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发表于 2008-12-25 20:24:45 |只看该作者
MDA GLOSSARY, VER. 4.0 T ; _# G4 k0 d0 }( P4 @298 . C# b- x2 w* k) Y5 ]Theater Missile. a4 M7 M, f6 C; D M# M0 y Defense Council# P$ ]5 a7 U M# n2 e) g (TMDC) . g% r7 s4 M9 k) q! n: `5 P8 RA consultative body for considering TMD family of systems planning and6 Q. n: S" Z" m' ^- b programming issues; chaired by an Assistant to the MDA Deputy for 8 ^2 g# _! O6 x! zAcquisition/TMD, membership includes MDA TMD Directors, representatives of 2 K3 H/ n9 K1 L8 p$ jeach applicable Service Program Executive Officer, and TMD Executive Agents# p& u; L9 Q h and Program Managers. s, M3 R& ]5 ^" O$ W5 r9 @" [Theater High! E2 p# P7 x, O( I Altitude Area 7 I @9 U \2 A" i' QDefense System " o. J* W' f$ U+ B- X( \! d(THAAD)% D- ?' [- q) L- c) s A ground-based, air transportable interceptor system that will provide wide area, d$ n4 r, o" @, [ defense capability by intercepting longer-range missiles at higher altitudes and at ' ~1 w0 I( B) }) ^greater distances. Will provide an overlay or upper tier to point defenses such as 5 u N0 \5 |1 xPATRIOT. / w! w" X5 Y9 ~8 f* P9 c) R2 f7 kTheater Missile 9 E" z; E& L/ w5 f(TM)/ H; O. e2 {0 W; X( l 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! E4 A% m* r1 y! ?) i# s8 _. @ of attacking targets in a theater.5 o. K7 F$ u2 m1 Q6 Y Theater Missile( f* ~% ~, C7 z/ S1 i2 i, Z V Defense (TMD)9 \) W$ H: A6 _% t OBSOLETE. The strategies and tactics employed to defend a geographical area 3 M" q% R- U% K$ ~1 A/ Woutside the continental United States against attack from short-range, . Y8 M$ I% H7 Z5 d& ~. i; Fintermediate-range, or medium-range ballistic missiles./ d# C W6 ~# \ Theater Missile I# M* G8 b; S8 nDefense Ground-; |* p& _6 g- @* ~& `2 U Based Radar1 A9 |3 w8 o6 A3 Y5 y1 b& H, x (TMD-GBR) F2 ]7 [& g! ^9 ^ A ground-based, air transportable sensor that provides search, tracking and " a& X3 M9 Y8 z) p/ Q8 e2 Jdiscrimination capabilities for the THAAD interceptor system. Also referred to as ) t# q0 @+ P5 q+ G" U6 s" j6 T VTHAAD Radar. 9 a% c* @: N: `Theater Missile 1 h, O" w0 w, ]$ W" uDefense Initiative* U O% B6 N; s0 @% u (TMDI) ! t% k: P& U6 b4 S) xAn initiative under which all DoD theater and tactical missile defense activities are / D6 F) ^6 |4 Kcarried out. Section 231 of the National Defense Act for Fiscal Year 1993 5 u. o7 k( w7 \* ^4 j) y& j(Public Law 102–484) directed establishment of a TMDI office within the DoD.! A( B& B8 \/ R THEL Tactical High Energy Laser. ; U9 c" T$ ^- _! Y5 [' IThermal Energy Electromagnetic energy emitted as thermal radiation. The total amount of/ ]+ b- S# P- W7 i- M! M# i3 v7 o6 i thermal energy received per unit area at a specified distance is generally' p; d$ I" W+ B6 w+ _. }$ b expressed in terms of calories per square centimeter. & e I3 G- J" _) z1 I: i7 {3 UThermal Imagery Imagery produced by sensing and recording the thermal energy emitted or \- W' F% ]* H# Sreflected from the objects, which are imaged. 4 n1 U. E R; y: g8 [Thermal Kill The destruction of a target by heating it, using directed energy, to the degree : H W8 A% {3 W' L* ~2 Mthat structural components fail.3 c. [; b3 ^$ x1 E: W Thermal( d; A$ I. ]0 U6 x/ P Management( f6 L* p+ b; k5 }9 A4 P' |7 j Technologies/techniques associated with the control and management of . Y+ \6 W; y6 A7 g! B% h/ l. }thermal energy, its generation, dissipation, and recovery. $ m' V: B3 [ l5 |: H% {Thermal . B* O$ f1 J0 B! ~# r3 _6 |Radiation ! A8 u5 U4 P8 O+ ^# y% NElectromagnetic radiation emitted (in two pulses from a nuclear air burst) from the2 S$ g$ }/ Q' l8 x; M8 | fireball as a consequence of its very high temperature; it consists essentially of, k) S% H, |0 Q& W ultraviolet, visible, and infrared radiations.& h* b! ~9 c4 U1 C4 ?9 I Thermal X-Rays The electromagnetic radiation, mainly in the soft (low energy) x-ray region, E+ s/ W5 [$ ?" j1 F9 p' F7 Z emitted by the nuclear weapon residue by virtue of its extremely high7 {9 {9 B! x% H3 j( h, r temperature; it also is referred to as the primary thermal radiation. It is the & O$ ^) }! I U; g4 xabsorption of this radiation by the ambient medium, accompanied by an increase! U" B( i3 A8 }; G/ s8 d in temperature, which results in the formation of the fireball (or other heated& u: i3 y/ S! w region) which then emits thermal radiation. (See X-Rays.) T# J2 `5 ^/ [2 X$ }6 z& cMDA GLOSSARY, VER. 4.0 T ( ^6 W# L! \, J299+ D7 N" Q7 F& u1 |' W* } Thermosphere The atmospheric shell extending from the top of the mesosphere to outer space;# O1 B8 e# l2 {& H it is a region of more or less steadily increasing temperature with height, starting 3 E: p$ D' Y& s! Z% J. [+ _9 m1 h( oat 40 to 50 miles (70 to 80 kilometers); the thermosphere includes, therefore, the; i6 n: S! i( W4 T/ a, k exosphere and most or all of the ionosphere.5 X! Z( ^- R! o! B+ E* e3 o Threat& l6 ~2 x3 l5 C1 v1 k$ x Characterization & H7 s3 L: c2 H* h2 r0 D NAn assessment of the nature, magnitude and intent of an attack in progress." P b% Y+ @) d6 ` J Threat Corridor ; y" J- @) i7 t8 e/ {' r(Threat Tube) . P3 y9 n$ z$ `A tube containing all the objects originating from launch sites and aimed at r0 o9 G2 n8 _& f0 {: q2 m6 q2 Qtargets whose spacing is close enough to permit the tube around the object 6 [ M% H+ Y+ _3 H, f. dtrajectories to be represented by a single trajectory in battle management 7 K) [# b% ?+ Z- X, Qcomputation. 3 p: T" g. W$ s6 Z; D9 ZThreat Scenario A hypothetical example of the employment of threat systems against ballistic P7 G: c# E- U# Y0 x8 Q5 L missile defenses for the purpose of analysis and evaluation of those defensive ; i0 c6 Y& {: m; J6 w6 _systems and architectures.' E9 Y5 Y1 ~! r, f3 Q; c Threshold Performance capability or characteristic level in terms of a minimum acceptable D/ O8 G; q$ o& F: C; l& I value (threshold) required to satisfy the mission need and a performance : Q5 r8 ^* c9 {. A4 Nobjective.$ Y+ X) k9 t$ k! a% O( c Threshold 6 H; ?# @0 I2 Y! b0 nDefense - K" b- {& ?/ l; j1 V" X0 D7 M7 gA defense strategy that concedes that the target can be destroyed at a price' @* s! w4 B" O that is not prohibitive, but the presence of the defense is thought to require the 8 d$ g' p3 c+ Moffense to mount a relatively large and complex attack. 6 y: h7 ^. o3 n* p8 o- ?* mThrow Weight All weight in an interceptor, above the sustainer, which serves as the kill vehicle. ; t) v% U' q2 \( a" mThrusted" S: g# O Z+ e# C Replicas (TREPS)/ h: m/ }: _7 ~6 ?# ]: A! I Conical decoys equipped with a miniature rocket device. Generally used to6 K, Z- n* _3 f! U1 |$ a: N change the decoy’s optical signature to resemble that of an RV in the reentry , }* G; O' p7 d1 Q$ Uphase. 2 A4 U# J* b# I/ L9 uTI (1) Technical Instruction. (2) Technology Insertion.& u H$ k# t2 ]+ B' {6 L TIARA Tactical Intelligence and Related Activities.. t% ~: ?( B$ T# M) D$ }4 \# l( g TIBS (1) Theater Information Broadcast Service." c% `3 O$ Q5 F: p e( L6 n/ T; D (2) Tactical Information Broadcast System." [% d0 f2 b+ Q (3) Theater Intelligence Broadcast System. : S4 U* b/ V) OTIC (1) Thermionic Integrated Circuit. (2) Technical Information Center.# m, z5 l! C, z( U TIDP Technical Interface Design Plan.2 t9 x' H) _ s. B; K p! | TIE (1) Technology Integration Experiments. (2) Technical Independent Evaluation. ' ^4 |$ j; y5 E. N& ETier An integrated set of SDS elements that address a particular phase of the threat ( I) Y8 u; n% }: T8 {(e.g., boost phase)., ]4 ]. X8 l6 E0 c Tiered Defenses The use of defensive systems at different phases of the missile trajectory.2 g; P7 `. {* c1 Y TIES Technology Integration Equipment System.6 ^* J+ R8 W4 ~, [; Z6 { TIIAP Telecommunications and Information Infrastructure Assistance Program. ' w, L! W8 P5 b9 J' V1 kTIL Technical Insertion Laboratory. - M( s1 e; ?* ]3 E3 y) NTIM Technical Interchange Meeting. % Y; P+ ~0 h# yMDA GLOSSARY, VER. 4.0 T! C/ H; O7 j/ c6 b9 } 3004 ?0 y/ x& K3 [$ o. ^& z" | Time-Phased 4 v: h! v. f' D% b$ W/ dForce and( z c* m% W8 C8 O7 u Deployment List2 ~7 q4 L/ ]! S! N1 G3 H Appendix 1 to Annex A of the operation plan. It identifies types and/or actual Z1 g" e- u. |( z3 ~units required to support the operation plan and indicates origin and ports of . }/ u; X1 K' c' h9 xdebarkation or ocean area. / Q& G& h( v5 h: `% T2 ?2 Z( STime of Flight 9 e& |" p( X9 m. W4 ?2 W5 J(Max) 9 U, J9 c6 y9 R5 D# RThe maximum time for a booster or vehicle to perform its function from time of l- X! q ?- c+ R( c6 e3 s3 R. V# _ launch. ; N$ P% e0 H5 v0 g% r$ MTime on Station The time the sensor is in its operating position. 6 [& k6 m1 a- D( tTime Sensitive/ F F" R* p c1 w6 W9 H Targets & ?4 \0 L# w- K M. d7 FThose target requiring immediate response because they pose (or will soon 6 V! ^2 d8 G. u: |pose) a clear and present danger to friendly forces or are highly lucrative,3 S! i1 Y) x( _ fleeting targets of opportunity.

