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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 . u3 \: m. o0 [* b' s4 y$ A$ Gaccess and support to a variety of missile defense test and evaluation data. E; {, d+ c: L* KSTM Significant Technical Milestone. ; l' J2 R- G& \ C2 K4 pSTO (1) Special Technical Operations (JFACC term). ( S% Y0 a4 g$ D( @5 ](2) Science and Technology Objective. 6 A4 `1 y7 C; E! ESTOAL Short Takeoff/Arrested Landing. : v- P5 S% x: E$ P+ ]8 vSTOM System Test Object Model. ) T* x. Q) c. K5 j t F% e9 R( `$ v eStorage,$ [! a2 ]2 R2 q0 V9 J Handling, and! O! [. D. U1 { Transportation 3 S5 y& }' I1 E1 A5 w& |% eEnvironments # j3 `2 `; r) a- w% fThese environment categories cover the applicable free field or ambient2 h% U0 F9 r. o% \8 C% Z" @ environments, which the system assets must be capable of withstanding during / h, _1 A( L! Istorage, handling and transportation. They include the full array of applicable/ z- P$ q; T$ C5 S$ \7 K atmospheric and ground environments to which BMD assets will be exposed+ L% b* v. u( m* R) N8 `! @ during these non-operational aspects of system deployment such as pressure, $ a0 _3 R# |- m4 z1 V0 Gshock and vibration environments, among others. ~' \/ s/ _6 E* a9 T2 i/ V Storm Name of a theater ballistic missile test target system, part of the Baseline Target: a* p# [7 o& `5 F0 {* M# ? Set. 5 A ]$ l+ D$ zStorm Shadow Conventionally Armed Stand Off Missile weapon based on Matra of France’s ! C# S: a$ z# n* t. fApache missile./ D6 W0 K! ]8 K: V5 @. i( X: |3 Q STOW Synthetic Theater of War (US Army term)., s( M* W- H8 c& R4 `3 b. ~/ }6 d STP (1) System Test Plan (2) Sensor Task Plan. 1 G+ M/ N% v3 f7 pSTRAP HATMD System Training Plan.! t: i8 o; \: B! h/ p2 b/ N. y7 ^ STRATCOM Strategic Command. 1 i. o; C1 [0 @) [" V2 O3 q$ ?" OStrategic& W8 ]: J/ }9 p) Q$ m Defense ) c% Z$ W% v3 S9 ]% c1 c9 `' s5 JAll active and passive measures to detect, identify, assess, degrade and defeat ( p( J3 v; s! v0 h6 t) e: \" r6 Sballistic missile, air, and space threats to North America, including measures to& L+ L! H0 ?: `6 I) L nullify or reduce the effectiveness of such attacks.3 _- [, V/ @% q6 Y8 Z Strategic& N) A; l" x. R" w7 X Y Defense/ a% s) t8 e9 `8 J& S8 ?5 r Emergency$ E0 e" F$ W' G+ n {- a Declarations that attack is imminent or taking place. ( K0 u" @. a4 a1 y" [) ^' s" R* CStrategic6 S# `7 p4 A U% n$ F* b' ^, H Defense System8 w) X5 G' @' M$ F' u0 d (SDS)8 S4 F1 d: B7 e" | A generic descriptor, which refers to all architectural elements of the evolving L; N2 |3 U3 {0 U6 F `7 g0 s. e; hballistic missile defense system. 7 Q$ a5 P c4 @- c5 R! HMDA GLOSSARY, VER. 4.0 S # {6 ~, M' K3 b' a4 o. ?2 P280 # M, I) J& E. n' tStrategic Level of- Z) I* }' H5 \( N; K% F# \8 L War7 S$ ^! c& @! _; `# q X The level of war at which a nation or group of nations determines national or) G" u9 W. c3 d) L. d alliance security objectives and develops and uses national resources to ( ^1 k0 \) N, l3 U: H e q% Qaccomplish those objectives.