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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 user 4 f# h2 r$ ]/ ~* V+ c { p# h2 xaccess and support to a variety of missile defense test and evaluation data. , s4 l. I4 m( G: e: J8 j% QSTM Significant Technical Milestone. 5 z" a7 Y* T/ h$ B% ]4 vSTO (1) Special Technical Operations (JFACC term).1 N6 i3 B7 q1 ~4 z- Z- h% j (2) Science and Technology Objective.- I* v9 r) X! ]+ b* I& @ STOAL Short Takeoff/Arrested Landing. 8 f: n* M& U: U/ FSTOM System Test Object Model. 1 N# e( \* h( x" `0 ~: H# E" Y& VStorage,; p9 b6 }" w+ t3 Z1 y- W; B3 F, H7 m1 z Handling, and ( A5 [' K; a* P5 rTransportation0 |! y8 {4 L- | Environments& M: n% ]9 ~" J) m$ H# A1 U These environment categories cover the applicable free field or ambient 4 E \/ a+ o1 J, ]9 l) Q7 l% z5 z+ C* O# qenvironments, which the system assets must be capable of withstanding during $ I+ ?5 h8 c6 q& j/ q( Estorage, handling and transportation. They include the full array of applicable7 M6 N- s- Y) m8 j6 I atmospheric and ground environments to which BMD assets will be exposed. ~+ t8 O# d4 T" j during these non-operational aspects of system deployment such as pressure, " K2 N, z' f9 A7 Eshock and vibration environments, among others. 7 D* t4 {+ c, s# n. p$ |# j$ Q. BStorm Name of a theater ballistic missile test target system, part of the Baseline Target + f0 _ }/ V8 D s5 sSet. 6 ^; |9 g5 R) z/ x( _4 DStorm Shadow Conventionally Armed Stand Off Missile weapon based on Matra of France’s 5 q; H/ u ?1 d6 N" t) s* i) ]) i9 vApache missile.% w+ b* l) ^' Q$ H% r8 S STOW Synthetic Theater of War (US Army term).2 ^2 K+ R# c' C STP (1) System Test Plan (2) Sensor Task Plan. 3 `/ I% q' Z7 c$ M; fSTRAP HATMD System Training Plan. & ~* T$ t3 r, @: R- sSTRATCOM Strategic Command.5 @# ~2 V8 w5 n, M Strategic * _* {2 f4 H5 q! oDefense9 p2 i0 {: ~! Q' U2 ?% [ All active and passive measures to detect, identify, assess, degrade and defeat 1 N: U5 U1 w' K% q5 `$ Oballistic missile, air, and space threats to North America, including measures to0 r; Y: W2 K+ V; w" A nullify or reduce the effectiveness of such attacks.; z8 g) c% _9 ]5 }6 L8 h Strategic) z# o U; M3 S( u( k: x Defense % {9 n1 w2 r3 y% R5 Y qEmergency* q. |: h4 Q) F! Q$ ^8 S" r) m5 } Declarations that attack is imminent or taking place.3 C# n# |: Q4 G+ ^! M& r" S3 x Strategic; h; T9 ?4 B9 m/ h5 k Defense System0 ^; C# h1 J& G3 P& n (SDS) ' c6 u/ f) D, x% g2 M% sA generic descriptor, which refers to all architectural elements of the evolving 7 k( h" m7 M+ w! c2 rballistic missile defense system. 3 q O) J/ c$ b) ?8 L% vMDA GLOSSARY, VER. 4.0 S5 u( |, T0 y! _$ }4 a' G! n 280" i* P, y' ?8 \( L Strategic Level of$ `9 | l& y6 Z! y6 K c War: m/ g# D0 J2 f* d! r The level of war at which a nation or group of nations determines national or : E4 ^% A! m6 Falliance security objectives and develops and uses national resources to u. v/ c7 J: t+ xaccomplish those objectives., {! E9 ?9 ~; P Strategic2 Q6 l% [4 r/ m# o9 f }/ G& I0 z6 y Offensive Forces2 C; O) A3 P; a5 k (SOF)1 j1 C6 ^7 U2 a7 d9 I Those forces under the command of the Commander in Chief, USSTRATCOM,# d6 B3 h! Q1 D( B* b the Commander in Chief, Atlantic Command, the Commander in Chief, Pacific ! Q. g' |+ l2 pCommand, and other forces assigned to execute the Single Integrated) x$ {& \( c0 v9 m/ ^: { Operations Plan (SIOP). These forces include but are not limited to B-52s, B-1s, & Z6 E: H. d0 Y% YFB-111s, Minuteman IIs and IIIs, Peacekeepers, Poseidons, and Tridents. ' ^3 L+ R3 d2 u7 xStrategic+ O& T) X0 ^9 G8 U Reserve- ?) P% F9 g! q That quantity of material that is placed in a particular geographic location due to # Y0 V2 [2 `$ vstrategic considerations or in anticipation of major interruptions in the supply / P; }! g) K( j G+ O7 Vdistribution system. It is over and above the stockage objective.4 n7 W, I e% J Strategic8 u- N+ |! n0 F& v7 X Warning 0 R' {+ b# z5 @8 ^5 p9 Y$ OA warning prior to the initiation of a threatening act. 3 p6 n7 K! L' wStrategic; c; j' g3 C4 m9 [, [. h8 D Warning Lead! o5 H, q/ }: S7 M) g' {( c Time 6 G0 U# ^! Z- k' d5 M/ DThat time between the receipt of strategic warning and the beginning of 8 ], L5 }1 N% |) Thostilities. This time may include two action periods: strategic warning predecision time and strategic warning post-decision time. 1 ~8 A8 T( l- w$ t% z/ P, LStrategic 7 u8 O7 o( X* |* JWarning Post- ! `( K" i( z7 z7 G5 q* N) @8 B; X# _& ~Decision Time * u# ^& }5 U6 X9 a( A- p5 c) vThat time which begins after the decision, made at the highest levels of4 s1 V& ^' Y! d v3 `% E government(s) in response to strategic warning, is ordered executed and ends2 W9 t* V- a" p9 p with the start of hostilities or termination of the threat. It is that part of strategic 1 b" B3 P( o* rwarning lead-time available for executing pre-hostility actions to strengthen the. V( J1 j3 Q+ C8 ^ national strategic posture; however, some preparatory actions may be initiated in {) Z* T5 B( ^8 _* V4 M! P5 ] the pre-decision period.+ p- l M) F# ? Strategic " _. R6 d, V6 k* C, t7 IWarning Pre- 6 `2 p, Q+ n: l v- }7 [: G5 `Decision Time 4 Y e% f1 o; f& J/ r) sThat time which begins upon receipt of strategic warning and ends when a % l) R$ l3 p3 p x) |4 sdecision is ordered executed. It is that part of strategic warning lead time / X T3 \+ m' X2 K. n6 T- k8 Uavailable to the highest levels of government(s) to determine the strategic course5 p- I& C5 _! x) \0 c2 T& H b. k of action to be executed.1 p* V- p h7 m9 z- k% m! j1 P STREAD Standard TRE Display. - B* m5 T* m/ G I; U3 E9 ~) M3 a3 A3 b& {STRICOM Simulation, Training, and Instrumentation Command (USA term). ! c4 j9 ` M2 f) \4 E7 u- E# n/ iStructured( R/ B% D3 J4 F" ~ Attack A% _( n* d. l8 R An attack in which the arrival of warheads on their diverse targets is precisely 9 R. p' W) ^- o, ^& f Ctimed for maximum strategic impact." O; G. n9 x1 X. Q1 F8 B Structured. {4 U+ I, Y3 t+ P) c Design & i d2 Q# z5 _: M+ i5 i6 UA disciplined approach to software design that adheres to a specified set of rules% r4 p& W0 E! g- J6 h/ O: ~# m based on principles such as top-down design, stepwise refinement, and data) P9 V9 Z# G0 B2 p flow analysis.

