ]) f, A: f USNIP U.S. Naval Institute Proceedings.$ e- D. T1 z F; B5 R5 }0 t USNO U.S. Naval Observatory. $ A. \* T1 g1 yUSNPGS U.S. Naval Post-Graduate School.* M! j" p2 n0 T M @' g. m* y USPACAF U.S. Air Forces, U.S. Pacific Command.( P5 t( R( H' E, a W, O USPACFLT US Pacific Fleet.6 }1 ~; ~, s: n$ J( W1 u* F" C1 P USPACOM United States Pacific Command, Pearl Harbor, HI. . O" x; N/ `) Q/ lUSREPMC U.S. Representative to the Military Committee (NATO).# P1 v5 X" z4 W USSC United States Space Command. 1 h c7 l I& [. L* W0 `6 B% }$ `8 uUSSOCOM United States Special Operations Command, Tampa, FL. , A8 g0 W0 _' [2 h5 C2 UUSSOUTHCOM United States Southern Command, Panama Canal Zone, Panama.4 n7 W F( J1 G+ k USSPACECOM See United States Space Command.: B' T* U `$ |6 S# A2 D- | USSS United States Secret Service.3 l4 [. z* J8 q2 M. v y USSTRATCOM See United States Strategic Command. ; r. H- _; u' p) QUSTA United States Telephone Association.- K" A* u) r p. p7 c. L/ R USTRANSCOM See United States Transportation Command. & K: E0 G: u- O0 @0 s5 `UT Universal Time. 8 j+ g/ Z- X) iUTC Unit Type Code.. ] z, Z, T1 |6 ~+ B; ^4 }, X; c! Y MDA GLOSSARY, VER. 4.0 U 4 E8 A. T7 G6 S* P315% q. e3 p; G4 [5 e UTM Universal Transverse Mercator. / \. V7 T+ m- i) E, i! C/ VUTTMDS Upper Tier Theater Missile Defense System. See THAAD System. 2 ]# F; C/ w0 k! PUUT Unit Under Test (ILS term). 3 e% l! B0 T! jUV Ultraviolet.$ k$ Z2 h# \" y UV Electro-+ e$ P4 A2 d: N: r0 g& U6 T& W3 p; j1 r Optics- a9 A- |" Q5 i9 H7 ^2 G, [+ [ Technologies/techniques employed by optical sensors in the wavelength+ M7 @9 h1 `& E# G8 U# E S spectrum shorter than visible (e.g., less than 4,000 A).: }/ c8 c' N' _2 E9 F UVPI Ultraviolet Plume Instrument. 5 [& C4 V- r9 l0 RUW Unconventional Warfare. 1 ~0 v9 n2 S( k$ Q9 n* ~# RMDA GLOSSARY, VER. 4.0 V0 V0 F. c1 j! r+ }9 h 316 N! j; Q% t- T- ?; p( X% EV Volt. % t- k4 v5 E3 @/ d6 _1 }V&H Vulnerability and Hardening.# y1 V8 t0 ~- u V&V Verification and Validation. (See Verification, Validation, and IV&V.) @( f0 C+ ?; @ V/STOL Vertical Short Takeoff and Landing [aircraft].' {+ ?" w! M3 s, c4 l e VAFB Vandenberg Air Force Base, CA.! ]. ?: B$ Y- U) Q7 y0 G& | Validation Confirmation that the processes and outputs from a test resource parallel real' d3 m+ Z! @' j: W; ` world processes and are realistically sensitive to change in the environment, 9 x3 H h7 V9 f+ ptactical situation, system design, tactics, and threat., i9 D2 E, i- B VAMOSC Visibility and Management of O&S Costs. ! `2 }* W4 m. N$ ~VAR Visitor Access Request. . Y. k" C1 q. x3 _- l# N' ~) }Variability The manner in which the probability of damage to a specific target decreases, l0 H8 C3 E" |* ~5 z3 F$ h9 `$ m with the distance from ground zero; or, in damage assessment, a mathematical' M$ N' a! X# ^. H factor introduced to average the effects of orientation, minor shielding, and. _* l. s4 Q; E* ^) S uncertainty of target response to the effects considered. 