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发表于 2008-12-25 20:21:26 |只看该作者
STINFO Center Science and Technical Information data centers archiving and providing user9 T7 v4 _' m/ ~/ u9 O7 c" Y6 E access and support to a variety of missile defense test and evaluation data. - `8 R) r7 W2 ~1 Z- h4 \2 dSTM Significant Technical Milestone.( ]: K" `( j" y; X STO (1) Special Technical Operations (JFACC term).: n) M5 U( j- C- h (2) Science and Technology Objective.: \) g5 F3 M7 ^ STOAL Short Takeoff/Arrested Landing.3 }" |, A* m, ` STOM System Test Object Model.$ G) l$ c4 z/ j: o1 Q- M6 { Storage, 7 B4 g+ p/ K( N' W# o B/ DHandling, and ' |. B( I) J& q8 g* k% iTransportation 6 B" a& {5 K) D! N4 Y7 J- s" QEnvironments, Y7 y0 A! `; V7 C/ v3 [) s These environment categories cover the applicable free field or ambient % B* U/ a3 s! `environments, which the system assets must be capable of withstanding during0 ^& Q0 l) I1 H storage, handling and transportation. They include the full array of applicable ' Z6 a7 y( ?) y, d5 Zatmospheric and ground environments to which BMD assets will be exposed 2 {, Q6 l( P& q; @0 Iduring these non-operational aspects of system deployment such as pressure, ' u0 T- ]% d' Q' }shock and vibration environments, among others. : n: m7 n \: h$ P% D; TStorm Name of a theater ballistic missile test target system, part of the Baseline Target9 n+ {* J0 a5 |; }" z! t _ Set.+ e. u4 Z' P |& h: S# v Storm Shadow Conventionally Armed Stand Off Missile weapon based on Matra of France’s 3 j8 u- e/ }7 h' F/ m9 `Apache missile.* U7 s. D( t7 l! b2 z STOW Synthetic Theater of War (US Army term).1 f4 S. [7 \! g4 e R; J STP (1) System Test Plan (2) Sensor Task Plan. - Q g* s3 J+ g3 R. A5 _STRAP HATMD System Training Plan. + S0 C1 ^4 v a5 a }STRATCOM Strategic Command.+ ]: H F) S, S. Q9 V$ h3 B: i Strategic" z0 ]- H8 L8 K+ K& v Defense4 a( u; c. ^: a! c# A All active and passive measures to detect, identify, assess, degrade and defeat & O0 C. N; R4 Q# B+ C S: tballistic missile, air, and space threats to North America, including measures to: N8 n' r$ i: s. ^! [9 A% c nullify or reduce the effectiveness of such attacks.4 z3 q- P; i; q' B! d8 ?' Y Strategic& P1 |; B7 M% Z* I3 `: ? Defense ! c, h( S! J6 i" V3 b/ uEmergency ( T( c. l7 F8 c6 l9 {Declarations that attack is imminent or taking place. + I- b9 c6 y" v9 U$ {, kStrategic 1 `% L2 t6 j$ u# X2 |- hDefense System . l' w$ v9 l4 r$ i& m+ ~- q L* E(SDS) " q6 |; P* o5 \ a3 B; P \- K8 FA generic descriptor, which refers to all architectural elements of the evolving ( s ?5 w# }" l/ L/ Yballistic missile defense system.5 W( \* [& Q9 \! G0 o+ Y% C# v7 C MDA GLOSSARY, VER. 4.0 S ( C7 g4 [( t6 M5 _ r+ l280 " c% N& F( r0 X3 {' ?- V9 lStrategic Level of 3 E" D' y) y% \( a- ?! ~/ HWar ) g$ [9 P% `6 `+ M7 p9 WThe level of war at which a nation or group of nations determines national or 0 h6 J9 P2 c# }9 A7 J: ?alliance security objectives and develops and uses national resources to* R# U) I. a2 t accomplish those objectives. 1 q, G& z0 I7 B0 e6 DStrategic : g3 L2 _/ K W# MOffensive Forces) l Q3 H, W( n) U4 l5 F& g (SOF) # e, W& W) t o, \7 U8 qThose forces under the command of the Commander in Chief, USSTRATCOM, . ^ \# n* l' @7 x$ W2 R$ lthe Commander in Chief, Atlantic Command, the Commander in Chief, Pacific / j2 P& P& b& A; P# d0 o OCommand, and other forces assigned to execute the Single Integrated0 Z! |, h9 @0 C. b. w. u. Q Operations Plan (SIOP). These forces include but are not limited to B-52s, B-1s, # m9 r& E. f Z& _FB-111s, Minuteman IIs and IIIs, Peacekeepers, Poseidons, and Tridents.0 c8 I& o! ^) ]( T) d; X* R9 ~8 r. O Strategic 4 ?: }6 Y; K2 D( k$ W& cReserve5 z2 v6 B0 R0 K; U! F That quantity of material that is placed in a particular geographic location due to 0 j) ~: g0 D, N2 M# [ J' Mstrategic considerations or in anticipation of major interruptions in the supply " R% N+ f+ B5 ?2 F' E" Sdistribution system. It is over and above the stockage objective. + R# ^, g, ^7 W, M8 l! DStrategic 2 }5 R+ k* g2 \2 u5 ]Warning9 R8 S7 c* b8 s( G6 o A warning prior to the initiation of a threatening act. / y- H. {- E/ N/ W* _9 h# P) B* I0 tStrategic% [- e& |/ E6 Z; Q$ N7 S5 o2 Z Warning Lead% g; d& d. U3 J4 u8 R. F Time 7 o9 R) K) E9 w) dThat time between the receipt of strategic warning and the beginning of 6 W! B# v) U3 O& R$ x1 dhostilities. This time may include two action periods: strategic warning predecision time and strategic warning post-decision time.$ f. K1 `$ m, G+ J* t) X Strategic% W) I B* s N3 Y$ C, g Warning Post-; b7 e; l+ K z( K: u, j) Z Decision Time , |$ F4 Z! u' P: B+ n0 @! KThat time which begins after the decision, made at the highest levels of2 E" q: g2 X4 y1 H9 c$ ?/ p3 ]' n government(s) in response to strategic warning, is ordered executed and ends 0 ]6 o2 G$ W. h r/ ~, S3 Z, [with the start of hostilities or termination of the threat. It is that part of strategic3 N7 n: [ \8 w warning lead-time available for executing pre-hostility actions to strengthen the L3 U) `1 z% u; I. x national strategic posture; however, some preparatory actions may be initiated in$ \- } [& N# @: L: n4 I the pre-decision period.( Z' B! M& u! ?. O# h Strategic ( W( ]+ K2 v9 C9 y! gWarning Pre- 2 l$ |* f- q3 B; @, ~( @& |0 dDecision Time1 x0 w a" t( } That time which begins upon receipt of strategic warning and ends when a / @- @5 z6 x, Q" v' F7 Kdecision is ordered executed. It is that part of strategic warning lead time! v& t/ W Z5 K* @! D6 D. b available to the highest levels of government(s) to determine the strategic course; B# O& ?5 m. z" R of action to be executed.8 o/ V, T7 H4 m1 T- u @7 L STREAD Standard TRE Display.9 D& ^8 Z, i1 q STRICOM Simulation, Training, and Instrumentation Command (USA term). 0 U m9 T/ o% YStructured ) J% w5 n4 A1 x2 n5 tAttack ( S" l! B( \1 p( M* H6 lAn attack in which the arrival of warheads on their diverse targets is precisely R1 g4 U$ W3 T# L- [ ^ timed for maximum strategic impact.: A0 K" n1 t" }8 {* H3 q Structured : s* t- l b. l* iDesign * ]7 x# `9 K' a4 B1 mA disciplined approach to software design that adheres to a specified set of rules & z, Z2 @1 c8 e3 K+ W4 hbased on principles such as top-down design, stepwise refinement, and data " U' k* ]; i. Q/ Pflow analysis.