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发表于 2008-12-25 20:21:38 |只看该作者
Structured 9 ^2 B$ q4 A, \8 oProgram- l- L3 O/ W3 k+ x% q+ @ A program constructed of a basic set of control structures, each one having one " i. V6 C, ]0 i- |0 R* Jentry point and one exit. The set of control structures typically includes:5 x9 w/ o+ h' u- z5 R. e sequence of two or more instructions, conditional selection of one of two or more 3 @, K; r+ C4 C" w: _) Cinstructions, conditional selection of one of two or more instructions or0 \4 B5 K4 |$ u, o5 z- n5 y3 v. X sequences of instructions, and repetition of an instruction or a sequence of. {. ~8 e: q* R! E instructions.6 L$ i a, m- Q! n9 y- t STRV Space Technology Research Vehicle. 3 i f9 r5 W- X( j) c4 ^7 lSTS See Space Transportation System.) p; T, n+ N+ O STSC Software Technology Support Center. ; E6 {' |: T1 S, y. N6 {! Q6 w; hMDA GLOSSARY, VER. 4.0 S . C' a/ t3 K: ~3 H6 V7 k1 A2818 Y7 o6 Q! r' e: b5 u( K STT (1) Small Tactical Terminal (USAF term).! _0 h+ i' ]5 [6 }, X" G, \ (2) Stockpile-to-Target (US Army term). + @: D: }1 C$ R3 X% T) Z% vSTTR Small Business Technology Transfer. 5 M5 X# M; O0 P' Q# aSTU Secure Telephone Unit. & D* A8 K- L9 S7 _/ ZSTW Strike Warfare./ @! s {3 q& V STWC Strike Warfare Commander.2 S* ~7 j+ \$ R STWG Simulation Tools Working Group. $ ~( v/ d8 {4 e- a+ J% VSubassembly Two or more parts joined together to form a unit, capable of disassembly, which . l( `4 U2 N! N) b" B2 nis only a part of a complete machine, structure, or other article.) B* Y5 x. W1 `0 z! z Subcontractor A contractor who enters into a contract with a prime contractor. ' N9 O( t c# c" u$ lSubject Security . t5 q5 F# H0 q, s5 z- x, pLevel 9 m- S* z7 ~- ?! C8 E/ JA subject's security level is equal to the security level of the objects to which it 6 ^( |+ S8 P& T" H- E4 b& h2 Ohas both read and write access. A subject's security level must always be ! D& y M8 P9 {5 ]& h3 {7 `dominated by the clearance of the user and with the associated subject. & I5 K/ _3 Q) r ZSubmarine- ! H5 m( x4 W7 e% \( TLaunched w6 V5 O# t, B$ j6 \ u+ jBallistic Missile 9 ~+ Q$ _" D2 y3 W4 H+ z% _2 k8 S* |(SLBM) ; w; @2 q1 I, X9 ^) iA ballistic missile launched from a submarine, with a range of 3,000 to 6,000 # d4 s- }( E; Q8 E# \miles. ( E8 L* U P, y6 H3 eSUBROC Submarine Rocket.. }) W& B. o* N Subsystem A functional grouping of components that combine to perform a major function 5 }# ^( D F" X! `within an element, such as attitude control and propulsion. ! [, K$ h$ }8 N# y* QSubtractive ' b: ]# Y" ]% j0 \3 |2 `Defense . |) j4 K2 x. _; M# fFirst come first engaged as long as weapons last.* B: Q( W" V4 g; T7 f2 G) Y SUCCESS Synthesized UHF Computer Controlled Equipment Subsystem. % N8 x, f E9 _* a E( e% v9 {% k$ }Succession of ; w* T* ` o0 a+ d9 ?Command: Y5 }# a. |5 G1 Z% H9 J The planned or actual sequence in which subordinate commanders, in turn, 8 L" D3 n% O( R/ k3 l" Tbecome de facto commanders of a senior organization. Devolution of command 0 |- K4 M$ H0 `) Xis a synonymous term." ~" V) u# E( h" Q3 z SUM Software Users Manual (Computer term).8 I0 {# d! b6 @: {# y9 V' ? Sunk Costs The costs of resources already committed or spent. In comparing two : s+ H% i. w/ l, k: B" ealternatives, such costs are "non-additive," and they are not germane to 0 G/ S% M8 ~2 rdecisions about future use of resources. 7 e6 H# u9 D ] X( o, `0 O: |Sup Pro Supporting Programs (MDA term). , p" H) `1 h) \Super Survivable Solar Power Subsystem Demonstrator.3 N5 T/ f9 [3 R( d+ K W Super Radiance The process used by a super radiant laser to generate or amplify a laser beam in * w" k2 }/ M" m( W/ ?$ N/ F2 Na single pass through a lasant material, or, in the case of a free electron laser, % E5 h- D! ^' U) Y( i2 Uthrough an electric or magnetic field in the presence of an electron beam. Super " z; y4 b8 ^* r' o8 a( V' {radiance is actually a form of stimulated emission. Also known as 7 [1 A( B1 g3 u/ tsuperfluorescence, or amplified spontaneous emission.% \( j/ g3 p4 {+ \* k6 u* H; j MDA GLOSSARY, VER. 4.0 S 2 M* s& z! e' b7 V/ U* g6 s282 4 f1 U ` a9 }1 d% S6 Z6 }Superradiant 3 U% p. Z0 W0 m3 q, p" N$ KLaser (SRL)+ V# Y# c9 f; h0 T5 A$ m9 ? A laser in which the beam passes through the lasant only once; mirrors are not" `9 @7 | V J; K/ B required for the operation of such a laser, as they are with more conventional / T) Y |0 C; i+ B# N* D# wlasers which are sometimes called "cavity lasers" to distinguish them from# B; s- J2 S4 G superradiant lasers. Free electron lasers may also be superradiant; the laser6 B7 X0 D0 |0 [& z beam of a superradiant free electron laser would pass once through the electric $ v" E: t8 l! O) |1 d- xor magnetic field (instead of a lasant) in the presence of an electron beam.* s0 g4 r3 x; L Supervisory 0 |- b O3 @4 A# f# ^Programs, M2 Q9 H+ `6 [# w- W7 x Computer programs that have the primary function of scheduling, allocating, and# C) i2 ]$ M1 R6 y% A4 P controlling system resources rather than processing data to produce results. , L3 s [1 j5 N/ n7 R2 i' GSupplemental ( a8 k y1 e8 s7 J+ P' Y& GAppropriation& W) {& V3 e; R, c) h2 L$ K An appropriation enacted as an addition to a regular annular appropriation act.) \; H0 j" A% e Support 5 Y& O5 m# D" L2 K6 \Equipment / `( J" e# h0 L- j4 H: t, eAll system equipment required to support the ground and flight phases of the 4 A/ b5 b9 Y3 a bmission. Support equipment includes aerospace ground equipment (AGE), $ \7 g3 \& G5 N$ _& r9 P5 r7 f& Bmaintenance ground equipment (MGE), transportation and handling (T&H)8 E* h$ y6 }% P' w; q( E equipment, and equipment used to support system deployment (i.e., assembly 4 n! ?6 b) k; stools and fixtures, test and checkout equipment, personnel support and5 s* u, _+ M/ W9 _, f4 J3 R protection equipment).# T! @% x" u. X5 n1 S6 R Support$ c4 U, ? B$ S! O% k- a Personnel $ t1 `9 K/ U) d! I! g2 U2 R* qIndividuals, in addition to operators, trainers, and maintainers, who are directly , p4 ]% w5 G0 i- \# @0 h. ~- e8 Rassociated with an operational system(s), and who are critical to its continuous) ]+ e% X; c U9 b) [5 [ operation. Examples include program management offices, security, supply,, x3 h. X9 n2 ^( { administrative support, and the like.8 f' v8 A3 Q2 ?" |: {& B( Q% g" X Support Software Software that aids in the development or maintenance of other software, for / s g9 R0 B" B6 m% eexample compilers, loaders, and other utilities.% t+ B( v' \$ D0 i Suppression Temporary or transient degradation of the performance of a weapons system,* ?0 E4 l( Q( f1 ^ below the level needed to fulfill its mission objectives, by an opposing force.# M$ T5 l: I- z- D) d SUPSHIP Superintendent of Shipbuilding.. P# J$ k6 z9 X% r0 } SURCOM Surveillance Constellation. - S3 O1 y/ M' {- R; mSurge Production An increased rate of production necessary to meet demands for defense items P+ |, |8 N7 _- _. i3 V2 Q; R. Kdue to a need for accelerated production to meet a threat or for a wartime or0 n N9 U3 {0 D9 W# K3 [' J& c mobilization situation. This increased rate can be obtained by having excess 9 ]% Y9 ~1 ] P$ _production capacity available or by utilizing multiple shifts of normal capacity" w9 [3 u+ U2 f/ N) X0 ]+ ~8 n, T, K measures. 0 y5 j4 i; p+ ^! G7 I: l& o/ B5 w/ sSurveillance An observation procedure that includes tactical observations, strategic warning, . T' b* @6 b& mand meteorological assessments, by optical, infrared, radar, and radiometric / b, L6 } W" h( P% [sensors on space-borne and terrestrial platforms.

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发表于 2008-12-25 20:21:58 |只看该作者
Surveillance* k% z0 M6 n6 J7 q5 I A( ~9 E# [! P Requirements Z! n( ] z# NRequirements are requests for surveillance, including relative priorities for $ J5 ? | z! Ecoverage and sensitivity levels, based on operational orders, selected response p9 c. d$ U- b4 ?; j- G% O4 i& Boptions and current surveillance system availability. 6 ~; |+ L7 }6 P3 bSurveillance, 5 \7 J0 U, v5 W7 I4 OSatellite and" O) V5 B4 z' V4 E4 [1 Z4 {0 I Missile ; a0 u6 ^9 A3 I0 K9 Q2 E' aThe systematic observation of aerospace for the purpose of detecting, tracking, 9 Q% N/ h \9 n1 x; f; z* gand characterizing objects, events, and phenomena associated with satellites5 G! k+ C1 Y8 C7 Y% x and in-flight missiles, friendly and enemy. / {3 H& |( S" Q3 gSurveillance8 i1 m t0 h. n1 I$ j# b7 b i8 A1 o System2 b0 _ d" U6 s& m' l Configuration ) E1 M C0 P) z1 _9 o) eThe sensor types and locations and the modes of operation currently activated 4 F6 R# `' _8 G( q( f& n$ A6 bin the surveillance system. ; v2 \: b3 S% fMDA GLOSSARY, VER. 4.0 S# m. U, L$ H' r# ~+ o- A- w 283+ S- o4 c7 J/ T4 ? Survivability- g& r( ?2 U8 ]3 e Operating Modes& e5 [+ ~& _) N The operating modes not including but in addition to the self-defense modes8 M, l9 E% v+ M3 Z) e7 C( l that all the elements can use to protect themselves against direct enemy attack. 4 q* H* Z7 X. \; y; pSurvivable and . }; |$ N( A6 n- ~1 p$ w! v; k QEnduring" o( Q/ O5 D, W8 i R" i l( ^ Command Center0 E2 |+ T+ c% {9 q1 a7 p- l5 m3 Q (SECC)6 j: N) d1 V7 [. k9 S The USSTRATCOM mobile C2 facility." k; y1 ]# C) p5 ~' L3 ?4 } SUS Site Utilization Study. " [ q$ Z/ ]8 s) SSustainer Propulsion stage of a missile usually operating after the booster cutoff.2 |1 z0 Q( i2 M: V O' u) h3 a$ | SV Space Vehicle.! G1 |- _: _& Q+ P( m SVS (1) OBSOLETE. SSTS Validation Satellite. (2) Scientific Visualization Suite.2 u D7 Y* e; S' n SW (1) Software or (S/W). (2) Space Wing.- _) k" z$ `0 X' f4 h SWC Strike Warfare Commander.0 n/ \1 ]* T( Q$ M. G* z# U! g Sweep Jamming A narrow band of jamming that is back and forth over a relatively wide operating ! }! n, E* c7 O- aband of frequencies. 0 o, K& f0 b+ s! l; mSWG Scenario Working Group.3 T5 L+ b7 O. n; T SWIL Software-in-the-Loop. / g4 \" N0 ^" C. s: Y& CSWIR Short Wavelength Infrared. ) W9 }' ?9 E5 `) JSWSA Spatial Weapons System Analysis.. Y s* B& o. h# n SWSC Space and Warning System Center.: \# U" B$ z/ n% @/ _9 @ c SYDP Six-Year Defense Program. # r5 O) g/ d2 V5 N$ [7 @1 X+ Y# gSynchronization For data streams, the process whereby a received set of data is placed in one to 8 v- d Y6 H2 }0 _0 T' wone correspondence with the data assumed to have been transmitted. . X! J1 t! M! V, P% p" l. gSynthesis The automatic generation of a run able system from a specialized design where: J) q: x O& a- ], W/ u5 t each module description has associated implementations.