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发表于 2008-12-25 20:24:45 |只看该作者
MDA GLOSSARY, VER. 4.0 T& D! E, j9 P5 E5 A! } 298 " O1 ]+ h6 x+ t YTheater Missile / k6 e Y" q2 O+ ?1 n, R, xDefense Council 8 X9 B9 g0 b4 [9 ^(TMDC)# X% W; h* j& `# | A consultative body for considering TMD family of systems planning and4 D$ K, a- g7 i( k/ \: q" B- N programming issues; chaired by an Assistant to the MDA Deputy for N2 a, O9 {% y$ \: K Acquisition/TMD, membership includes MDA TMD Directors, representatives of$ S& \# s7 c& X- K0 G each applicable Service Program Executive Officer, and TMD Executive Agents # _, y% h7 S5 i9 M& fand Program Managers. , g8 v, _+ m& n4 k4 ^Theater High " Q; | X7 O! DAltitude Area( u+ _. C7 ?6 ?$ G Defense System , ^; l& l4 \! B% O- M(THAAD) ( K& D6 }% u. K3 _5 }+ o6 P2 Q2 gA ground-based, air transportable interceptor system that will provide wide area 8 B$ A3 |- i: s3 wdefense capability by intercepting longer-range missiles at higher altitudes and at - S. U& r5 h0 Kgreater distances. Will provide an overlay or upper tier to point defenses such as - P ^1 v) p) S7 T& bPATRIOT. 1 F0 Z- U1 |" K( J& T0 [Theater Missile% e p0 z) P6 N( u: y% L+ H3 W (TM) # t5 i. G: ?1 R+ z: |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 * k7 n9 M: i9 h0 c+ s5 F% ]of attacking targets in a theater.' t" F. Z" J# R$ P8 I2 D8 [0 V V Theater Missile ( _" D3 h: z% C, o7 S" QDefense (TMD): h! N2 c: g2 c ^2 e OBSOLETE. The strategies and tactics employed to defend a geographical area - p! H) {! f0 v3 n& poutside the continental United States against attack from short-range, 0 X1 h; l* `7 ~* _intermediate-range, or medium-range ballistic missiles. * Q2 F: m( |2 c5 U6 o4 U- X+ eTheater Missile ! w$ W) F+ X- V3 X- x2 TDefense Ground- X' E& r: d0 ]* s" [( s% dBased Radar ( p* d2 `) S3 p" O- d(TMD-GBR)$ b/ l1 r2 R' y% l' w5 Y" q A ground-based, air transportable sensor that provides search, tracking and 0 ~, o, K% G2 i5 [* y% x1 jdiscrimination capabilities for the THAAD interceptor system. Also referred to as3 A& ~# o! h* P THAAD Radar. + x. y, {+ f! a. E8 sTheater Missile ( K/ N+ L) ?; s z9 fDefense Initiative ; M E( v- x* _. f(TMDI) - U3 V+ a$ o8 Q1 }2 h* R+ L3 F" qAn initiative under which all DoD theater and tactical missile defense activities are0 }- w$ l& E, q* ^+ s! H* I0 h carried out. Section 231 of the National Defense Act for Fiscal Year 19931 v& K: |+ H( _' h7 Y$ u (Public Law 102–484) directed establishment of a TMDI office within the DoD. 8 A5 n4 U. Z [4 GTHEL Tactical High Energy Laser. 8 ~3 e/ w0 w8 w# I' {Thermal Energy Electromagnetic energy emitted as thermal radiation. The total amount of- Z: U0 W! |+ } c# n4 T thermal energy received per unit area at a specified distance is generally3 F7 }! U. R9 c expressed in terms of calories per square centimeter.6 e5 F Z* K7 s, A4 ` Thermal Imagery Imagery produced by sensing and recording the thermal energy emitted or* X+ }6 q5 I1 J: p# t reflected from the objects, which are imaged.) _& S9 W; }, {; j+ y" @ Thermal Kill The destruction of a target by heating it, using directed energy, to the degree! ?7 T7 R/ U2 Y, o/ g that structural components fail.! P, H4 i5 d M8 x& @ D8 r Thermal" J: @( E+ S$ _; n- E Management 6 s$ d6 K/ M0 k! o* c6 @5 g& aTechnologies/techniques associated with the control and management of9 v6 R5 x0 ]6 d+ ` thermal energy, its generation, dissipation, and recovery. . h0 Z; b$ Z; k7 ]Thermal q7 w7 T- m- \) w9 _3 s% G- jRadiation2 {3 R/ O6 t9 _5 H2 F* r/ B0 e Electromagnetic radiation emitted (in two pulses from a nuclear air burst) from the% R- b. R- k6 a2 v& u2 }5 J2 I+ V fireball as a consequence of its very high temperature; it consists essentially of4 ?' Y x2 c; i ultraviolet, visible, and infrared radiations. 2 [8 O/ w+ V3 r" w8 b( EThermal X-Rays The electromagnetic radiation, mainly in the soft (low energy) x-ray region,3 r' {: [9 e- t+ m* ]% r emitted by the nuclear weapon residue by virtue of its extremely high , Q p1 J: |3 P7 N! |% w% atemperature; it also is referred to as the primary thermal radiation. It is the* B7 }# [7 Q6 p( P3 X1 D absorption of this radiation by the ambient medium, accompanied by an increase8 ^7 q) V- \6 r! }( x2 \: ^& d in temperature, which results in the formation of the fireball (or other heated1 x5 U/ S+ Q+ [( _6 p region) which then emits thermal radiation. (See X-Rays.)2 g6 y3 M5 `! H. n MDA GLOSSARY, VER. 4.0 T 8 A. K6 W+ u" R( g/ W8 ]. R7 U299 ; L/ }6 T O7 V0 WThermosphere The atmospheric shell extending from the top of the mesosphere to outer space; : k9 g. r4 S) f/ q9 l4 j) Jit is a region of more or less steadily increasing temperature with height, starting 5 [1 b( G {4 V. iat 40 to 50 miles (70 to 80 kilometers); the thermosphere includes, therefore, the 7 p/ D* ^5 N$ ]# Z3 `3 rexosphere and most or all of the ionosphere.) ^. g+ r+ Q% | Threat: E0 d1 |4 d5 k8 [" b" f! f5 n Characterization& g! S1 E4 l' x2 l# n9 c An assessment of the nature, magnitude and intent of an attack in progress. - J& }% @& t, M8 D3 h6 m' v0 T9 Z3 h( D. _Threat Corridor 6 y6 {; X. L% a& ]6 P- ~' q(Threat Tube)& N* {" z: V( v/ L4 f3 A A tube containing all the objects originating from launch sites and aimed at S9 p& N/ x3 m targets whose spacing is close enough to permit the tube around the object# Z1 O6 [ v; i! C) Z8 t trajectories to be represented by a single trajectory in battle management % n! U1 @& ~7 D. C3 M' @6 Z- Ccomputation.. m$ K! R( i' F* k Threat Scenario A hypothetical example of the employment of threat systems against ballistic# E' A8 P7 d1 N1 H missile defenses for the purpose of analysis and evaluation of those defensive . \. M. T7 a* asystems and architectures./ b# t. { m! g7 H/ @* i B Threshold Performance capability or characteristic level in terms of a minimum acceptable* A1 ?( }9 E& T+ G- \, {2 ~3 l value (threshold) required to satisfy the mission need and a performance! m! X8 T1 \5 t objective.9 b4 B( F+ o* L3 j Threshold 4 Z4 e' } k1 ~% ADefense G$ M: m1 d/ D8 ~ A defense strategy that concedes that the target can be destroyed at a price( {$ z9 q, e7 E+ x" U& j* M that is not prohibitive, but the presence of the defense is thought to require the B( ~; M: M1 roffense to mount a relatively large and complex attack.- Z$ C/ t; U, W, J$ |1 D Throw Weight All weight in an interceptor, above the sustainer, which serves as the kill vehicle.( ` X" E, _! d+ t3 V0 K' S# k' Y Thrusted7 g% L, K, o% \3 H+ K5 b Replicas (TREPS) 6 D; W2 i9 ?' L5 cConical decoys equipped with a miniature rocket device. Generally used to 3 n8 P; V' ]7 u# P2 e* o& q5 n$ gchange the decoy’s optical signature to resemble that of an RV in the reentry' _: |5 u5 _, T$ L$ }6 J% Y, H phase. " \& |2 u+ Q; f* D* N0 FTI (1) Technical Instruction. (2) Technology Insertion.. O" V: W: C5 V+ r2 M" M+ d6 t: i TIARA Tactical Intelligence and Related Activities. ( L- i2 E4 A; c2 Z2 [" f. {TIBS (1) Theater Information Broadcast Service.5 }5 l U; E9 ]3 p- o (2) Tactical Information Broadcast System. + @8 a' ]2 q& o/ T p8 L/ w(3) Theater Intelligence Broadcast System. ' k3 ~% K' R. k# A* ^( d8 kTIC (1) Thermionic Integrated Circuit. (2) Technical Information Center. 2 q0 p8 K3 f) g) \TIDP Technical Interface Design Plan.9 D9 e* @* T" m' R- c5 P" f5 o TIE (1) Technology Integration Experiments. (2) Technical Independent Evaluation.9 l2 B: s8 S T% p Tier An integrated set of SDS elements that address a particular phase of the threat* E2 U- Q% Z+ ]% J5 R (e.g., boost phase). 4 B( b' {8 C" e4 A: HTiered Defenses The use of defensive systems at different phases of the missile trajectory.& _; V4 _1 w! ~5 v TIES Technology Integration Equipment System. . }0 u+ ~4 Q) q$ t9 c# G0 ATIIAP Telecommunications and Information Infrastructure Assistance Program. ' r# s/ f0 j4 x) |( B- @( T, ^1 |+ `8 X/ nTIL Technical Insertion Laboratory.! y9 l e2 i: W/ I) G TIM Technical Interchange Meeting.0 q* \3 `: b X' d8 F MDA GLOSSARY, VER. 4.0 T# t, u; l. |4 s* M0 X4 Z! d 300 " n* L1 _; S3 i* oTime-Phased# M1 n4 }6 _+ L' z4 ^: A Force and: A8 g! e% {, r( u Deployment List) A9 s) t- y4 C1 t; k Appendix 1 to Annex A of the operation plan. It identifies types and/or actual1 f1 K' e. M# C units required to support the operation plan and indicates origin and ports of% e0 L' s+ ?5 r2 J( A# ?4 i" V' C debarkation or ocean area.0 a t, O9 x. g% H Time of Flight3 K& c" p5 j" l! m# V T (Max)" T2 {4 S6 v' R! a The maximum time for a booster or vehicle to perform its function from time of 8 ~/ s$ V/ q1 F1 a; r+ u' K3 Vlaunch.. V% d. I! {, F8 R+ G" x Time on Station The time the sensor is in its operating position.: r& \- b5 {+ g3 B) I% O Time Sensitive 0 m A9 \2 k% ]2 p5 @) aTargets 0 i! F! s# f0 Z7 Y/ ~5 WThose target requiring immediate response because they pose (or will soon 4 K* g7 m$ c# J" ^pose) a clear and present danger to friendly forces or are highly lucrative,% w8 s/ G- L: x! O: i 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.1 z3 R" [+ L" ? ~8 j TIMS Training Integration Management System (USAF term)./ x& Y3 S. [8 f3 b8 a2 t! U TIN Theater Intelligence Networks.