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发表于 2008-12-25 20:24:57 |只看该作者
Time to Station The time required to move a sensor to its operating position. 4 m' @& L' Y# i8 Z0 ^TIMS Training Integration Management System (USAF term).6 B- z' [* s" \ TIN Theater Intelligence Networks. : t; d6 ~, \6 D" u4 [; _0 UTIP TOPAZ International Program.; _# h* O g8 h# q/ ]* i TIR OBSOLETE. Terminal Imaging Radar. (Predecessor to Ground-Based Radar $ T8 ]1 J. G& ~3 L* S2 f6 }6 ITerminal (GBRT).): b2 t4 G5 L! u TIRS Telemetry, Instrumentation and Range Safety & I1 S- g- z* D7 [TIS (1) Trusted Information Systems, Inc. (2) Technical Information System.; w1 ?4 ^. g1 a0 f G0 K5 n, m Titan USICBM. D/ K6 I* H% Z# A6 _; QTIU TIBS/Tactical Interface Unit." j, Y. e/ S+ E: q! G TIWG Test Integration Working Group. (U.S. Army) , f' b; f9 g% L' HTL Team Leader. 4 a, H3 |- S& ~& _* j+ bTLA Time Line Analysis.8 P9 _0 I Z! ?# P TLAM Theater land Attack Missile. 5 K; V! V1 A- o) c9 I( p+ DTLAM/D TLAN [with submunition] Dispenser (Navy term). # M; B; Z+ y& cTLDD Top Level Design Document.. t/ V& n: \3 G/ N) A- O( R TLV Target Launch Vehicle. 9 w3 L& {! k" I7 V* @TLX Teletype. & B6 {" _/ e( R) M1 F% X4 A$ H# [TM (1) See Theater Missile. (2) Technical Manual. (3) Tactical Missile (US Army. s% \' E6 G: ~ d/ @ term). / D; }* z! R5 X3 s6 a8 ?' _; O& lTMCC Test Monitor and Control Center.; Y, a/ N. b+ t4 b8 G! {; p x TMD See Theater Missile Defense. # A2 B. }' o6 C5 s7 A7 Z, f5 dTMD C2 Theater Missile Defense Command and Control. 5 a( X" M2 A8 D2 |3 {/ R6 AMDA GLOSSARY, VER. 4.0 T $ u3 A0 G* M8 }301& M9 N: a0 Q- E& G- P0 P i TMD C2 {' Z, N8 R3 M& z; h" Y 3, h8 a% N: M2 y( F# t I Those assets that provide connectivity between and among Theater Ballistic7 s, u/ j4 w- N3 h/ H Missile Defense forces." P$ X. B* m. O TMD ESM Theater Missile Defense Existing System(s) Modification (MDA term). . S6 F+ D- Y1 S$ t B2 s7 t( q- p/ STMD GBR See Theater Missile Defense Ground Based Radar (THAAD Radar). 8 M. f8 e. A7 C" D* p4 oTMD IA Theater Missile Interoperability Architecture. ; {8 O! r# [$ b m9 [( lTMD ITP TMD Integrated Test Plan.- J% u/ k1 D. o, `, B6 K9 e/ C TMDAS Theater Missile Defense Architecture Study." a5 l% b6 O6 U TMDC Theater Missile Defense Council., l. J- `. E3 n" F9 ] TMDE Test Measurement and Diagnostic Equipment (ILS term). 1 e3 l% f3 n b. H5 KTMDI See Theater Missile Defense Initiative./ j+ R& Z4 v! p1 {, X TMDSE Theater Missile Defense System Exerciser.. {+ O5 {, \! j ^6 h# g TMMM TOMAHAWK Multi-Mission Missile./ I% }: c" J) y! N2 C0 g TMP Technical Manual Plan (ILS term).+ B" i. z6 D; l v/ i/ D4 v C TMPCU Tomahawk Theater Mission Planning Center Upgrade.& Z& t8 a2 v v TN (1) Terrestrial Network (C2E term). (2) Thermonuclear. + K$ [' X- \+ J2 QTNF Theater Nuclear Forces [Treaty term]. / K' L+ I- q5 V/ w2 Y0 K# cTNT Trinitrotoluene." D H+ h) R8 y6 n' H) s TNW Theater Nuclear Weapon. & f0 h( ^$ \6 S! h0 dTO (1) Task Order. (2) Technical Order., ]: F+ p- S( B1 g$ x TOA Total Obligation Authority. + \% f7 c( ^9 f8 z' bTOAM Tactical Air Operations Module." x2 ~# m8 _* l& V" J; `) O: N TOC Tactical Operations Center. " _; W$ p. K, j3 o/ v' B# d6 s2 KTOE Table of Organization and Equipment. . ^. f0 o$ t+ K7 k6 B; A: PTOF Time of Flight. & J( o# ]* c- RTOI Track of Interest.1 e1 ^ [# {2 P6 s% \0 ]/ B- Y TOIA Task Order Impact Analysis.0 u2 f. x9 o# h; j+ o Tolerance The ability of a system to provide continuity of operation under various abnormal 6 k: W0 s. Y0 m9 n7 K2 \+ o* yconditions. & b& ^! V5 e: K& J" k! i! sTOM See Target Object Map.

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Tomahawk US ground launched cruise missile. M7 Q9 K7 Z6 t7 C: ?MDA GLOSSARY, VER. 4.0 T 4 ^ Q7 i$ e% A9 v3 {* V+ |302" M3 e& v# r0 O7 n TOMD Task Radar Management Details. : K. i4 s: P) t- eTOMP Task Order Management Plan.1 C% x5 U: v7 Q/ y( d TOMS Total Ozone Mapping Spectrometer (NASA term). 2 Q2 n! z( e, R' U4 L; j7 ]TOO Target of Opportunity.4 c: m D/ Z3 Z% o) d* R TOOL Target of Opportunity Launch. * Y% H8 W* ^% B, @TOP Task Order Plan. + t$ f$ Y2 L# A: n8 X: ~. lTop-Down Pertaining to an approach that starts with the highest-level component of a 3 G" z0 [$ o9 C' ^* I: }$ e7 v$ rhierarchy and proceeds through progressively lower levels; for example, topdown design, top-down programming, top-down testing. Contrast with bottomup.8 X B, {2 w+ f$ A Top-Down J# W3 T- W3 V5 M; g Design * q9 J- \4 a; d. v) o' ]6 }0 RThe process of designing a system by identifying its major components,6 `8 Z: H5 G2 j7 W9 S7 X# y decomposing them into their lower level components, and iterating until the3 U5 x3 ` x+ |8 k2 m7 J9 L6 p: r desired level of detail is achieved.$ O- K1 E1 S( V7 M2 r7 Z Top-Down; R& H( V" E9 ]5 m# s Testing # g, h3 y- p" B5 \The process of checking out hierarchically organized programs, progressively,1 T0 \. K1 Q" B$ b from top to bottom, using simulation of lower level components. Q5 c! t, {+ F9 ]. @/ ~% } TOPAZ A project to demonstrate the transfer of Russian thermionic space nuclear power # y3 ]: v/ M8 H% `technology to U.S. BMD applications.) d; x3 V6 Q- N' k D! f% Y* ^ TOR Terms of Reference.$ ~; \6 Q) p9 |! { TOS (1) Tactical Operations Shelter (Station). (2) Task Order Status.! t7 w c. j9 [- X2 z1 v0 @ TOT Time on Target) d8 u5 [3 W0 x7 J Total Obligation" \0 o# F+ J- G3 T. _ Authority (TOA) % ]* [/ C8 x+ oA DoD financial term, which expresses the value of the direct program for a given : L$ F. G4 d q2 k. ifiscal year. ; J) u" f8 c9 ZTotal Quality) A' c) \$ N1 p+ w' Y Management6 w! p) J( m& L; W$ x; s: ^8 P3 H# A (TQM)4 i U& R/ g, I/ y; H7 W+ M/ X; l A management philosophy committed to a focus on continuous improvement to ' L3 e8 F9 G% f3 Kproduct and services with the involvement of the entire workforce.2 g: m& u2 ^" P: g TOTS Target Oriented Tracking System/ @/ ?9 V) ~2 d4 ?, }% G9 a TOVS TRIOS Operational Vertical Sounder.$ H$ _5 E$ V. ]" z; m" m1 [ Toxicity The kind and amount of poison or toxic produced by a microorganism, or ) t$ h+ i2 |$ U+ o* _possessed by a chemical substance not of biological origin. " v7 ^6 s& |+ FTP (1) Telenet Protocol (Telecomm/Computer term). (2) Test Program. " `/ z1 s5 @- e; B: A! tTPALS Theater Protection Against Limited Strikes. - S: ~8 n+ v9 ?2 ]0 s, W$ \TPBM Terminal Phase Battle Manager. # u% ?3 R# J/ j# E! HTPD Mobile Tactical Radar (US). , D- d7 k9 D0 l9 C1 J/ z) m% bTPDR Total Processing Data Rate (TelComm/Computer term). ) y% L- f- W& k# R( G9 PMDA GLOSSARY, VER. 4.0 T6 Y$ t8 ^ u5 G% U- x# w 3032 e2 O* B4 v- G TPEC THAAD Performance Evaluation Center. ! u; t, s3 S; [4 WTPEM Technology Program Element Manager (SDIO/MDA term). % ?1 U6 T. V/ U) wTPFDD Time-Phased Force Deployment Data. 4 b4 s+ V! T) @* QTPFDDL Time-Phased Force Deployment Data List.) y- I( N y! K TPFDL Time-Phased Force Deployment List. & @, t) `2 y3 q" Z5 S5 eTPM Technical Performance Measurement. / @0 ^3 |( p0 t6 [4 w3 ~/ y: H) uTPMT Total Preventative Maintenance Time (ILS term). 4 M& i$ ]8 r E7 a8 ^( L/ v6 OTPO (1) Test Planning Organization. (2) THAAD Program Office$ ?) P" r2 F- t TPP Test Procedure Plan.% R2 ~# ]" R( c( k TPR (1) Terminal Phase Radar. (2) Trained Personnel Requirements. (3) Target " p+ a: ]. R2 W, }$ B2 P* X# UPerformance Report." \: \5 q' R3 u9 {& e TPS Thermal Protection System.; X. O2 W% n1 F/ | TPT Theater Planning Tool. 8 g8 H1 h5 {; T0 ^) I- f" A7 C7 NTPWG Test Planning Working Group. (U.S. Air Force) " _0 D3 I, }# v( p8 KTQM Total Quality Management. ; M6 s; ?1 a4 R: _: nTraceability (1) The characteristic of software systems or designs or architectures or7 q$ D/ I$ N! ]; k1 @# g domain models that identifies and documents the derivation path 1 m! P" v0 U E9 l2 }* B) w$ U(upward) and allocation/flowdown path (downward) of requirements and N: l. _8 f' }* t4 _6 g constraints. ) J5 D8 V/ F3 I6 N(2) The degree to which a relationship can be established between two or 8 K' j W! U9 y4 y5 b8 @& v: Xmore products having a predecessor-successor or master-subordinate* N7 a5 M6 o( i/ s D relationship to one another.