& i- }: L* |. e Synthetic. A, R' U: Z! I+ k% m Aperture Radar ' P" @1 Z' r* H(SAR)' @' m$ ~: j: Y8 Q A radar technique that processes echoes of signals emitted at different points( ^9 n6 \$ J4 r9 ? along a satellite's orbit. The highest resolution achievable by such a system is( L' V+ d' \9 G! N, | theoretically equivalent to that of a single large antenna as wide as the distance : X6 c0 G$ i( L) f+ X* cbetween the most widely spaced points along the orbit that are used for& T; }: l, A2 U3 O transmitting positions. In practice, resolution will be limited by the radar receiver's( z) I( i- k/ L signal processing capability or by the limited coherence of the radio signal* }5 f8 @- d) R* S emitted by the radar transmitter.8 ` t: \0 X$ S& K- u% a8 ^- p SYS System. ( a( ~ g! c2 M, H0 e8 u+ l9 Z" w$ ]Sys C/O System Check Out. : Q* o2 C9 z) y6 P# FSys Cmn System Common. / o- E) V2 d- N8 rSys T&E System Test and Evaluation.$ ~/ f, `, }8 z7 k' f MDA GLOSSARY, VER. 4.0 S 3 v; H, y, b* T" L% j284 # |3 X5 j" l7 i$ N9 n; ~SYSCOM Systems Command. ) ]; d- D! G j, G! a% ^/ o( w7 \System (1) The organization of hardware, software, materials, facilities, personnel, ) C# Y2 _1 w- r' ` X3 _5 g2 cdata, and services needed to perform a designated function with9 o* w" V+ @ y, Z specified results, such as the gathering of specified data, its processing, * w2 l7 ~0 h* V8 fand delivery to users." T4 b- J9 s, M! y! n (2) A combination of two or more interrelated equipment (sets) arranged in a " ^& q& X- V) Z; n: N( ifunctional package to perform an operational function or to satisfy a, `0 U9 R) }" Z* U( `- S requirement.% R0 W" `6 R- k" K* n" p System$ E1 Q0 O3 f7 B, t, G, A$ w- [% r; f Activation : ?$ E4 R0 o, m0 W: `5 qThat set of coordination, assessment, decision, direction and control functions , q+ A, O5 y% K: Cimplemented to enable defense weapons, and to initiate the automated, realtime aspects of Battle Management, Engagement Control, and Weapon System * Q) u1 ]& q- Z5 yControl., O* g5 ?. t1 q3 X0 ? System8 d3 v: ]1 B4 x7 x, r/ R& E Architecture : x0 a; L% g$ Y1 n; xSystem ; @* v) K0 X- L, ECapability 5 f! T- _4 x2 ^$ s( oSpecification ! k V* \- U9 |- E1 p& k s, F(SCS)0 g t6 _( P! ^$ b/ W. X/ P The structure and relationship among the components of a system. The system : f I& E; j! y9 o* O1 Narchitecture may also include the system’s interface with its operational : l* ^! T& E2 T* yenvironment. A framework or structure that portrays relationships among all the 8 y2 `7 {! m( J' \/ welements of missile defense systems.& X) y" F2 e* J( l! K$ i The government document that translates capabilities into functional - x H i; B3 h, p! E: B' @& vspecifications for the overall BMDS and allocates functional specifications among 1 H3 p; V) x' {( ?0 u7 F# ithe elements of the BMDS. ! W, X/ E; A+ ^6 bSystem Center & N3 y" y( X! ?3 \- J(SC)+ M/ H- j/ o* t8 Q8 G8 A A center in CMAFB responsible for the scheduling of maintenance for worldwide 7 m' V" X* {# F, ^4 Csensors and supporting equipment as well as maintenance responsibility of , x% l' v/ u( M) jequipment in CMAFB." v9 ^2 m" C4 u0 e System Concept" Q+ ^% N7 t# ^8 C; c' r Paper (SCP)6 B) Y# ^8 S9 ^ OBSOLETE. For a major program, was used to summarize the results of the 2 @; B* l, o9 [- W: C3 tconcept exploration phase up to Milestone I and to describe the acquisition$ W, d$ w2 l0 @) d# Y strategy, including the identification of the concepts to be carried into the * A7 k+ K6 K$ H1 N% G7 s- O9 L2 D2 Vdemonstration and validation phase and the reasons for elimination of other( h: o* E% n& q) W( y7 X 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 ]2 m) Z: o* n3 u3 C4 ?Configuration: F/ y6 t2 x$ t$ C+ ^4 e: l Control Board+ X' y5 V& J. W3 C$ U5 ~9 P: L/ [ (SCCB) * ?; C o" R( Y9 X$ h0 o* yThe senior SDS configuration control board. The SCCB will manage the systemlevel configuration of the SDS and the interfaces between elements of the SDS. # J% N2 b# q4 _5 }+ X$ F6 wSystem Control Function or task of monitoring the maintenance status of assigned sensors and- z8 W2 X4 ^5 z computer systems. ) T) n8 a7 a% _& JSystem-Critical ; a$ x) k* a& B% K1 XFunction ) G$ Q& A% b6 sA function that is necessary for the successful accomplishment of the system's : }* W3 \$ ?" n& P' \% mmission.' _; S/ v9 v+ s- C4 _9 { System Definition4 N4 Z/ j1 ]7 K- O) e/ K1 {1 U Review (SDR) & P6 ^) `+ X. q3 e1 N& Z8 rThe formal review, in briefing format, for periodically deciding on updates to the9 o: ?* S- p( ` system plans for development based on estimates of the program schedules and$ B; \5 Q' |* R funding. The SDR summarizes candidate development plans and their potential : w) l C) D0 q6 O$ e8 mimpacts on system design, cost, and schedule. The SDR provides a systemsengineering basis for the MDA program planning activities. Following the SDR, ! U, f. S- V: O7 ]7 U/ Pdetailed element planning will result will result in a Configuration Control Board,* ?& ?$ G5 o& k2 D final trades, and program documentation in the PPBS. 3 |0 ^7 W; d' D3 x. z( ASystem) Q0 z! c+ Y# K; Y$ x' t l Deployment ; ^2 S$ [* H ^. ?7 ADelivery of the completed production system to the using activity.1 y0 ], o2 L* m0 K7 O MDA GLOSSARY, VER. 4.0 S . }5 m& @2 X7 Q3 w- B8 |( }2856 R. B! Q# Y' @' i3 m5 a System Design (1) The process of defining the hardware and software architectures,% d% k$ G% G" d# E components, modules, interfaces, and data for a system to satisfy 6 o* o+ w U. B) d9 V+ f o6 Aspecified system requirements. , g# z3 @ ]# u+ R3 z9 J* a(2) The result of the system design process. + a# y% u" J! h7 u" a/ P' ]2 I/ PSystem Design , Q: v0 G- [& C. ]Concept 9 I, R4 _) y5 {, I$ DAn idea expressed in terms of general performance, capabilities, and& p$ K/ D' d6 M- m8 W characteristics of hardware and software oriented either to operate or to be 8 l; B+ @" O$ Q# j3 roperated as an integral whole in meeting a mission need.2 r' X3 Q D( \ System Design + k0 U. R: ?3 [Review (SDR) ( n' R& l4 O$ `: z+ }; I! K/ OEvaluates the optimization, correlation, completeness, and risks associated with ( C$ o8 ?5 }, o) D, Gthe allocated technical requirements.- r% i' M8 C, {0 X* b( D5 t- N System+ P5 p4 _4 T2 g Effectiveness 8 v+ t. F4 t* T) wThe measure of the extent to which a system may be expected to achieve a set " u* x' }0 G) P: s) fof specific mission requirements. It is a function of availability, dependability, and " Q4 p+ U% a v5 fcapability.( H+ N5 P9 H1 O; r; ^7 D System Evolution$ _6 [1 o3 z2 S' Z$ ^: A Plan (SEP) ; R6 L' x" W* W6 QThe documented plan that establishes the strategy to evolve the BMDS 3 {/ u* p; h0 y9 A/ q: s6 g+ f' Icapabilities over time. It reflects the BMD Acquisition Executive (AE) and Senior7 s3 p }, Q4 B% I! X( ~# z Executive Council’s (SEC) development decisions; documents the current BMDS2 j; r; J- ? n+ x0 e/ {$ |- d2 t Development Baseline; and summarizes the capability, integration and5 [9 K8 j8 o! o; S assessment of the BMDS evolution. It identifies opportunities (items that provide: [5 `: V5 ?8 i) A- R1 H" u; ^ significant improvements in BMD capability), identifies challenges (impediments to 4 e/ t$ z9 s f- m3 Q: g4 cachieving opportunity), and points to promising alternatives that can overcome 9 _) S: ]( t1 V# \- @" athose challenges.1 b" ?6 v1 I- T9 V4 p System Families A collection or grouping of interrelated software systems in the domain that share $ `1 Z4 b" x' R& v7 va set of common characteristics.5 ]2 l: I: B2 D: F* c System6 \' X8 w8 d6 ^$ Z: R Generated 9 m# A) ?, ~5 B4 cElectromagnetic @% c5 c0 G- o$ s/ c8 GPulse (SGEMP)" `. n: q/ ^( Q* \6 v$ K Transient electromagnetic radiation caused by the photoelectron emission of the ( A8 W# m3 L% z; L2 }surface of an object subjected to a pulse of photon energy. Although local ! G* T8 o% b) D) U% zfields close to the object surface may reach quite high values (kilovolts), the" ?3 |0 L/ e$ q, h, o primary disturbance mechanism is the flow of replacement current through the ) l. P! o; f/ a( z9 O) B9 v0 iobject in order to produce charge equalization. - u( E* y/ z0 DSystem- x b2 | W- f& `0 C. R# k* { Integration Test: T9 L' r# H/ z1 T) g A live flight system-level test utilizing actual system command and control,! l0 o- Z8 Y# p& g sensors, and weapon hardware. 5 N& b5 @% l- L+ XSystem Manager A general term of reference to those organizations directed by individual / F. u. j1 s8 j6 rmanagers, exercising authority over the planning, direction, and control, of tasks + U. l) c, e* R" Z% z/ v, ~" eand associated functions essential for support of designated weapons or$ A! w$ B' u8 o% [( D1 T2 t( d equipment systems. ! b6 F. Q# `9 ~; k* pSystem $ m% \9 y/ N: j# aOperational 3 B: ]) Q: M. `Concept: ~0 y- P* M! P. x* X/ D" F A formal document that describes the intended purpose, employment,! K+ Y, D, m9 f t; j3 F+ T deployment, and support of a system. ' D- q$ I3 s: xSystem b2 m1 [! h, kOperation and * d" |# C& B, ]1 p" P7 d7 XIntegration ( u; G# Y$ R! P; u3 m$ qFunctions (SOIF)* M- E3 q$ k, Q The automated activities of tracking, communications, asset management, and, X3 B) [( w' K, i battle plan execution, which are executed under the guidance of the Command1 o& z ~5 V1 Y+ U: }- }9 A8 y and Control Element. The allocation of these functions (and sub-functions) to( g2 k! u5 m4 F the system elements will be specified in the architecture(s).8 j, a! P2 Q! `$ l! J% w' o8 L System Posture A USSPACECOM system of graduated readiness steps to bring the strategic% M' C$ o( F: s) {$ G8 J BMD system to fully generated alert, similar to the USSTRATCOM concept of- {' o3 w9 ^( q" }$ D# O8 N posturing aircraft and missile forces to reduce reaction time.* W% U* L: ]8 n0 K MDA GLOSSARY, VER. 4.0 S z7 }$ G$ g9 ~# f- x# g$ r; V& d 286 7 l2 H; f% u! m3 v: [6 bSystem Program x/ d! L: e9 L0 h7 WOffice (SPO) ' `; G3 T% a2 l; y9 R" {The office of the program manager and the point of contact with industry,) r2 c* v) T; C, t3 g- s; T/ n8 X government agencies, and other activities participating in the system acquisition' r" s- h) G$ B7 |# }( U process. (U.S. Army uses term “Project Office.”)