$ {! B; o# @' I3 ~0 R& F* ?# T# R TIP TOPAZ International Program.* E* ~5 c) i0 ] TIR OBSOLETE. Terminal Imaging Radar. (Predecessor to Ground-Based Radar : P0 Q1 C! j5 K8 u7 ?Terminal (GBRT).)/ h2 W }# `5 F2 O/ S& a+ r TIRS Telemetry, Instrumentation and Range Safety) _# d2 g }8 }$ M1 B( x% p) }3 z' v TIS (1) Trusted Information Systems, Inc. (2) Technical Information System. 7 A9 h5 v! c) W% V' HTitan USICBM.' p. ?& t7 ]9 t) Y TIU TIBS/Tactical Interface Unit. 8 F0 c1 @7 Q5 K6 @2 ZTIWG Test Integration Working Group. (U.S. Army)5 ^3 j- b- f4 l TL Team Leader. ! A+ z$ x9 w" NTLA Time Line Analysis." r- f6 O; c' }2 A: W) J1 u TLAM Theater land Attack Missile. 8 Q) `" [6 _! V( C; CTLAM/D TLAN [with submunition] Dispenser (Navy term)./ e- ^' z/ q" W7 x; J TLDD Top Level Design Document.: F* T! ^& t( c. C TLV Target Launch Vehicle., Y/ c0 Y& y! Y' Y9 R) x, S: d i TLX Teletype. ( V2 R" ^! G; y' m$ YTM (1) See Theater Missile. (2) Technical Manual. (3) Tactical Missile (US Army 3 c' K6 b1 b$ E2 Vterm).; [9 A: }1 R$ d$ O* J4 K" Q, R! O TMCC Test Monitor and Control Center. 4 x( W7 j+ X2 X( U u9 `TMD See Theater Missile Defense. : x) u$ U/ r7 r( r& KTMD C2 Theater Missile Defense Command and Control.7 J; q. q R) A$ j. x0 u) u# ~ MDA GLOSSARY, VER. 4.0 T1 y2 x3 o0 K) \$ u9 C% y$ Q9 _) w 301* j( a! ]7 ]. `9 F0 V9 Z: g TMD C ; W3 O/ h7 ~+ r5 J) B& g6 A4 Q3 , b" d5 V$ A0 i( c% YI Those assets that provide connectivity between and among Theater Ballistic) H) n2 ^' K( W Missile Defense forces.% @7 _( E4 W! a, M6 e' K5 U TMD ESM Theater Missile Defense Existing System(s) Modification (MDA term). & z1 @2 U- p' G% z( e& |TMD GBR See Theater Missile Defense Ground Based Radar (THAAD Radar).3 s0 P/ z/ e/ n1 x, y8 q TMD IA Theater Missile Interoperability Architecture.: |( G! k% }. b! n* ^. Z TMD ITP TMD Integrated Test Plan. 8 w! x, G) q' V* j1 ATMDAS Theater Missile Defense Architecture Study. : n% l6 f/ x: }$ Q' mTMDC Theater Missile Defense Council. % n- z1 I1 Y& r x& F' w" fTMDE Test Measurement and Diagnostic Equipment (ILS term).' |- L% P) ~; e2 T5 W. { TMDI See Theater Missile Defense Initiative.6 ]5 S! u# D9 F6 V* } TMDSE Theater Missile Defense System Exerciser.; i2 A4 s' p9 | TMMM TOMAHAWK Multi-Mission Missile. ' }8 z6 g4 Q) ETMP Technical Manual Plan (ILS term).7 D. d% ]9 f) |4 U; `, b+ |+ B TMPCU Tomahawk Theater Mission Planning Center Upgrade. ; ^% F9 i9 p0 U# O& Q" w b, ] {TN (1) Terrestrial Network (C2E term). (2) Thermonuclear.. H! _9 V# c, z& l4 \. r5 p# i TNF Theater Nuclear Forces [Treaty term]. 4 k, z' y1 g/ l$ A2 QTNT Trinitrotoluene.# O& ~: o1 F& | TNW Theater Nuclear Weapon. ( \4 t6 R7 A/ x& Y$ R/ sTO (1) Task Order. (2) Technical Order. , t2 q3 Q7 }" [TOA Total Obligation Authority. $ K4 }6 {- B# m- u+ zTOAM Tactical Air Operations Module. J7 u( W' k* |" D0 J TOC Tactical Operations Center. # s$ N3 O5 _' H1 gTOE Table of Organization and Equipment. - O0 U; G7 n+ T$ NTOF Time of Flight. 3 _% e+ |" j5 o' |+ pTOI Track of Interest. 0 U( |2 J) N( U: _. L) O6 eTOIA Task Order Impact Analysis. 0 p6 J" y2 o( m# c- ?9 K) o1 X" N2 UTolerance The ability of a system to provide continuity of operation under various abnormal5 P, v! V; i: K7 L0 D% R conditions.$ w+ s: h% D5 x8 b5 a TOM See Target Object Map.

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Tomahawk US ground launched cruise missile. . _# r. t3 [* d2 R, BMDA GLOSSARY, VER. 4.0 T 3 E! b+ B$ S8 J) Z8 M6 _302 $ M' k0 M: A4 t" U9 P4 NTOMD Task Radar Management Details. 9 k5 X, W& x6 |/ X9 G' oTOMP Task Order Management Plan. : I8 V' d! `9 d( i5 K% S- Q+ wTOMS Total Ozone Mapping Spectrometer (NASA term). 8 q) h' y F3 {. ^TOO Target of Opportunity.2 W6 C, E- j* B$ j6 V+ [ TOOL Target of Opportunity Launch./ q* z, e1 ^- F) V o% y( H TOP Task Order Plan. v7 Y; P5 P' @: uTop-Down Pertaining to an approach that starts with the highest-level component of a8 W8 p8 `2 {; R' I hierarchy and proceeds through progressively lower levels; for example, topdown design, top-down programming, top-down testing. Contrast with bottomup. $ Y4 R: ~/ Y2 j' i& X& ]( bTop-Down6 E; E+ Z9 Y) ^' }8 Y Design% d/ A$ k/ q$ Z- W9 d The process of designing a system by identifying its major components,5 K7 k4 P. N- W& Y* f$ z! ~9 B decomposing them into their lower level components, and iterating until the6 I8 w6 b$ \, K9 x | desired level of detail is achieved.1 S' T2 |/ U* Y4 [9 g Top-Down" w/ F6 M, \. A9 R* J, H' Z* X Testing4 h: v! ]) _# B" ~& c2 R7 u The process of checking out hierarchically organized programs, progressively, * P* \' s4 C: W) Z4 qfrom top to bottom, using simulation of lower level components.& M2 I4 ?/ x: n, c( e3 Y TOPAZ A project to demonstrate the transfer of Russian thermionic space nuclear power / p- b+ J6 }. V- s' Q* {6 Mtechnology to U.S. BMD applications. * v3 X( s. w9 C4 f' F( M+ S! \; ETOR Terms of Reference.- b0 o% g( h" e1 \* j7 v# r; p! }/ C TOS (1) Tactical Operations Shelter (Station). (2) Task Order Status. ! M) F/ P9 C' P8 f2 ~3 STOT Time on Target7 G8 x4 A$ U' }" B1 Z/ J5 [ Total Obligation* i) \8 C: F6 @: O) T Authority (TOA)7 F# ]$ o9 O8 }' r/ t! }5 L; H A DoD financial term, which expresses the value of the direct program for a given. I# F4 ^( V' p9 O fiscal year.; B* H+ }- S; ^# O Total Quality, R7 e2 l% f- V: o Management& [" s2 z; Y, z1 r- k/ u (TQM) 5 o0 l' f* }; @& u1 wA management philosophy committed to a focus on continuous improvement to ) V5 R. \2 Z. J/ g. y d9 d7 Aproduct and services with the involvement of the entire workforce. & o% ^4 ?7 |# `8 g/ N$ fTOTS Target Oriented Tracking System 6 w6 e/ U3 R. Y; n9 w5 wTOVS TRIOS Operational Vertical Sounder. 6 b6 E6 E: f0 @6 k- }) b) [: DToxicity The kind and amount of poison or toxic produced by a microorganism, or : G- X* w h: A. xpossessed by a chemical substance not of biological origin.% a8 C0 Q% z, A% g TP (1) Telenet Protocol (Telecomm/Computer term). (2) Test Program. 3 n3 v- M+ G: g- A! H2 aTPALS Theater Protection Against Limited Strikes. * d4 P7 { B8 Z+ l/ VTPBM Terminal Phase Battle Manager.' N/ J& O+ u! J( {* K+ x# _) }% ]* ~ TPD Mobile Tactical Radar (US). . V: H: Q" f y/ A1 G* [' \TPDR Total Processing Data Rate (TelComm/Computer term).% U& x* x4 R+ ^4 [ MDA GLOSSARY, VER. 4.0 T ( V8 w; M* W/ y" f& ?303 3 M4 k6 ?. O- ]) bTPEC THAAD Performance Evaluation Center. 9 ]" D; ]# v( U$ iTPEM Technology Program Element Manager (SDIO/MDA term).* e% A. s5 M! G9 Y) \; l TPFDD Time-Phased Force Deployment Data. 5 Q) @" s3 M0 C4 s e" G4 ATPFDDL Time-Phased Force Deployment Data List.) P0 e- t1 J. H$ `' W! z2 F TPFDL Time-Phased Force Deployment List.$ a! W! e! n! g* ] TPM Technical Performance Measurement.9 k4 Y/ i. h }$ ^: [- H* u! O. O TPMT Total Preventative Maintenance Time (ILS term). / w0 V! p2 L$ Q g6 n. B$ b2 ~! Y: QTPO (1) Test Planning Organization. (2) THAAD Program Office; X' ~% l+ [2 I) v) ?6 f( ? TPP Test Procedure Plan.8 T W* ]2 i7 z; c) }) u TPR (1) Terminal Phase Radar. (2) Trained Personnel Requirements. (3) Target( \6 t" {$ t% B! n6 z4 j Performance Report. 1 O" q) n- j& BTPS Thermal Protection System. 6 O4 ]$ J" E& {- z, D. u. A0 z5 ~7 h! ?TPT Theater Planning Tool." L4 p& Q4 X# d5 d' I/ C4 I6 e TPWG Test Planning Working Group. (U.S. Air Force) * g- I) Z' x' m4 wTQM Total Quality Management. . ]/ ~' H5 {; _' U- OTraceability (1) The characteristic of software systems or designs or architectures or & B% o* A! [/ G. U2 X% B$ a- odomain models that identifies and documents the derivation path& ^7 `6 P% L" @2 @ (upward) and allocation/flowdown path (downward) of requirements and+ f- f6 L) I, [' B8 g constraints. 6 a0 D. s. b- I) _4 h5 q5 V& H(2) The degree to which a relationship can be established between two or ( Q+ C- k4 o7 h0 \9 D/ j5 a zmore products having a predecessor-successor or master-subordinate " n1 e* ~- @2 T! O7 r( t5 drelationship to one another.