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发表于 2008-12-25 20:21:38 |只看该作者
Structured# c; n Z& B0 i: F Program + o4 s+ ^' [) pA program constructed of a basic set of control structures, each one having one: B3 ]# Y2 T, i. b' U entry point and one exit. The set of control structures typically includes: 9 A' x% W' m0 u' k8 @ Y& Q( Zsequence of two or more instructions, conditional selection of one of two or more, ~4 |" B, a" n instructions, conditional selection of one of two or more instructions or/ E7 E, E" Z* O, ? sequences of instructions, and repetition of an instruction or a sequence of. _/ ^$ J1 ~/ v( c* E! N9 { instructions. 3 {! r+ D. [. A% Z4 bSTRV Space Technology Research Vehicle.# K6 p9 Q" f( q STS See Space Transportation System. * L% u' z# [7 e5 ]; p' qSTSC Software Technology Support Center.: K7 n/ y' ]3 y+ L4 h. U5 m4 b" P3 ^ MDA GLOSSARY, VER. 4.0 S: ~( {- L9 U( x. s 281 ; W! S' N9 [4 O5 [! y' J& ^! z( rSTT (1) Small Tactical Terminal (USAF term). ' W0 c& k8 V* x(2) Stockpile-to-Target (US Army term).. i8 F) u- ?2 }2 b; T/ \, ` STTR Small Business Technology Transfer.8 [8 l' E8 c5 O3 g( ~' d STU Secure Telephone Unit.8 j% O. Z0 F1 ^ | STW Strike Warfare.4 O7 E0 J) f: i STWC Strike Warfare Commander.( Z- ~3 [8 [* B( n# c STWG Simulation Tools Working Group. - ^! q% B4 D( L( ?: ]2 pSubassembly Two or more parts joined together to form a unit, capable of disassembly, which) c) @* z$ u, B7 p) V6 Y is only a part of a complete machine, structure, or other article. 9 W6 @: l8 K) P- G% bSubcontractor A contractor who enters into a contract with a prime contractor.' ], s) ~! h8 f, L( z, `/ U( Q Subject Security $ N) J |0 ~ T/ v- @Level, P* q3 E4 ?. h8 N; G A subject's security level is equal to the security level of the objects to which it ! _2 e$ y" h2 dhas both read and write access. A subject's security level must always be 5 h3 e4 i* U- [1 Z8 Gdominated by the clearance of the user and with the associated subject." ^% y4 w+ V8 C. B1 x! N' n( ? Submarine-* s, K' s. R- r( t1 R2 L% m Launched$ s `5 U, _1 @- k6 y1 [* z9 t Ballistic Missile& H4 ]& B2 u# O% i7 A (SLBM)- Y% s. T8 U# e" V$ Z" d8 l- I A ballistic missile launched from a submarine, with a range of 3,000 to 6,000+ H# n6 X! u9 ?" F+ n+ J# } miles.+ h# r" Z" S) E4 S# T! i# m SUBROC Submarine Rocket.' J7 y9 r% D# K1 }8 w) H Subsystem A functional grouping of components that combine to perform a major function6 Z$ X% F; l% N" h$ V! h- K within an element, such as attitude control and propulsion.( U- w- o+ M& t1 a$ U/ O Subtractive 4 u j9 g' F9 L2 [2 [- O0 s' KDefense- `" m: g9 }7 x/ L) a# p0 i2 Z First come first engaged as long as weapons last.9 P+ N1 v3 Z* t- F SUCCESS Synthesized UHF Computer Controlled Equipment Subsystem. 7 Q: o$ Z) Q, C& _Succession of 0 J+ d: C/ G5 ACommand . O1 |' ?3 \( JThe planned or actual sequence in which subordinate commanders, in turn,3 H: l. Z9 X. Y6 d {$ j) ?) d7 J8 T become de facto commanders of a senior organization. Devolution of command # p6 b6 ?9 ~( x2 g, _7 A* n2 _is a synonymous term. 5 N& p6 H9 ]% B( z" y# J- iSUM Software Users Manual (Computer term). 8 S- R7 n5 D- b/ a& e+ s4 {% XSunk Costs The costs of resources already committed or spent. In comparing two * g: W+ D% Z3 xalternatives, such costs are "non-additive," and they are not germane to ( _* T$ \: Y* [% M' ddecisions about future use of resources.4 p3 [1 F1 M0 ^" C Sup Pro Supporting Programs (MDA term). 3 l. N! l' ]. U; f" aSuper Survivable Solar Power Subsystem Demonstrator./ U- q$ k- B, k4 E Super Radiance The process used by a super radiant laser to generate or amplify a laser beam in 2 K9 w" q" i/ S) W' R" ]- ~1 ya single pass through a lasant material, or, in the case of a free electron laser,; d# D. j' h. z# z/ A through an electric or magnetic field in the presence of an electron beam. Super) u7 t: O" O' b radiance is actually a form of stimulated emission. Also known as; R# J" D9 `1 f3 i7 o superfluorescence, or amplified spontaneous emission.1 C% ?) p0 c; I1 \! r MDA GLOSSARY, VER. 4.0 S3 e$ I1 n) u. v' @# ] 282 v# a5 U* E+ p' V Superradiant; C# Z5 e: g) Y$ r Laser (SRL) ! [6 f2 _1 Q; t/ K, nA laser in which the beam passes through the lasant only once; mirrors are not 0 S. z* p; O, y# H( Crequired for the operation of such a laser, as they are with more conventional2 c& Z* N) n' P- m" B lasers which are sometimes called "cavity lasers" to distinguish them from 7 Z' x; Z+ }% r' ^superradiant lasers. Free electron lasers may also be superradiant; the laser , U C* H% F3 _ Z, lbeam of a superradiant free electron laser would pass once through the electric 6 ~% S- d7 R, n1 C7 h2 |3 @& l* Vor magnetic field (instead of a lasant) in the presence of an electron beam. ' i* }9 I/ N- Q9 ~; hSupervisory 5 X8 l! ]9 P# T: z% q* ^Programs7 |9 }% H( a* Y/ n1 B t Computer programs that have the primary function of scheduling, allocating, and$ k9 m2 c! D4 M controlling system resources rather than processing data to produce results.8 l, ]: _' }9 i& y2 P- H Supplemental2 L, B# ~- J" q3 e9 L Appropriation* k5 O0 ~" Q' f) y7 a1 G An appropriation enacted as an addition to a regular annular appropriation act. ) d* T4 q/ x/ c. }4 F+ C8 ySupport. b, Y$ ?, o2 \ u9 d Equipment $ S, \5 n, N0 j* wAll system equipment required to support the ground and flight phases of the ! r* [# B' C' ?% b L+ Tmission. Support equipment includes aerospace ground equipment (AGE),) _4 p% S" X- E: k$ Z maintenance ground equipment (MGE), transportation and handling (T&H)0 Z# Q- c) W! E& I; x equipment, and equipment used to support system deployment (i.e., assembly % r, P- f# i! Y. i- ptools and fixtures, test and checkout equipment, personnel support and' T' L- J4 `9 d( m7 ]! I protection equipment).1 Q" }0 y* i) _2 W0 d Support $ y( _ E8 ]# L; p* KPersonnel 7 h0 w) Q1 h) [; K1 ?Individuals, in addition to operators, trainers, and maintainers, who are directly ! U+ r, f7 W( D6 u, T- o; hassociated with an operational system(s), and who are critical to its continuous3 x: Z: c5 Y* n/ y6 |% K operation. Examples include program management offices, security, supply, 9 @( N" I9 q P: V. ~. q$ F* {0 }5 Radministrative support, and the like.: V) X- ~4 q1 E# ^ Support Software Software that aids in the development or maintenance of other software, for7 e' r3 M7 ^" ?& s8 i& g8 L. A example compilers, loaders, and other utilities.! e# v4 l5 Q( ^: @4 B1 w0 ` W d Suppression Temporary or transient degradation of the performance of a weapons system,( o0 E% c% c! d* i% _. e' O below the level needed to fulfill its mission objectives, by an opposing force. 0 H" G# t+ L* x( F% M% mSUPSHIP Superintendent of Shipbuilding. : }/ |2 V; h* `' ]* ~4 v6 ^SURCOM Surveillance Constellation. 7 W+ D" _/ M6 y6 i" N& y. DSurge Production An increased rate of production necessary to meet demands for defense items* Y* a% Q/ A, k- C due to a need for accelerated production to meet a threat or for a wartime or 1 b1 J1 O0 J, Q/ d$ T% A! qmobilization situation. This increased rate can be obtained by having excess 6 h( N5 U/ }/ g5 H8 s4 P1 d% R7 Vproduction capacity available or by utilizing multiple shifts of normal capacity 2 k8 A" E, ~' R; R3 i6 O/ I dmeasures.7 Z* Q% `, ^; N) T+ j Surveillance An observation procedure that includes tactical observations, strategic warning, % `5 _$ M9 l, g" }4 e. X% A1 dand meteorological assessments, by optical, infrared, radar, and radiometric+ E8 ^- T1 r7 n' } sensors on space-borne and terrestrial platforms.

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Surveillance # ~0 s9 Y9 `! E/ q( |Requirements6 D# ^4 A; a5 K Requirements are requests for surveillance, including relative priorities for $ ?5 L9 `- `. N8 Icoverage and sensitivity levels, based on operational orders, selected response8 u6 a9 }& U# B9 s# { options and current surveillance system availability.) B/ _, P3 `* T Surveillance,7 ^9 w# o. O4 } Satellite and ( @" o8 j) M- s) A$ @7 M9 O# cMissile3 K" D& B, o& [3 G7 |4 @4 W( j6 R5 U The systematic observation of aerospace for the purpose of detecting, tracking, ( P! m. ~# }0 r& E( C$ u5 [and characterizing objects, events, and phenomena associated with satellites w( a/ g5 [* P+ ^9 a and in-flight missiles, friendly and enemy.# ?, g3 [# U. D5 {0 R( v Surveillance# c3 l& H$ e! T System 4 u1 W3 Z& w1 D7 D7 x* B% m, ]" XConfiguration) C7 K; P# |0 _4 H" z1 z9 L ? The sensor types and locations and the modes of operation currently activated t8 X' l% U7 N d! Sin the surveillance system.( Z/ o0 w5 W& j+ ?; A8 X MDA GLOSSARY, VER. 4.0 S8 K. ]/ `" e7 R5 s2 y) L 283 v$ ~4 l+ \0 V. ?. X0 gSurvivability4 Z& ~+ M$ d, R6 n+ ?( I, }( b Operating Modes+ w4 s9 Q; S% k The operating modes not including but in addition to the self-defense modes; c0 h* E; ^! U7 L% h% I2 ~ that all the elements can use to protect themselves against direct enemy attack.1 I) ~+ M! |+ |# V: K' p Survivable and 1 v& ~& N, @( v3 f" M4 j! IEnduring4 @! S! ?# K0 k1 D5 Z Command Center$ ~8 i6 H) W4 J( u* T3 |( o5 l L @ (SECC)# _9 I8 Q& S5 o+ p; t4 m The USSTRATCOM mobile C2 facility.. \6 V7 _8 Y; B/ ]3 k# S$ w' d( a5 V SUS Site Utilization Study. % \: D# u6 y' h4 e' JSustainer Propulsion stage of a missile usually operating after the booster cutoff.' m) @( C" z4 z* l4 _9 w8 f+ ?, q SV Space Vehicle.. _6 C" U) T5 Z" C/ l SVS (1) OBSOLETE. SSTS Validation Satellite. (2) Scientific Visualization Suite. + }& L8 P, e& @2 F! |) \( @SW (1) Software or (S/W). (2) Space Wing.- F/ K, U7 [. i SWC Strike Warfare Commander. - {/ Q F/ W1 _ uSweep Jamming A narrow band of jamming that is back and forth over a relatively wide operating$ v F; H% `8 N, T# b6 o band of frequencies. 3 ]! @9 |7 X, T( i; e' Y9 S M+ {SWG Scenario Working Group.% X; a+ T0 [' q) w3 H SWIL Software-in-the-Loop. / S1 y, R% \7 z) r( V3 [SWIR Short Wavelength Infrared. " @: K- E9 v: w5 v. VSWSA Spatial Weapons System Analysis.2 \6 G" E1 l0 P3 z: y SWSC Space and Warning System Center.8 B; S" E+ m8 g9 @ SYDP Six-Year Defense Program.