6 E. _1 w; E7 U. U7 z, M2 m' Z- oVBO Vertical Burn-Out (velocity). ' f- ~# u/ F0 O3 R* e5 K0 R5 SVCC Voice Communications Circuit. & T4 v* U" k1 [8 a# \1 m; {9 rVCRM Verification Cross Reference Matrix.* s3 N) }0 N" V! b. H' a VCS Voice Communications System. b: ?% v# U3 V" p; P. \ VDC Volts Direct Current. + s* d! S! K2 `VDD Version Description Document.9 C' o! @3 D% s: u. r VDU Visual Display Unit. 8 U. G3 h0 @8 c) L6 a' Z" AVE Value Engineering. 7 O/ V$ y# W* f7 @; g$ { b# ~VECP Value Engineering Change Proposal. * s# Q' w$ D ^4 qVerification (1) Confirmation that all data inputs, logic, calculations and engineering0 l9 F- Q5 j) I" T representations of a T&E resource accurately portray the characteristics,0 G% n; M0 [: S" e/ C calculations, logic, and interactions of the system under evaluation. ( r; M$ x5 L8 f(2) The process of evaluating a system or component during or at the end9 }3 ]# W1 J$ H" d of the development process to determine whether it satisfies specified+ @) f4 l2 i( m. b9 q requirements.. [0 X, T7 ]8 {" @ G. X( `/ z: n VESA Video Electronics Standards Association. " u, l) r8 H1 |# l( KVFR Visual Flight Rules.) H% _+ m4 A( X6 A& w$ k3 h0 S& b VGA Video Graphics Array (Telecomm/Computer term).+ I$ T4 b4 J* j7 [, c7 L VHF Very High Frequency. 9 p2 y% C0 }) p5 |VHSIC Very High Speed Integrated Circuit.! n! Q2 o. u% ~ ? MDA GLOSSARY, VER. 4.0 V9 Q$ v( T- s% V3 l1 ]8 G k4 J. Q 317. J/ m! y8 C+ T/ j( N" U VIDS Vehicle Integrated Defense Software (USA term)., m K* V/ ]. ~! T: I5 ?/ V+ ^( v0 K VIGILANTE Viewing Image/Gimbaled Instrumentation Lab-Analog Neural Three-D , m/ F8 A( ?2 `$ X% |Experiment. VIGILANTE involves building a small computer (ANTE) offering 1/12$ d9 K# J. N4 R+ D9 Z$ J3 e Operation Per Second (OPS), using a mixture of experimental three-dimensional " C% ?$ y+ d4 x0 P% C1 g/ H# Dcircuitry and commercial components. Project also demonstrates VIRGIL, a 9 X% X' e5 E( x' H7 R& E# Tgimbaled airborne sensor with visible, experimental UV and quantum-well IR ( W: P: w6 w$ lcameras capable of tracking targets that can be detected, identified, and 2 B+ f& z0 {. l1 z$ G$ Hprecision-tracked with the ANTE processor.1 o' ?3 d- a' J3 j- [5 S3 R w VIM Vibration Isolation Module. 8 J' Y* l# n7 c' O1 Q+ _+ `VINSON Encrypted Ultra High Frequency Communications System. 7 I3 k, q; v4 i0 X! i YVIS Visible. $ _ ^" i2 ~/ u& {' L: MVIS/UV Visible/Ultraviolet.; w8 r* g8 b2 Q. h; K# u m* W4 T Visibility Range& y! e4 Q0 g9 { K (or Visibility)0 ^, ~8 ^* R* l- E. O# r The horizontal distance (in kilometers or miles) at which a large dark object can . t1 |! G( X- x4 f6 @ rjust be seen against the horizon’s sky in daylight. The visibility is related to the w3 ]# ]' W+ hclarity of the atmosphere ranging from 170 miles (280 kilometers) for an0 [$ ^9 r7 R: ^! p$ ^. n" P0 b exceptionally clear atmosphere to 0.6 mile (1.0 kilometer) or less for dense haze ( x2 \/ Y8 {# f, v$ A' z" Xor fog. The visibility on an average clear day is taken to be 12 miles (19: u; v: K: k& Q* R) m kilometers). , n: C' K6 Q2 \ M2 }) YVisible