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Track (1) A series of related contacts displayed on a plotting board.) J. Y2 }9 t: F* f3 b Y2 L (2) To display or record the successive positions of a moving object. 9 |+ r& C2 K1 B(3) To lock onto a point of radiation and obtain guidance from.% B, C, e) e" H (4) To keep a gun properly aimed, or to point continuously a target locating 9 b0 Y' O& q. p: o9 g3 N. `instrument at a moving target.5 d8 [# `) N/ m% a: u- a( X4 O (5) The actual path of an aircraft above, or a ship on, the surface of the j. e+ Z+ R$ A earth.9 A2 U5 V' o9 G6 U7 x Track; ?1 v& i2 r$ \ Assessment 7 L9 k+ f/ H) }9 z- ]7 ZThe Track Assessment looks for anomalies in an object’s track data. An anomaly 8 y! `. ~" G6 ?8 M& Win the track may indicate a hit. + a2 U9 | B* C# fTrack, Birth to . t9 v& p0 L. Q$ LDeath 6 s) j4 g) R- xThe maintenance of an associated track through all phases of flight (i.e., boost4 S" K: D/ N V: R; q to reentry).: K! M! V, F( D2 H: f$ G/ x! T4 O Track Correlation The combining of track information for identification purposes, using all available) }/ j+ G# t$ ], ] data. ^! I, x; @/ J6 g6 G% o( k4 o Track Extension This term usually applies to improvements in track estimates by use of new data. & C e, v+ k, d" _! C: nIt is sometimes used to describe a process of target extrapolation to a future time: n+ z1 a9 L1 |% \9 C( j1 k8 x3 v or place (e.g., reentry). 8 m& v! ~& u3 Y% l4 sMDA GLOSSARY, VER. 4.0 T2 o1 W& |$ w0 C: L# d- W 304 ' M v$ U) c, \, ]0 N e* ZTrack File A target’s stated estimate, confidence, covariance matrix, and associated LOS + d3 f ^% P& d H+ Umeasurements with irradiances with confidence of association; or some subset of 9 Z6 B( f, G3 C w# wthe above. * t: Y! ~: ]. M* v7 I9 bTrack File-Track' k. S( u% w# \) y: @% P2 I History6 w4 E" M9 d( [- A2 y$ l9 N A set of individual track reports on a particular object, which taken together+ b2 |9 M6 E: l9 O. y' x produce useful approximation of that object's future position in space. ]8 ^5 w, J$ @4 u Track Formation The process of determining the track or tracks of detected objects. It is usually a- Q# g" F& a/ |, k three-step process of data association, track initialization, and track improvement : `/ B- I# M6 ~/ nby filtering. 1 W5 S2 ]0 z3 b- F9 K4 U9 OTracking The act of generating and maintaining a time history of an object's position and) [1 {5 ^0 x) \! n8 ~1 A any other features of interest. 2 _3 |* y6 y4 R0 y& B, Z, }- cTracking and ( c4 j2 t( h y' X. b1 HPointing; P9 I! ?' G7 M Once a target is detected, it must be followed or “tracked”. When the target is - D# O+ i& [' w! g) v2 zsuccessfully tracked, a weapon is “pointed” at the target. Tracking and pointing $ g! ~& E* L# E! \2 zare frequently integrated operations. 4 E* Q. c8 J/ J2 v- vTracking Range 5 F3 k% K- k! o }+ K! U O% V(Max)) Y: a& X/ j% a" _& ]+ Q# ~$ a, W/ i* \ The maximum line of sight distance at which a sensor can maintain track of an 5 Y- N& E, k: l$ i* bobject.2 j1 f, g. x# z6 h Track Initiation The formation of the first or initial estimate for a sensor system of the state vector 3 x- y8 k0 a- p+ W+ v1 L3 r P2 [: jof an object. The process typically requires observation from a number of' J! m6 l% P" u/ ~ ~! q) ? frames.# _3 M6 `& ?0 G% B- Y; x Track Production, O5 ]8 Z' i* Z" V8 d3 G- u1 [ Area , k9 Q: t4 e2 p( ~& i9 ~An area in which tracks are produced by one radar station. 7 @" u9 W& E2 h* CTrack Symbology Symbols used to display tracks on a data console or other display device.; X6 V- S7 ^' A% P$ \ Track Telling The process of communicating air surveillance and tactical data information# {, S4 z0 X; s- p7 | between command and control systems or between facilities within the systems./ o: X, N8 g( @* I) }. l) M( X Telling may be classified into the following types: back tell; cross tell; forward tell;$ W$ l" n4 M2 d" O7 Q" V lateral tell; overlap tell; and relateral tell.4 O9 g5 b1 r. ~. ~ TRADEX Target Resolution and Discrimination Experiment. 0 N5 G- J o* {1 e8 V% w! iTRADOC U.S. Army Training and Doctrine Command, Ft. Monroe, VA.& ]2 k" Q* @5 }- M Traffic Capability3 y4 ^" F( Z+ E: I _% h Maximum1 V5 [9 I, |( L% W The maximum number of objects per unit time which the sensor system can q" S5 N4 H- p% u8 l maintain track files. $ A7 A1 }! P/ I/ t/ ZTraffic Decoy Decoy that matches RV characteristics in the exoatmosphere and high4 P; p8 I) F( ?" x endoatmosphere.0 R: j: A; {* j4 ?/ T Train Threat geometry with objects placed in a line (string) along the velocity vector of- u) Q# w b. M( j6 w& o reentry. ! ^ W0 X! q, eTrajectory The curve described by an object moving through space. ; D. q) b; ] ?: T+ m2 e' U+ dTrajectory 7 u4 n- W% _8 Y; Y1 d2 hHistories8 _1 h& ^6 E1 r" G, u) Y; { Trajectory information on targets recorded over a period of time.8 z* j+ }& y2 ~9 b& h TRAK A data base management system (not an acronym).; K9 f9 K9 S' h+ T, k- E0 W Trans-Attack Period from first tactical indication of attack until termination started, i.e., postattack.5 M! J# X- k% e2 J MDA GLOSSARY, VER. 4.0 T5 ~ y5 ]" t S5 V 305' O) j. }. g/ ~# h5 L4 z5 Q4 n TRANSCOM [U.S.] Transportation Command, Scott AFB, IL.4 @2 m, H* a4 x9 b$ G: \! X TRANSEC Transmission Security.6 e; @: u3 R) l) c ]) v' o Transition The period in which the world strategic balance would shift from offensedominance to defense-dominance.' \" A4 R0 J8 l& T8 a% e# h. { Transition to 9 o3 B6 n- w! _6 S9 uProduction * }3 S; ?7 ~( ^) YA risk reduction process during which the program shifts (passes) from, b+ T) D' ]. E# ^$ u development to production. It is not an exact point, but is described as a6 g' Z4 D1 D# o! H% u; e C process consisting of disciplined engineering and logistics management to 0 o) z) x/ J( [7 ]4 P) w3 Tensure the system is ready for manufacture. (See DoD 4245.7-M.)/ p) N2 x0 R1 w$ t Transmission ) F, }3 R& V. J; x4 G% nSecurity / {+ I$ n; i" t& V% T# p(TRANSEC); R0 S; u2 [) H" h1 r( w5 L3 X That component of security, which results from all measures, designed to protect 1 \+ v) {: J, [* ecommunications transmissions from interception and traffic analysis. (See/ Z" o" R3 c* Z8 T: E3 c COMSEC.)