( X" X) b! K P! _; U1 x8 A! S, w i' x. h Synchronization For data streams, the process whereby a received set of data is placed in one to : ^+ O7 ?0 v4 }/ d( y! `one correspondence with the data assumed to have been transmitted. * P3 o6 O% _. P6 L0 H7 qSynthesis The automatic generation of a run able system from a specialized design where 7 ~" ]1 v G6 g4 ?3 M+ l8 teach module description has associated implementations. . ^# s4 m% f" `% t: n. RSynthetic 5 d6 W# o4 `6 X+ {0 SAperture Radar* H+ a$ R2 Q6 E% P% _ (SAR)/ ^/ l$ [. S A. E A radar technique that processes echoes of signals emitted at different points; \+ H' Q* Y' I7 E3 l along a satellite's orbit. The highest resolution achievable by such a system is5 d3 m" |, M. U1 \0 M theoretically equivalent to that of a single large antenna as wide as the distance1 R. X m2 N# |- g, b7 B: C% f1 Z between the most widely spaced points along the orbit that are used for . M) U. Y, s& q# Gtransmitting positions. In practice, resolution will be limited by the radar receiver's$ y/ M2 @) ]; A3 _2 | u( ] signal processing capability or by the limited coherence of the radio signal: V: } }7 P- W/ T+ @7 x; P emitted by the radar transmitter. 8 Z/ d2 y! P1 k5 E6 y- Z) B1 F# rSYS System.' O0 l- [$ C! Q& o* w& j Sys C/O System Check Out. 0 L" \8 L1 a9 l& N! x* hSys Cmn System Common. - W% H8 Q" D, e8 N* f: ^Sys T&E System Test and Evaluation. / E% x& [# |3 V4 D, [MDA GLOSSARY, VER. 4.0 S 5 r! r, ~; [3 Z6 T2 [ l284& m( |1 B0 O; _8 e/ e4 ^ SYSCOM Systems Command. + l7 _$ p4 G& Z' |, gSystem (1) The organization of hardware, software, materials, facilities, personnel,( k3 o+ X. g2 U7 |7 X/ a0 c data, and services needed to perform a designated function with2 x) h; A; h6 m- c0 D% ~* x0 a4 Z specified results, such as the gathering of specified data, its processing, 7 x3 L3 J% {- | {! band delivery to users., @$ U2 |# U" X4 X7 x0 {; f (2) A combination of two or more interrelated equipment (sets) arranged in a6 T9 u9 I) ?0 @, F, {! [6 U1 V8 g functional package to perform an operational function or to satisfy a ; M! T5 Y& ~! V1 [) i( l. Jrequirement. 0 F, H, P$ H' |. ^: \System* U. R/ r* E* L% g# P* D: H8 b Activation! s- W. D' t* P6 v6 _8 b2 p8 P That set of coordination, assessment, decision, direction and control functions/ Y( b5 c l( z% C/ p; ] implemented to enable defense weapons, and to initiate the automated, realtime aspects of Battle Management, Engagement Control, and Weapon System5 ~ {( t( d4 V" f Control. ) [" m+ _" }8 G( ~System - T( A4 ~+ G8 f x& HArchitecture0 q! x9 O: \ e6 M/ V! w System7 N/ J3 S8 z7 o, m Capability" a% g# z& _- E/ u7 I* ? Specification4 d) G: j& e2 c" q/ `9 P5 ^ (SCS) ( m7 [8 E" V& u1 f! b1 ^* D) g jThe structure and relationship among the components of a system. The system . m) G/ t- w( h1 Aarchitecture may also include the system’s interface with its operational/ V7 Q9 b* y, ?- e environment. A framework or structure that portrays relationships among all the 6 N a/ O9 k8 k8 Q, v$ P; oelements of missile defense systems.( C" x( w2 g2 h3 Q( {3 d The government document that translates capabilities into functional * i& Q+ F3 v' s' S- n' Especifications for the overall BMDS and allocates functional specifications among* ?" C$ h) s* h: _4 A the elements of the BMDS. * G/ Y% `; \ F# fSystem Center8 t( c6 z0 S( K( H9 F (SC) 7 l D8 k+ _; uA center in CMAFB responsible for the scheduling of maintenance for worldwide ! O+ l" b, |$ T7 C# {sensors and supporting equipment as well as maintenance responsibility of! X b* C1 U& F! _: ` equipment in CMAFB. & W/ A7 }' {+ O! H/ n+ K/ LSystem Concept & H) q3 N' W0 m/ [& _0 _2 Q: BPaper (SCP)6 G$ T. K, A1 j8 s OBSOLETE. For a major program, was used to summarize the results of the8 b$ j8 I" F* s! B concept exploration phase up to Milestone I and to describe the acquisition # z- N& W. W mstrategy, including the identification of the concepts to be carried into the 7 D+ e2 [3 ^5 Kdemonstration and validation phase and the reasons for elimination of other: i M& n; l4 O( R& F( q$ `3 j | concepts. Now an Integrated Program Summary (IPS).

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发表于 2008-12-25 20:22:10 |只看该作者
System" Z7 m" a( t3 V4 l Configuration: u6 i& I2 o5 t! o' t Control Board1 z2 ?2 T3 l* b3 ^ N0 t* j (SCCB) 5 v' v4 N9 L. ]/ ^The senior SDS configuration control board. The SCCB will manage the systemlevel configuration of the SDS and the interfaces between elements of the SDS./ f, \, o% C! V( f6 E System Control Function or task of monitoring the maintenance status of assigned sensors and 1 p: {9 K3 t8 c% Ucomputer systems. - \* s; v9 E- m% J- XSystem-Critical $ T) q3 L$ d6 P5 N. |" L) l+ XFunction* e+ J2 u( U5 _' Z* v# L- R6 Z A function that is necessary for the successful accomplishment of the system's - n3 N& `9 p& w8 @mission. S& O" C K$ k& q- J% DSystem Definition3 @ U. }7 \* U/ C( K2 t Review (SDR) 1 i( \1 }0 z7 G1 nThe formal review, in briefing format, for periodically deciding on updates to the ! k/ [+ _% E' j( N% D3 Vsystem plans for development based on estimates of the program schedules and ( m) x$ L4 U2 c+ W; xfunding. The SDR summarizes candidate development plans and their potential) K9 ~8 M1 S) F' n impacts on system design, cost, and schedule. The SDR provides a systemsengineering basis for the MDA program planning activities. Following the SDR, 6 s& _3 t7 n: \( O8 b$ Q2 Kdetailed element planning will result will result in a Configuration Control Board,, ^! s3 F1 l; T final trades, and program documentation in the PPBS., s. Q0 c2 s t) V: C& u; V System 0 {& B# u# {8 b5 l, UDeployment( o4 Q3 j$ ^% s0 S) ]. u Delivery of the completed production system to the using activity., R: v' n5 W7 f8 C7 x MDA GLOSSARY, VER. 4.0 S, b* M1 c# i% s$ I' \ W/ u 285( s) f0 r% H6 | a* c1 D* m4 g System Design (1) The process of defining the hardware and software architectures," @$ A* c5 }5 l1 A components, modules, interfaces, and data for a system to satisfy 7 A+ s7 t6 ~9 Jspecified system requirements. ; l4 P. b- N2 O$ t(2) The result of the system design process. ! N, O% [ v3 p7 `System Design ; a$ M5 G& |. H+ GConcept( }& r" E; s) y' d/ m2 Z' p An idea expressed in terms of general performance, capabilities, and0 Z! O7 S" a9 Y C7 F characteristics of hardware and software oriented either to operate or to be % h9 S$ P8 ]6 ~ `5 Foperated as an integral whole in meeting a mission need., b, h' Z. E0 |, L System Design ( n7 }% k/ K8 \+ p. N' K0 j9 Y6 e3 CReview (SDR) ! i" B) T3 D' s8 b' V+ [0 t v. GEvaluates the optimization, correlation, completeness, and risks associated with 3 }! Q3 m+ {9 s- ^/ x$ Z2 ~the allocated technical requirements. $ ]$ r& k- J0 o" ]1 O7 d: S2 bSystem$ R3 E3 w, W% O& ^) S Effectiveness0 ~2 s/ \6 e. Z: T5 o- z6 s The measure of the extent to which a system may be expected to achieve a set % R) R8 ~! K/ H; mof specific mission requirements. It is a function of availability, dependability, and % G7 J# P6 H" i r/ h% j! |9 H/ g" _/ Ncapability. 1 m' O) W8 z( @8 {4 h& ]: |System Evolution+ T# m2 i3 q, z. o ^5 V" T Plan (SEP) / \( z- Z, }% _% e: f! L2 zThe documented plan that establishes the strategy to evolve the BMDS 0 a6 f, U, {. X4 \/ Z, b a7 X. w' K0 ecapabilities over time. It reflects the BMD Acquisition Executive (AE) and Senior$ x+ s8 \* y% A6 @; y' T Executive Council’s (SEC) development decisions; documents the current BMDS0 I4 F- Z1 T% C& I+ F% h# X" J Development Baseline; and summarizes the capability, integration and$ D3 E4 ^2 j2 ^4 J8 j K assessment of the BMDS evolution. It identifies opportunities (items that provide1 Q: W' t5 N; z* ~% t8 k significant improvements in BMD capability), identifies challenges (impediments to A) b- P$ x: H( I* U4 ? b$ \ achieving opportunity), and points to promising alternatives that can overcome( k, n4 B' _: z s) `( S/ Y those challenges. 9 o, g" G/ w& F' m& I. Q8 w) HSystem Families A collection or grouping of interrelated software systems in the domain that share$ e$ q& {# h: Z6 F# y, W$ e( E a set of common characteristics. 1 w( \& `9 k5 l- |. k/ S) L6 ^System 5 m: Z- G! u, eGenerated. Y. R& t6 w% K- v6 N3 O Electromagnetic1 ?% \& F! g" {9 J Pulse (SGEMP)1 C3 n9 J$ S# C1 i$ j7 S" F Transient electromagnetic radiation caused by the photoelectron emission of the 9 z; q' B. m& Y0 d9 | Ysurface of an object subjected to a pulse of photon energy. Although local5 \5 q0 H! g# J. o4 D fields close to the object surface may reach quite high values (kilovolts), the! G2 _' D c. s. r& T3 E7 E) H primary disturbance mechanism is the flow of replacement current through the ; e5 v5 q0 d0 x+ @object in order to produce charge equalization. 5 I* r- ^0 z7 m. P6 wSystem& N; b- C0 q* v( z Integration Test & O* q: _* o" q7 T! @! WA live flight system-level test utilizing actual system command and control, 9 Q# p8 y! K4 X l; Usensors, and weapon hardware. 0 E* j' D- j; P) R: Q. j" ]- ySystem Manager A general term of reference to those organizations directed by individual j: a4 S; ~- Q3 }2 M: }5 E$ q( z managers, exercising authority over the planning, direction, and control, of tasks & }7 J' _+ q7 z% L8 ^and associated functions essential for support of designated weapons or * Z. E/ Y( }# `* K& ?; K0 mequipment systems.# l1 O+ Y0 c! K System8 U) W2 X; J3 w" L0 N4 g6 G Operational2 e" }' ^: v) G2 Z1 s Concept; v7 m: `6 f: U* v% l6 }3 ` A formal document that describes the intended purpose, employment,; b+ D/ c9 `% n- t* G deployment, and support of a system. 4 W M8 N6 k: u# Z6 O9 vSystem ) P K* @6 H k/ L' ^; U! y5 SOperation and 3 S6 R1 O) o1 ^Integration : R( e; S3 d) O4 s. I3 P& r6 jFunctions (SOIF) 5 M6 m! X2 Y9 iThe automated activities of tracking, communications, asset management, and# D2 @. C$ ?2 m; Q1 P: @2 v battle plan execution, which are executed under the guidance of the Command , ~: L) s$ W% u9 ~5 @and Control Element. The allocation of these functions (and sub-functions) to 2 {( x0 N1 n8 B) D% {' G) w0 Athe system elements will be specified in the architecture(s). 4 B" K; A$ |' G+ W+ g+ u+ D5 QSystem Posture A USSPACECOM system of graduated readiness steps to bring the strategic 3 R$ _, U# v6 @ t, F% N# wBMD system to fully generated alert, similar to the USSTRATCOM concept of# J, n. |' j) ?' N( G posturing aircraft and missile forces to reduce reaction time. I! ]6 L. r' q1 v" Y" t: y& R MDA GLOSSARY, VER. 4.0 S 0 f5 @4 ~6 l5 |286 * H# t0 `2 K. lSystem Program! K+ i0 u. w) } u0 A. s6 _ Office (SPO) G* c( ^1 F: d7 U/ _6 x; y; ]The office of the program manager and the point of contact with industry,) F/ e5 B% ~4 Q7 N. U& Q* l government agencies, and other activities participating in the system acquisition" E+ X/ L. v) E# s) K process. (U.S. Army uses term “Project Office.”)