Electro-5 _7 q0 ]9 I' ] Optics5 v+ `: Q0 Q$ D8 G2 G4 a Technologies/techniques employed by optical sensors in the visible portion of . l. W; X1 e$ `* n7 W4 P6 Nthe wavelength spectrum. : k/ ~/ z" l6 b6 ]' L0 Z2 p8 DVLAR Vertical Launch and Recovery (UAV JPO term).. K2 e- `) j$ G( i0 Y/ A/ J VLF Very Low Frequency. / W# K6 a1 J4 `* x' w: s; T- V gVLOS 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. b; Z% G3 Z7 }/ D CVLSI Very Large Scale Integration.) L5 k" Y' l' i7 ]& y) L8 p VLSIC VLSI Circuits.' R$ ~1 U2 M* ]& o VLWIR Very Long Wavelength Infrared.- I8 {1 c) y; y0 N7 _ VME Versa Modular European [standards]. 9 s9 c7 s2 y- b: t1 ^, F' B; T' M( }VMF Variable Message Format (Telecomm term). 7 i/ ?+ M* T' }9 w$ AVOX Voice Actuation. ) g, H+ ~( R( QVRI Vanguard Research, Inc., Fairfax, VA. , M' h" V% H/ x6 |' W% V/ Q! f- @VTC Video Teleconference.% {3 Q3 d$ b" [' R! H VTOL Vertical Takeoff and Landing [aircraft].; m3 b: @5 ^3 T3 G VTOL-UAV Vertical Takeoff and Landing Unmanned Aerial Vehicle. ' Y4 t0 P- s% r S" `# v/ tVUE Visible Light/Ultraviolet Experiment. 2 ^& q2 r2 V+ IMDA GLOSSARY, VER. 4.0 V ) f( C- s. J& J; t+ Z& g( K( V) i318% e6 d& @* G& E. {1 w# z; s Vulcan UK bomber.: Q: b% \, w4 y0 Q+ @, P, r a$ x VV&A Verification, Validation, and Accreditation./ W1 S e: _9 c' W! j/ s VVER Pressurized water type nuclear power reactor.) r: L; ^5 r! L VVIRF Verification and Validation Information Request Form. ' p% b) _* p- h5 }9 K* e8 H- H. MMDA GLOSSARY, VER. 4.0 W 7 r! w$ t' ], f3 [319 o+ S2 a% ~4 _W/ With. / |# G. e9 r; v8 I: nw/o Without.+ Q2 v# u+ j5 p/ ?' j W/TD Warning/Threat Detection. ; V* Q1 n( S% m' E8 a- p/ cWAA Wide Aperture Array.+ @: r9 l1 z2 `) J/ ~ WALEX Warfare Analysis Laboratory Exercise.! W* z i6 ~' D; K WAM (1) Worldwide Military Command and Control System (WWMCCS). (2) Wide Area+ h; j: G1 j/ d1 S1 u4 Q4 m' K Munition. (3) Wide Area Mine. (4) Wide Area Missile. 4 m- r' d6 e" v; E, n; i1 Y: I3 zWAN Wide Area Network (Telecomm/Computer term). / ~' a& a# i- z/ t( m% `WAP Wide Azimuth Probe. 9 H" d% E. |7 f1 L& B2 b0 uWar Game A simulation, by whatever means, of a military operation involving two or more. h Z3 L$ R$ T$ v4 ? opposing forces, using rules, data, and procedures designed to depict an actual: v: |7 ^4 Q( z% R5 @ or assumed real life situation. 6 [4 U) ?" {" T% d) bWargame 2000 Title of MDA program for development of a state-of-the-art simulation tool at the3 k0 C2 X1 M5 ^( g$ g8 I0 I JNTF for use in CONOPS validation, missile defense program design verification, 6 n! H }6 {5 o ?, L2 S: Rvalidation and accreditation, and support CinC/Allied wargames and, [8 h5 S' [, n9 G$ m2 F$ v assessments.1 r5 Y* G; |- p0 v- W Warhead A weapon, usually thermonuclear, contained as the payload of a missile., T$ K, K9 x: y6 w' S Warhead Mating The act of attaching a warhead section to a rocket or missile body, torpedo,6 N5 a! r& {+ e# O( o" ` airframe, motor, or guidance section. 