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Transonic Of or pertaining to the speed of a body in a surrounding fluid when the relative , }1 D5 J# x4 w3 u# Hspeed of the fluid is subsonic in some places and supersonic in others. This is 1 m8 S( | l! i8 I4 c1 v/ S; Oencountered when passing from subsonic to supersonic speeds and vice versa. # F, d7 D2 p+ j* i% C4 u6 iTransponder A receiver-transmitter that will generate a reply signal upon proper interrogation.' K$ Z* W6 c8 ] TRAP Tactical Receiver and Related Applications. 2 d3 ?" o3 g, U0 ~6 CTrap Door A hidden software or hardware mechanism that permits system security" z: b7 M3 q9 R, Y; ] mechanisms to be circumvented.! K" ?# B( C7 {5 \% P Traveling Wave3 G, Q+ o9 \. Z Tube (TWT) # h' F& u4 h3 l3 l- Y* U5 lAn electronic tube in which a stream of electrons interact continuously or - R) m1 c9 a( R4 o4 s! irepeatedly with a guided electromagnetic wave moving substantially in5 t# Q9 j/ j& i synchronism with it, in such a way that there is a net transfer of energy from the& P4 A3 t2 ?# I2 h stream to the wave; the tube is used as an amplifier or oscillator at frequencies in9 U* u& |) G0 v" b" G+ j2 \- G [ the microwave region. ( E( _5 H3 F0 W2 `! H# n) Q9 t! qTraverse (1) To turn a weapon to the right or left on its mount.1 q3 S4 u W5 f L8 e2 q$ h (2) A method of surveying in which lengths and directions of lines between; h( y4 `% w2 R: J. B points on the earth are obtained by or from field measurements, and 4 r2 a8 N) A, {used in determining positions of the points.( R# H$ \# |$ z0 C* k/ Z Traverse Level That vertical displacement above low-level air defense systems, expressed both 6 k0 i, b% X4 B7 G- ias a height and altitude, at which aircraft can cross the area.9 {) t; G' E% r2 l! I! |) h" f TRB Tactical Review Board.) l3 `9 d+ b/ c) | TRD Technical Requirements Document. Q! D+ q3 l8 E( ], ^( d4 BTRE Tactical Receive Equipment. % L2 B8 j! R8 V. b8 B/ b$ hTREA Transmit/Receive Element Array (THAAD). `. Y2 w* s6 J6 Q) _ TREE Transient Radiation Effects on Electronics. & \% {7 n8 Z8 ~TREM Total Radiation Environment Model. & v5 G; D7 F2 y' Y" _ a9 Q4 Z. |TREPS See Thrusted Replicas. ; e+ B& j, \1 @: {8 ^8 vTRESIM Tactical Receive Equipment Simulator.- u* Z/ ]/ v9 R1 T- |# c5 g MDA GLOSSARY, VER. 4.0 T5 N* R) J: q( N) w( ]* Z, A3 y. W4 r 3063 `, Q9 J) C+ M. [9 F# y5 G TRG Threat Reference Guide.1 o: n& X( I9 d g TRI-TAC Tri-Service Tactical Digital Communications System. t0 g! ?- s+ c( Z j" d$ P/ i TRIDENT Class of US ballistic missile submarines (USN term).6 P! {6 z2 [1 i3 M% F TRIDENT I (C-4) US SLBM (USN term). ~( C! D6 K ]0 v% D. ^TRIDENT II (D-5) US SLBM (USN term).' q. \% F; ~. ?$ V# {) @ TRIM Toxic Reduction Investment and Management., x: s, q6 O) ]% {' U TRM Technical Reference Model.7 g- r0 G; |. ? TRMP Test Resources Management Plan.6 P* n& P E' O) h TRN (1) Task Requirements Notice. (2) Test Requirements Notification.6 V5 p F2 c, i& I3 | S: T* K0 n Trojan Horse A computer program with an apparently or actually useful function that contains 8 }( g8 i# q8 D7 ~8 Q$ n1 wadditional (hidden) functions that surreptitiously exploit the legitimate ' V/ w! p5 ]1 \" Y# [2 Sauthorizations of the invoking process to the detriment of security or mission. P5 Z8 b) i8 l% a8 L9 F performance.* x0 l/ r7 d% p$ G2 x# G& f TROPO Tropospheric Scatter. & ]( O& i) U6 j. C. h6 y- mTropopause The imaginary boundary layer dividing the stratosphere from the lower part of the [4 q( Q0 U" gatmosphere, the troposphere. The tropopause normally occurs at an altitude of: @& w, z4 |9 N+ i5 m$ \ about 7.62km to 13.71km in polar and temperate zones, and at 16.76km in the/ o7 T. a/ m5 E4 t tropics. (See Stratosphere, Troposphere.) ) n# `& O# Z- B# X7 N7 TTroposphere The region of the atmosphere, immediately above the earth's surface and up to # t1 ~) b! }$ F7 O7 z" s. S6 k! tthe tropopause, in which the temperature falls fairly regularly with increasing: V" ~: ?% p& q d- M altitude, clouds form, convection is active, and mixing is continuous and more or " r# [7 |/ r" c. `! Rless complete.' T* I5 \1 b- k2 O x Tropospheric2 z" [9 r5 N) {, K+ w: ]& U9 v Scatter: D2 I: v) O* S The propagation of electromagnetic waves by scattering as a result of # a6 N9 K$ D' Cirregularities in the physical properties of the troposphere.% N- t' N% q% |. t j D TRP (1) Test Readiness Program. (2) Technology Reinvestment Program.3 b9 z; C1 G3 z2 U7 A, e0 z (3) Technology Readiness Program (pre-acquisition program status). 7 ?$ T1 {1 y l0 u- b(4) Technical Requirements Package.; ?, e# e+ X$ J; e9 }/ @ TRPC Technology Readiness Planning Committee.5 B! H" h4 H1 D8 v1 Q' _ TRR Test Readiness Review. ' G! ^+ J8 I# e- J F. DTrusted& r5 ^( t) b; P. {; C9 { Computer ' ~! \* O; Q! Y# u' y* NSystem/Software6 V9 |5 c! @: ?- z9 m A system or its software that employs sufficient hardware and software integrity7 Y/ z8 x7 M7 R. \ ?2 a0 i measures to allow its use for processing sensitive or classified information. ( y2 Y& V( F" t+ M: gTrusted Path A mechanism by which a person at a terminal can communicate directly with the , T. n2 g% n9 l) M/ D1 ^Trusted Computing Base. This mechanism can only be activated by the person4 ?5 p, W+ C7 r2 u8 k$ q; {# ~ of the Trusted Computing Base and cannot be imitated by un-trusted software. j1 @' D0 v* t2 \- H% d9 lTRW TRW, Inc./ G* } z' m5 ?0 M TS (1) Terminal Service. (2) Top Secret.* z. v5 s q0 b MDA GLOSSARY, VER. 4.0 T# i4 O' Y/ i) i) t6 ]. j$ F& `' ]& r 307 8 M' G' r' N6 ^# X6 G9 p6 m9 ]TSA Technology Security Analysis.8 r( s! b: M1 ?- b! G9 o TSD Tactical Surveillance Demonstration. 1 J, E# M& N1 h; t/ S7 y) j5 UTSCM Tomahawk Strike Coordination Module (USN term). : c* z$ t3 @( ]8 q9 E( F$ Q l$ TTSD Tactical Surveillance Demonstration. 7 q; q. Y2 D( ]$ k2 |' A. A5 A* z, xTSDE Tactical Surveillance Demonstration Enhancement.4 ~/ T3 c5 K/ ~$ G. x. i TSEU Technology Seeker Evaluation Unit. ' E1 v1 l. h. ~3 |) MTsIAM Moscow’s Central Institute of Aviation Motors.( `% ]; }1 E* j2 P" z TSM TRADOC System Manager. 2 a* L8 |) i' YTSMA Theater of Strategic Military Action. 8 r% H6 T: O6 g& `& w' jTSP Target Support Plan.* U, S% H& U& [5 k TSPI Time, Space, Position Information.( h2 Y+ C2 f+ O' R9 Q# L2 Q TSR Target System Requirements.