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System3 `$ I/ y( f5 q- [+ Q/ w) v. [( {0 N5 s$ ~ Readiness$ V3 T( m2 p$ Y" @4 ]! w2 m System Readiness includes the development of OPLANs necessary to carry out; f r, j' t2 x2 P' J I1 M the assigned mission, using strategy and guidance provided by higher authority - o: Z/ Y& S& t) I( b+ galong with knowledge of current system performance and planned capabilities. It5 B$ S$ @) J0 W$ H r- |8 b includes peacetime tests and exercises to maintain the system in an operational3 M1 x! S2 z3 I( Y, `- d state, and the demonstration and evaluation of alternate tactics and the- G- n1 d; m, \# K6 o verification of system performance, to the extent practicable. It provides for the; o9 M6 z9 R+ H" q continued training and exercise of personnel in operating the system under & t/ I( M$ r2 {, Y' I. l2 krealistic conditions, and provides for control of other system test functions 2 t! m- b8 b8 Z- E& J) ?7 h) y$ Anecessary to keep the system operating. It provides for detection of anomalies9 S; _) R% M: @8 V8 i and for corrective action. It also provides for maintenance schedule control, G$ O& D: h+ H) |* U historical maintenance data retention, maintenance training, and test results% F3 _% U- u' u7 [) Q3 l status reporting.0 H4 L O1 O# ~* a& R# ] System 2 h: {" ^7 _) V2 b w4 n% oReadiness ( X& Y$ l6 y8 [4 o5 P( K' E! }Objective. l9 X( j2 d- s$ w) W A criterion for assessing the ability of a system to undertake and sustain a $ t$ W4 b @3 } Z% m% w1 B+ ospecified set of missions at planned peacetime and wartime utilization rates. # X& s* j, Y3 `System readiness measures take explicit account of the effects of reliability and 5 L! Q8 c; |& P6 {0 v. Vmaintainability system design, the characteristics and performance of the support8 k* _8 m+ k. a* o* Z8 n5 x; ^ system, and the quantity and location of support resources. Examples of% r2 T `9 B8 t$ i: w. N' Z system readiness measures are combat sortie rate over time, peacetime mission ( G' o( W# r8 L+ scapable rate, operational availability, and asset ready rate.4 s$ R/ [* Z( y5 B5 v! W) K. F+ h System$ W! D2 M. Y1 e: F: V/ h9 V1 ^ Requirements 9 d9 v- J* g$ J- F+ a2 W' zAnalysis (SRA) 9 y* G/ |, ? ?3 u( wAn analysis of the operational system requirements, as defined in the System 3 _1 B; `; T4 }: T3 T: G0 YConcept Paper and other approved requirements documents, used to determine7 Y3 z( |; t! ~& Z A" {+ N specific system functional and performance requirements. ( l0 H# u a; S1 V, q$ J: |/ ]System . N: D- e' ^5 _3 X5 QRequirements* k5 P2 U5 p$ q Review (SRR)) p3 A, M- d8 w _ Conducted to ascertain progress in defining system technical requirements. & ~5 B. j+ Y+ t% X% k" eDetermines the direction and progress of the systems engineering effort and the! p( @' Z% m4 F degree of convergence upon a balanced and complete configuration.) n O, r9 ^) T- j+ f System Security & w- v' r8 {3 I9 C$ ?6 dEngineering / {" L3 z# }5 z7 h- l: M(SSE)% ^* V4 o- P# t$ `# Y( v) g An element of system engineering that applies scientific and engineering & B6 @5 `: m5 S+ dprinciple to identify security vulnerabilities and minimize or contain risks , `. S( _% \% F% N2 i5 v: Cassociated with these vulnerabilities. It uses mathematical, physical, and related1 S, ^- x) f( s! ]7 p scientific disciplines, and the principles and methods of engineering design and4 @! ^/ H( F5 ~/ d8 J. p analysis to specify, predict, and evaluate the vulnerability of the system to8 Y. ?4 B3 M$ W) z security threats.# a w6 p4 U' f# s0 ^ System Security - S0 w) }; y) i/ ~% s: `+ {, wEngineering + z. z" W) G; v. o- g7 i7 X, CManagement- T, K5 ~0 }. Q* |3 `2 R Program ; G( a/ T7 @! b(SSEMP)( [" z6 z7 f- i+ E- ^/ u The contractor shall establish a SSE program to support economical H) p# [, M6 j @9 L. ?; gachievement of overall program objectives. To be considered efficient, the SSE # T; g) y( n+ q' xprogram: (1) enhances the operational readiness and mission success of the5 ^' x9 b+ b4 c/ R- U3 D P4 v8 f% ^0 A defense resource; (2) identifies and reduces potential vulnerabilities to the 7 O2 u$ w; f# }2 r5 c# K2 kresource from sabotage, theft, damage, destruction, etc.; (3) provides3 Y3 U: T% @3 P# c/ Y1 N management information essential to system security planning and (4) minimizes & `5 {: a8 G; P/ o+ |" A$ pits own impact on overall program cost and schedule. 5 V4 X5 d* Z- xSystem Security " y- ]7 s# K5 _Management4 q- l4 | B* L1 r! q Plan (SSMP) C! D, s8 K6 LA formal document that fully describes the planned security tasks required to ; p V$ q9 F6 d$ J+ s0 Cmeet system security requirements, including organizational responsibilities, 7 \* e3 O* m! Vmethods of accomplishment, milestones, depth of effort, and integration with1 u( k: _1 Z, G" ?5 x x8 Y- r other program engineering, design and management activities, and related ! v* x$ X- a2 D L* f6 Usystems. q2 }- n" X% _' P# GSystems' Y8 b) E# x& d# B$ E; V Engineering: |* m% Z3 K0 y! u8 H# E An interdisciplinary approach to evolve and verify an integrated and life cycle4 K# o% F; |: N. Q( W5 Y8 I: ~ balanced set of system product and process solutions.1 ]( z t$ y8 c: h4 E2 q: Q MDA GLOSSARY, VER. 4.0 S& t1 o, J v7 C7 s9 e; h) E 287+ t* x0 R' P& ]9 ]! S) K6 ] Systems % [% q" K* b OEngineering ' J: J0 j' P; d0 n9 BManagement6 J9 O B) @0 M3 r [5 `% ^ Plan (SEMP) ) S* u1 j/ }* M2 Z/ kThis plan documents: (1) Management of the systems engineering process, (2)9 D7 P, q. w; w) ` Integration of the required technical specialties; (3) Performance measures # k2 y; `% S/ i4 Z3 [+ f$ \5 ?9 Qdevelopment and reporting, including intermediate performance criteria, and (4) $ d% m1 ?4 L0 v# K7 X8 J! NKey engineering milestones and schedules.% F' H5 U# X; O- A7 E Systems Test7 ~. o1 y5 G& ^# K% s/ j. O Integration and 9 a7 {# z; y! _( U' P( SCoordination 9 t; M' q) K5 ]* Q7 m$ bThe combination of SDS elements tests to reflect SDS performance contribution. 7 C* j$ h: q/ |6 d& JSystem Threat8 x9 r5 Z: N$ f+ w+ ?: L Assessment 7 P! [) r( z; _0 }; I8 JReport (STAR)5 \3 t$ ~3 @. k7 F! I6 M Required by DoD 5000.2 and validated by DIA. Establishes the threat (to a 3 i5 V) d) A) ?Service's Mission Area) and is part of basis for considering mission deficiency 7 l+ q! D2 U" r0 a+ [1 h- oand potential program new start. Updated to support a DAB Milestone or when: u# @& @4 _% }3 A5 C5 @ Q" L" { the threat changes significantly.9 `3 O. v- T: r! G E* F* K$ n5 ^ System-Valued * R R8 M$ A9 q6 }. Q& y/ b1 A4 nAsset. K% G3 L% R; L e& V: o A system element/component, function, or information element, which is critical to , U7 ]+ s) e" `* h% Lthe proper operation and well being of the SDS. # u0 f c/ c g1 U4 C, I- s6 i& eMDA GLOSSARY, VER. 4.0 T : b2 G" J+ B% d; Y: W) }288. |$ T; S$ G5 ]% \ T&C (1) Tracking and Control. (2) Test and Control.+ x# ?; q: b7 z/ t3 u3 b3 p+ g T&E Test and Evaluation.# x1 D$ H: q: V0 J T&T Transportation and Transportability.9 n: r- i' R7 J2 T$ c) K6 m T-MACH Trusted MACH./ N' x4 C- ]( \% w0 |) r T-UAV Tactical Unmanned Aerial Vehicle.# b$ B# |* E, `% N ^8 e4 A$ C T/R Transmit/Receive.* J3 n7 ^/ l- s& s+ E T/REA Transmit/Receive Element Assembly (of a radar). 3 e4 J3 c& H! ?4 E- _0 p, S! rT . D$ {) M2 Y9 Y2. N1 g- D. y4 W" o! |/ i. ~( r Technology Transfer. " N& l9 V2 m2 S, T7 @! ]5 PT * K5 ]& {. e. C! I- b( t29 u k* l0 L- U# l1 P! ] E Technical Training Equipment. & T9 p2 f6 x u& @. H5 UTA (1) Threat Assessment. (2) Target Acquisition. (3) Test Articles.& R" p- p1 N0 A7 P. A' h2 e3 M TAA Technical Assistance Agreement. # d" r5 y4 V6 Q! z5 z6 S* q# cTAACOM Tactical Air Area Commander.- N+ r2 F4 ?+ s" c TAADCOM Theater Army Air Defense Commander. O5 c+ Q6 z; } TAAF Test, Analyze and Fix. + t$ `+ \! g. Y( w2 K$ {TAC Tactical Advanced Computer.3 T( c) O# @5 C* ?- Y9 B( u0 z TAC-3 Tactical Advanced Computer – Three (USN term). " p0 r+ V: {1 R! r* _4 ~TACAIR Tactical Air.: c4 o" s+ k0 s2 H TACAMO Take Charge And Move Out [Airborne SSBN Command Post]. ; ^5 `, [5 x4 h! `- a4 e T U5 i4 c+ ATACC Tactical Air Command Center. 4 L; W" O' [+ U& \" A$ rTACC USMC Tactical Air Command Center (USMC term).7 p' d1 C" P$ [) ]* A TACC USN Tactical Air Command Center (USN term). 8 i; B' e4 b/ J8 yTACCS Theater Air Command and Control System.! m. c) l" M# \6 K TACCSF Tactical Air Command and Control Simulation Facility.. Q8 u6 U" j; f2 T. v# [" a TACDAR Tactical Detection and Reporting. $ a2 R' Y+ L) c8 T) m3 d/ ATACFIRE Tactical [weapons] Fire.