4 e( e& }9 T* k+ q3 z' j" b7 yWarhead Section A completely assembled warhead including appropriate skin sections and related ' g( d% o1 H' Ocomponents." s5 {5 ^2 a- L/ o! i- `0 O9 o5 k. ` WARM Wartime Reserve Modes.* R: [+ v0 }$ W* r- Q Warning of Attack A warning to national policymakers that an adversary is not only preparing its 3 ^% y8 K9 n2 q/ X, Xarmed forces for war, but intends to launch an attack in the near future.* r- F; b2 q: P# C, J6 q Warning Order A preliminary notice of an order or action that is to follow.+ L, {: n! @5 M: ] WARSIM Warfighter Simulation (US Army term). 4 p# h% n6 m* b) f4 F$ `WARSIM 2000 Warfighter Simulation 2000 (US Army term).0 _: V* G; B+ R( P Wartime Reserve: q0 e; _5 B; ~& K8 Z Modes (WARM): K/ x6 U* w" z% J Characteristics and operating procedures of sensor, communications, navigation 1 d5 h# D& e: `& haids, threat recognition, weapons, and countermeasures systems that (1) will 1 S2 D" {4 Q1 j4 P3 Y+ Econtribute to military effectiveness if unknown to or misunderstood by opposing, O, d. D% M. G& t commanders before they are used, but (2) could be exploited or neutralized if 8 ~6 ^+ }' h& _" rknown in advance. Wartime reserve modes are deliberately held in reserve for & p2 [& v$ o B: e& h0 ywartime or emergency use and seldom, if ever, applied or intercepted prior to+ Z' N& A2 Q# W$ b" \& G3 G7 ~ such use. j% T# _4 e1 |* k+ ?WAS Wide Area Sensor. ) i) j- d1 o& P" kWASP Wide-body Airborne Surveillance Platform. A modified DC-10. 9 t; X/ E' U5 k! Z3 WMDA GLOSSARY, VER. 4.0 W0 w0 r# L+ }) L& _& e/ } 320+ }$ H$ q2 q0 O9 [ WASHDC Washington, District of Columbia.0 S" t5 [2 m0 V Wastage (Max) The maximum number of defense weapons which, when used, will be ineffective6 V- N3 [5 ~4 A2 [ in contributing to the defeat of the offense. ' a1 F5 A/ Z. v- \+ Y! XWatch Condition" a, {! ^; x1 B& f& t4 [" p (WATCHCON) # d6 r" d6 Q1 G* [! B j) d7 V+ jSeries of readiness conditions used by the intelligence community to alert staffs 8 k+ m; j" y; `' R: q' ]" Xto watchfulness without raising DEFCON. " b3 w6 X. A- e; Q7 sWATS Wide Area Telephone System.* k6 f8 B( Z( g& ]& y7 h WAVE Wideband Angular Vibration Experiment. f0 H3 T3 j4 i2 ?) y$ } Wavelength The distance between two points having the same phase in two consecutive. }: w7 @+ `) K- H2 P. b/ L7 ~ cycles of a periodic wave, along a line in the direction of propagation." f( \; m6 S; U WB Wideband.$ a7 M6 Q0 X1 x8 v* B WBM Weapons Battle Manager(s). 5 y! J2 @" j* B I2 F6 ?3 FWBS See Work Breakdown Structure. - ]& M$ e, d7 D4 J# q2 tWCC (1) See Wing Control Center. (2) Weapons Control Computer. 0 s' X# r& m! S; q1 w8 {WCG Workstation Computer Graphics (Computer term).3 b! e, c' h$ V& y WCP (1) Weapon Control Processor. (2) Weapon Control Platform.4 b8 H/ |* ]' q# p; j! I' S WCS Weapons Control System." n/ I; X0 _( D+ V( ]9 O$ v; m WDM Wavelength Division Multiplexon.! y$ e i4 a) Z$ G: N; m Weapon Enabling The set of control functions without which defense weapons cannot be" D0 ]: g6 M' J4 t' ? launched.

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