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TSRD Target System Requirements Document.6 c* K' h$ k+ ~! E X TSS Terminal Surveillance Sensor. - m8 N, @: q3 uTSSAM Tri-Service Standoff Attack Missile.4 ~4 Q2 l: e, v; E" v TSWG Target Signature Working Group.. }( n- f5 y9 W3 _$ \ TT Total Time. : t. D5 W* V2 G& E, ^! dTT&C Telemetry, Tracking and Command.* a, m6 ]/ N7 S: _, e* t- Y, ~" h TT&E Technical Test and Evaluation (Army). 7 x# O9 l1 ^$ DTTA Total Time Accounting. , k; y' z; G' o6 m/ V; zTTBM Terminal Tier Battle Manager. : J) U* [; c8 [ mTTBT Threshold Test Ban Treaty. , K8 j6 V4 m7 m9 J0 E7 pTTD&D Test Technology Development and Demonstration. A portion of the CTEIP 7 D3 _8 l6 S0 j9 cprogram, which funds the development and demonstration of technologies,, L4 l2 k; D2 l: }: V which have significant potential for improving testing./ l9 u& k" _ C! h TTEL Tools and Test Equipment List (ILS term).6 B# o: I: i: h) Q- L( m* b& B TTL Transistor-to-Transistor Logic. 9 y1 Y4 a1 y, `' H3 y( L- wTTP Tactics, Techniques, and Procedures.6 |* G: ]) L6 A# m: p2 _6 M TTSARB Technology Transfer and Security Assistance Review Board. $ A& a0 D: }( Z' vTTT Test Technology Transfer. 9 P/ I( \$ |( z: UMDA GLOSSARY, VER. 4.0 T V& ~$ R) \: Q: P4 l, Z, I308 ' B/ H+ ?: Z, ^3 j7 i8 rTTV Technology Test Vehicle. 7 a2 l5 I8 B3 P# |3 nTTY Teletype. 8 f9 K2 @7 N0 t) K( I3 |; V* N: X$ PTUG TRACE User Group. 3 Q8 _/ \+ [+ Q: Z. y+ WTV Thrust Vectoring (rocker engineering term).* k; e1 m% {/ I2 N; K) N% b+ X TVC Thrust Vector Control., z. t/ f$ @* V$ I8 W! ? TVE Technology Validation Experiment. 6 B! z1 b$ n" j' pTVM Track-via-Missile.$ m; d$ |4 y. z6 U" b TVV Technology Validation Experiment. - S F( V/ @2 Z4 K0 uTW Tactical Warning.) z$ \3 I Z6 h3 u TW/AA See Tactical Warning/Attack Assessment. 0 `% \, q. G1 A' Y. t- {TW/SD Tactical Warning and Space Defense.8 n; k! g7 v6 L8 { o [ TWG Technical Working Group.* ?6 ?! Y, y4 i1 ^3 ~: h3 Z% o TWS TOMAHAWK Weapons System (USN term).$ w4 U" P ?7 y TWT Traveling Wave Tube.# [1 _( c* `2 D8 T0 _' h& g TWTA Traveling Wave Tube Amplifier. (Electronic Engineering term). 7 v; I. O4 t- w8 GTY Then Year (PPBS term). , H2 F" x# u H# d6 c; |TY$M Then Year Dollars Millions. : b6 W5 U! E* s9 m* V! d; o- W* eType A - System' V& ^4 ?& E# x. b8 _ j* |3 m: Q Specification: `/ I0 k2 [. }* }6 `: A( V States all necessary requirements in terms of performance, including test 5 s$ ]' e _* Z+ Oprovisions to assure that all requirements are achieved. Essential physical/ X+ q$ { ?6 m% {& V constraints are included. Type A specifications state the technical and mission + q: d. w% m- m) U4 k, C) l2 K9 {/ |requirements of the system as an entity.+ f% {0 f' o0 t4 Y# @4 W Type B - 2 E$ I9 m' `' P v3 xDevelopment 9 R( K- R+ t' U; W- d+ C. d8 HSpecification ) w. X5 ?* u" d2 Q, xStates all necessary requirements in terms of performance. Essential physical+ P+ a2 i0 L" |& n O q constraints are included. Type B specifications state requirements for the! P/ }0 Y8 G- e m4 p' v development of items other than systems. They specify all of the required item/ O2 _) w! k9 u- ? functional characteristics and the tests required to demonstrate achievement of - N- b' Z( _& r9 {$ Mthose characteristics. @1 C6 \% L+ RType C - Product( {. j+ Q% ?2 V" E# G* l7 D; B- d Specification 0 \* F1 z5 n- h, \/ d" O1 f0 k, v9 tProduct specifications are applicable to any item below the system level, and% j6 {8 \& a; @# a may be oriented toward procurement of a product through specification of+ P2 l& |1 V8 H. L" a) `) e8 P. Q primarily function (performance) requirements or fabrication (detailed design)# F/ d; l1 s: e/ b+ \# [ B requirements. Type C specifications intended to be used for the procurement of0 {; u0 @$ g; D+ Q; J% @5 c items including computer programs.9 i" |, d. x: C- D% y; S1 G Typhoon Class of Soviet ballistic missile submarines. 1 n. k2 U% v9 _9 \& KTyping The act of recognizing objects by measuring a set of observables, computing a2 g2 q, X3 d( I% e set of characteristics, and associating the characteristics with a specific class of/ j/ v c$ u) M6 c+ I: d1 V objects (i.e., SS-18, SS-24). ! a! Z9 r: G. zMDA GLOSSARY, VER. 4.0 U * d' @6 n7 G# z7 W- L+ P309- p" i0 _- A& g; _ a% T. l6 u# l( |4 p U Uranium.; |2 P# X9 G# o R) s" V% R U&S Unified and Specified [commands] (pre-1996 term). * y5 l$ \+ O8 j% A! b0 }U.K (UK) United Kingdom. 9 e: R8 \) B6 Z9 o+ }U.S. (US) United States. % S) I5 t* I( P5 J+ d, t" iU.S. West U.S. West Incorporated. 9 G, Y8 Q; j3 t3 c% lU.S.S.R. Union of Soviet Socialist Republics. 6 Q9 ~# K( O) q0 E' Y( ?5 iUA User Assessment (NMD BMC3 term). 0 P/ q# q9 g% S9 H. k5 Q9 A) P8 dUAE United Arab Emirates. # {! X* {4 z$ `2 t6 T! JUAV Unmanned Aerial Vehicle., m9 A" X- `0 G UAV BPI Unmanned Aerial Vehicle-based Boost Phase Intercept. 9 f' O3 t- F6 xUCAP UAV Combat Air Patrol.5 w& O/ P' y( z6 o7 r UCC Uniform Commercial Code (US legal term). E# q0 \# A5 n. h UCP Unified Command Plan.5 E% ^8 C+ }1 M UD/ASD United Defense/Armaments Systems Division. ' B/ X5 b/ r4 B) h) G/ P3 GUDMH Unsymmetrical Dimethylhydrazine (a liquid propellant rocket fuel). i0 _# y5 R. g UDS Universal Documentation System. A standardized comprehensive tool for stating i3 P5 u: j; m* W9 K9 K; W and coordinating program requirements for testing MRTFB ranges, as well as the ' }7 i9 U+ l; J2 f& Qcapabilities and plans of test ranges to support program requirements. It8 z$ l3 Z( H' R8 {3 P3 _ consists of a series of six planning and execution documents: 10 are the$ S0 z( N( G3 ]! y/ W Program Introduction (PI) (also called the Program Introduction Document (PID)),3 A3 e5 W6 i. ?& q! Y& i1 b3 t 2) Statement of Capability (SC), 3) Program Requirements Document (PRD), 4) 4 r* w4 U3 y* ]; P1 eOperations Requirements (OR), 5) Program Support Plan (PSP), and 6) the : r4 @+ D1 R3 `- |; L% U& v! g# SOperations Directive (OD). The UDS was developed and is regulated by the & E3 v% c# I$ n2 M. _& |! `) XRange Commanders Council (RCC).

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UE Unit Equipment. $ \, }% E+ }4 [7 TUEME Unified Electro-Magnetic Effects.) s. ^& B& a# m+ r UEWR Upgrade Early Warning Radar.; i3 L6 C' \2 R$ | UF4 Uranium tetra fluoride. ! f3 d3 e2 [. t L9 M; a! ]3 z3 aUF6 Uranium hexafluoride.; l* `& g5 T3 J3 b$ _/ p* }, _ MDA GLOSSARY, VER. 4.0 U" G/ f7 H- `$ A: r 310 - J# ^: s2 [, c/ ]UFG User Focus Group. ' i3 K3 G7 G4 k3 L5 s8 TUFO UHF Follow-On [Satellite Communications System].' d6 z8 @) t3 V7 U( p. P2 n UFP Unit Flyaway Price./ P6 T2 W! Z" I5 @. ?9 P UGF Underground Facility.' f! R8 Z1 V1 `% o* @1 b9 v7 ? UGS Unattended Ground Sensors.9 \( k' }) Z7 ?6 J UGT Under Ground Test. 2 ]" Z/ G& o2 ~UHF Ultra High Frequency. : h# ~1 O6 [+ \. c9 sUIC Unit Identification Code. E) k% `/ Y/ g9 JUIN User Interaction Node. 0 D4 m% d: L3 M3 @9 E* nUKAS (1) UK Architecture Study (2) UK Associate Studies. 7 f1 A, H- Y9 K! T6 I; E$ U2 ]UKEADTB UK Extended Air Defense Test Bed.8 V4 S( N+ v; Y) B. V( @; ` UKTB United Kingdom Test Bed.* L) y& L; L& J$ H6 R ULCS Unit Level Circuit Switch (SINCGARS term). & q4 D) T* k M! DULS Unit Level Switch.( k9 Y: v. S' t( M/ [4 h ULSA Ultra Low Sidebobe Antenna./ r1 t/ d0 N& U' @. J a ULTDS Unit Level Tactical Data Switch (SINCGARS term).