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Track (1) A series of related contacts displayed on a plotting board. ' v* k2 W8 t' o$ k" c) z, U(2) To display or record the successive positions of a moving object. : r! {5 [8 K' _: }% r/ p7 ~" P(3) To lock onto a point of radiation and obtain guidance from. 6 P0 B! ~; J4 \) ~- d6 s" L(4) To keep a gun properly aimed, or to point continuously a target locating2 Y2 B- O2 i! K- N) R( E: n8 n instrument at a moving target.$ ^- _& A/ S4 O0 `0 v ~! F (5) The actual path of an aircraft above, or a ship on, the surface of the. M5 O, [" H4 e# H/ D$ p1 w earth. ( L/ [2 }/ }* ~! q# b* MTrack ( Y6 y9 R8 O' p, G8 NAssessment 2 T6 v8 L6 Z' yThe Track Assessment looks for anomalies in an object’s track data. An anomaly) k9 W& H7 \& K2 P1 ?4 H% p# V0 v. x in the track may indicate a hit.% `' q- y# r3 Y9 m5 M7 \ Track, Birth to( L* R8 ~) h, a, ^ Death 8 I+ U, e6 I& P7 M9 fThe maintenance of an associated track through all phases of flight (i.e., boost 4 j* L7 v3 u% ?5 J1 n2 _4 rto reentry)./ W7 f* h/ c+ _; k$ D; j Track Correlation The combining of track information for identification purposes, using all available* K* Y: u! _0 H4 ~; k5 T data.% e7 y/ b( s! }& {) q9 @9 g5 r: X- j Track Extension This term usually applies to improvements in track estimates by use of new data./ q* O" W2 V, P! i. H7 R It is sometimes used to describe a process of target extrapolation to a future time) h" ]4 u, ?5 t6 b- y7 d or place (e.g., reentry). 9 ~) j1 V7 e2 ?1 X2 N: u, ^MDA GLOSSARY, VER. 4.0 T& O+ s, h* ^: e$ a0 s4 w$ _5 l 3047 ^. p+ }1 M9 r1 N8 h Track File A target’s stated estimate, confidence, covariance matrix, and associated LOS $ g" _' B6 d) s) bmeasurements with irradiances with confidence of association; or some subset of 4 l3 h2 \( a/ G G; k1 |1 z9 P3 W% sthe above." C( J5 a$ K. [. [& q% X( W) U Track File-Track - p. u3 d F) d" Y3 SHistory- o3 t: y( A* K" b. A A set of individual track reports on a particular object, which taken together % E9 n ?6 F( b8 e+ g) ^produce useful approximation of that object's future position in space. . @5 S& K% H, ?Track Formation The process of determining the track or tracks of detected objects. It is usually a; C- H8 C1 ^) V+ O. U1 Y5 n- ] three-step process of data association, track initialization, and track improvement0 x. f* l/ a- R0 X+ D! | by filtering. , d8 D0 z; {' M) w8 z- _) L/ zTracking The act of generating and maintaining a time history of an object's position and6 C; B9 x% z8 h" ^. N1 v! @ any other features of interest.+ ^. K, @" D" k1 b- A Tracking and ) i/ s" d, X9 q! q$ V6 M' B. sPointing - v! ?5 A- F, t1 cOnce a target is detected, it must be followed or “tracked”. When the target is0 t2 X0 U2 ~3 \ V successfully tracked, a weapon is “pointed” at the target. Tracking and pointing9 K- m6 f0 T( _( _: f! O are frequently integrated operations. 3 r5 D- c. Q1 C8 v- V) a; NTracking Range# |0 ^: Q* v6 R" [ (Max) , ]/ M) Q" {" ZThe maximum line of sight distance at which a sensor can maintain track of an5 M' W; y. ~( H, L" c! o' y object.. F3 _, u! Q) a5 } Track Initiation The formation of the first or initial estimate for a sensor system of the state vector 1 L: E% T: D) r/ m4 Fof an object. The process typically requires observation from a number of( s0 ~5 l" _. W8 c. k3 G frames.) D6 g/ D. m& G ?* y; m Track Production 7 [, N0 I& Q( U, L: |+ rArea 8 b" B: m3 X. aAn area in which tracks are produced by one radar station. 5 y3 E: @+ l% ~! u- J* zTrack Symbology Symbols used to display tracks on a data console or other display device. 2 K5 h' m/ z) S# y9 o$ HTrack Telling The process of communicating air surveillance and tactical data information 8 R8 p# ?' x+ ]! l% Ubetween command and control systems or between facilities within the systems./ i7 z, A2 M l5 @4 [* }, [$ m; l1 e Telling may be classified into the following types: back tell; cross tell; forward tell;( w0 w3 |& [! ` lateral tell; overlap tell; and relateral tell.' u! w W( t, _. `; e9 X TRADEX Target Resolution and Discrimination Experiment.7 Q. M( }/ c$ q# J: i6 h TRADOC U.S. Army Training and Doctrine Command, Ft. Monroe, VA.8 t9 e! D" ]3 A$ [" r* N Traffic Capability" ]' o) o, U0 h7 s+ U Maximum; ?) q B# D& I6 s1 _; D The maximum number of objects per unit time which the sensor system can ! w/ w" O* S$ ^5 Q( W( A, Jmaintain track files. ' o6 r9 W7 N3 n% z5 P1 bTraffic Decoy Decoy that matches RV characteristics in the exoatmosphere and high 9 W3 w. Q: w, j; g# a K! uendoatmosphere. 2 R$ v1 L1 X1 hTrain Threat geometry with objects placed in a line (string) along the velocity vector of# z8 {' M. g* q" k7 j. Z reentry.% Q n b K; L& s8 g' q$ k- T Trajectory The curve described by an object moving through space.# B) G- `% T2 W6 D7 Q4 k Trajectory7 T. Z: f. \ E9 R1 H4 o) N Histories 5 w. o6 T& r, L. O# KTrajectory information on targets recorded over a period of time.3 \( O' a# v) F7 q6 d TRAK A data base management system (not an acronym). 2 @8 q# k- j8 w- z2 Q" PTrans-Attack Period from first tactical indication of attack until termination started, i.e., postattack. 6 o/ J# D( Z6 j+ TMDA GLOSSARY, VER. 4.0 T: b& E. c) O: z* z) ?! U# Z: \4 X; ?" ? 305 / S% a& N F1 @9 pTRANSCOM [U.S.] Transportation Command, Scott AFB, IL.0 U; M4 Q6 G8 R TRANSEC Transmission Security.( A: S+ L$ M+ d" O1 A& x% z Transition The period in which the world strategic balance would shift from offensedominance to defense-dominance.: u% N- D7 }3 N Q Transition to5 [1 n4 Z0 e6 i7 \) J) b- A Production B0 o7 N- e4 H4 hA risk reduction process during which the program shifts (passes) from x6 K- n3 u0 t9 B$ q development to production. It is not an exact point, but is described as a 3 x" y- v/ i3 g' X2 O6 u: Bprocess consisting of disciplined engineering and logistics management to , k1 [: E; K3 q. a, x( ]ensure the system is ready for manufacture. (See DoD 4245.7-M.) 0 E, i2 X0 ^1 u3 CTransmission& t' S% T7 u/ _7 W7 M/ M9 M Security$ B! L# W. d4 A (TRANSEC) 1 k W( A) D" UThat component of security, which results from all measures, designed to protect $ r- n& N) p" L! mcommunications transmissions from interception and traffic analysis. (See ) Y2 g# V! @8 M DCOMSEC.)