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System# c% u5 A3 X; P: E; }: c Readiness 1 K) o6 p1 F. B" z& FSystem Readiness includes the development of OPLANs necessary to carry out - J& c! K$ `5 C2 Nthe assigned mission, using strategy and guidance provided by higher authority; n- A. ~2 C; Q) M m! x along with knowledge of current system performance and planned capabilities. It $ R! U& Y2 L) u# Z/ Y2 x# ~4 uincludes peacetime tests and exercises to maintain the system in an operational # O, @' k3 }# K8 Fstate, and the demonstration and evaluation of alternate tactics and the : w8 T2 Q' C& P! b K$ c+ tverification of system performance, to the extent practicable. It provides for the2 z/ ~, q( Y u) u continued training and exercise of personnel in operating the system under7 }+ f# ^& j& \$ v realistic conditions, and provides for control of other system test functions6 \; `# r5 B( k) }* `( m# \2 X( A necessary to keep the system operating. It provides for detection of anomalies" m4 L, L, b% c$ K! n& b and for corrective action. It also provides for maintenance schedule control,( C6 k6 h7 o7 Z historical maintenance data retention, maintenance training, and test results 6 D0 _2 h$ r2 }; [$ astatus reporting.5 j, { i' U& q System / `$ u* m6 `1 VReadiness/ h2 H Y: s3 @8 w/ q, U Objective 0 Q7 L& W- H" o. EA criterion for assessing the ability of a system to undertake and sustain a6 F( s6 c- o, h, c) I specified set of missions at planned peacetime and wartime utilization rates.8 |' X, G' Z, T3 C( A3 \2 k! K; g System readiness measures take explicit account of the effects of reliability and9 a6 w+ e/ G" ? ^) F) M) R maintainability system design, the characteristics and performance of the support/ h j, b- f0 k system, and the quantity and location of support resources. Examples of ) o0 V8 f6 W3 J) I3 q8 Tsystem readiness measures are combat sortie rate over time, peacetime mission0 `+ T+ g9 Z( D' [2 g+ L" n6 |/ J capable rate, operational availability, and asset ready rate. . Y8 S& m% Y" f. Z/ fSystem2 Y* m! | m, V8 P1 B" I9 g! I Requirements% ]7 J4 ]. G6 E Analysis (SRA) . p1 o- f) V, L3 JAn analysis of the operational system requirements, as defined in the System$ {' M4 F: k" L- n+ E Concept Paper and other approved requirements documents, used to determine + |$ v( g2 R, C4 s2 t$ Z$ ~( Fspecific system functional and performance requirements.& X4 Y6 B" O( g: F System6 Y; Y5 _9 X; g/ p' Q ]) v5 e Requirements7 m5 n" o& I' @6 k Review (SRR), P% q! u" C" q( Z6 ` Conducted to ascertain progress in defining system technical requirements. a7 C1 H3 A4 j% W( a5 iDetermines the direction and progress of the systems engineering effort and the0 v6 A& Q% e; {: { degree of convergence upon a balanced and complete configuration./ } f5 x. C- F; m6 U. c System Security1 g7 ]' W4 C& x% W+ o$ Q0 c% M Engineering. E3 K+ @6 M2 n (SSE)& {( P" n" \: n* }, r% G4 }7 [# C An element of system engineering that applies scientific and engineering 8 S7 h. J& Q# n+ ] I& c& h jprinciple to identify security vulnerabilities and minimize or contain risks0 X# a! Z/ K; {& K/ ~ associated with these vulnerabilities. It uses mathematical, physical, and related% Y4 d2 }0 s1 o' F" ~ scientific disciplines, and the principles and methods of engineering design and " Q' ^) U, G4 n! u. w# f0 e5 ranalysis to specify, predict, and evaluate the vulnerability of the system to , b( N, L$ D7 [7 e' osecurity threats. # q/ _0 x; Q; o YSystem Security' p5 N$ b- o; c8 y+ [3 B Engineering' e, o& l4 g' x& y5 ~5 z2 d Management8 Z& t% f8 T$ {* N0 k, e Program4 X, i5 q4 |8 k! d) g (SSEMP) ; _ U y* `$ b( cThe contractor shall establish a SSE program to support economical " n! r( Z* L! O. O4 V% tachievement of overall program objectives. To be considered efficient, the SSE+ h% F% }. h. v2 v' X/ q5 `% M program: (1) enhances the operational readiness and mission success of the 3 C! ^+ H. G1 ?: @defense resource; (2) identifies and reduces potential vulnerabilities to the " R) A- p: r2 W: [resource from sabotage, theft, damage, destruction, etc.; (3) provides' B4 `5 G! X% x" v7 f+ V management information essential to system security planning and (4) minimizes" M4 e9 [/ f6 d0 B0 ? its own impact on overall program cost and schedule. & U4 {- i5 }3 `4 iSystem Security % n0 N0 h1 P4 i8 {6 ]! PManagement0 o" W0 M0 z+ p* W# i6 G Plan (SSMP)4 g: {1 {! E$ C, \0 H9 _ A formal document that fully describes the planned security tasks required to ~6 z0 h' h. r, C4 ]6 Q( e# s meet system security requirements, including organizational responsibilities,; `5 q) R' G( d' [, A methods of accomplishment, milestones, depth of effort, and integration with n$ K8 v$ W2 Z- S( q# |3 n7 J' fother program engineering, design and management activities, and related # {3 |. x0 n# }$ ]$ l; F9 @' c) nsystems. / F+ w1 o8 v3 C1 a/ C" A# g! v, PSystems " ~' W" h9 W }) bEngineering j1 W0 M# u* r. B- uAn interdisciplinary approach to evolve and verify an integrated and life cycle- g* a; Z3 d) Q7 r balanced set of system product and process solutions. # W8 p8 W( N4 s% H. a D, K ~( ~MDA GLOSSARY, VER. 4.0 S & g$ ^% L# k+ ?: Z4 F& C) p287* j; o8 ~# E' k& E! }# [5 n4 K Systems2 g& }+ o1 P& K# j: P Engineering 4 I, Z, I! p2 x6 z) {Management ; J; N4 v* i8 r. x! | c. Q+ lPlan (SEMP)6 ?7 j# R3 H; F9 \ This plan documents: (1) Management of the systems engineering process, (2) 6 `0 G" G3 K5 u; [3 XIntegration of the required technical specialties; (3) Performance measures 8 x: m' g5 Q7 i/ e) ^$ d" {5 Udevelopment and reporting, including intermediate performance criteria, and (4)$ N9 o1 J1 {, D/ T Q% y Key engineering milestones and schedules. " N! v' X2 O9 d6 p8 WSystems Test3 I. @+ [1 U0 {1 o" N Integration and ; O8 |# _; u( W; RCoordination 1 T; R+ s! _9 C) b; i5 ^The combination of SDS elements tests to reflect SDS performance contribution. % b% s! H ]0 i5 e. V" H% NSystem Threat 9 `" ~0 v. V. R3 b+ i: {Assessment H1 Y Y) C% W: B Report (STAR); A+ b3 G& h- x) ] Required by DoD 5000.2 and validated by DIA. Establishes the threat (to a) `+ d V; ]# m3 Z4 L- Z6 E Service's Mission Area) and is part of basis for considering mission deficiency * f- L! j, i. z9 tand potential program new start. Updated to support a DAB Milestone or when " D, Q. h8 n& kthe threat changes significantly." B0 @. i5 T8 a I! Z/ h System-Valued * k1 Z& i& E$ x0 T4 z) tAsset' y7 s3 f R& X9 D6 b- P7 w A system element/component, function, or information element, which is critical to+ X1 k F% M, w5 h the proper operation and well being of the SDS. 5 }. `, n6 t3 D6 n6 a4 v) \5 jMDA GLOSSARY, VER. 4.0 T' v3 \7 ]# q; D7 S- w+ D 288/ m3 B, P. d2 S: b+ U8 x T&C (1) Tracking and Control. (2) Test and Control. 7 r% l& J9 C) R' e1 D" VT&E Test and Evaluation.! G h5 }; l8 r) t1 o; I( d. k4 Q2 @' u T&T Transportation and Transportability. 9 ?" ^5 ^; w. z8 `T-MACH Trusted MACH. % b1 X: r" t# q2 rT-UAV Tactical Unmanned Aerial Vehicle. 0 W# e9 w/ c+ K" V& OT/R Transmit/Receive. 9 ?; M% }0 P* E% s6 }T/REA Transmit/Receive Element Assembly (of a radar)./ v* T% F: G5 w9 S) ] T 1 k/ E: ]; @2 J, |: s Y* ~21 B S; z: ]7 |! z# k4 L* s Technology Transfer.7 E8 w+ C) I |9 o6 H8 ? T: s8 C) t7 X/ P' x @/ Z" W5 R. ~ 2: v s! W; e e5 C7 ?7 J4 c9 \ E Technical Training Equipment. 8 v, p& Y6 h2 mTA (1) Threat Assessment. (2) Target Acquisition. (3) Test Articles.$ K) k m+ D. C2 T6 r7 D$ n TAA Technical Assistance Agreement., Y9 v9 \% J" h% C1 W) f TAACOM Tactical Air Area Commander. 6 {7 o3 F& K: ]1 Z+ A n) lTAADCOM Theater Army Air Defense Commander. 8 k/ b: T; y: n* @TAAF Test, Analyze and Fix. h3 e0 V7 m! b' V+ _TAC Tactical Advanced Computer.' B# i7 ?7 q; N4 j/ }0 s/ X TAC-3 Tactical Advanced Computer – Three (USN term). - {: P4 g3 P9 \0 k/ W) jTACAIR Tactical Air. & }1 k, G, {8 ]TACAMO Take Charge And Move Out [Airborne SSBN Command Post]./ ]2 @( W6 |$ `+ S TACC Tactical Air Command Center., m9 N" `5 R# G6 m3 r: L TACC USMC Tactical Air Command Center (USMC term). , _, B2 b( ]+ ^' Z9 k) v$ BTACC USN Tactical Air Command Center (USN term).2 `: F2 }" Z: @7 w TACCS Theater Air Command and Control System.7 X; ^8 a% L% t: q0 ? TACCSF Tactical Air Command and Control Simulation Facility. 3 N- J- _; m/ dTACDAR Tactical Detection and Reporting. 5 m/ m& B; ^( Z) \5 c. DTACFIRE Tactical [weapons] Fire.