% I) b& s4 p/ b: t; d1 I Ultraviolet (UV) Electromagnetic radiation of wavelength between the shortest visible violet E d2 P. g7 Z5 T5 A2 T(about 3,850 Angstroms) and soft x-rays (about 100 Angstroms).! z) c$ x) g* A* z8 ?7 x" d UMD Unit Manning Document.1 ^ ?2 n: H# d8 H; u ` UMMIPS Uniform Material Movement and Issue Priority System (ILS term). " Y* E2 K Y; a) @6 X$ JUNAAF Unified Action Armed Forces.7 |+ t0 a3 t( o7 K% q UNC United Nations Command.3 X) i# o* X9 X( b. G4 x/ w Unconventional ) \& L6 ?# H2 S, O2 e+ b7 ZWarfare 4 n% O8 U, @. lA broad spectrum of military and paramilitary operations conducted in enemyheld, enemy-controlled or politically sensitive territory. Unconventional warfare , R" c0 k: G& Zincludes, but is not limited to, the interrelated fields of guerrilla warfare, evasion 1 g9 T! M! I; P: E7 v4 q$ }: u7 Nand escape, subversion, sabotage, and other operations of a low visibility, ( i5 V* z0 w$ v- |$ R7 F. Ucovert, or clandestine nature. , @) ~, L( P! k: ]Unified Action * o: p8 Q5 Q# Z9 Z5 [; KArmed Forces! @8 s3 G2 G8 b2 }2 x A publication setting forth the principles, doctrines, and functions governing the8 k' u9 [+ u% W! G8 t- k: C X activities and performance of the Armed Forces of the United States when two or2 u. T N1 T9 G( q more Services or elements thereof are acting together.* e: w6 D- ^4 b4 j8 U( q# h: @ Unified Command A command with a broad continuing mission under a single commander and7 t0 f1 p/ [5 G5 b- W/ g composed of significant assigned components of two or more Services, and8 f( p; B% J& o2 r, [- v7 S which is established and so designated by the President, through the Secretary 2 s. E2 d+ X$ }8 l& Hof Defense with the advice and assistance of the Joint Chiefs of Staff. 1 q2 x7 J$ O2 o9 W" n# a, ZMDA GLOSSARY, VER. 4.0 U 4 W1 u' [! A6 q( V& D8 T' N311" l3 q2 Z! Y7 v5 ^- j3 } UNISYS UNISYS Corporation./ }- F B8 [% e7 K United States 7 Y' d1 D1 o+ @& H6 F9 C: ^- \6 ]2 vArmy . f$ ?, d. D. k& jSpace Command. U* w0 e3 w9 S" N6 z, @ (USARSPACE) 5 \' c- d1 B5 ?/ E" f' r! y0 T0 [The Army component command of USSPACECOM. Responsible for the Army$ b7 B9 A9 ~& F' O L6 F elements of the SDS system. Located in Colorado Springs, CO. 0 M0 n/ A+ U& `) z( VUnited States7 o2 g6 A. L8 g$ t; {, F5 ^ Space Command6 f7 M" Q$ Y% q# p/ ?; E (USSPACECOM) * g( h. V7 @9 M$ }The unified command responsible for planning and conducting ballistic missile X9 l, J) _; g4 M( t1 |8 q1 A defense. Located in Colorado Springs, CO.0 J5 n# v. h' v United States0 [# l5 V* \( L) Z: e; H Strategic/ u' P8 B L$ h6 T7 K Command9 T/ S, a1 ^2 s7 ]0 h (USSTRATCOM) / D, C/ h% a- h% h x3 dThe DoD unified command responsible for carrying out directed nuclear and nonnuclear strategic air, intercontinental ballistic missile, and sea-launched ballistic 2 o( a) ~2 w% s- imissile offensive combat strikes. Located at Offutt AFB, NE.& W" B2 s& T* V# _ United States3 ^1 [1 L- f1 \6 ?+ d; X Transportation 3 U- L0 j) e# [- ?' [/ g3 S) Y0 gCommand 4 t: H- T7 ^6 m$ F7 y(USTRANSCOM) / H( v9 p, X2 AThe DoD unified command responsible for providing air, land, and sea 6 q B) y3 U) gtransportation for the Department of Defense, both in time of peace and time of . C+ \: H8 b% E: x* U+ gwar. It is also responsible for providing airlift, sealift, surface transport, and6 F) N8 L" K- \' E terminal services, and commercial air, land, and sea transportation, including as1 v+ b0 Y; [1 D3 P0 u needed to support the deployment, employment, and sustainment of U.S. forces ' v5 _8 |: s/ f& M- Kon a global basis, as directed by the Secretary of Defense. Located at Scott7 Y& Y' q) |" a: J/ P AFB, IL.

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Unk Unknown./ K/ j! N8 |9 N1 ^5 S& O Unresolved0 A5 \$ U% O, y* O- f, ^ Objects - j ?; o& Q" F2 O+ iObjects so closely spaced with respect to the sensor focal plane as to be . q. ~3 G! D" S0 r+ Hindistinguishable from a single object. 2 o z# y' d0 NUNSC United Nations Security Council. ) t" ?+ W( S+ F/ U" U( g9 n; A. KUnSecEnergy Under Secretary of Energy.& G& K# O3 ~8 A, m. [* T UOC Usable on Code (ILS term). % G I: ~, G* ^UOES See User Operational Evaluation System.0 ]5 ?4 {" o/ ?- I1 b UPD Unconventional Passive Discrimination. ; D2 @) o; S2 _- ~- s, w, S- \4 X" N x" YUPS Uninterruptible Power Source. % [" j% E. O# g8 _UQT Unit Qualification Training (ILS term)., U7 ]# k, ~. k" J- Z9 G" b URIP University Research Initiative Support Program. 8 D% y1 \8 T" u( u/ SURL Uniform Resource Locator (internet protocol term).9 B2 }1 W& [5 i7 G* e; R$ |, @ URT Upgraded RTD. 1 ]$ ?. L8 {6 u. I1 U+ N- UUS/UK United States/United Kingdom.( z% @9 i8 s" Q2 {% {3 T) P# R/ i USA (1) United States Army. (2) Under Secretary of the Army. 5 o# L4 S# Z/ P: n) N! _2 ]USAADASCH U.S. Army Air Defense Artillery School. / [$ z- _! X. IUSAAE U.S. Army Acquisition Executive. 9 D# p5 S0 l7 y W0 n* F3 HMDA GLOSSARY, VER. 4.0 U ( T8 j8 U: l8 r5 Z3 R3123 x C0 b+ f( {9 i1 ]. ` USACE United States Army Corps of Engineers.7 G: z$ [5 N9 x- [$ ~, s% h USACOM United States Atlantic Command, Norfolk, VA.! i, j4 ^. P+ ? USAF United States Air Force. $ _# h: r: V" L- E# ?) aUSAF/AFMC/ESC U.S. Air Force Materiel Command, Electronic Systems Center; ex-ESD. 6 v8 |8 V) i* NUSAF/AFMC/SMC U.S. Air Force Materiel Command, Space and Missile Systems Center; ex-USAF 9 w4 j3 o' S" L& k1 N, ]$ zSystems Command /SSD. 1 ?6 a( z- v1 L0 H7 xUSAF/OTEC U.S. Air Force Operational Test and Evaluation Center./ G# S& m# n+ L/ Z( p, s USAF/SMC U.S. Air Fore Space and Missile Systems Center, Los Angeles AFB, CA. 4 M( M& g1 ~6 t4 eUSAF/SSD U.S. Air Force/Space Systems Division; See USAF/AFMC/SMC. ( ]" s* t0 k0 t" ~2 D0 Z4 ~: k! ]USAFE U.S. Air Forces in Europe. , v; C5 h6 l' ~1 _USAFLANT U.S. Air Force, U.S. Atlantic Command. / x6 k: p: q. @. c7 d1 ]$ yUSAKA U.S. Army Kwajalein Atoll.0 q$ l! h+ M K* u5 s* f1 j USAMICOM U.S. Army Missile Command, Redstone Arsenal, AL. * k. J; p6 e( ?3 O6 A2 V$ }USAMSIC See MSIC. 4 x% K$ l3 Y6 }) [1 Z2 _USAMSAA U.S. Army Materiel Systems Analysis Activity. ! w$ {- e. ^1 j) N9 VUSAOEC U.S. Army Operational Evaluation Command, Alexandria, VA. : j1 P( |5 m2 w; Q7 K% ]" ^8 ~USAOTEC U.S. Army Operational Test and Evaluation Command. % c( ~: Y3 U$ fUSARCENT U.S. Army Forces, U.S. Central Command. 9 H7 ^2 c" e& p2 ?USAREUR U.S. Army Forces, U.S. European Command. ! ] F3 X/ s- LUSARLANT U.S. Army Forces, U.S. Atlantic Command. $ a/ x0 @# o) r& A2 e$ N/ @& V8 CUSARPAC U.S. Army Forces, U.S. Pacific Command.! u8 N ~1 {0 C" l USARSPACE See United States Army Space Command.6 M1 p% p6 p. T* o1 ~" B1 x USASDC U.S. Army Strategic Defense Command (<1Oct 92). & _8 G! V& k- ` w& S r6 ?3 oUSASSDC U.S. Army Space and Strategic Defense Command, Huntsville, AL1 X2 J5 R$ d, | USATECOM U.S. Army Test and Evaluation Command. 8 c |1 }9 W7 k: f. xUSATRADOC U.S. Army Training and Doctrine Command. , U+ O0 Q0 a( m/ P. |7 s# GUSB Upgraded SBD. 8 }8 p9 a, b& X! M0 `, T5 AUSC U.S. Code., A5 o" B8 V1 N+ w7 ~( m% U/ Q USCENTAF U.S. Central Command Air Forces./ D# |* `2 k" X* t- k, c( n MDA GLOSSARY, VER. 4.0 U 3 O* S7 w2 x0 @6 g- ~313 ) }5 Y1 W4 |. k! B; K* K l$ vUSCENTCOM United States Central Command, MacDill AFB, FL. + E- ~/ D2 l5 ]8 i# m( VUSCG United States Coast Guard.% c$ i. M/ l, ?. `; Z5 Z USCINCCENT Commander in Chief, U.S. Central Command. % k; x: `/ }3 J3 l! \USCINCEUR U.S. Commander in Chief, Europe.) N/ S) K( {# ]3 H8 L+ H2 e5 ^ USCINCLANT Commander-in-Chief, U.S. Atlantic Command.- v5 d# v% O& q8 z; `, \$ D9 E USCINCPAC Commander-in-Chief, U.S. Pacific Command. % M8 f4 {8 r3 j' P8 \USCINCSPACE Commander-in-Chief, U.S. Space Command. 