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Transonic Of or pertaining to the speed of a body in a surrounding fluid when the relative ! q9 N/ s( Z$ _6 [' k" R3 Xspeed of the fluid is subsonic in some places and supersonic in others. This is+ n+ u; J, a3 M, \* e* ^8 [ encountered when passing from subsonic to supersonic speeds and vice versa.! a! [. |: V/ A! R, C/ r Transponder A receiver-transmitter that will generate a reply signal upon proper interrogation.# A- a2 S" p2 m3 c2 H/ [ TRAP Tactical Receiver and Related Applications. 9 T5 c2 L2 N( f' ^' n& f- ATrap Door A hidden software or hardware mechanism that permits system security* Y# [. f w$ E- o, Y7 V! k mechanisms to be circumvented., G+ A; d5 B% [2 }/ B Traveling Wave& L8 q. [; K; e( k% M Tube (TWT) 6 d. K$ X2 D$ RAn electronic tube in which a stream of electrons interact continuously or 5 N6 E8 a1 w, H# \. X5 Rrepeatedly with a guided electromagnetic wave moving substantially in % \* m; E4 S* c5 S) o9 O0 D+ T) ^synchronism with it, in such a way that there is a net transfer of energy from the' X3 v8 t: _8 j# I1 `$ P1 M9 a stream to the wave; the tube is used as an amplifier or oscillator at frequencies in 8 }, A3 h% C" Othe microwave region.% b0 V6 ]( b$ I$ b3 q3 A9 c4 Y3 S Traverse (1) To turn a weapon to the right or left on its mount.# c0 b: p' ]3 j$ ^ (2) A method of surveying in which lengths and directions of lines between6 T0 N4 T, V6 d- e4 h4 C* ? points on the earth are obtained by or from field measurements, and% t& N: o1 E6 k' k used in determining positions of the points.3 `3 z5 N( A k Traverse Level That vertical displacement above low-level air defense systems, expressed both `) f5 k- ?( u9 f5 ? E! J& r' a as a height and altitude, at which aircraft can cross the area. 9 `) S/ l5 ~) X0 N, aTRB Tactical Review Board.+ q/ E8 q7 A7 e* T TRD Technical Requirements Document./ c* i: O9 W m TRE Tactical Receive Equipment. * {0 s" s8 i$ ATREA Transmit/Receive Element Array (THAAD).- ~9 ]3 P, K7 o) X TREE Transient Radiation Effects on Electronics. 0 K3 N% V! I- Y' ^ |# | gTREM Total Radiation Environment Model. w O! J/ C0 t. I0 `TREPS See Thrusted Replicas.3 ]' J8 c1 \; g& S TRESIM Tactical Receive Equipment Simulator. 5 y8 f) W3 Y) J' s0 W9 t: _' ^- uMDA GLOSSARY, VER. 4.0 T6 r$ X. s. @& M5 ? 306 % g0 O" Y/ W, @( a o# nTRG Threat Reference Guide. 0 z& o. |# U/ k5 W. W" LTRI-TAC Tri-Service Tactical Digital Communications System. 0 t: U. x6 ]8 s5 f/ GTRIDENT Class of US ballistic missile submarines (USN term). 2 N$ i9 [4 K- p: q& F* {TRIDENT I (C-4) US SLBM (USN term). & S8 x0 s# Z" H. \8 F$ U% P- I& f5 \1 lTRIDENT II (D-5) US SLBM (USN term).3 J6 s5 |: ^! }1 Q1 H7 b O TRIM Toxic Reduction Investment and Management. V' B5 S1 h5 U" C& {# c& E TRM Technical Reference Model.6 N& G/ b% Z/ b TRMP Test Resources Management Plan.$ H6 k) B6 c, \8 Q TRN (1) Task Requirements Notice. (2) Test Requirements Notification. 6 \. ` E7 O6 R9 G2 }" T9 b4 j NTrojan Horse A computer program with an apparently or actually useful function that contains / L: c/ ~6 t! c! ?/ eadditional (hidden) functions that surreptitiously exploit the legitimate , z1 s, [. r4 b$ R$ N0 @authorizations of the invoking process to the detriment of security or mission' ^( p+ i: U4 q8 Q3 m performance.+ m5 Q. a) Q# n" y8 T TROPO Tropospheric Scatter. 3 X s' @4 U& B0 K5 bTropopause The imaginary boundary layer dividing the stratosphere from the lower part of the& k# P9 z6 I4 | atmosphere, the troposphere. The tropopause normally occurs at an altitude of) B& F' @+ R5 }6 e+ q! M1 n about 7.62km to 13.71km in polar and temperate zones, and at 16.76km in the ! t$ l0 K9 z2 i% y: `tropics. (See Stratosphere, Troposphere.) J" Z7 W. b; T% G/ u Troposphere The region of the atmosphere, immediately above the earth's surface and up to1 O" q" ~& \5 a+ r( _9 g2 y7 B5 Y& m the tropopause, in which the temperature falls fairly regularly with increasing $ ]9 U! w8 q- F8 r0 O3 D4 Taltitude, clouds form, convection is active, and mixing is continuous and more or 7 o- O5 ]$ A( }( w) i$ jless complete. 5 l+ z$ l v+ n& \- ~: p: F& ~ a+ LTropospheric7 \8 _1 J. ~( ?( P6 y Scatter ( c; o6 B+ o7 R7 k; p9 U& ~The propagation of electromagnetic waves by scattering as a result of1 {$ ~9 k8 ^9 ^1 S+ w' W irregularities in the physical properties of the troposphere. [4 J" n- A6 ~3 M, UTRP (1) Test Readiness Program. (2) Technology Reinvestment Program.( N$ H8 l7 h: }5 t0 W$ q2 m (3) Technology Readiness Program (pre-acquisition program status). / {( i/ @ D! \# O5 @/ Y3 k" D(4) Technical Requirements Package. : F% q, ~* K" _! T; D- l1 h' YTRPC Technology Readiness Planning Committee. ) \' B6 r$ n: ~6 {TRR Test Readiness Review./ p: k" s g5 t- D" Z3 X: Y5 m, z) ` Trusted1 H, p# J' S4 ?( ^- }! ~$ l Computer 4 j( q {: ~4 nSystem/Software. _" x& f, W+ V A system or its software that employs sufficient hardware and software integrity e) ]" A$ W! }5 K# D measures to allow its use for processing sensitive or classified information. 2 {6 d7 A8 [7 V; I; m6 vTrusted Path A mechanism by which a person at a terminal can communicate directly with the. x5 F/ a+ G9 |& P Trusted Computing Base. This mechanism can only be activated by the person % D( M- m* y: J# f h% sof the Trusted Computing Base and cannot be imitated by un-trusted software.- t. D* I; c, U U TRW TRW, Inc. 0 |* k) Y2 C# v/ L! d6 r: ^6 {TS (1) Terminal Service. (2) Top Secret.4 Q, e. R: P: N; d9 i+ K% {/ g MDA GLOSSARY, VER. 4.0 T & s3 \9 N& ^' j2 j9 c307 ; G/ P& C; S7 X/ ATSA Technology Security Analysis. 2 @ s2 I0 t- |( X" n$ P) ZTSD Tactical Surveillance Demonstration. . c" c* O& h' T# PTSCM Tomahawk Strike Coordination Module (USN term)., S, v# z- H; g% s9 P TSD Tactical Surveillance Demonstration. ! e& n, \$ Z4 |TSDE Tactical Surveillance Demonstration Enhancement. / A; d+ c# |/ Y) M1 m$ GTSEU Technology Seeker Evaluation Unit.6 T" y2 o) s2 l; F TsIAM Moscow’s Central Institute of Aviation Motors." W3 a) @/ S9 G, z4 \: }$ N TSM TRADOC System Manager. 8 E9 t* G, D/ D/ v+ J: _ UTSMA Theater of Strategic Military Action.# V% X: ?8 ?8 v+ n TSP Target Support Plan. & S$ z# M0 z$ i: `TSPI Time, Space, Position Information./ |0 C( |6 \% q4 x2 j1 x TSR Target System Requirements.