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TACINTEL Tactical Intelligence Information [Exchange Subsystem] (USN term). 1 g( d- k: b& s. V# B% ^TACOM Tank and Automotive Command (US Army term).% ~$ n) d* R% d* o* d# B TACON Tactical Control. ) W0 e4 x3 C6 I: s/ P3 LTACS Theater Air Control System. b6 s7 E; p7 y' i& T2 |MDA GLOSSARY, VER. 4.0 T: y0 Q5 y {0 L5 l# h7 T" j" U 289# }" H. n2 i. X- S TACSAT Tactical Satellite. 7 W7 q) k0 d7 C2 U. N3 ]! ATACSIM Tactical Simulation ; m' i; ?7 h9 q- a& c- r5 h) H4 xTactical Air& s/ F1 N1 I9 [' p Doctrine 2 _8 e1 h8 \; a% T0 T, Y, ~% W# [. KFundamental principles designed to provide guidance for the employment of air ) H* C) c; C9 I7 e! qpower in tactical air operations to attain established objectives.6 E$ l4 Y2 c, o% | Tactical Air% N" }6 N# _7 `# ]. s% w6 J Operation , W! I, o# g# p6 jAn air operation involving the employment of air power in coordination with o; D- @& Z+ w$ t3 nground or naval forces.& J* S$ f$ d% s; V$ l* _ Tactical Air, n0 v: C/ H1 c- k$ f# R5 d Operations1 C% R, Y1 [' U" m$ i Center9 H; }* m4 i. `" R! C/ B A subordinate operational component of the Marine Air Command and Control8 o h( _8 \) s( o# i: L8 [# E2 A System designed for direction and control of all en route air traffic and air) p5 E+ ?* f4 B4 A defense operations in an assigned sector.1 c3 y( P. Y, r8 u [1 Q$ G2 i Tactical Air. I p1 X0 A& f! h1 i( B Support. ]6 W% Y3 ]6 B Air operations carried out in coordination with surface forces and which directly 7 w( A: [6 y. v" J2 R3 [1 zassist land or maritime operations. ' j6 R. k% B9 ]: {" U/ m- j* OTactical Area of # x/ P) e2 Y W. z% ~Responsibility$ b5 o4 W; H @1 W+ h) n (TAOR)) _/ _" A0 C, @/ k1 ^( a9 ~, `8 y A defined area of land for which responsibility is specifically assigned to the) M& [0 ~5 X+ [' l2 o commander of the area as a measure for control of assigned forces and. ~ n0 l Q8 T6 z9 p" R9 @ coordination of support. 8 T% g+ ~! M1 E0 I$ i/ z0 T4 S! |. J2 KTactical Ballistic% o2 W' m Y/ m4 Y5 K1 n Missile (TBM) 1 D) U c9 |% mA land-based missile generally having a range of <3000 miles that can be3 g0 F; S& B/ F N/ j7 l employed within a continental theater of operations.; S6 L- Y( A+ B# m- D# u& ~ Tactical Concept A statement, in broad outline, which provides a common basis for future 5 W" `$ @3 Z& V+ Cdevelopment of tactical doctrine. 1 Q( T+ G% w& N: yTactical Control The detailed and, usually, local direction and control of movements or! s, c0 o4 H9 l) R7 m4 B+ S maneuvers necessary to accomplish missions or tasks assigned.# _0 v0 n" W- A2 v$ O Tactical Data & f! A6 q, B( b; @Information link 0 n6 K. L' P$ O Z* y8 ~* WA netted link in which one unit acts as a net control station and interrogates6 D. W* O/ i/ @: M2 Q3 D- i each unit by roll call. Once interrogated, that unit transmits its data to the net. & T! y' b8 R8 b# R- ?This means that each unit receives all the information transmitted.( V* n; B; I" T; ]6 c. L Tactical Level of0 }* d0 W% P( m+ x7 O6 X. k7 x War& w' {5 f0 N! F) x+ J The level of war at which battles and engagements are planned and executed to* B+ q$ }9 o) N accomplish military objectives assigned to tactical units or task forces.3 Z) a# [5 s0 w+ M6 L/ T* M Tactical / f8 Y/ a% M' BOperations Area3 V( n- x4 I$ ?' Q9 r( O (TOA) & `3 e& E* P: B1 bThat area between the fire support coordination line and the rear operations : k$ q( O! i Z' ]8 U! Darea where maximum flexibility in the use of airspace is needed to assure mission - G7 u- [& |/ o* t- F2 Oaccomplishment.; G# S( N5 B& S Tactical / C6 R) L0 B% ]3 F' Y6 s/ ROperations 8 ~: s! t \. W# l5 m; qCenter (TOC)& g9 b: H. S" ]! p# [ A physical grouping of those elements of an Army general and special staff 5 O. H2 q1 @: L# Y: C: V8 P4 oconcerned with the current tactical operations and the tactical support thereof., m H9 A7 c0 V5 ?2 l5 Y m8 _, o Tactical Warning # q* k* G c' ^* b' X(TW)5 o% p3 y9 h/ C: Q0 h- P6 e7 _- M (1) A warning after initiation of a threatening or hostile act based on an # Y4 m4 W4 c/ v6 |# H9 vevaluation of information from all available sources.( O0 ? l$ m l; T3 n9 z! P4 d& f- F (2) In satellite and missile surveillance, a notification to operational command - I4 J' y' g/ g' z+ M; ccenters that a specific threat event is occurring. The component # b7 f: t, s! g, k" t- {5 Q9 m0 q& Felements that describe threat events are: country of origin, event type/ V6 C) m$ b. \1 }" d7 p8 K* ?' g and size, country under attack, and event time. " _5 d6 t5 e* Q; I( qTactical' Q* X1 }+ g6 I" @ Warning/Attack- ]% h7 e( @8 C R, p Assessment 1 F, d( B) Y; W(TW/AA)6 ~" A9 |+ v+ E+ g! l6 O% Q2 D A composite term. See separate definitions for Tactical Warning and for Attack/ E) b# L' `' Q8 b7 ]" t, p; z Assessment.+ G. Y. i# d) @" f9 |# d, M MDA GLOSSARY, VER. 4.0 T * H. P3 @+ m0 Q4 h# V2 n3 o A2903 {( y$ K6 Z3 s+ h/ P, o8 V9 U- Q TAD (1) Tactical Air Defense. ( K9 I. S! Y6 q- S(2) Theater Air Defense. / g! m3 i% E0 K4 d(3) Technical Acceptance Demonstration./ Y* A5 g: `/ U TAD C2 Theater Air Defense Command and Control. " `. I6 b& N" P7 p! t: q* U* zTADAP Theater Air Defense Asset Planner. 6 N2 `! P, G( Q# L6 P: t& rTADC Tactical Air Direction Center.& k0 J1 r+ h: W/ m4 a TADCOM Theater Air Defense Command. ! Q6 H- W& E7 n: V* WTADIL Tactical Digital Information Link. ]0 s. R: d. gTADIL A Tactical Digital Information Link “A”. : l$ |0 m! r( u7 G$ v' J* {TADIL B Tactical Digital Information Link “B”) m5 m6 K" P: |' a% s TADIL J Tactical Digital Information Link “J”3 ?$ \# q5 Y7 T TADIX Tactical Data Information Exchange. ' `6 ] \/ t9 I. E% E& x! y% ATADIXS Tactical Data Information Exchange System.1 f% K Y7 O: u% C/ c& Q TADL Tactical Data Link.4 B' v; y6 N3 @" T. f/ W) A TADS Tactical Air Defense System. " L! j: C2 a. D: W& h0 bTADSIM Theater Air Defense Simulation. 6 V0 b$ ?: ]( h. ^8 l ]TAF Tactical Air Force. 6 u9 Q6 s) S l) ^& s! }; e- aTAFIM Tactical Architecture Framework for Information Management. ) k! y* `6 H* w* S" k5 L0 \6 f% A1 }TAI International Atomic Time. 9 Z- z1 W+ c' |% dTAIS Technology Applications Information System. % B% L/ @) P6 Q0 e4 l0 |; ?TALDT Total Administrative and Logistics Downtime. 8 i; ?9 Y& l, K( ^ eTALON NIGHT TALON programs, which support SOF.5 y7 a5 ]! i3 q0 W& O. @# `' g TALON SHIELD An effort using stereo DSP processing to provide ballistic missile burnout vector/ d) l+ O; ?! _# g4 a7 t: k7 b- { and impact prediction for interceptor cueing, counterforce tasking, and passive+ V% n/ a+ Q% G; M# @ defense.