4 H& h& \' v4 x) rUSCINCTRANS Commander in Chief, U.S. Transportation Command.$ ]# \* P' N: ~/ I; c/ w. S USCS U.S. Customs Services. 7 p9 R+ o; o: C+ `' R6 uUSD Under Secretary of Defense.! z" {" v1 x! X8 X9 b5 d5 `8 d USD(A&T) Undersecretary of Defense (Acquisition and Technology). 9 j% Q% k# C) O5 T8 UUSD(A) OBSOLETE. Under Secretary of Defense (Acquisition.).4 E0 D+ i( p0 w USD(A)/STNF Under Secretary of Defense, Acquisition, Strategic and Tactical Nuclear Forces. * f+ J D; h. x P, o9 wUSD(P) Under Secretary of Defense for Policy.: s5 Y5 E4 F8 }* B d' f' D! W USDA United States Department of Agriculture. 1 j! B& R- j/ ^$ R$ g' @/ n2 ~USDAO U.S. Defense Attaché Office.. v" W" W: L' [) Q USDELMC U.S. Delegation to the NATO Military Committee. 5 b, q* p! @+ a q' IUSDR&E Under Secretary of Defense for Research and Engineering. ( D9 H4 E$ e+ W# nUser Friendly Primarily a term used in automatic data processing (ADP); it connotes a machine( b8 @ J# Y! t' o& @4 I; U (hardware) or program (software) that is compatible with a person's ability to " a# v, `1 z6 y, S8 L8 N _operate it successfully and easily.( D7 w4 _9 H- _2 ?5 s+ @7 S" Z& X1 M User Operational2 c# s' o9 m; V4 K Evaluation $ C- f8 ~# z- pSystem (UOES) , Q/ v0 ^) b* j4 k$ g) ]. i# q' VPrototypical system developed and tested as part of the early phases of the , P: U x* ^, V7 q0 W/ wdevelopment process. A UOES has two objectives: (1) testing, evaluation, and8 V% d9 F% Q q training for a system proceeding through the normal acquisition process; and (2) 0 T) t' G+ z2 ucontingency defense capability should the need arise prior to completion of the1 |( c0 r7 M- t- h) J3 x normal acquisition cycle. ; G* Z$ P( Q( G6 j# dUSEUCOM United States European Command, Stuttgart-Vaihingen, Germany.& c* W9 k, S: `/ r: `7 F+ P; x USFJ U.S. Forces Japan.; R9 r: U# M# e USFK U.S. Forces Korea.* J Z% k; ]8 l1 t6 s- n USFK/CFC CSFK Combined Forces Command. ! }) I. r4 K2 X! ^3 f7 X, r' g1 I, GUSG U.S. Government. 4 _# M9 n& |$ V- ?USIA 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( Z4 k( J* N" P 314 7 M8 k J+ P; W0 c. @USLANTCOM United States Atlantic Command (Now see USACOM). " o5 | T7 r" f7 S/ d+ bUSLANTFLT U.S. Atlantic Fleet. Y. U d! U( O% H; A USMAR- ( { k% T' k" D! y; |/ y5 ~FORCENT " C7 N1 B% l) N# e6 a4 TU.S. Marine Component, U.S. Central Command.4 p' ^# L: \9 [$ R5 r3 y USMAR-FORLANT U.S. Marine Component, U.S. Atlantic Command.5 f* d# x" W' i( P: Q& j USMAR-FORPAC U.S. Marine Component, U.S. Pacific Command. R# z, K. s9 l5 p7 l( { d# a USMC United States Marine Corps. ; N4 J1 m; v6 f" {7 u% W4 FUSMCR United States Marine Corps Reserve. ! z7 [0 V: {2 ]5 k& ~USMILREP U.S. Military Representative. * B1 M) j4 O- C8 K9 yUSN United States Navy.' X6 q4 n1 t; X& q) R0 k7 x USNAVCENT U.S. Naval Forces, U.S. Central Command. . P, X5 L/ C" {) s; x8 K8 WUSNAVEUR U.S. Naval Forces, U.S. European Command., D! J7 U& Z" \, S USNIP U.S. Naval Institute Proceedings. 0 n: g4 U- I- e6 q1 jUSNO U.S. Naval Observatory.) G8 z: ^4 Y4 p6 U, ? USNPGS U.S. Naval Post-Graduate School. ; `! P# X7 V/ B/ A2 c! ZUSPACAF U.S. Air Forces, U.S. Pacific Command.1 Q9 y0 O* O7 c* V USPACFLT US Pacific Fleet. ( c& E9 i6 d& v+ e4 i6 C( tUSPACOM United States Pacific Command, Pearl Harbor, HI. ' ?+ L3 k1 \: FUSREPMC U.S. Representative to the Military Committee (NATO).' W# V' R0 P# z: ~8 o5 Y- K. z USSC United States Space Command.0 r- {0 o5 Y* B l& t% i. Z USSOCOM United States Special Operations Command, Tampa, FL. 1 b8 e! `% ^9 p) R! B6 \' ~) g! M8 VUSSOUTHCOM United States Southern Command, Panama Canal Zone, Panama. 2 _; ] b5 q0 A, k8 `4 e; dUSSPACECOM See United States Space Command. / X- m" T# \1 uUSSS United States Secret Service.4 {" q% g" {( m* P USSTRATCOM See United States Strategic Command.5 K9 [5 C2 d1 T+ \# W" L5 L USTA United States Telephone Association. / |/ K1 {1 {" s! FUSTRANSCOM See United States Transportation Command. # Y* d; A/ @4 `) P# ?: F3 ^UT Universal Time. 2 L. }. _$ y( j8 XUTC Unit Type Code. $ f0 U5 H6 }, u( A/ I2 AMDA GLOSSARY, VER. 4.0 U, R0 x' E( t& `1 {1 L! k, @6 h 3150 p. Z- M/ G* B b3 b UTM Universal Transverse Mercator. 0 ]2 Y& B2 w# v1 {UTTMDS Upper Tier Theater Missile Defense System. See THAAD System. ) k; e- r$ u. \. O4 h" OUUT Unit Under Test (ILS term). 7 K1 I. r0 k6 k1 n0 k* b; QUV Ultraviolet. / B- T5 V. r5 s! a7 TUV Electro- # n2 i( M6 _0 Y8 U9 \$ lOptics % {! i: Y* F4 w9 \/ [Technologies/techniques employed by optical sensors in the wavelength/ `7 Y/ P Y$ s7 f! y) ?4 a spectrum shorter than visible (e.g., less than 4,000 A).6 X* R$ z+ ]3 _# v5 i( {& O$ d UVPI Ultraviolet Plume Instrument.8 q+ c0 b# N7 r! O P9 p6 _& L* N UW Unconventional Warfare. . ^7 L2 I1 C/ p8 r7 U" AMDA GLOSSARY, VER. 4.0 V * \2 V) T3 z$ B316* x7 i$ P0 z( s: K V Volt. 7 N. I3 r) |( O0 z2 e% QV&H Vulnerability and Hardening.' ?. u% G N. S6 a K V&V Verification and Validation. (See Verification, Validation, and IV&V.) - x) M F7 l# b4 z# jV/STOL Vertical Short Takeoff and Landing [aircraft].: b6 `# j3 P2 I VAFB Vandenberg Air Force Base, CA. ) T4 o$ w& N( f, I/ `; ~Validation Confirmation that the processes and outputs from a test resource parallel real 4 i0 |; i1 }! f9 Dworld processes and are realistically sensitive to change in the environment,- ]8 M2 Q1 `7 k; Q tactical situation, system design, tactics, and threat. 0 L, z) t' }, ], O- CVAMOSC Visibility and Management of O&S Costs. ) k- i k0 c4 u" eVAR Visitor Access Request.$ X: P# F$ o+ U Variability The manner in which the probability of damage to a specific target decreases ; V# R; I: n1 b: Z F3 gwith the distance from ground zero; or, in damage assessment, a mathematical- @$ J" z2 {. H* U4 T8 `: T0 B factor introduced to average the effects of orientation, minor shielding, and' F: l- D C# o2 T8 x uncertainty of target response to the effects considered. 4 p( s. J+ e& E& f" t0 iVBO Vertical Burn-Out (velocity). # p( I3 ? n9 | M: GVCC Voice Communications Circuit.5 K2 n5 |" K3 F/ a& S) i1 W VCRM Verification Cross Reference Matrix.) Z2 ~9 Q5 l9 x2 d VCS Voice Communications System.) E. {/ ^* Y) D6 x6 M2 v, b VDC Volts Direct Current.1 h5 l6 I" R. q8 N3 Y6 H8 M8 B VDD Version Description Document. r V. Q" x7 O5 I& T* ~VDU Visual Display Unit. + g6 g- n/ ]! m7 R7 YVE Value Engineering. 9 K9 B: {+ @ NVECP Value Engineering Change Proposal. ) E, b# y2 M8 W- K# r5 B) f9 Y- xVerification (1) Confirmation that all data inputs, logic, calculations and engineering 2 @ d3 O5 m d& s2 L6 Y3 vrepresentations of a T&E resource accurately portray the characteristics,) t! E/ G; A+ P5 j9 ]! s* T calculations, logic, and interactions of the system under evaluation.6 v7 D/ Z) W* ~. ~ (2) The process of evaluating a system or component during or at the end; a6 b5 P! y, L: R# x6 L; L of the development process to determine whether it satisfies specified1 D% ]+ T0 B; K: B& W& r requirements.! }0 s+ k/ N+ o$ C VESA Video Electronics Standards Association./ _, b* m. n7 F VFR Visual Flight Rules. 2 i6 v i) b) GVGA Video Graphics Array (Telecomm/Computer term). 6 j* A+ ]& X- u8 p* k7 l; F& F3 xVHF Very High Frequency.