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TSRD Target System Requirements Document. 9 _' F6 B' T1 L `/ e. m2 oTSS Terminal Surveillance Sensor.0 x0 l& e; N, V9 p5 j TSSAM Tri-Service Standoff Attack Missile.3 i; P" u8 I/ {( Y' w TSWG Target Signature Working Group., W0 S* F! [- Z( x% e TT Total Time.7 l- C8 R4 r3 f+ Q0 F5 o' _1 K% H TT&C Telemetry, Tracking and Command." u& r; K3 p2 {. K TT&E Technical Test and Evaluation (Army). 3 |: h0 f; Z+ W6 c6 c" z; S3 eTTA Total Time Accounting. & M" e @, J5 `' }TTBM Terminal Tier Battle Manager.6 L$ @5 L* x# T. ?! }, f" J TTBT Threshold Test Ban Treaty.* D- ]1 G' ]- S$ _2 i( Y' O" W TTD&D Test Technology Development and Demonstration. A portion of the CTEIP3 ~8 s' h4 r9 q6 q, {9 x8 E program, which funds the development and demonstration of technologies, 5 ~6 s9 H- [( B) Mwhich have significant potential for improving testing.6 L+ ^+ A/ J, }! N& h1 T TTEL Tools and Test Equipment List (ILS term)./ t+ k# m- s, S2 g8 o4 E TTL Transistor-to-Transistor Logic. ( k& ?1 S" D6 B' T: x( N/ M* F: gTTP Tactics, Techniques, and Procedures.9 q3 O3 T1 N0 }) P2 l% N TTSARB Technology Transfer and Security Assistance Review Board. 2 M+ ], Y$ t) H; Y+ X9 QTTT Test Technology Transfer. & `' Y$ Q/ m# r C8 L, ^MDA GLOSSARY, VER. 4.0 T* s% ^, R' c- w- {/ N, T* H 308' \9 G7 q6 ?' q2 F; X TTV Technology Test Vehicle. " Q% U# u# ~2 H$ w) _TTY Teletype. + T, x6 ^) ^# S% p, ZTUG TRACE User Group. . T; n4 H4 L5 mTV Thrust Vectoring (rocker engineering term).3 e% B8 N" n% w$ i TVC Thrust Vector Control. * Y' T; \5 Y2 d6 dTVE Technology Validation Experiment.$ @; h. T% t8 I! P7 \ TVM Track-via-Missile. + A& L/ e l, bTVV Technology Validation Experiment. 0 ]+ i/ Z$ O6 |9 TTW Tactical Warning. + B2 P5 O3 d: I' W2 N% A KTW/AA See Tactical Warning/Attack Assessment. - t1 A7 F% w1 x) e jTW/SD Tactical Warning and Space Defense. " {6 ?( G a2 {& k# O+ XTWG Technical Working Group. ; q2 `2 H, }8 h% N$ ]; H8 jTWS TOMAHAWK Weapons System (USN term). 9 u2 R( b7 ~* W, [: Q3 n' c- LTWT Traveling Wave Tube. - p/ I( y: H2 N( M3 lTWTA Traveling Wave Tube Amplifier. (Electronic Engineering term). ) O6 l( Z8 @1 t* O( i& xTY Then Year (PPBS term). ! ?. q6 ^4 c. c6 DTY$M Then Year Dollars Millions. $ \( y" S6 |! b( W6 P1 iType A - System, F1 K$ U, G% h) N# J* Z+ g9 ? Specification 0 K8 Z' z: w) c+ `* v% X6 FStates all necessary requirements in terms of performance, including test 0 C+ q0 C. T" U8 [' y/ h) n: iprovisions to assure that all requirements are achieved. Essential physical ]% Y. w: w2 n- {3 w0 ?5 S5 O* ? constraints are included. Type A specifications state the technical and mission 9 k5 @' ?, K! ]$ X$ Mrequirements of the system as an entity.6 B$ U5 G/ @/ D* u4 `6 y! j4 d Type B - 4 Q: s2 Q$ F, ]' ADevelopment* N1 R9 i# S* X0 G4 y6 h Specification $ M, `6 ]* ~. g. e3 M# ]States all necessary requirements in terms of performance. Essential physical ) r# i$ {& _$ L3 h$ Aconstraints are included. Type B specifications state requirements for the# N( d+ d+ R: i0 Q development of items other than systems. They specify all of the required item2 o( G1 ^; W. P5 G) X6 l functional characteristics and the tests required to demonstrate achievement of 4 i' {+ H& e |7 _' n& Wthose characteristics.( X w: @3 O3 E: q+ y$ R. x& d- [ Type C - Product 9 A- N8 M. C9 e0 `3 GSpecification3 _+ O* D8 w: T7 ]6 P' c! P Product specifications are applicable to any item below the system level, and' j3 r) u$ f- ?3 O p) w may be oriented toward procurement of a product through specification of. O1 b$ [: {0 o3 C/ a primarily function (performance) requirements or fabrication (detailed design) 4 |" A& `5 Y& f) Q+ H/ O( frequirements. Type C specifications intended to be used for the procurement of ' Y6 H+ ]# b) j% \' P) L- s, hitems including computer programs.8 v. O/ V* g0 F1 j3 u7 L# d Typhoon Class of Soviet ballistic missile submarines.5 u8 X5 r0 y8 b1 `5 v* x Typing The act of recognizing objects by measuring a set of observables, computing a , z' |. r6 p C, r9 _' sset of characteristics, and associating the characteristics with a specific class of 2 F- Z% A% q: Robjects (i.e., SS-18, SS-24).! `4 w/ Y! O2 j4 d8 w6 j MDA GLOSSARY, VER. 4.0 U8 q1 v. e7 s& c! C. Z* ^: S$ ] 309, O1 E% Y6 s' U0 j! m6 H. P U Uranium. 0 j$ C' h6 H h# PU&S Unified and Specified [commands] (pre-1996 term)., g& {& Q% L& Y' s2 H5 X U.K (UK) United Kingdom. : U4 f8 Q+ y9 d) K& u$ a8 yU.S. (US) United States. * S$ R1 b# [0 ]' J9 ?3 T! gU.S. West U.S. West Incorporated.; W. H1 V1 p K! h; R' ? U.S.S.R. Union of Soviet Socialist Republics. 5 D3 _3 [2 f8 ~8 O5 {UA User Assessment (NMD BMC3 term). # M% L0 T) ~# }& \( L) _$ t$ JUAE United Arab Emirates.2 S+ f; I) T1 Q6 i( A3 o UAV Unmanned Aerial Vehicle. W: n. F0 v* q) o/ Z7 h, ^' d UAV BPI Unmanned Aerial Vehicle-based Boost Phase Intercept. 5 C% V5 o+ Q' k0 E- [1 E4 h9 W) o) KUCAP UAV Combat Air Patrol.5 Z+ P" I- n1 g UCC Uniform Commercial Code (US legal term). u, i' \) b' ]& t( E/ v) s, K! x UCP Unified Command Plan.3 J/ q6 e" \% M! }# O UD/ASD United Defense/Armaments Systems Division. $ w' y1 _; }& i! m& k" B, y- |UDMH Unsymmetrical Dimethylhydrazine (a liquid propellant rocket fuel).: C" I/ F7 W* m5 n' B3 m UDS Universal Documentation System. A standardized comprehensive tool for stating 2 X1 ?, Y/ x- ^% G8 y8 land coordinating program requirements for testing MRTFB ranges, as well as the # k1 s- l( ]3 X- a- {capabilities and plans of test ranges to support program requirements. It / \7 Y+ `, [( d/ w' r1 Q# `4 Rconsists of a series of six planning and execution documents: 10 are the 3 s, Y8 r. {9 a& N8 WProgram Introduction (PI) (also called the Program Introduction Document (PID)),$ p& z$ p' ]9 m( G 2) Statement of Capability (SC), 3) Program Requirements Document (PRD), 4) : l0 b9 s' h7 r' DOperations Requirements (OR), 5) Program Support Plan (PSP), and 6) the3 U$ @( {' L0 k1 n+ s Operations Directive (OD). The UDS was developed and is regulated by the1 K1 `& o0 J/ O2 d; x5 L7 u& \* c Range Commanders Council (RCC).

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UE Unit Equipment.4 g) U% f1 H5 s7 ~8 [7 W( m UEME Unified Electro-Magnetic Effects. 7 B) i3 {$ R" p3 _' `% I sUEWR Upgrade Early Warning Radar. $ w, |5 _3 r, SUF4 Uranium tetra fluoride. 8 I5 I# u" O5 K/ c5 K: tUF6 Uranium hexafluoride. # k* \& @) |( E! YMDA GLOSSARY, VER. 4.0 U- k3 a2 T a* L- @2 p 310 * t( y% O5 ^8 q$ z( S5 rUFG User Focus Group.5 x; @- `/ ~% C UFO UHF Follow-On [Satellite Communications System].! n. k) p+ X, K& t$ ]/ @0 N UFP Unit Flyaway Price. c8 e7 b$ l7 {" u3 `$ h3 K UGF Underground Facility. / p, J$ r1 O7 S4 w1 s/ `5 k+ F0 iUGS Unattended Ground Sensors." ?* X% r2 y+ ]/ f @. Y UGT Under Ground Test. . ^0 }9 L7 `% FUHF Ultra High Frequency. 7 R* o E" \; ^; ~* fUIC Unit Identification Code.4 q8 t6 i q- t$ G) w. I- t; a, E UIN User Interaction Node. 2 f# o1 W1 x0 l/ |2 P9 F" bUKAS (1) UK Architecture Study (2) UK Associate Studies. % E* a8 V) T- H+ LUKEADTB UK Extended Air Defense Test Bed.6 H6 N* _" |/ h. c& U: U! l UKTB United Kingdom Test Bed.3 Z# k9 H" U3 d5 F2 M ULCS Unit Level Circuit Switch (SINCGARS term).8 T+ \6 w# e; ^: u ULS Unit Level Switch.3 P. A$ Y) [7 ?% ?2 J/ j ULSA Ultra Low Sidebobe Antenna. 5 z0 r6 S& R5 u% |2 HULTDS Unit Level Tactical Data Switch (SINCGARS term).5 I8 W: I9 p/ ?; C- R9 j% J$ A Ultraviolet (UV) Electromagnetic radiation of wavelength between the shortest visible violet 1 C" @& K. }/ e* F1 b(about 3,850 Angstroms) and soft x-rays (about 100 Angstroms). 1 E6 n7 H4 h& u+ h) MUMD Unit Manning Document. / ^9 R0 O4 W/ S1 bUMMIPS Uniform Material Movement and Issue Priority System (ILS term).+ k5 x) e% \/ N2 G UNAAF Unified Action Armed Forces., ]9 W% q G3 i, X UNC United Nations Command. * O4 J) h( `3 P3 U) C4 eUnconventional & \3 T4 a+ a: B x1 h$ a, VWarfare * M& Q* O: H! U6 v. _+ ?. X" X, fA broad spectrum of military and paramilitary operations conducted in enemyheld, enemy-controlled or politically sensitive territory. Unconventional warfare % B1 g) s% e: L% s. `. S; a* fincludes, but is not limited to, the interrelated fields of guerrilla warfare, evasion0 r8 V. S' j3 h: y t and escape, subversion, sabotage, and other operations of a low visibility,/ g$ j8 V3 o! @' w9 _ covert, or clandestine nature.5 a! ~, t$ P1 _! p8 I- t3 V Unified Action6 C/ n- d/ h' L% S Armed Forces/ i9 O5 s' B/ B; a" F( t" [ A publication setting forth the principles, doctrines, and functions governing the - i3 \. M7 c) p4 H5 O T. d% zactivities and performance of the Armed Forces of the United States when two or, X. `( X9 M# z/ _, k+ T( A more Services or elements thereof are acting together. # h" u5 W. p2 D1 X ]8 n5 {Unified Command A command with a broad continuing mission under a single commander and. }* c! ?! V8 C% d composed of significant assigned components of two or more Services, and 5 }4 G+ C3 R% C. xwhich is established and so designated by the President, through the Secretary% }0 V. S( Y0 f/ f& \ of Defense with the advice and assistance of the Joint Chiefs of Staff.