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TAM (1) Theater Attack Model. (2) Theater Analysis Model. 1 @; e( a q7 M$ R( D' q bTAMD Theater Air and Missile Defense.1 k+ V: H- X3 | Tank Final Propulsion Stage (used interchangeably with sustainer). 3 @7 T$ _7 m/ `" D5 c# A, @! LTank Debris Hardware associated with tank. 5 S# i+ p) D& T7 R" G- M$ S( |Tank5 E% D5 j2 A9 t+ o% } Fragmentation/ d/ m: _; M) m" y) D! R. _ The breakup of a tank, either intentionally to serve as a penaid or naturally as a1 b6 A3 ?$ ? d; b3 V result of aerodynamic loads and heating upon reentry.& I, K( K$ z5 Q MDA GLOSSARY, VER. 4.0 T % G) L6 a3 [* a( F' h7 k4 M! k2911 k. u$ ~1 I9 `, q1 I0 U TAOC Tactical Air Operations Center.: s0 |) i( L2 g9 t: S, ^ TAOM Tactical Air Operations Module. , \% _: B$ G/ cTAOS Technology for Autonomous Operation of Satellites. 3 F% |/ O0 b2 eTAR (1) The NMD Threat Assessment Report.& t6 \( t N& m" {7 A (2) Threat Activity Report. - o/ X" } f1 p$ B0 D' [! `(3) Target Acquisition Radar.+ u; r" s! {0 M' I; T) ^ TARA Technology Area Reviews and Assessments.8 U" t0 a$ G& k/ T TARGET Theater Analysis and Re-planning Graphical Execution Toolkit.% `1 X' s/ e) M2 E$ A- O) B& p Target5 [8 q- j; a- H" A8 v2 Y: h9 m Acquisition ( g5 l( X$ o; c; {1 @The detection and initiation of track on a target in the surveillance coverage: R; M7 P. R8 S/ y6 Z, Q region of a sensing system. " e, D6 L) q( }% n# F* cTarget/ E$ a% K! G* Z, P5 b; q( n6 h Classification 7 f- P1 E) K$ j/ G& t6 eand Type 4 w( U- ^8 E9 e$ kIdentification of the estimated target category based on surveillance,4 I0 S3 }, t' S4 u* T G discrimination, and intelligence data.$ D: u2 n1 c# V. i, R9 k+ K8 T Target) z- d3 k* @) Q* {" u Discrimination " m7 ]7 K. `6 j+ D) m# l) s6 LThe ability of a surveillance or guidance system to identify or engage any one 2 S# |, p, Z0 C, i* itarget when multiple targets are present. ( s! h+ P1 a" a& N4 U8 i, s O4 B5 ZTarget Object" o4 p; A( W$ g8 I! J$ u Map (TOM) 3 O# v( {. T6 `1 C& KA data set, which contains three-dimensional position, estimates for target and% f, t. A; H6 J: L. u0 |" ^- V other objects predicted to be in a weapon interceptor's field of view for use in ^) i5 D5 a: o$ [+ X- P target designation. (USSPACECOM)1 @3 K& Y6 |. F& f' T4 z Target Resolution The splitting of a single target into two or more targets. 6 ]# Q0 Y. h0 b- KTarget Signature (1) The characteristic pattern of a target displayed by detection and* S) K! [7 G8 ]$ m2 G: D2 B, s; m4 @ identification equipment.+ |, m1 W9 P& E& g# ] (2) In naval mine warfare, the variation in the influence field produced by the" F2 _* g/ O& D% W passage of a ship or sweep. 5 R) ^: P1 H1 T7 G3 T. i5 mTarget System+ \& _/ T: x& F4 d Requirements# \, e2 o4 }% O4 i3 ?( O Document (TSRD) L4 b$ }) V6 o9 xBMD Program level program management document. Developed by each BMD9 ?% F4 N2 [4 I2 [! K u. s Program Office, it outlines to MDA/TC and MDA/TE what the PO’s target + m0 B' g5 i( r! a! x3 T& frequirements are for each specific flight test based on the test objectives. , u, q, g, z7 t. h9 |Producing the TSRD is the first step in the target development process. 6 f# ^6 N9 o: RTASA Task and Skills Analysis.7 V5 g: ?9 x7 s; k1 T) h Tasks The required actions to accomplish all or part of a COA. Tasks contain guidance / e [2 H9 ]" I+ z1 w) a6 E. {5 rto the Battle Management/Command, Control and Communications (BM/C3 ), }; I/ P& x* P9 _; k/ A" q' A engagement planning function concerning resource allocation, constraints, and + J% L6 o- ~* ?9 a: ?- Irequired performance. 0 Z8 G& Y8 h1 _5 }+ [TASM Tactical Air-to-Surface Missile./ X3 |& _3 T# D1 \! h( N) ]; t TASO Terminal Area Security Officer. 0 N$ f9 L/ B& U3 L) _% \TAT Technical Area Task. + J0 K. z, C% \6 p7 cTAUL Teat and Upgrade Link. ! ]: k# f6 j1 p% j0 F( A, }TAV Transatmospheric Vehicle. : E5 }" Z# O' ~; E5 [: D( g" C) DMDA GLOSSARY, VER. 4.0 T3 v- u$ h2 L3 a 292 ! d- X0 h; G' _: J2 MTAWG Threat Accreditation Working Group. 8 E0 `+ h6 o# UTB Test Bed. + w# r6 N: @" g2 N T# e$ XTBA (1) Theater Battle Arena. (2) To be Announced.8 u! ^+ V; \, Z TBD (1) To Be Determined. (2) To Be Developed. ' |$ x J, K0 W& x" ~TBIG TMD BM/C3 Integration Group.0 Z* p/ z1 a! n- ` TBIP TOMAHAWK Baseline Improvement Program. 4 w& Y1 J. k5 U2 e) OTBM See Tactical Ballistic Missile/Theater Ballistic Missile. 7 `' s$ _9 i& f2 q% q' F" u$ i4 NTBMD Theater Ballistic Missile Defense.* l6 W1 ]0 U; V$ V$ Z7 c) V TBMDSE Theater Ballistic Missile Defense System Exercise./ @ ^0 H+ b6 z- ?# X6 A TBN To be Negotiated.' S6 J6 c) N# z, y TBR To Be Resolved. ( w6 s5 i1 ~+ ^$ O: k1 q" ~TBS (1) Tactical Broadcast System (US Army term). " K, V! c# W: V) H* i7 w' z(2) To Be Supplied.3 w( K! O* X# p9 f4 M8 M (3) To Be Scheduled/ T0 {: F3 C+ Q& `2 ? . 9 P9 p. M0 f7 D% ^) UTCAMS Technical Control and Monitoring System.' G1 U9 |6 i4 u' ]( ^3 j3 V TCC Tactical Command Center.$ a* a- o( f# b9 G TCCF Tactical Communications Control Facility.! T$ `: k+ |- L: l; C9 ~ TCE Three Color Experiment.% J) A( N6 H7 @9 N' k7 {% e$ z TCF Tactical Combat Force." o# D2 h5 |) E) _* [8 u TCMD Theater Cruise Missile Defense.. k, Z# d8 W/ i5 ]$ Q) E. @ TCMP Theater (Missile Defense) Countermeasures Mitigation Program. ' p/ t; ?7 X( m8 L$ S% QTCMP I Theater Countermeasures Mitigation Program One. . N- ?2 P, A* L7 m* A/ KTCMP II Theater Missile Defense Critical Measurement Program Two (Replaces TMD2 `1 K. ~3 D+ ?9 x- d3 E Countermeasures Mitigation)." I) i O# j$ H6 G9 j9 z/ n$ | TD (1) Test Director. 2 a3 s9 ? ~$ U5 [(2) Technical Data. 1 i: L) Y* o% n+ a5 W. L/ V(3) Technical Director.8 w% d$ v& w* x, H (4) Training Device * @9 e' N- P5 ~5 ZTDA Table of Distribution and Allowance. 0 N8 F8 \3 [/ e( M6 iTDADT Total Distribution Advanced Technology Demonstration.3 U6 I: E! H/ D2 @; d4 F& M TDAS Theater Defense Architecture Study.& k, Z" F5 o; F3 n& E3 K. M TDASS Theater Defense Architecture Scoping Study. : z [" p; H$ k1 l3 `MDA GLOSSARY, VER. 4.0 T % e) G3 S/ \ E! ]; S$ K293 : X# D ]4 {+ S& w# t0 MTDBM Track Data Base Manager. # }% g3 K8 c- c$ W/ v2 g( XTDC (1) Tactical Display Console. / B) [. b& L1 p5 K(2) Theater Deployable Communications (USAF MDAP). # k: s' I, U; vTDCC Test Data Collection Center. - G" h* e2 v: m$ X) M# a b4 gTDD Target Detection Device. # B% b2 D+ e7 y5 M% `7 q! Q0 VTDDS TRAP Data Dissemination System. - f: B2 o) v e. T+ Q0 x4 j1 DTDI Target Data Inventory.6 b: a( K5 H9 h+ F. R0 X TDK Two-Dimensional Kinetics nozzle performance.6 E- k" \$ B7 I: ] TDM Time Division Multiplexed. , l7 G1 d/ ^+ r. J: Q. YTDMA Time Division Multiple Access (TelComm/Computer term). 1 g# F' v5 n! Y5 ?TDNS Theater Defense Netting Study. ' V$ s$ ]7 } k- U/ UTDOA Time Difference of Arrival.5 G" e, H6 r c2 R TDP (1) Technical Data Package.8 Y+ z u# k, @3 Z2 C7 k (2) Test Design Package. 6 n5 ^6 U/ i h3 t9 q(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. / t$ o$ S: U; }! ITDR Terminal Defense Radar.1 ^$ x7 P/ ?. w. r9 F TDRSS Tracking and Data Relay Satellite System. + ^1 w5 r" @3 C+ ITDSSPA Technology development for Solid State Phased Arrays.6 {) F3 j! h/ K7 L _ TDT Target Development Test.8 g* n6 i; h0 M: _) \ TDTC Test, Development and Training Center. 9 \5 J' Z- l$ \! R# B/ YTDU Target Data Update., `1 I `7 |& ?8 z6 G% ^, A TDUGS (1) Target Data Uplink Ground Station. (2) Target Data Update Ground Station., @( l! \/ }) L9 h9 T5 B3 j \ TE (1) Thermo-electric. (2) Test Engineer. (3) Training Element.+ m% n# t `& @$ V" q (4) (BMC3) Test Exerciser. ; u- Q9 m) Q5 X6 [3 j8 |TEA Transportation Engineering Agency. [7 l% A- Z% ^( j/ ^TEAS Test and Experiment Activity Summary.1 k* B5 L s& \: Q9 A4 H% \ Tech (1) Technical. (2) Technology. (3) Technician% v( u, I+ ^. ^ h5 ~0 x- x& J TECH Technical 4 G) Y3 u, B/ {# B$ lTECHON Technical Control.' ~0 X5 v: p: ^, S5 v& A TECHEVAL Technical Evaluation (USN term).; n" Q# b2 h: Y/ x MDA GLOSSARY, VER. 4.0 T , ~& \8 A) n( G4 v6 t; X294 0 A/ s# N$ B( h; KTechnical Data Scientific or technical information recorded in any form or medium (such as 4 R% ?. A- @/ n) U! t+ Qmanuals and drawings). Computer programs and related software are not) A5 y1 R0 o& U: Z X" k- | technical data; documentation of computer programs and related software are. 9 \; s. v% F2 P; L; v$ b" _# ZAlso excluded are financial data or other information related to contract * }' M& c; i3 |: y: \administration.- H; I7 [2 N; F9 q" D V Technical Data! L. `5 y. @# h" S) r Package (TDP) - c2 X1 o! c* ~7 d7 W' @* m# ?% iA technical description of an item adequate for supporting an acquisition" f2 |4 s/ k4 F5 B strategy, production, engineering, and logistics support. The description defines3 P4 f( u* k+ P: A @ the required design configuration and procedures to ensure adequacy of item 1 X+ [" K( h+ }% H- F; iperformance. It consists of all applicable technical data such as drawings, $ Q8 x P# F0 V2 u: e! Y5 oassociated lists, specifications, standards, performance requirements, quality3 K5 {; n$ C( m' T( O assurance provisions, and packaging details.