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TACINTEL Tactical Intelligence Information [Exchange Subsystem] (USN term). . A& M% l8 [* ATACOM Tank and Automotive Command (US Army term). " g: @3 q# l) q% b7 w# m- b0 XTACON Tactical Control.( q3 L- u$ Y y TACS Theater Air Control System. $ J# ^6 }, B$ e1 }: X7 FMDA GLOSSARY, VER. 4.0 T4 `- b! W- l% Y% j- \; h4 | 2895 e3 E+ V5 N+ H9 A# t TACSAT Tactical Satellite. " Z$ Q0 S: ~, e+ rTACSIM Tactical Simulation + g( ^5 J( }3 a) P) `. Z4 dTactical Air0 g `6 M- w! b+ d0 ^" p5 X Doctrine' G. R+ J P8 P X, }4 z( _ Fundamental principles designed to provide guidance for the employment of air6 t. z0 \! A6 i& G9 j power in tactical air operations to attain established objectives. 4 r: c! G' Y2 R; V6 tTactical Air* r! v' B0 w; k' S [2 Y# L( n K Operation7 v6 h. C7 u2 L" h/ U An air operation involving the employment of air power in coordination with) }' j6 Z) a: V: k, ^. s ground or naval forces./ P: b, K) U# `5 t Tactical Air ; d- \1 p: g% fOperations $ ^( \; d1 p' e7 Q6 WCenter+ _) R" u- g' U1 P4 ?: P A subordinate operational component of the Marine Air Command and Control& H: O% k- z# f8 Y% T4 P! m( S" n System designed for direction and control of all en route air traffic and air 8 u4 e) V7 M x3 f' [5 @defense operations in an assigned sector.2 E) Y0 ~- ~9 |* U Tactical Air $ V8 ^3 v5 ]" h2 tSupport % C" \" s; E: D( c# y; j6 q. bAir operations carried out in coordination with surface forces and which directly1 m i3 s: O; k2 ?+ a3 Z& K assist land or maritime operations. - ~) F1 ^$ I$ O: o5 [$ m2 `* rTactical Area of - [' U# H' M7 d9 ZResponsibility, b8 S, W) p% d* H1 Z (TAOR); D9 L: J* y: }- B: a A defined area of land for which responsibility is specifically assigned to the \' F8 K; A! v. {commander of the area as a measure for control of assigned forces and/ N$ d8 U7 U- C2 U7 l, C3 b coordination of support.# J" A3 j3 i0 D- }) Y" ^# f Tactical Ballistic ) n1 c+ q, q. [% Z2 @Missile (TBM) ) n( [+ C. F5 d. p% _# k( ]7 oA land-based missile generally having a range of <3000 miles that can be , Z! b2 T/ `+ k3 P3 f' r0 `; d! uemployed within a continental theater of operations. & s; y8 e! v7 V4 oTactical Concept A statement, in broad outline, which provides a common basis for future& x& \7 K. ~. v6 k: S development of tactical doctrine.. v9 Q0 `( X2 s; K Tactical Control The detailed and, usually, local direction and control of movements or 2 z$ Z" t3 C3 c# o$ zmaneuvers necessary to accomplish missions or tasks assigned.& }& ?: s9 `7 t. P* G% l Tactical Data + n0 C; |/ U" I: H2 VInformation link 4 y$ U! O- M6 ~ H, H" \, \A netted link in which one unit acts as a net control station and interrogates 0 M7 R+ T& a. r7 \! a! [( z( s" eeach unit by roll call. Once interrogated, that unit transmits its data to the net.# {% p c* K2 f' {5 \3 j; [ This means that each unit receives all the information transmitted. + }# A/ a [( @: B; B8 o! {# ~0 STactical Level of # a6 r3 x' D1 X0 e# lWar " P5 E3 x7 ?3 aThe level of war at which battles and engagements are planned and executed to9 f1 ?$ \: @# s' C4 ^/ M, f accomplish military objectives assigned to tactical units or task forces. K; I. u0 N2 Y! b& O Tactical" e' d+ l3 ^/ Q/ ?: t0 K Operations Area4 ^ m9 V% k, E' }; B3 D( [( y- n" j (TOA) * p3 m. v- u) u8 X& _9 uThat area between the fire support coordination line and the rear operations 3 r$ K+ t% J" g \) Qarea where maximum flexibility in the use of airspace is needed to assure mission 8 U2 B/ c" I8 X4 X9 U* {accomplishment.& O6 r7 r% k) L7 C. f! H Tactical5 d3 k/ K( @- X) s, r2 e Operations 9 B2 L$ k# y* G# m3 ]; {Center (TOC)8 h* C# p4 |7 d, N A physical grouping of those elements of an Army general and special staff3 C& r* C9 W$ Q7 U concerned with the current tactical operations and the tactical support thereof.4 Y6 I+ {0 r7 u2 \# O" S5 q7 |: y% x Tactical Warning * a4 g& _: U( j0 P(TW) $ X8 P2 C* C: g(1) A warning after initiation of a threatening or hostile act based on an6 i: g% x0 {# ^7 l3 f2 n evaluation of information from all available sources.$ j& I5 v1 t: w3 D4 c, K- M (2) In satellite and missile surveillance, a notification to operational command+ j6 y/ o w: I6 T/ F* ]/ J centers that a specific threat event is occurring. The component 7 s4 ?0 H# {: u) W& selements that describe threat events are: country of origin, event type 7 t8 a5 n' j- D2 b) ?% {9 Eand size, country under attack, and event time. 8 g+ |/ V: f# G+ X" V6 ?5 l3 FTactical) [: m- C) n& c- Q7 k! X/ X Warning/Attack 7 n$ b1 _9 V$ l0 ^' @Assessment 4 l2 H& U6 l* k/ X1 n% I(TW/AA) * X" p8 B* }! TA composite term. See separate definitions for Tactical Warning and for Attack! m% Q, f7 m! M; \; o; l3 c9 ? Assessment.# B1 o) D/ [8 t; D' ]8 z9 V MDA GLOSSARY, VER. 4.0 T 7 X9 a9 e* S+ A5 K290 3 ?5 t2 u7 W4 D: _; w' }# Q0 CTAD (1) Tactical Air Defense.) Q: L- H3 x( i* [1 |9 E2 q (2) Theater Air Defense. 5 N2 `# {8 L* \& J8 K6 q4 _(3) Technical Acceptance Demonstration.9 x+ `5 q- \# A- T* Q: u TAD C2 Theater Air Defense Command and Control. # S% H; [ P$ a/ @$ A9 ~6 _TADAP Theater Air Defense Asset Planner. / e' q! H9 w- ?' ~4 ZTADC Tactical Air Direction Center. $ Q) B7 b2 ?# T" T& p' B5 jTADCOM Theater Air Defense Command. # l' ]) {) e3 cTADIL Tactical Digital Information Link.6 L' o& j& h- y TADIL A Tactical Digital Information Link “A”. x& q2 T/ o7 b+ G. [ TADIL B Tactical Digital Information Link “B”4 W; B) O$ x/ s1 j1 R+ ?1 v TADIL J Tactical Digital Information Link “J”2 g1 a1 W" N0 G+ P TADIX Tactical Data Information Exchange.8 x) N# @# Z& ~& `: W/ Y TADIXS Tactical Data Information Exchange System.+ Z6 `$ H8 G j# D, G+ j) o TADL Tactical Data Link.+ K. x" x2 X7 q6 |' j, G9 A TADS Tactical Air Defense System. 6 F5 ~5 V3 j$ V0 F' |TADSIM Theater Air Defense Simulation. 3 i1 \/ G) f0 p8 h& }+ q; |( |TAF Tactical Air Force.6 x& I; t4 o9 F. z/ U TAFIM Tactical Architecture Framework for Information Management. 7 R1 R# z' `5 i: E$ B- xTAI International Atomic Time." y% g8 b o: L: Y TAIS Technology Applications Information System. & ~6 e4 D# _; B0 sTALDT Total Administrative and Logistics Downtime.# U- N+ t/ B) j4 n TALON NIGHT TALON programs, which support SOF.. w A1 R" b3 j* }5 z TALON SHIELD An effort using stereo DSP processing to provide ballistic missile burnout vector" y2 Q6 G$ T1 k0 C and impact prediction for interceptor cueing, counterforce tasking, and passive- D: ^8 \; n+ e- p( |. ?! G defense.