$ d" G3 _1 b1 r- C9 ]3 [ MDA GLOSSARY, VER. 4.0 U; _/ [3 f: T# b2 O( a7 U 311 % c: P3 n) b6 B' oUNISYS UNISYS Corporation. & S& \- K2 B& i3 KUnited States1 A9 }. N1 W; Q Army $ L/ t5 m. c& f# i4 \, r2 N) E$ RSpace Command9 I! \$ Q% {/ ^; u: w) P8 a (USARSPACE) & k- j. V# k# p, |) _The Army component command of USSPACECOM. Responsible for the Army & a7 G( G2 F l$ b, }# Belements of the SDS system. Located in Colorado Springs, CO. - a1 h& Y5 l! C- y, P1 rUnited States 0 z& v; b) E0 MSpace Command ; G# c1 _0 I* z$ G(USSPACECOM) # {" n) ^" S2 CThe unified command responsible for planning and conducting ballistic missile( Y; E+ y# O0 o defense. Located in Colorado Springs, CO.# d1 S( P: j( c' `; G# D# B$ @ United States 8 N; G4 ]+ D' U6 ?' rStrategic $ E6 F: G# p6 BCommand1 c* s) A J( k; s8 R+ E (USSTRATCOM) - o/ L( i+ d B4 O9 Z4 P$ h, `/ ? CThe DoD unified command responsible for carrying out directed nuclear and nonnuclear strategic air, intercontinental ballistic missile, and sea-launched ballistic% v% p P' X, p& ]- ~8 E4 U missile offensive combat strikes. Located at Offutt AFB, NE.7 W2 R. q& |% s United States 0 O9 H6 P: a# ITransportation 5 ~2 n- v9 W1 I$ ECommand ) I( J; b* T5 F5 @' ~/ f8 F7 c(USTRANSCOM)& @" s3 N' j/ p5 m2 k The DoD unified command responsible for providing air, land, and sea , O o" V! |/ m% X! l, ]transportation for the Department of Defense, both in time of peace and time of- `/ F, v4 a5 x) j war. It is also responsible for providing airlift, sealift, surface transport, and , q3 b+ D" K6 m1 u8 Y0 a4 P' i3 Tterminal services, and commercial air, land, and sea transportation, including as! |6 ~" a. l. b* R& [" o6 ^& o$ M# e needed to support the deployment, employment, and sustainment of U.S. forces. R) ?) c7 h. S( y: U* C on a global basis, as directed by the Secretary of Defense. Located at Scott # h8 P1 E& C8 [5 ^ R* v4 kAFB, IL.

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Unk Unknown.+ l) w: J4 [! J1 v Unresolved# N& m+ D' M% I# B Objects. U& O: b* U2 y+ Y Objects so closely spaced with respect to the sensor focal plane as to be. m$ A5 A; f: U+ k. J& Q- ` indistinguishable from a single object. - @5 m3 D4 |1 X, Z: ]. CUNSC United Nations Security Council. % R" ?6 @5 z4 w4 ~; o& @: zUnSecEnergy Under Secretary of Energy.4 X" d+ a6 o' {7 B+ s. f UOC Usable on Code (ILS term). " l9 i; v' b2 q" yUOES See User Operational Evaluation System.+ k$ c7 ?3 ]; e( A9 | UPD Unconventional Passive Discrimination. 1 S7 U$ m, V6 V; u; cUPS Uninterruptible Power Source.) d3 O- [ |: ]! @ UQT Unit Qualification Training (ILS term). ) I' @$ S$ {: w% |) C/ r1 hURIP University Research Initiative Support Program.9 p7 {1 v2 p( s, }) b$ K7 A( S URL Uniform Resource Locator (internet protocol term).8 G* P2 N5 c) @7 a- w9 y URT Upgraded RTD. - ~/ s f" h/ V1 M% QUS/UK United States/United Kingdom. , S; s/ [ a1 F) e* ^* y" o) B2 TUSA (1) United States Army. (2) Under Secretary of the Army. " Q6 n2 o5 |4 zUSAADASCH U.S. Army Air Defense Artillery School.; C2 N+ O; o1 { USAAE U.S. Army Acquisition Executive. & G: x1 E- N7 Q& SMDA GLOSSARY, VER. 4.0 U# Q$ v1 h1 ^( V Y- B 312 1 l) n& k4 c3 F2 qUSACE United States Army Corps of Engineers.3 I4 T8 C) f0 h- E( e) [ USACOM United States Atlantic Command, Norfolk, VA.1 a# P! |; J4 o: C8 k6 ~ USAF United States Air Force.7 i, x4 I. |+ U8 S USAF/AFMC/ESC U.S. Air Force Materiel Command, Electronic Systems Center; ex-ESD. ( m1 T7 P( ?8 v3 n) o& mUSAF/AFMC/SMC U.S. Air Force Materiel Command, Space and Missile Systems Center; ex-USAF, o6 f0 E( c- S R, H. x& | Systems Command /SSD. * R. r" Y) y# l# ^2 h( yUSAF/OTEC U.S. Air Force Operational Test and Evaluation Center. ( v+ N) h5 ~* @: \3 i7 `/ ZUSAF/SMC U.S. Air Fore Space and Missile Systems Center, Los Angeles AFB, CA.1 z3 k. a* C6 I& |2 H. x! @- y USAF/SSD U.S. Air Force/Space Systems Division; See USAF/AFMC/SMC. 5 V' h6 S3 F: ?" y( z SUSAFE U.S. Air Forces in Europe.9 Z; I8 c F/ b! o, ~ USAFLANT U.S. Air Force, U.S. Atlantic Command.. R1 u0 |2 t" H5 d- j9 e) a3 X USAKA U.S. Army Kwajalein Atoll.% N* d) z4 ^+ e USAMICOM U.S. Army Missile Command, Redstone Arsenal, AL." ?6 c( o! W* F" w) a4 l USAMSIC See MSIC./ `5 M0 n4 T# x8 d/ X2 s3 w# P USAMSAA U.S. Army Materiel Systems Analysis Activity.8 J$ p( ]; Y5 v4 _2 M' J; W USAOEC U.S. Army Operational Evaluation Command, Alexandria, VA.- D1 n5 w2 h; H" Z9 K USAOTEC U.S. Army Operational Test and Evaluation Command.) Y; s- ?, U% c q C- i# t' ]7 u USARCENT U.S. Army Forces, U.S. Central Command.8 S2 C/ q; V5 @7 L Z& G8 m0 ]: W* i USAREUR U.S. Army Forces, U.S. European Command. s! h6 p$ h" E USARLANT U.S. Army Forces, U.S. Atlantic Command. - h' j3 p" W- CUSARPAC U.S. Army Forces, U.S. Pacific Command.- v' ~. I# z' N* \% R8 ? USARSPACE See United States Army Space Command." u! C7 \. e0 Y0 |8 p' @) g$ X USASDC U.S. Army Strategic Defense Command (<1Oct 92). 4 Y- X7 d6 [9 _- P8 wUSASSDC U.S. Army Space and Strategic Defense Command, Huntsville, AL! I) U" P( t- m7 u8 Z USATECOM U.S. Army Test and Evaluation Command. L N( v! L# ^* @: {9 u8 `& K" mUSATRADOC U.S. Army Training and Doctrine Command.( L( s# a) k) _- p4 U9 s7 X USB Upgraded SBD.7 Y* ]0 W' O& [ B0 [9 Q0 u8 Y1 A USC U.S. Code.9 o3 l( ]- J6 ]/ Z USCENTAF U.S. Central Command Air Forces. 8 }6 k8 ~2 M w% I+ [MDA GLOSSARY, VER. 4.0 U6 B; v% d0 Y- J- e- b; n 3133 Y8 P% U H- R- }2 r( r USCENTCOM United States Central Command, MacDill AFB, FL. h! O# f6 o# y E! W USCG United States Coast Guard.: ~3 ~/ m1 @" E. b9 Q, O USCINCCENT Commander in Chief, U.S. Central Command. # A3 K% [4 }- y/ k9 G9 kUSCINCEUR U.S. Commander in Chief, Europe.* Z* H. U& ?: s1 U" r9 ^ USCINCLANT Commander-in-Chief, U.S. Atlantic Command. : T9 I3 w9 c7 I+ ]USCINCPAC Commander-in-Chief, U.S. Pacific Command.$ \; @* G2 W; T USCINCSPACE Commander-in-Chief, U.S. Space Command. S! Z, m( J7 o; ]4 g* b: d+ I1 QUSCINCTRANS Commander in Chief, U.S. Transportation Command.6 @; F. C' w) Y) q+ Z USCS U.S. Customs Services.4 p/ i# `; G8 Q7 I USD Under Secretary of Defense. 4 c5 _" I2 i! L! }$ u; r/ ~$ ~USD(A&T) Undersecretary of Defense (Acquisition and Technology). ! u6 K2 [, [6 p; S7 U6 t7 `8 yUSD(A) OBSOLETE. Under Secretary of Defense (Acquisition.).5 W- j0 I0 _. A3 o5 [- u2 J USD(A)/STNF Under Secretary of Defense, Acquisition, Strategic and Tactical Nuclear Forces.; K( G$ P5 u0 T! s' }: ^4 X USD(P) Under Secretary of Defense for Policy.6 i% u" J) {: M: {! ]9 O8 [& R$ e, M USDA United States Department of Agriculture. & c0 p V( @% Z& i* U& E3 q jUSDAO U.S. Defense Attaché Office.( w! t2 H# h+ P& G USDELMC U.S. Delegation to the NATO Military Committee. 9 O2 ]5 D9 c/ B* ^, m Y" UUSDR&E Under Secretary of Defense for Research and Engineering.- @9 R( p, a# s* F4 U User Friendly Primarily a term used in automatic data processing (ADP); it connotes a machine2 ^' H1 j" q! k, G (hardware) or program (software) that is compatible with a person's ability to6 q/ V, R" j8 [ operate it successfully and easily.6 {2 v1 r4 f6 Z/ w) l# H User Operational5 P p( I3 y' o Evaluation - Q* g" m9 F% B3 C Q2 _- }- YSystem (UOES)( O2 P. a2 {+ i" M* z) a4 ` Prototypical system developed and tested as part of the early phases of the8 t. W5 I7 {3 [+ Q$ G$ B- x. a development process. A UOES has two objectives: (1) testing, evaluation, and ' Y" z! Z3 ?4 i7 ztraining for a system proceeding through the normal acquisition process; and (2)+ g% T/ e0 G/ T5 X7 x contingency defense capability should the need arise prior to completion of the , V; @( I! k: snormal acquisition cycle.: O+ D s, e1 G- X- L USEUCOM United States European Command, Stuttgart-Vaihingen, Germany. 2 q# n) w' P+ ^: u1 P* |9 c5 |USFJ U.S. Forces Japan. . v7 f6 k' }' N0 G/ O; b; n* cUSFK U.S. Forces Korea.% j# ]6 d! j# o! u% a USFK/CFC CSFK Combined Forces Command. , k) V1 p9 s8 {9 W$ o ^2 V- s; \USG U.S. Government. , P' R* p R& a6 U/ k5 }USIA United States Information Agency.