& Y0 d2 ~9 E3 c% `0 D VHSIC Very High Speed Integrated Circuit. - A6 Q6 S, f$ ?4 ]MDA GLOSSARY, VER. 4.0 V* Z# E6 `, H" J7 `1 i 317 ' R* {& j$ U5 PVIDS Vehicle Integrated Defense Software (USA term). . A5 N: K h4 HVIGILANTE Viewing Image/Gimbaled Instrumentation Lab-Analog Neural Three-D ' P9 b) [8 h+ L2 x* f) cExperiment. VIGILANTE involves building a small computer (ANTE) offering 1/12 6 L0 [4 [, s5 g4 `' u' KOperation Per Second (OPS), using a mixture of experimental three-dimensional2 H5 k# V3 S1 b f$ O* b/ n" c! ] circuitry and commercial components. Project also demonstrates VIRGIL, a * f4 t/ q I: x- }4 Ygimbaled airborne sensor with visible, experimental UV and quantum-well IR I/ b1 A, N; Z/ Xcameras capable of tracking targets that can be detected, identified, and, E2 ]: A& G8 [( ^1 U precision-tracked with the ANTE processor. . B$ Z( F, a5 ]: i/ {3 N7 ?VIM Vibration Isolation Module. 2 n) W+ m) _& H9 Z: a( zVINSON Encrypted Ultra High Frequency Communications System.' R4 g! m. h% L7 G VIS Visible.$ f( J6 H7 z: I6 H6 j VIS/UV Visible/Ultraviolet. ( g# H2 @2 H6 b& i/ z* D# HVisibility Range6 T+ @& y9 O% ? C. Y (or Visibility)0 C" w/ l0 d6 w6 l- K9 g0 N7 D4 Z% o The horizontal distance (in kilometers or miles) at which a large dark object can) ?: |. G9 J' |9 y just be seen against the horizon’s sky in daylight. The visibility is related to the 8 q4 s7 ^3 O4 ^! I0 qclarity of the atmosphere ranging from 170 miles (280 kilometers) for an + ?* m9 T! c! G/ R" Y+ o0 Q( n" A- xexceptionally clear atmosphere to 0.6 mile (1.0 kilometer) or less for dense haze + r& M/ ~. m Q5 v4 ]or fog. The visibility on an average clear day is taken to be 12 miles (19 3 X3 m* i6 i; d- k* I- Xkilometers).8 z. V+ L# q y Visible Electro- $ Z- T1 Z6 T6 P, P. M- X9 O) HOptics + V2 _7 _$ a$ }1 l3 K/ o6 UTechnologies/techniques employed by optical sensors in the visible portion of # ~1 O D: f# Y- r( D+ z0 ]3 Athe wavelength spectrum. 2 U& E4 ~. M) K& j7 kVLAR Vertical Launch and Recovery (UAV JPO term). ! H8 k2 ^, S1 \7 [VLF Very Low Frequency. M# z7 N0 ~. K! I+ h3 lVLOS 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. % Y r# ^% c" h1 f8 K& d8 {+ ?5 cVLSI Very Large Scale Integration.& R* h& d: h- W4 m VLSIC VLSI Circuits. : l2 a2 \' |3 V" j4 yVLWIR Very Long Wavelength Infrared.: R0 m( W1 w5 b VME Versa Modular European [standards]. 0 z7 p7 b) ]. k& g# m4 rVMF Variable Message Format (Telecomm term).3 y5 y0 {/ y( [ VOX Voice Actuation.* q9 C- V1 a$ X+ d8 } VRI Vanguard Research, Inc., Fairfax, VA. 5 X$ U* M3 @' P9 }- f9 `VTC Video Teleconference.# z9 ]- L& [4 K( f0 | VTOL Vertical Takeoff and Landing [aircraft].8 O* C) Y; A! ^) K$ J c VTOL-UAV Vertical Takeoff and Landing Unmanned Aerial Vehicle. 5 B( o8 Z8 K! k9 F* oVUE Visible Light/Ultraviolet Experiment.9 h1 k, N% x a: f. o( c- _$ L MDA GLOSSARY, VER. 4.0 V ( E# u' H3 L$ s3 l2 s) c* y318; M' ?8 K) k* |6 f) q. Y Vulcan UK bomber.! y4 O1 o. z+ _; j2 U VV&A Verification, Validation, and Accreditation. , O0 o% o X" v% y) L0 y7 cVVER Pressurized water type nuclear power reactor.' z& ]3 L# d! g, [ VVIRF Verification and Validation Information Request Form.% ?% J: c; _/ a9 _' q MDA GLOSSARY, VER. 4.0 W6 U6 x; m3 n/ S5 G4 Y 3194 U" m' z! L4 l, D3 l4 A) b W/ With. R I: o7 B, Hw/o Without.. o# r# N9 {0 l& E/ r2 { W/TD Warning/Threat Detection. ! v, h. n. Y& j0 F' p) i* eWAA Wide Aperture Array. - g. e* P6 n7 h% k+ l& i JWALEX Warfare Analysis Laboratory Exercise. & [8 o' S d/ k: V0 j. jWAM (1) Worldwide Military Command and Control System (WWMCCS). (2) Wide Area 4 S& Z' t# ]+ S0 E5 f* LMunition. (3) Wide Area Mine. (4) Wide Area Missile. - P! e( n, A. l9 D9 N0 @WAN Wide Area Network (Telecomm/Computer term). ! H, c8 Q% \+ XWAP Wide Azimuth Probe.' B, u2 x3 \8 N3 G War Game A simulation, by whatever means, of a military operation involving two or more! x$ B$ Q# u$ o" ?+ n) h/ E opposing forces, using rules, data, and procedures designed to depict an actual0 g+ r8 T7 m5 g9 w9 j- H0 j or assumed real life situation. Q( ~0 T+ ~4 k Wargame 2000 Title of MDA program for development of a state-of-the-art simulation tool at the ' [3 c# C4 H. ^, bJNTF for use in CONOPS validation, missile defense program design verification,& i7 z |$ G+ j5 @* `' ?: u validation and accreditation, and support CinC/Allied wargames and' ]' W* l& o% D" D* C% U9 p assessments." `* p/ `6 W/ C& M Warhead A weapon, usually thermonuclear, contained as the payload of a missile. N. r. S6 i6 s& X. XWarhead Mating The act of attaching a warhead section to a rocket or missile body, torpedo,+ |' x2 a% p* n3 Y( ~- O airframe, motor, or guidance section. ) V) n. Y( R/ D9 a" sWarhead Section A completely assembled warhead including appropriate skin sections and related ) j, L2 R# e" T) Y' kcomponents.1 J8 G$ F0 t' S8 w k0 ^ WARM Wartime Reserve Modes. * e8 @5 E2 u, i- WWarning of Attack A warning to national policymakers that an adversary is not only preparing its 8 |% O$ I. L7 {- P2 ]# Uarmed forces for war, but intends to launch an attack in the near future.. M& k3 [; x3 v- p3 v' w5 } Warning Order A preliminary notice of an order or action that is to follow. + ^# c# L C/ ]7 V& yWARSIM Warfighter Simulation (US Army term). 6 n! @7 |* S+ Q* d4 x+ H3 X% RWARSIM 2000 Warfighter Simulation 2000 (US Army term). % B' h) { B! sWartime Reserve3 [2 u5 I p4 ~ W$ T% U Modes (WARM)1 G* P! x F! f: S Characteristics and operating procedures of sensor, communications, navigation ; Y2 I/ s+ D/ m3 j4 Uaids, threat recognition, weapons, and countermeasures systems that (1) will 1 s4 {, |5 D( N" y. t( _/ K/ }contribute to military effectiveness if unknown to or misunderstood by opposing + n% U. J9 O9 w4 @5 o! \9 E Q6 qcommanders before they are used, but (2) could be exploited or neutralized if# I; q3 w' y7 | known in advance. Wartime reserve modes are deliberately held in reserve for" t. Z7 A8 o+ G# K, T) V2 Z- t wartime or emergency use and seldom, if ever, applied or intercepted prior to0 h, p7 g3 R8 D& Q0 `, D such use.4 J+ z3 L; d A, }: E WAS Wide Area Sensor.9 A R* U& H5 ]' e. S2 C, q, ~ WASP Wide-body Airborne Surveillance Platform. A modified DC-10. % j# A$ f# ?8 g2 dMDA GLOSSARY, VER. 4.0 W2 p1 i# {5 s2 C r9 N9 c6 I 320 $ u3 q1 b4 v% \: N" G9 n7 | E9 ]WASHDC Washington, District of Columbia. 3 S8 Q- G7 N2 H7 |5 ZWastage (Max) The maximum number of defense weapons which, when used, will be ineffective ( T5 J4 d8 h+ ]& @in contributing to the defeat of the offense.; e$ }& e1 c' ^- |3 {. z: ~* F Watch Condition - w$ b) X8 j" t4 J0 A. d* b(WATCHCON) ! z- [( n6 ], J& S" x4 q9 t- TSeries of readiness conditions used by the intelligence community to alert staffs3 r) [. f- f$ D to watchfulness without raising DEFCON.+ B i3 @6 H6 P) i- ? WATS Wide Area Telephone System.; g: S; f7 G8 E/ `# G9 T WAVE Wideband Angular Vibration Experiment.! D" M6 l' F( u' e Wavelength The distance between two points having the same phase in two consecutive y( I# h7 ]+ z0 B3 |* e4 N$ {cycles of a periodic wave, along a line in the direction of propagation. ' b0 ^4 @# h$ ^& F0 ~/ O" a1 eWB Wideband. 8 N U! v* V/ SWBM Weapons Battle Manager(s). - @% T, M* _7 wWBS See Work Breakdown Structure.7 Q8 r# }3 C2 k. T WCC (1) See Wing Control Center. (2) Weapons Control Computer. 6 @) d. u; H4 j: {) d4 `4 MWCG Workstation Computer Graphics (Computer term).' r1 u+ L- B' f# g0 X( j" t WCP (1) Weapon Control Processor. (2) Weapon Control Platform. 6 _, n, ?. \: v2 b" rWCS Weapons Control System.' I% P) x) c" b6 H. \0 G# F6 W WDM Wavelength Division Multiplexon. * a+ I" ~6 o9 `3 PWeapon Enabling The set of control functions without which defense weapons cannot be . r, N% e6 l" R* _ x+ m: h; d2 ilaunched.

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