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发表于 2008-12-25 20:23:44 |只看该作者
TAM (1) Theater Attack Model. (2) Theater Analysis Model. . ^& Y, Q- k2 d* X: s, Y; cTAMD Theater Air and Missile Defense. % O( w5 I r1 T* ~, W" T1 l/ p3 x! bTank Final Propulsion Stage (used interchangeably with sustainer).9 Y% u0 ?8 u) K) E3 A: d o Tank Debris Hardware associated with tank. , a2 e/ R5 U) B2 BTank, U9 c! A& e: R& n8 J h Fragmentation + D1 d. B- D! j u# zThe breakup of a tank, either intentionally to serve as a penaid or naturally as a, n5 v- E; ^' D$ ] result of aerodynamic loads and heating upon reentry.$ ~7 h( E" l- A& S MDA GLOSSARY, VER. 4.0 T% N# U3 W" {8 E: k 2914 w$ O# d: l {$ W$ |1 \ TAOC Tactical Air Operations Center.8 d2 g/ w4 @1 H* H3 A0 Q6 W" G" o4 ~ TAOM Tactical Air Operations Module. ) W( b. R& q3 OTAOS Technology for Autonomous Operation of Satellites. 6 r6 c) H7 P- f) n) w4 gTAR (1) The NMD Threat Assessment Report. - }' h7 ^: {/ A+ ~) p(2) Threat Activity Report." u1 }4 i9 B9 j- w& v% a# w (3) Target Acquisition Radar. * W7 o4 J9 o, B2 a& j0 r6 U+ {TARA Technology Area Reviews and Assessments. $ E9 m- Q/ e( J8 }) S0 `TARGET Theater Analysis and Re-planning Graphical Execution Toolkit.) Y: l# t: q& H5 Y Target + X( }) m: U5 Y' ]# kAcquisition& c& l7 u. L. | The detection and initiation of track on a target in the surveillance coverage9 F) ], B2 ~) m3 M3 k. C$ V, J! O9 Y region of a sensing system. ( O) H+ ~1 Y/ Z. YTarget / S( W/ W- c! rClassification 4 }# `3 R0 _: ?+ l! iand Type : F& |# {& ^0 H: M8 K* ?4 rIdentification of the estimated target category based on surveillance, * `# A m2 f3 W! D# pdiscrimination, and intelligence data. ! V# B0 w2 q; HTarget |) c/ c6 a) v& Q3 lDiscrimination 1 @; S2 L' j u% uThe ability of a surveillance or guidance system to identify or engage any one ( y' L" r) p4 V( e' Ltarget when multiple targets are present.- F C, |* Y G% H3 _' J Target Object % \# ~5 C% N; _: A9 h& U. _. k8 aMap (TOM)* |* x' U% y0 z# e5 g0 a) ~ A data set, which contains three-dimensional position, estimates for target and+ r: @& ^$ b. X- s; S other objects predicted to be in a weapon interceptor's field of view for use in ! b7 `! b( n3 f! h, r2 W) C8 ]target designation. (USSPACECOM)1 n7 J. o* {# `" k% C$ F9 N Target Resolution The splitting of a single target into two or more targets. 7 b( X- b W/ {9 u* JTarget Signature (1) The characteristic pattern of a target displayed by detection and . a, ~9 b8 f) T7 x6 @) Midentification equipment.' H7 E3 N* O" j' g (2) In naval mine warfare, the variation in the influence field produced by the/ U r% V. Z$ S, | G passage of a ship or sweep." W. E/ i& G1 Q9 | Target System ( E1 v$ @5 t: QRequirements : P( e, L) V* e9 o rDocument (TSRD) 9 Q! k8 f* F% M3 DBMD Program level program management document. Developed by each BMD& s. P6 X2 e, D3 G Program Office, it outlines to MDA/TC and MDA/TE what the PO’s target/ J' ]# W" }) S5 B1 K; k requirements are for each specific flight test based on the test objectives.- t% \. W1 @6 H: d' m0 \* S2 D( l Producing the TSRD is the first step in the target development process.9 L8 ^/ G2 P7 b$ @ TASA Task and Skills Analysis.6 J& w* T$ W/ a% l! ~; t/ K/ { Tasks The required actions to accomplish all or part of a COA. Tasks contain guidance , h" f- p4 q9 ^; y c- \# Q/ yto the Battle Management/Command, Control and Communications (BM/C3 ) + w8 |4 f' u/ J: ]1 s3 zengagement planning function concerning resource allocation, constraints, and ) s$ w$ D" q* ^ [. t+ o) P/ Mrequired performance. 3 m5 d+ A. {; z" N/ e* M! e6 b1 GTASM Tactical Air-to-Surface Missile. $ e* X) l/ p) JTASO Terminal Area Security Officer. & B# H' [; e9 M3 o* y" lTAT Technical Area Task. . b/ l3 W3 d% K' Z: |) ITAUL Teat and Upgrade Link. & h8 o( d/ [1 v4 o; O5 {9 PTAV Transatmospheric Vehicle. V; o4 T. L# d& C7 L5 k+ y6 IMDA GLOSSARY, VER. 4.0 T& D# O# ?5 l8 \$ T 292 ; b0 G0 \ B% T$ ?* x" N7 oTAWG Threat Accreditation Working Group.; k. O+ Q. i4 |- K+ G1 U TB Test Bed. 9 V: Y8 C4 k: K/ |9 U R" MTBA (1) Theater Battle Arena. (2) To be Announced. * w: V9 \1 C8 W/ l9 Z) f, dTBD (1) To Be Determined. (2) To Be Developed. ! p* `; @% ]& S7 l! X8 K+ WTBIG TMD BM/C3 Integration Group. 2 N$ H$ {0 E9 T: D( @/ W% vTBIP TOMAHAWK Baseline Improvement Program." y) w- ?" p$ S6 f TBM See Tactical Ballistic Missile/Theater Ballistic Missile. 8 z" B) b# m9 i# L+ t7 U5 eTBMD Theater Ballistic Missile Defense. # P4 r. I% [, M4 aTBMDSE Theater Ballistic Missile Defense System Exercise.. {9 ]( Q. C2 b6 E' K& u' X TBN To be Negotiated.2 Y) T3 ]: ?' ]. G TBR To Be Resolved. ( N5 z& Q; t8 p$ g0 O, x" qTBS (1) Tactical Broadcast System (US Army term). + |4 y) Q! Q. M- ~: V5 N, b$ ~(2) To Be Supplied. $ w$ Y: t( \2 ?& `7 i& p(3) To Be Scheduled 0 R" f, Z$ O& N. ; Q3 O( w! i# e1 d, R, r% E* N, g0 MTCAMS Technical Control and Monitoring System., }( l) ^' P* |1 b( _2 i; W1 L TCC Tactical Command Center.( V- o# }6 S4 ~ TCCF Tactical Communications Control Facility. * h' [; G; O) K" aTCE Three Color Experiment.9 B# A' Y; N0 T. D4 }; ^ TCF Tactical Combat Force. i0 m) l2 O; a6 |$ V. Y TCMD Theater Cruise Missile Defense.* t* I9 m( a4 C | TCMP Theater (Missile Defense) Countermeasures Mitigation Program.- x3 K: y* d* E: L; t+ T; K TCMP I Theater Countermeasures Mitigation Program One.& l* T# F2 { O7 K5 S: h" b TCMP II Theater Missile Defense Critical Measurement Program Two (Replaces TMD , J% y; d# w" K! e1 YCountermeasures Mitigation). : e0 s* B( A& |TD (1) Test Director. K |* s- w/ k+ |(2) Technical Data.! U2 l/ a2 m5 }- V (3) Technical Director. & j; s, X, h) M0 f(4) Training Device * Y) \$ q0 x# l+ J0 l3 ~% qTDA Table of Distribution and Allowance. 2 n2 l& d, T0 m9 kTDADT Total Distribution Advanced Technology Demonstration. ' i- o8 A8 T* ?# D) a* M8 n8 STDAS Theater Defense Architecture Study. & n+ Y$ G8 E u& b4 A2 wTDASS Theater Defense Architecture Scoping Study.: U' L) U6 U% M4 |; r a% @ MDA GLOSSARY, VER. 4.0 T! C& I3 p' w% X* w3 M 293 / F- E4 M* ~; M! Q2 B( C+ W$ e# f- @7 HTDBM Track Data Base Manager. ( J' j7 _8 a4 b8 ]& b+ L5 } R7 nTDC (1) Tactical Display Console. # w( w- p1 Q0 I, y; z2 S(2) Theater Deployable Communications (USAF MDAP). 7 \0 W& ?3 j, xTDCC Test Data Collection Center. 7 g0 S; c% Y5 y! \7 G8 DTDD Target Detection Device.6 e/ ]# Y4 N2 H! C. l TDDS TRAP Data Dissemination System.% G$ X3 z9 {5 T# G% \, b TDI Target Data Inventory. / {* x3 @0 B! \0 vTDK Two-Dimensional Kinetics nozzle performance. # f' V( R: _* t) k% r# mTDM Time Division Multiplexed.0 a2 S$ b. W( D6 n6 l0 f3 e TDMA Time Division Multiple Access (TelComm/Computer term). 6 L* l! B+ d9 ~7 r' `! VTDNS Theater Defense Netting Study. % }; ^( v& e$ z4 {TDOA Time Difference of Arrival. k! P6 G' O$ `TDP (1) Technical Data Package. 3 f7 G# J8 k8 \1 O5 g9 c(2) Test Design Package. 3 }. D- S Z" `; m4 ^' \(3) Threat Design Program.