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Technical% y$ h, p" G5 v! a: Y1 y6 N Evaluation 9 b2 N4 C4 y+ EThe study, investigation, or test and evaluation by a developing agency to4 o R/ u0 C: A+ D' G3 ?0 O determine the technical suitability of materiel, equipment, or a system, for use in. {' v* d/ T/ Z( z2 \1 O the military services. (See Development Test and Evaluation.) 8 h- V5 N6 C# J+ r, o: m4 J2 PTechnical ; \+ G& @1 T$ z6 d: o* \Objectives" \! u8 F; l( {3 L$ T- g7 k The “target” values for the development effort when insufficient data is available . r' Z5 e- p. u+ n ], Y1 r. R( k4 Wfor stating binding technical requirements. / O( T: Y+ `1 d( H) _ h, F wTechnical - l& y- B/ B# v' E: g( ~Objectives &, ]: N' U3 S% v: l# \8 e3 |3 M/ v Goals (TOG)4 ]& S' f1 @# x% t& S [% U& k High-level acquisition document to guide decision making for BMDS 9 `9 j) E+ l+ D0 q& F7 }8 P2 xdevelopment; communicates objectives and goals. t" o2 o0 H" f6 W/ YTechnical: l# E0 d7 G4 d3 u& o6 U% y Parameters (TPs) , w. |& \7 }/ }A selected subset of the system’s technical metrics tracked in Technical : U9 \4 @4 Y, f5 a6 i, D) {$ fPerformance Measurement. Critical technical parameters are identified from risk " T/ _1 ^( O& E" b0 eanalyses and contract specification or incentivization, and are designed by+ [0 {# K) f4 i k; w' a management. 0 s0 k, E$ L0 \2 J* }3 yTechnical# L8 p9 o" T" o0 Z) B7 c Performance / m6 c$ U! _# C9 T* | p/ nMeasurement$ o, Q. M8 K+ N4 s+ U; C7 ?+ } (TPM)0 V5 _3 r" s" k. f3 f( T3 T5 h Describes all the activities undertaken by the government to obtain design status" }4 _7 A# R! A0 M) U2 j beyond that treating schedule and cost. TPM is defined as the product design% y* T" O2 T4 X; Z+ Q6 u' _ assessment, which estimates, through tests the values of essential performance, @9 t6 K, b$ ~8 G6 b parameters of the current design of WBS product elements. It forecasts the / i0 Z8 o' @# U" n6 x8 a+ b; p! wvalues to be achieved through the planned technical program effort, measures& D1 k9 P& B: P* ^. E$ w differences between achieved values and those allocated to the product - P- u2 H# Y& t1 O5 X" f! @element by the system engineering process, and determines the impact of these! R- Q9 r9 B" c! ^+ [ differences on system effectiveness. 7 C3 D- f5 A& B& g( BTechnical9 E7 R; I/ t/ S$ q/ | ]% w& f Specification ) d \( P2 h8 j8 W$ F% x( @& @A detailed description of technical requirements stated in terms suitable to form ! ^/ R i- U* M- I' l( ]the basis for actual design development and production.) d/ [5 _ e# x* O. ?3 O! Z Technical ( @9 W7 _1 L; W" ISurveillance 9 I6 R! z' G ]7 SIntelligence gathering methods in which clandestine listening, photographic or ; P: J# \0 ^4 w+ w/ d/ L6 pemanations gathering instruments are placed within SDS facilities, or otherwise " y( a# _- g) N( T9 p9 Gtargeted against SDS assets to gain access to denied information./ o& T7 h2 p U0 Q& u7 X" } Technology : F% n" l1 ?! M& v6 hExecuting Agent ' U6 V. {6 [! _( F$ h/ qThe Service or agency (DoD or non-DoD) that has been delegated management * m B/ T5 o. r# W9 t5 Q4 Presponsibility for a particular critical supporting technology by MDA or Executing/ u9 |9 ^9 w& G- j Agent.; |: x# }$ X; B% P- J/ E Technology 1 G3 E0 M& l1 b. n" dProgram& X' v8 F |, T) ] Description, R% b7 f1 g7 x7 ~& u, m* A" z The generic description of the applicable supporting technology or critical& H; b" I' z% g+ f$ n; E; n, ] y supporting technology. 4 M) W+ e+ Q" J9 wTECOM Test and Evaluation Command. ; U7 h( j& N: g6 I8 H9 Y; xTED Technology Exploitation Demonstration.: x9 q2 p9 c, N6 |% a MDA GLOSSARY, VER. 4.0 T . ?2 d9 v$ S1 n! i1 T4 s8 s295 8 N) J. s8 Q' r, e+ Y2 h9 DTEIPT Test and Evaluation Integrated Product Team.) w9 i: I1 {; G3 I! \: Z TEL Transporter-Erector-Launcher. D7 g$ u6 r8 z- P Telemetry, / F* _! r' m( s+ jTracking, and7 k) [( _& u2 p, J/ N9 k- q Command (TT&C)( f. {& J) K: y4 G Functions performed by the satellite control network to maintain health and 1 L$ n) ]* [. c- r$ d1 }status, measure specific mission parameters and processing over time a 7 m; s P' @, l. z% }& A- u" Hsequence of these measurement to refine parameter knowledge, and transmit - v* O4 Q. L, vmission commands to the satellite. $ V7 z2 k& k; t: ETeleprocessing The combining of telecommunications and computer operations interacting in the. K+ m2 C F( I+ y4 f automatic processing, reception, and transmission of data and/or information./ a4 l# S6 z' G* O/ Z TELESAT Telecommunications Satellite.7 T2 J- m6 Z+ n; n TELINT Telemetry Intelligence.6 s5 U) N) ^6 k3 \6 H) O TEMO Training Exercises and Military Operations. g v. ~8 v8 v0 { GTEMP See Test and Evaluation Master Plan. 8 |8 w. n3 {! U% T" z" J4 \TEMPEST TEMPEST is an unclassified short name referring to investigation and studies of/ U# E+ z, K- q: P compromising emanations. It is often used synonymously for the term # @6 A/ {8 {/ z0 a"compromising emanations,” e.g. TEMPEST tests, TEMPEST inspection. (See " g, i( j |) E3 ?3 ICompromising Emanations.) 2 ^1 v7 b# _6 ^4 s' k7 I7 A& cTENCAP Tactical Exploitation of National Capabilities. , G; }8 R4 n( u$ _) ETEP Test and Evaluation Plan. H6 Z+ c( n# N* W7 ^% O TER Test and Evaluation Report ( o; }( i" k) F. l, wTERC Test and Evaluation Resource Committee.6 Q; b' r2 C$ n+ _ R+ H( x# ? TERCOM Terrain Contour Matching.( V. p) V* Z/ L& S% \ w9 a# d; F Terminal Defense* _5 o' k3 s! c1 A# t* q$ a6 {$ ~( E Segment (TDS) 3 X- s5 U2 r: W/ m0 j& \6 `( c3 GThe portion of the BMDS that defeats ballistic missiles in period of flight between; E; N' ]1 Q( `) h9 F8 T r8 z5 } atmospheric reentry and impact.7 w( o4 L0 |0 j- ^ Terminal 4 l$ S E# @% i# K$ y5 {Guidance 5 N, }8 S8 o( A# p9 i, ~The guidance applied to a guided missile between midcourse and arrival in the 4 J, K: \* g# {4 Q, T' p, avicinity of the target.8 V0 _) B- k1 q! B5 X4 U7 c: U Terminal Phase That final portion of a ballistic missile's trajectory between the midcourse phase 8 f' H9 j% D* T. ?. Hand trajectory termination.& F7 \- ?1 s8 n Terminal Phase ( P, b0 c' t9 c, j4 _Interceptor . Z2 m7 V( p7 s3 g; ^A ground-based interceptor designed to intercept and destroy RVs in the% [- G1 j, o) L$ }1 b terminal phase of flight. It may also be assigned to intercept and destroy enemy, N i1 D& X' x+ K PBVs and RVs in the midcourse phase. (USSPACECOM)0 u7 P0 K$ T: F) f' b4 n0 ~ Terminator Transition from sunlight to earth's shadow in space./ i8 Z( P6 Y2 E( M K TERS Tactical Event Reporting System. 6 s% q) U2 V. N. y: [TES Tactical Event System. , Y) a# N" r- e6 `* f: lTESP Test and Evaluation Security Plan.9 U7 i6 D( ~ }) D3 H; n% v TESSE Test Environment Support System Enhancement.# i( M: w" r$ H MDA GLOSSARY, VER. 4.0 T % Z0 m% ?