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MDA GLOSSARY, VER. 4.0 U& l% O& D: b0 c7 g; ^# {8 I5 H 314$ [' W: I) \* x; z1 `( U USLANTCOM United States Atlantic Command (Now see USACOM).' u. B- i' s5 I3 g2 m2 ]0 o2 G D/ w USLANTFLT U.S. Atlantic Fleet. \" U/ {# v7 w5 j! [1 ` aUSMAR-0 f4 I1 [% }8 ]( I; T3 Y6 K FORCENT $ G: i8 n2 s, H# F; tU.S. Marine Component, U.S. Central Command.( K1 h8 f1 p; z( V USMAR-FORLANT U.S. Marine Component, U.S. Atlantic Command. 2 t8 ^; B2 t; G0 s7 R' c, tUSMAR-FORPAC U.S. Marine Component, U.S. Pacific Command.7 m1 c2 L6 Z; T, r, M* E9 u! E USMC United States Marine Corps., y7 A/ |3 O y- B USMCR United States Marine Corps Reserve.4 }, f4 n8 D$ I7 O- R% G USMILREP U.S. Military Representative. & M4 T/ @/ a6 S, p7 KUSN United States Navy.7 E' U; c# F0 G& _0 F5 p USNAVCENT U.S. Naval Forces, U.S. Central Command. , Y5 N3 Z: l! r! m& d8 b. F0 KUSNAVEUR U.S. Naval Forces, U.S. European Command. @ n+ I% K( s& F: A, x GUSNIP U.S. Naval Institute Proceedings. 6 N% T8 ? V) p+ P6 S1 l2 gUSNO U.S. Naval Observatory. + x+ C. S8 F5 _8 p1 ^USNPGS U.S. Naval Post-Graduate School. 3 a i9 Z8 @0 i" q% }, A$ ^) AUSPACAF U.S. Air Forces, U.S. Pacific Command. : D1 T/ R) m! t3 R' z" @USPACFLT US Pacific Fleet.5 c" }% s+ e) B( { USPACOM United States Pacific Command, Pearl Harbor, HI. ( ~% Z. }# d8 GUSREPMC U.S. Representative to the Military Committee (NATO).+ `8 z; ], l* b1 N. M USSC United States Space Command." \0 }/ k6 [! |9 s! Z! }+ D USSOCOM United States Special Operations Command, Tampa, FL. / N/ J4 t- S9 H# q% SUSSOUTHCOM United States Southern Command, Panama Canal Zone, Panama. 1 M! F4 n; W/ sUSSPACECOM See United States Space Command. 4 H1 O! U; K4 N% {: a$ t0 oUSSS United States Secret Service. 5 S$ K/ `) L8 m5 EUSSTRATCOM See United States Strategic Command. 5 {9 z% ?$ a1 J5 ^+ aUSTA United States Telephone Association. ! T) l$ m; S# _- x% ~! t% sUSTRANSCOM See United States Transportation Command.) Y0 F c+ A/ Q! ~+ S C" D$ C UT Universal Time.8 L9 e* T1 r+ [. |7 @ UTC Unit Type Code.. c& u3 f% _7 _8 f, f- T MDA GLOSSARY, VER. 4.0 U( k5 N! M3 I- O/ n) }% G! H* x 315* z& v. a$ r6 I4 _( W, e8 C' d UTM Universal Transverse Mercator. : Q K' ^% N8 C% v! ]UTTMDS Upper Tier Theater Missile Defense System. See THAAD System. $ y5 Z; N4 S$ u$ c6 b, `4 I3 sUUT Unit Under Test (ILS term).6 m2 _* h6 w3 l& U- y8 y2 N3 | UV Ultraviolet.8 A) w2 A% N! ?% x UV Electro-0 C* Z9 S7 r% ?2 g) E% q) ? Optics1 }1 B7 b Z! p$ G, ?4 O Technologies/techniques employed by optical sensors in the wavelength0 F- ?) J3 |2 V/ f' F spectrum shorter than visible (e.g., less than 4,000 A). ( m( h6 S5 P% z8 M iUVPI Ultraviolet Plume Instrument. : [/ _! F, ~5 v8 c% y4 CUW Unconventional Warfare.' u6 h& V! b' f MDA GLOSSARY, VER. 4.0 V 2 \# A3 n4 ?* ]: U# \( V: Z) h316 - [5 {2 N2 h( bV Volt., c' d; B( l Q. z$ s, O' s V&H Vulnerability and Hardening.# \# Q/ B% z2 {7 k( ~8 B V&V Verification and Validation. (See Verification, Validation, and IV&V.)& d/ `7 p' \" {1 f: x V/STOL Vertical Short Takeoff and Landing [aircraft]. * ?. X! q; g* S$ s$ HVAFB Vandenberg Air Force Base, CA.7 E; B1 o1 D( ^" @. C: O Validation Confirmation that the processes and outputs from a test resource parallel real& o* g5 c+ }9 R+ B9 v5 h$ e world processes and are realistically sensitive to change in the environment, 6 L- {% _: W" E5 i) m$ gtactical situation, system design, tactics, and threat. $ v Y3 j; b, h: R: B: e; |VAMOSC Visibility and Management of O&S Costs. ! L7 B2 N0 F/ A& ~/ _1 DVAR Visitor Access Request. 4 L% u( z& J) MVariability The manner in which the probability of damage to a specific target decreases ! b ^: k% c( E7 `with the distance from ground zero; or, in damage assessment, a mathematical: V% M0 A+ m9 N/ G2 _+ ? factor introduced to average the effects of orientation, minor shielding, and7 Y! ^+ P3 }8 ?4 S uncertainty of target response to the effects considered.- G5 J" p8 l4 M+ j1 y1 {4 m9 |% e0 h/ R, F VBO Vertical Burn-Out (velocity)./ _, {7 K8 G( c& q VCC Voice Communications Circuit. # ]: S) [; d9 ^, g$ S" }2 T! W1 GVCRM Verification Cross Reference Matrix.1 T& u2 a; e. L6 K: l VCS Voice Communications System." l# X* d9 S2 G4 h- j; S: f, R VDC Volts Direct Current. " e1 f. x: A/ c9 s, SVDD Version Description Document.1 {' e* S" k- Q- D6 t% n VDU Visual Display Unit. , R: b) I9 f& s3 [# tVE Value Engineering.3 K3 _6 N: B& f0 y! c# z5 r VECP Value Engineering Change Proposal.0 I. j+ g0 o- l; l$ x. Y8 B1 B Verification (1) Confirmation that all data inputs, logic, calculations and engineering 9 J' l! T3 ]( m# e7 \0 Lrepresentations of a T&E resource accurately portray the characteristics,! Q: Z, b5 j B# v, m calculations, logic, and interactions of the system under evaluation.2 G2 _' ~& D& a3 A, d7 l (2) The process of evaluating a system or component during or at the end i5 I- B7 v1 [ R7 I" V( Oof the development process to determine whether it satisfies specified3 G& ^# E; \! ^& Q6 t; X requirements. ?1 c3 B, ~( J* ~4 T8 H. ]VESA Video Electronics Standards Association.+ p8 s. R3 `& p' J: p! c VFR Visual Flight Rules. % r; v$ i0 a: IVGA Video Graphics Array (Telecomm/Computer term).% N0 L, Q0 s3 s& q& P VHF Very High Frequency. + i: j! Z2 g! S! j0 H) |* C! xVHSIC Very High Speed Integrated Circuit. 9 c N) Q, G! b+ MMDA GLOSSARY, VER. 4.0 V ( B/ v! g0 h+ ^0 ^, @4 [317 & C2 P) z( T3 y# r& {1 }) R, TVIDS Vehicle Integrated Defense Software (USA term). + y, }# p2 A8 xVIGILANTE Viewing Image/Gimbaled Instrumentation Lab-Analog Neural Three-D5 }8 M/ }1 a" k' m2 ]/ i Experiment. VIGILANTE involves building a small computer (ANTE) offering 1/12 6 h. K. s7 }- Q+ z: \1 sOperation Per Second (OPS), using a mixture of experimental three-dimensional 4 R! G- R9 `3 H$ g& gcircuitry and commercial components. Project also demonstrates VIRGIL, a % W. ^" x- D- _! M& ugimbaled airborne sensor with visible, experimental UV and quantum-well IR 2 C' w& g: s, Z" |5 A; Mcameras capable of tracking targets that can be detected, identified, and' |2 m2 t- W3 ]" R' J precision-tracked with the ANTE processor. , M" P- o) Q5 z3 K& ~VIM Vibration Isolation Module.) O7 Z& D4 c% [' J1 D. h4 f' ? VINSON Encrypted Ultra High Frequency Communications System., v4 }' o, }0 x7 m VIS Visible. ; [3 k3 [( K/ T# Q; @, WVIS/UV Visible/Ultraviolet.4 ?( d F; ?& F' T: M Visibility Range2 t# r8 ~: @/ a% Z: h (or Visibility)8 a5 s4 |7 h$ T0 V+ p( J The horizontal distance (in kilometers or miles) at which a large dark object can 0 D1 e8 A: e* ]. f; S2 |0 {just be seen against the horizon’s sky in daylight. The visibility is related to the7 @1 C* d" B$ f/ d$ n clarity of the atmosphere ranging from 170 miles (280 kilometers) for an 6 g+ D8 y* q9 |) K- Wexceptionally clear atmosphere to 0.6 mile (1.0 kilometer) or less for dense haze - V7 g! R! G7 Y( P) |or fog. The visibility on an average clear day is taken to be 12 miles (19( {( c4 b0 f5 a0 K8 y kilometers). / g/ ?+ E3 o" u+ N$ a! i0 mVisible Electro-; S' X5 m3 q/ r5 k/ c Optics 3 f# P: k# r0 h# w2 \+ |Technologies/techniques employed by optical sensors in the visible portion of . Z5 X* n# `# K! f/ V: dthe wavelength spectrum.. U8 W5 T' {+ R7 W' G9 Y( [ VLAR Vertical Launch and Recovery (UAV JPO term). & }% O0 T" e& k* e. r) eVLF Very Low Frequency. # v+ ?7 ^* ~5 f7 P8 d! Z/ F. iVLOS Vertical Line of Sight.