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发表于 2008-12-25 20:23:53 |只看该作者
TDORC Technology Demonstration, Quick Reaction Capability. 5 ]9 ^6 ?; L4 f& KTDR Terminal Defense Radar.9 a, _3 @# F2 f0 Q* X+ k& [8 P3 ^ TDRSS Tracking and Data Relay Satellite System. % B8 m2 u2 F) r! t+ ]7 `) dTDSSPA Technology development for Solid State Phased Arrays. , o9 S2 z, n/ c9 N) k9 N) ^TDT Target Development Test. 8 h# k, D" ^! C0 z5 eTDTC Test, Development and Training Center. * N: A2 p* ~7 z3 d* t/ T Y. DTDU Target Data Update. ' D, Y" {7 ~5 O- Y2 s, B3 o# _* s cTDUGS (1) Target Data Uplink Ground Station. (2) Target Data Update Ground Station.' _* C, W& V' N" t' w TE (1) Thermo-electric. (2) Test Engineer. (3) Training Element. 3 H- }0 ]# U9 O) C2 c7 w# E(4) (BMC3) Test Exerciser.* \, A" L( u( A8 W, ` TEA Transportation Engineering Agency. - j1 q2 D, T n: G: W" b7 Z3 {TEAS Test and Experiment Activity Summary.4 A- j0 v) v/ z# V7 P% d7 E0 w/ R( n: P Tech (1) Technical. (2) Technology. (3) Technician V5 Z G" l7 ^7 i9 U6 A4 A TECH Technical4 V0 U0 R( K8 l; e TECHON Technical Control.% @7 B! N1 r; A! Z! l8 B# I TECHEVAL Technical Evaluation (USN term). 1 p' f$ L/ {" H8 W$ h. `MDA GLOSSARY, VER. 4.0 T& W/ \2 `- |# w. R; j 294 ( W8 l# U) K7 P0 ?* z! A4 T% ATechnical Data Scientific or technical information recorded in any form or medium (such as0 N1 t. _4 J9 z# ]4 y1 B- ^" ~( _ manuals and drawings). Computer programs and related software are not 1 H4 i/ R0 b8 f9 d$ btechnical data; documentation of computer programs and related software are.+ [1 t& X* n1 t( p Also excluded are financial data or other information related to contract * Q7 t p- V$ l: A! vadministration. " z! |7 B: `' r5 BTechnical Data. t3 X# F% L# `) C Package (TDP) 9 }9 ?( l$ s0 j+ x( Y; _) T+ sA technical description of an item adequate for supporting an acquisition ) Y* Y3 b( `1 ^8 lstrategy, production, engineering, and logistics support. The description defines7 o, G9 m9 c0 x, T3 O' L m; j0 R the required design configuration and procedures to ensure adequacy of item . P4 p: h' v( ?2 {performance. It consists of all applicable technical data such as drawings, 0 {$ b, W" w- b" w$ z: vassociated lists, specifications, standards, performance requirements, quality 9 n5 A. }) X# Fassurance provisions, and packaging details.

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Technical; }+ W3 ?9 p% | d Evaluation' V8 ?0 Y: N) l5 y( I4 x8 ~ The study, investigation, or test and evaluation by a developing agency to ' E9 r# e" t. @2 \determine the technical suitability of materiel, equipment, or a system, for use in4 V- I4 e- A2 V1 x* _6 |# D the military services. (See Development Test and Evaluation.)* v+ d$ @* `. ?% E, j; X Technical . B- l* e0 T8 |% ]/ yObjectives, x' w% x U' x$ c* a$ ? The “target” values for the development effort when insufficient data is available 0 Q# i' C s" O7 \9 zfor stating binding technical requirements.& N& J. e7 J B/ N, A Technical 6 ~( y q' ]8 J T/ j, OObjectives &$ T) n; r% X$ s& s, ^+ D Goals (TOG)7 R9 q/ I2 w2 n, m High-level acquisition document to guide decision making for BMDS + @" T7 B) b( Ddevelopment; communicates objectives and goals., f+ Y H) D' @ A- K0 H Technical+ B4 R: h% v4 j* z, { Parameters (TPs) 4 h' n, m0 d" XA selected subset of the system’s technical metrics tracked in Technical ; L1 Z7 ~$ ?9 N( z# \Performance Measurement. Critical technical parameters are identified from risk 6 c+ b- ?6 a+ p8 ~# \' |analyses and contract specification or incentivization, and are designed by0 F8 j( S& p a6 t, `0 y* _ management. " ?" N2 Z$ y9 Q5 D4 o5 U. [9 zTechnical3 ]9 w/ ^% a5 r( l Performance2 J* p/ D! G B; S$ Z+ @ Measurement . s: i9 `* b; C+ u! L; ~(TPM)9 D5 {6 f; O0 x1 d3 r" O Describes all the activities undertaken by the government to obtain design status6 Z, x) T+ m( i, ] beyond that treating schedule and cost. TPM is defined as the product design ; B2 y4 ?1 g4 t+ y" S# J% tassessment, which estimates, through tests the values of essential performance 2 _' j( i6 u9 Iparameters of the current design of WBS product elements. It forecasts the; J* I+ s% J) K values to be achieved through the planned technical program effort, measures @+ y; |/ ~; Y$ V. g% @- g: cdifferences between achieved values and those allocated to the product, v7 X' g) @3 | u* n element by the system engineering process, and determines the impact of these + p8 ~. K, z& T `differences on system effectiveness. 6 \, _; y0 S& j, JTechnical1 ]0 L% q. n- j. K. b& ? Specification 0 u( }2 a6 [! W: _* oA detailed description of technical requirements stated in terms suitable to form" u5 A3 q" O% F+ c, u* O } the basis for actual design development and production.8 @! N2 j7 J3 s, ? Technical 2 y4 X) g( h: {6 ]# R. q" v+ ]Surveillance+ ^ |) H+ e/ L7 p [" G Intelligence gathering methods in which clandestine listening, photographic or & A1 |1 W/ l; p' i; R8 t9 Nemanations gathering instruments are placed within SDS facilities, or otherwise! f1 g0 _2 \3 _4 Y2 x" t targeted against SDS assets to gain access to denied information. % G) W, I5 Y% k9 q$ b/ TTechnology+ \5 S# z( M: e. R Executing Agent : w0 }" T2 z: ^- x ZThe Service or agency (DoD or non-DoD) that has been delegated management / c. f2 x! Z, V$ R$ ]# B$ qresponsibility for a particular critical supporting technology by MDA or Executing }3 ~ k, K) H! y, a1 z Agent. 7 ~- U& J1 V5 t( mTechnology 0 @" [! Z/ I O; dProgram 5 z+ r! S s% S' \8 B: u5 XDescription : p) Q1 {: p' o7 q2 Q1 pThe generic description of the applicable supporting technology or critical# P o' t8 Y+ j2 Q2 [; z supporting technology.$ ~+ h7 E! N6 h! c/ [2 t TECOM Test and Evaluation Command. h4 o+ l0 u) i YTED Technology Exploitation Demonstration.! V# z/ R/ A; m# j4 \% E. l MDA GLOSSARY, VER. 4.0 T 8 e/ F* e5 }* ~1 l. |9 u" D: R295 8 Z2 ^4 ~. T$ R" W3 G$ T( ETEIPT Test and Evaluation Integrated Product Team. , N! |2 G- T! `, l# wTEL Transporter-Erector-Launcher.0 c& S3 s* m* ~2 g* L6 Y, g) w! ]: i Telemetry, ( t% t5 N( C6 Q8 L4 [Tracking, and 2 c7 q+ K, Q e# zCommand (TT&C) 1 L# I; `% J: f J2 J- PFunctions performed by the satellite control network to maintain health and8 T/ O. [4 }$ ?$ d status, measure specific mission parameters and processing over time a , [" e+ s2 A, s! p* e/ `sequence of these measurement to refine parameter knowledge, and transmit . v2 R) |: ^ ]5 |7 C! amission commands to the satellite." s) Y; w4 Q0 F! P2 m/ a Teleprocessing The combining of telecommunications and computer operations interacting in the& [, j* c9 o% G( q5 ^ automatic processing, reception, and transmission of data and/or information. , \2 a/ @9 J+ K' r* xTELESAT Telecommunications Satellite. 1 X# B6 c/ K+ g. f$ Q) fTELINT Telemetry Intelligence. % z% N( R" | x4 j6 G v2 E) ETEMO Training Exercises and Military Operations. 6 V# d; n# U" ~' ^ L' W. ITEMP See Test and Evaluation Master Plan. 8 |, M5 F% |' i7 }TEMPEST TEMPEST is an unclassified short name referring to investigation and studies of ' V q; Z4 v0 E! E8 b5 _compromising emanations. It is often used synonymously for the term / b6 H9 ?1 j$ r5 [7 U"compromising emanations,” e.g. TEMPEST tests, TEMPEST inspection. (See5 {0 V, W8 @; |! h) A9 C Compromising Emanations.), q, E+ }, x' b; i TENCAP Tactical Exploitation of National Capabilities.* G* y, J9 t( x/ J$ s$ b TEP Test and Evaluation Plan. 7 B3 `" }- ~% @; k, t6 jTER Test and Evaluation Report8 w% Q! A3 S) S6 G9 w TERC Test and Evaluation Resource Committee.+ f9 N& }1 ]+ t; ?; x% _. g) P TERCOM Terrain Contour Matching. 6 D) Y# a2 s' S# m5 j+ ~Terminal Defense- k$ @& X/ g- }( k Segment (TDS)# e _& E S7 v3 P0 p The portion of the BMDS that defeats ballistic missiles in period of flight between + O, ?6 O9 j/ a% }; r, A. R0 s3 d" uatmospheric reentry and impact.. i x3 D& \. x! l Terminal. `1 y: ]/ x- F) f8 V9 _ Guidance e3 \0 j' N$ U7 }7 a+ i0 B' N( VThe guidance applied to a guided missile between midcourse and arrival in the$ F, R* |9 o- K" Q$ Y vicinity of the target. 1 E. x5 s' O$ T5 L& \5 `1 vTerminal Phase That final portion of a ballistic missile's trajectory between the midcourse phase ~) h4 e2 N, k. z" cand trajectory termination. # T8 t! g; a' u4 K0 `9 E4 `Terminal Phase5 @+ ?2 E1 P D! ] Interceptor + }& G) |! J$ P% x4 tA ground-based interceptor designed to intercept and destroy RVs in the ) s1 D6 c; G# w1 ]' \# g3 q u% n6 Eterminal phase of flight. It may also be assigned to intercept and destroy enemy % |& A6 t! `- C7 J. ~( hPBVs and RVs in the midcourse phase. (USSPACECOM)4 |7 T0 R! g2 Z4 Y0 K+ X Terminator Transition from sunlight to earth's shadow in space.