$ v5 i* W/ ^6 K$ R296 6 }$ e* U% y8 h1 Y7 [; H4 dTest and Control The ISTC Test and Control provides the human interface for testing system 3 Y$ j% t: O( F9 {/ {hardware and software. The Test and Control will consist of the necessary9 [2 x. b+ a- B9 Y$ D1 ^ consoles, processors, and storage devices in order to be able to control all: M) c9 E: u: V5 m+ Z* q0 |! h operations of the ISTC such as configuring the system, running a scenario,0 Z1 j9 {3 P+ q5 A- A6 a analyzing data, generating reports, and testing system hardware and software. # K' P4 d+ @8 P" tTest and & t& s7 j0 u: i$ rEvaluation (T&E)6 v8 b1 _3 K1 H5 }. d2 a) ^6 g Process by which components or systems are tested and the results evaluated 7 G( Y9 n) l3 Q$ @: Tto assess progress of design, performance, supportability, etc. There are three / ~. j, i/ `( ^types of T&E -- Development (DT&E), Operational (OT&E), and Production& h9 |1 X8 y7 k. p/ A) ~) D0 o Acceptance (PAT&E)--occurring during the acquisition cycle. DT&E is conducted 9 @" q) K5 [1 _' x o' n" ?to assist the engineering design and development process, to proof, Q+ U6 s# t3 r) ~ manufacturing processes and control and to verify attainment of technical * D8 f7 d8 Y) y* Zperformance specifications and objectives. OT&E is conducted to estimate a ' g9 D7 x" h# _7 J% |+ {' Asystem's operational effectiveness and suitability, identify needed modifications,5 G* S/ [; b+ q: q% N7 b/ N and provide information on tactics, doctrine, organization, and personnel . e# X( {; A+ G6 Orequirements. PAT&E is conducted on production items to demonstrate that1 E( H, s& j" A J% H1 x: Y those items meet the requirements and specifications of the procuring contracts4 t8 I: z* S% f. v- B$ B" [ or agreements. OT&E is further subdivided into two phases--Initial Operational. _8 ~0 ?7 N! w+ ~ (IOT&E) and Follow-on Operational (FOT&E). IOT&E must be conducted before ! r* j, g& u! qthe production decision (Milestone III) to provide a credible estimate of* L/ m6 b/ q: U operational effectiveness and suitability. Therefore, IOT&E is a field test . E- Q3 m, W2 Yconducted on a production representative system in an operationally realistic B8 h- k) Y$ ]8 T3 E: A environment, by typical user personnel and includes use of realistic threats.# w m7 y8 b3 M) W2 z FOT&E is conducted on the production system to verify operational effectiveness 7 M ?1 t& ]9 A! `3 ~and suitability, to fill data voids from the IOT&E, or to verify correction of" k Z1 \& H4 @ deficiencies in materiel, training, or concepts.

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发表于 2008-12-25 20:24:29 |只看该作者
Test and7 i) ]9 b. T- e- D# s0 f- l% K Evaluation 8 N- Y1 |% _9 n vMaster Plan O4 U+ s% ~7 G H& V' l3 ?4 c (TEMP) 1 k7 y9 c( T' J5 QAn overall test and evaluation plan, designed to identify and integrate/ ]3 E( y/ T/ ^, l. p objectives, responsibilities, resources, and schedules for all test and evaluation # n) m) z8 ?* W! [6 v2 Gto be accomplished prior to the subsequent key decision points. Prepared as8 r+ g6 L! ^' i2 Z" n4 F early as possible in the acquisition process, it is updated as development+ `4 q$ P0 t7 S6 _/ | G progresses.: l) o0 r7 d: g7 B Test and W" ~+ s" i+ V+ |2 q/ ^ Evaluation/ T1 z/ B+ V" u+ Q6 i Working Group5 J# R1 M6 j* A& D (TEWG)+ t8 @ |0 @" X. P4 D3 j The TEWG is the forum in which T&E coordination for test requirements, ! [$ I7 N6 h" Y3 O% w% p, Gplanning, execution, and reporting, is accomplished among members of the$ D' B" D: D, G5 Y ~: P7 Y Acquisition Team. The primary purpose of the TEWG is to optimize the use of ; m# H" ^+ r6 Otest data, instrumentation, facilities, and models/simulations to achieve test 6 R3 ^% @, T, C. n9 K6 m4 Gintegration and reduce program costs. The TEWG is established by the + }2 F* a5 d _8 l" S p4 D Lprogram sponsor to integrate test requirements, resolve cost/scheduling8 t& s. @( Y% e: [ problems, facilitate TEMP development, assist in preparation of RFPs and% r& b: P3 ]- G related contractual documents, and assist in evaluating contractor proposals 3 c% |3 d: K2 [& s* }5 ?, W: qwhen there are T&E implications. 1 V( O6 [0 V) ^: \% N6 N1 {4 X/ Y4 `Testbed A system representation consisting partially of actual hardware and/or software 4 y% l$ X) q5 p9 q# ]and partially of computer models or prototype hardware and/or software.1 `7 `; a7 a7 n7 q Test Criteria Standards by which test results and outcome are judged. , u1 W: j1 B' H" I) M7 xTest Integration& |& ?: U9 F+ M- M( Z Working Group * f0 ]. y: ~! `- [' d4 h- ](TIWG) {/ Q# w. c6 nA working group designed to facilitate the integration of test requirements in& b) o7 l, M1 [- u8 e order to minimize development time and cost and preclude duplication between ' |5 _+ j6 @3 F$ Q4 ~1 }developmental and operational testing.' v" ]% M; ~7 b. Z z% Z Test Plan A document prescribing the approach to be taken for intended testing activities.3 ~' w- R9 n! w. Z The plan typically identifies the items to be tested, the testing to be performed,3 S/ T0 K( _ \% w1 Z- z test schedules, personnel requirements, reporting requirements, evaluation 3 ?# b/ L0 G1 G9 W/ n3 H7 D U& o8 vcriteria, and any risk requiring contingency planning. 7 {4 z. C% A& r" WMDA GLOSSARY, VER. 4.0 T 5 c% z$ C. T* g5 A4 ~( O' o297" D/ ]- \8 K8 b) o' Y: y Test Target( t* D2 w" \0 l0 X W2 J Vehicle (TTV); I2 u2 M2 v6 `6 j' e2 \: F" t Single stage, ground launched, solid propellant theater target developed for5 M7 K& Z1 N0 ? k! _ SMD Program. Also called “Aries”. ! o+ x& W: ^* Q* sTest Validity The degree to which a test accomplishes its specified goal.+ \$ v: U4 M8 H& M TEV Test, Evaluation and Verification. 0 ?: z: S/ m; F1 G, a9 o6 V8 uTEVS (1) Test Environment System. (2) Test Environment Support Systems. 8 E1 B/ O) u# y& GTEWG See Test and Evaluation Working Group. # J) |6 m- T% E! nTEx Test Exerciser (NMD BMC3 Term). " ~2 l5 |2 b5 E. o( vTEXCOM Test and Experimentation Command. + T. Q* `3 Y2 L3 a# zTF Task Force. - T' E0 X+ S* j U2 I4 jTFC Tactical Fusion Center. 1 {; M6 y, i8 s! s9 {' s6 |& mTFCC Tactical Flag Command Center (USN term). 6 ^$ z4 F2 T+ R! t8 f: V" Q! ATFD Technical Feasibility Decision. " z: H: D: ?3 Q( }- |TFE Thermionic Fuel Element(s).' Z! j; K+ z2 G TFIM Technical (Architecture) Framework for Information Management) k, G' I- C% G* m) R: Y TFOV Theoretical Field of View. & F) S1 V0 o- ~+ M: c% S) OTFR Terrain Following Radar. , a4 b9 ]2 K& w I! ^8 uTFRAMES Tools to Facilitate the Rapid Assembly of Missile Engagement Simulations. # |# ^- D2 y4 y+ |TFT Time Off Target (JFACC term). 1 Y- v: |$ O& L2 @* ~, k3 ^TFW Tactical Fighter Wing (USAF term).2 c- _( Y' ^4 W! ?% w* m TG (1) Threat Generator. (2) Trajectory Generator. % P8 P) t; s9 \6 HTGINFOREP Target Information Report (JFACC term). ) U7 ]3 I2 I3 }! L) }TGS Track Generation System (USN term). % i6 f' I/ p4 J) m* K+ h; t! tTGW Terminally-Guided Warhead.* o+ _$ s/ ^0 f: o" K+ Q THAAD See Theater High Altitude Area Defense System. g7 Z* B3 P6 i1 lTheater The geographical area outside the continental United States for which a 3 q- z: \- s7 scommander of a unified or specified command has been assigned. # a. G, s$ f) h8 iTheater Attack Attack on a geographical area outside the continental United States. % C3 t" n0 |+ d/ j' ^( W2 L% oTheater Ballistic: T; v3 b6 R# E Missile Defense( V/ r5 J: t- @: M (TBMD) System + p: F" J# W% J9 K- K& e0 ZThe aggregate TMD C3I and TBMD forces that, in total, provide defense against # o; b* r+ G; u9 G: L9 ]4 {ballistic missile attacks within an overseas theater of operations. 2 Q$ Z/ V$ ?* F/ i- T' a" }' A(USSPACECOM)

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