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VLS Vertical Launch System.8 T, [6 Z2 `- l VLSI Very Large Scale Integration. 6 D" O& U4 V7 W) W" b' u+ |VLSIC VLSI Circuits. ( e) t1 j q1 J% x' A4 Z( y2 aVLWIR Very Long Wavelength Infrared. / O, I" ?; w1 Q7 k( r0 X9 N/ \, DVME Versa Modular European [standards].! v2 j- s: b4 [ VMF Variable Message Format (Telecomm term). $ w( c2 X9 w$ X% ]) C3 O2 TVOX Voice Actuation. 6 B/ c$ \6 R; D( T# g3 T) Z- LVRI Vanguard Research, Inc., Fairfax, VA.4 p% x! O5 J/ F) x( M2 O: S VTC Video Teleconference.3 [; h( R- a7 K/ ?: L! R VTOL Vertical Takeoff and Landing [aircraft].# t, H6 u6 O1 m, g2 m% V. _- Y VTOL-UAV Vertical Takeoff and Landing Unmanned Aerial Vehicle.9 H& `9 }( Z2 F ^, f# _ VUE Visible Light/Ultraviolet Experiment. 7 |7 T# e9 d( f% CMDA GLOSSARY, VER. 4.0 V. s4 h$ r' q6 L9 v; \+ O, k0 Z 318 : R2 [5 N8 v& p1 {% D& K: L; k- }Vulcan UK bomber. " w0 t" _5 X+ w! Q% v1 fVV&A Verification, Validation, and Accreditation.! h( J0 `* ]6 B9 q. h3 ~! R VVER Pressurized water type nuclear power reactor.* f+ R- A9 H" { VVIRF Verification and Validation Information Request Form.0 f4 t5 \: }3 e' ^ q" W MDA GLOSSARY, VER. 4.0 W 7 l+ C+ k8 t, }, ]319 # g/ N9 E; a# H9 H% ~+ b! aW/ With. , k, K3 f( r: s. Xw/o Without. % ?' q1 Q: P6 o' B/ nW/TD Warning/Threat Detection. % F/ s D* I& M% f/ n/ f3 O, j. NWAA Wide Aperture Array.# g$ |3 Q4 Z; m* m8 o3 S4 f" h WALEX Warfare Analysis Laboratory Exercise. E& j4 e4 I+ M6 d/ }9 c OWAM (1) Worldwide Military Command and Control System (WWMCCS). (2) Wide Area $ A( o( I1 H1 UMunition. (3) Wide Area Mine. (4) Wide Area Missile. $ q x& `( G. j" R' P. bWAN Wide Area Network (Telecomm/Computer term). / g( n( F* g, {( H; jWAP Wide Azimuth Probe. ; v- j0 B/ Y$ z% a: s# F/ i QWar Game A simulation, by whatever means, of a military operation involving two or more " d$ o7 M# R- F0 vopposing forces, using rules, data, and procedures designed to depict an actual" T, h8 c8 }& |, \6 w! Y: { or assumed real life situation. & h7 E, o, n7 n$ X( lWargame 2000 Title of MDA program for development of a state-of-the-art simulation tool at the ) c2 A) v4 d% sJNTF for use in CONOPS validation, missile defense program design verification, * [4 c7 \+ D7 R4 R, U: Cvalidation and accreditation, and support CinC/Allied wargames and: n! J3 ^; B( e; e8 F assessments. ( U+ o7 | B+ @/ K& C" e% c0 nWarhead A weapon, usually thermonuclear, contained as the payload of a missile.$ h4 a4 ~8 r5 v0 ^- w# {0 k& Y# } Warhead Mating The act of attaching a warhead section to a rocket or missile body, torpedo, 5 Y( e/ R8 N9 o) a/ ]airframe, motor, or guidance section. 9 Z+ x4 L5 w! d: UWarhead Section A completely assembled warhead including appropriate skin sections and related 9 }7 u% q% M2 ]4 o, f0 Icomponents. , Q% k- L5 k- h* [2 _WARM Wartime Reserve Modes.% F$ i6 E5 r2 a2 F; J Warning of Attack A warning to national policymakers that an adversary is not only preparing its - k- x5 |% {: a, Garmed forces for war, but intends to launch an attack in the near future. f" ?, Q8 C- ~; r. ?Warning Order A preliminary notice of an order or action that is to follow. . C' w# c5 W; RWARSIM Warfighter Simulation (US Army term). $ I1 ^9 p5 \; k' i% ~! x/ x) d* ^WARSIM 2000 Warfighter Simulation 2000 (US Army term).' P% G" K, h5 N3 I4 Z Wartime Reserve) |0 L0 n( V; f( a% P9 y( ~, D6 M* X Modes (WARM)9 T! E9 _* ]/ n2 n/ z Characteristics and operating procedures of sensor, communications, navigation- q1 r4 q- g3 u8 t* ~. A( j/ P aids, threat recognition, weapons, and countermeasures systems that (1) will + c* I6 z1 P# f) F1 I) W$ \contribute to military effectiveness if unknown to or misunderstood by opposing" m* s' |7 s8 t/ r; v4 |* o commanders before they are used, but (2) could be exploited or neutralized if- n! o* b f" k5 ], f known in advance. Wartime reserve modes are deliberately held in reserve for4 C7 G1 [& v! S wartime or emergency use and seldom, if ever, applied or intercepted prior to( j( _ O& y1 Z6 z6 D) }4 { such use.5 \5 y% J6 U7 ]' c; Z! ? WAS Wide Area Sensor." @' D3 q1 ^! p, ^+ L! H9 l WASP Wide-body Airborne Surveillance Platform. A modified DC-10.* q4 \" L: g1 G9 V# v* M MDA GLOSSARY, VER. 4.0 W # T) b: h P, S( f! ]320' }# \0 t: z* h k& H* C WASHDC Washington, District of Columbia.9 {( V% G4 Y$ R Wastage (Max) The maximum number of defense weapons which, when used, will be ineffective U% e4 m, y& C+ a6 g) b in contributing to the defeat of the offense. * y! E+ L! U3 E$ h" {0 zWatch Condition' G: I! H( o/ A2 m7 R+ U (WATCHCON) ! t8 _3 d' B* D H& h9 p5 ~) YSeries of readiness conditions used by the intelligence community to alert staffs: g3 B; I' A9 d5 t1 e4 L to watchfulness without raising DEFCON. ! Q# f+ a8 |( F% ^$ AWATS Wide Area Telephone System.% ~0 \) s: K( v/ b# e5 Q/ u WAVE Wideband Angular Vibration Experiment. . S. n+ q1 j* y6 ]Wavelength The distance between two points having the same phase in two consecutive $ D2 y8 \8 v, q% S* Tcycles of a periodic wave, along a line in the direction of propagation.; ]' x0 L* E7 N" [6 k: _ WB Wideband.* @7 z4 q; k$ u* ~( Z* r- f WBM Weapons Battle Manager(s). - T7 `6 k* g. A4 t) ?( b% _WBS See Work Breakdown Structure. 6 S0 e0 F6 p3 x" _5 KWCC (1) See Wing Control Center. (2) Weapons Control Computer." J4 n" I. g3 z WCG Workstation Computer Graphics (Computer term). ! T$ K; d; `3 m0 o4 ^6 yWCP (1) Weapon Control Processor. (2) Weapon Control Platform.6 \" @4 J$ y3 c! r) e7 S' S WCS Weapons Control System.9 M9 v, ]) f% l4 T WDM Wavelength Division Multiplexon. " X& ?' a% S1 \Weapon Enabling The set of control functions without which defense weapons cannot be 6 b4 @' ~) o3 U+ Jlaunched.

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