$ k! }2 E) z; v* @1 [ TERS Tactical Event Reporting System.+ G. q4 {3 K2 G9 T* n TES Tactical Event System.+ F& v7 {1 M' U TESP Test and Evaluation Security Plan. 8 X% c" Y$ p4 q, E" ATESSE Test Environment Support System Enhancement.( q: V7 {& x J$ U; Z MDA GLOSSARY, VER. 4.0 T1 z4 v. W* R$ e) x2 N2 ~4 z* _1 ^, k 296 7 A' g. p1 H7 Q5 Z, _5 r( A6 w" c- oTest and Control The ISTC Test and Control provides the human interface for testing system( ^. _+ C8 Y# C. ~ hardware and software. The Test and Control will consist of the necessary / [( y$ \9 d+ X; Qconsoles, processors, and storage devices in order to be able to control all 0 R* S, B( ?+ D! [2 s/ {operations of the ISTC such as configuring the system, running a scenario, 1 X8 @9 i3 X9 M6 H, }analyzing data, generating reports, and testing system hardware and software. 5 j9 `- J3 ^( v1 u. qTest and& e/ u! ?; T2 ~, A Evaluation (T&E) + k3 ]# {4 Q2 b$ R( \# SProcess by which components or systems are tested and the results evaluated9 h* X* g* R) D- B' N to assess progress of design, performance, supportability, etc. There are three$ S+ w7 y' O8 \: K1 D4 B types of T&E -- Development (DT&E), Operational (OT&E), and Production % \3 @4 M( ~6 u- _9 x5 ]6 p: tAcceptance (PAT&E)--occurring during the acquisition cycle. DT&E is conducted) @, @3 S1 x% x4 l: Q to assist the engineering design and development process, to proof* v! x% B- z) K manufacturing processes and control and to verify attainment of technical / x( e0 b9 s. R) d4 Kperformance specifications and objectives. OT&E is conducted to estimate a' W& [: z ?/ s9 ?9 R b system's operational effectiveness and suitability, identify needed modifications,5 j+ d1 n- \/ o and provide information on tactics, doctrine, organization, and personnel ; k: z3 b! L0 k: `* e8 c; [8 c( f' Hrequirements. PAT&E is conducted on production items to demonstrate that- L' r/ X& a# k, T+ [( J1 o those items meet the requirements and specifications of the procuring contracts+ m2 a0 `+ t- ^$ W+ r- z/ x or agreements. OT&E is further subdivided into two phases--Initial Operational) H& L5 Z7 N4 k (IOT&E) and Follow-on Operational (FOT&E). IOT&E must be conducted before6 A7 X7 ~0 q& \% q/ _% Q( J the production decision (Milestone III) to provide a credible estimate of ' k& R# p6 W" `% s9 F8 q0 _) Xoperational effectiveness and suitability. Therefore, IOT&E is a field test + U0 k" U! _, h9 Lconducted on a production representative system in an operationally realistic7 \* V8 ^+ l. n3 x' ]5 x! |2 a, I environment, by typical user personnel and includes use of realistic threats. . f1 u; l% t7 }, A5 v' ]8 B4 }! ?FOT&E is conducted on the production system to verify operational effectiveness# U$ d% @/ p( U7 r; g and suitability, to fill data voids from the IOT&E, or to verify correction of' Y3 q2 I4 Y6 `3 o deficiencies in materiel, training, or concepts.

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Test and - o. i; T5 f+ t$ p. K) v- OEvaluation . g( p" u) { Z D7 R* J( Z1 x& t5 UMaster Plan' t4 [5 p, Y5 [# @ \# l (TEMP) - c: B1 ?& D2 W9 [" {6 @An overall test and evaluation plan, designed to identify and integrate 2 H1 h: ~0 j% F3 t* F3 \0 H6 kobjectives, responsibilities, resources, and schedules for all test and evaluation ; [# G, P( \ h7 p2 U# Wto be accomplished prior to the subsequent key decision points. Prepared as; ~7 J9 Z) \- p* a2 Y2 m% J early as possible in the acquisition process, it is updated as development 1 Q3 V3 y( p, D. t$ tprogresses.8 d/ |' ~6 m2 C Y7 d, z Test and0 c& L2 _; l) R) F% v6 u Evaluation# z# c h, V- L- @ R Working Group H! m1 N6 \& s+ C (TEWG). `- j5 D6 t, U3 j) A5 b' @ The TEWG is the forum in which T&E coordination for test requirements, + S3 m* X$ r: S& D, g8 ^9 `planning, execution, and reporting, is accomplished among members of the0 T$ j9 D7 _* R7 q+ f Acquisition Team. The primary purpose of the TEWG is to optimize the use of 3 X A- A, B, \& ttest data, instrumentation, facilities, and models/simulations to achieve test * Q- D6 O0 M N o, @integration and reduce program costs. The TEWG is established by the - a& L, @% b k7 rprogram sponsor to integrate test requirements, resolve cost/scheduling# ~, V! Z$ W& J/ i: B problems, facilitate TEMP development, assist in preparation of RFPs and ! ~! q) ]7 B- e- Brelated contractual documents, and assist in evaluating contractor proposals 7 m. n4 B! v3 y3 U9 `; Ywhen there are T&E implications. 2 S% M7 v1 U8 j2 M8 \4 pTestbed A system representation consisting partially of actual hardware and/or software5 q+ J5 n2 w. R/ ], Y0 h7 r and partially of computer models or prototype hardware and/or software.) r6 \* w6 [6 @( C% ?3 v) C Test Criteria Standards by which test results and outcome are judged. 5 i, u# A- [9 I# l: b2 n! FTest Integration + L. Q" J# X4 F1 EWorking Group 7 r! v8 |) C$ d2 F4 J2 _(TIWG)& B/ {5 _# j( h( J+ h8 o A working group designed to facilitate the integration of test requirements in2 n/ l4 B4 \0 W2 e order to minimize development time and cost and preclude duplication between! K1 d5 P7 Y% w- S6 K% m% i, Q developmental and operational testing. : O- |+ I; H8 K9 h) E2 K( G% v) w. iTest Plan A document prescribing the approach to be taken for intended testing activities. 8 v/ {9 {7 ^& Q: _The plan typically identifies the items to be tested, the testing to be performed,5 t3 [4 q1 `' ^# E$ V7 I test schedules, personnel requirements, reporting requirements, evaluation# z5 n% x8 a. n1 Z3 _ criteria, and any risk requiring contingency planning.6 b! \! R& G) b0 S7 L2 Q( Y MDA GLOSSARY, VER. 4.0 T0 w; V3 B0 l* Q& ?$ F0 q- s. l' h 297 ! }. w5 q( o6 Y m7 aTest Target2 q+ h8 z: Y$ z, j* D; J/ u Vehicle (TTV) / s# a4 C9 p- {8 E5 dSingle stage, ground launched, solid propellant theater target developed for 3 s% h. a" T7 |. Y) }SMD Program. Also called “Aries”.) [' ~! a) R! L1 C0 i! J Test Validity The degree to which a test accomplishes its specified goal. % B! H4 K) U3 W, Z- w- O% Z" v6 TTEV Test, Evaluation and Verification. 0 V( W3 N1 O- MTEVS (1) Test Environment System. (2) Test Environment Support Systems. , n' k' z: o Z6 a4 A6 B9 x4 w2 OTEWG See Test and Evaluation Working Group.4 V; I. m( _0 ` TEx Test Exerciser (NMD BMC3 Term).- P+ e: F* o& v" V" w% c TEXCOM Test and Experimentation Command.' L- O: m: a% }/ @, Y8 | TF Task Force. 7 \& x; {0 D% y, H. }2 o z; l( CTFC Tactical Fusion Center.7 B# v1 V; C! N* Z! \: ?/ X+ n: W TFCC Tactical Flag Command Center (USN term).' \* A0 \+ ~. I2 `8 i( f TFD Technical Feasibility Decision. 0 }: g9 Z6 S, M+ k- o* L' X6 ZTFE Thermionic Fuel Element(s). . ^4 I6 m& I7 Y4 g6 _: U4 T3 KTFIM Technical (Architecture) Framework for Information Management" t" _3 [( c/ H0 Y4 D TFOV Theoretical Field of View.# S: w" H1 ?* b' J( H! n TFR Terrain Following Radar.- D' l8 z& e) D9 E9 m# i6 p TFRAMES Tools to Facilitate the Rapid Assembly of Missile Engagement Simulations. 4 j" f" m v+ Q2 [7 XTFT Time Off Target (JFACC term). 3 Y6 {/ n: e. G) xTFW Tactical Fighter Wing (USAF term).. a6 M; T+ u& T+ m* K TG (1) Threat Generator. (2) Trajectory Generator. * Q; N# F6 H- S$ n8 h% NTGINFOREP Target Information Report (JFACC term). # P* W" K# M# r. ^: H4 dTGS Track Generation System (USN term).2 [2 @: r7 m" I1 f: o, i1 U1 J TGW Terminally-Guided Warhead.6 @2 T: o7 O" u7 X THAAD See Theater High Altitude Area Defense System.7 s- D! D* o) e Theater The geographical area outside the continental United States for which a- N3 m2 W' F/ V9 L commander of a unified or specified command has been assigned.1 v: c( X& @9 @- P! r" ]) K- u Theater Attack Attack on a geographical area outside the continental United States. 3 r+ b% d4 K% t0 b* w' L% ETheater Ballistic + k9 H/ a" W5 H$ P0 Z6 w$ IMissile Defense2 d, t! A3 m4 Z! l (TBMD) System2 V. P: g. z0 b- O: B& w The aggregate TMD C3I and TBMD forces that, in total, provide defense against9 m9 E' l: G/ C' h3 [1 {+ g7 P! V5 N ballistic missile attacks within an overseas theater of operations. 4 L, B, p( e5 L, w, d(USSPACECOM)

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