# k: E4 m$ K6 W Strategic' k8 p9 g% q( {& z' n* |; i Offensive Forces1 B' K# S: D! \! Z* V' v, \$ N4 } (SOF) ' Z& p; ]' _& f+ G3 ]- bThose forces under the command of the Commander in Chief, USSTRATCOM,5 a4 \# @0 E! O3 |; \1 M the Commander in Chief, Atlantic Command, the Commander in Chief, Pacific . e9 p5 L; H8 l2 N b" U. MCommand, and other forces assigned to execute the Single Integrated 8 O# n6 p( c! k! x+ pOperations Plan (SIOP). These forces include but are not limited to B-52s, B-1s,# \" a& v; B6 b9 E, I FB-111s, Minuteman IIs and IIIs, Peacekeepers, Poseidons, and Tridents.9 }# ^# |$ Q/ V9 ^4 H9 o6 }& T$ P9 n! F Strategic6 p# T0 E2 ~4 ~% D! N Reserve & G+ i( _) K( z2 [5 }7 U. P1 ^That quantity of material that is placed in a particular geographic location due to " @$ T/ W' j: Z" [5 pstrategic considerations or in anticipation of major interruptions in the supply/ [: t- j, g$ f$ e8 c7 ^* C distribution system. It is over and above the stockage objective. $ o( q: l' p0 a3 P) ]Strategic 1 M& b! x) Z% }+ ~! {) G6 KWarning9 n- d5 h2 q6 x: Z0 }# w0 Q5 O( R# V A warning prior to the initiation of a threatening act.+ t2 ^7 Z0 A" }9 u e+ k Strategic - R+ ~' X( Y1 ^. ^% {% EWarning Lead) W3 h; W1 B* v4 }- v) x. y Time$ [: I1 z ]; ] o7 J1 W That time between the receipt of strategic warning and the beginning of w' g0 W; |8 d hostilities. This time may include two action periods: strategic warning predecision time and strategic warning post-decision time. & `5 _# t( l% V' @Strategic 0 W7 I9 e# P0 g, G) W* N3 qWarning Post- P* _9 U% _' V; H; nDecision Time7 {. @ L) k# p- M1 a& s That time which begins after the decision, made at the highest levels of # T4 O% u! ?7 d3 ?. b7 V( Fgovernment(s) in response to strategic warning, is ordered executed and ends3 I, D0 [ A* w3 C6 B( H with the start of hostilities or termination of the threat. It is that part of strategic & c& s: V$ h! M. u4 ~* s6 e/ C& Swarning lead-time available for executing pre-hostility actions to strengthen the% N7 l/ W! h. w. B national strategic posture; however, some preparatory actions may be initiated in9 R3 d% ]0 _" A( y$ _ the pre-decision period. 3 s5 X% F# Z j- lStrategic/ ^1 Q# E& I" R8 d Warning Pre- ; z9 @9 r9 h+ X2 ]* n9 `2 B. l( u3 KDecision Time7 o0 L/ |$ h- Y) u- b That time which begins upon receipt of strategic warning and ends when a , u. H. d# k! ~3 i* U8 S: Bdecision is ordered executed. It is that part of strategic warning lead time $ n& ^& _1 z. wavailable to the highest levels of government(s) to determine the strategic course" Y4 Q) G; Q- Z' x$ G- I! ^ of action to be executed. 4 _: j" M, U/ r5 ?3 pSTREAD Standard TRE Display. * Z `$ Z0 ?% k7 X2 |! t& U& W5 mSTRICOM Simulation, Training, and Instrumentation Command (USA term). 9 ~9 g/ u2 `3 |0 i/ ?Structured6 \- _/ n) k2 G Attack+ M- P! J& {+ | R: L6 i4 d4 \ An attack in which the arrival of warheads on their diverse targets is precisely + v1 j! m1 i7 X) p5 p% x; wtimed for maximum strategic impact. - T4 o, U1 k$ rStructured 3 j9 _# t; P" v* u1 Z( c2 hDesign ; R# r% H8 G$ D: z' [+ _+ @4 rA disciplined approach to software design that adheres to a specified set of rules # S7 b5 r& T: i3 f7 Mbased on principles such as top-down design, stepwise refinement, and data / T. V6 f8 H# d6 C3 [flow analysis.

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发表于 2008-12-25 20:21:38 |只看该作者
Structured R' F% y% @8 k0 Q& ]. ]Program) w2 V) g% U1 D" y8 _) g& E A program constructed of a basic set of control structures, each one having one* c6 D8 u% c+ @* f4 Z entry point and one exit. The set of control structures typically includes: + D& x: Q2 u6 m' n! ~' wsequence of two or more instructions, conditional selection of one of two or more ( R/ F$ D" n; |, ~( Vinstructions, conditional selection of one of two or more instructions or5 ]8 [5 N5 z, v/ M sequences of instructions, and repetition of an instruction or a sequence of: z; |: |3 p' M$ U( d$ Y2 B instructions. ; M% O9 T. n, ?$ uSTRV Space Technology Research Vehicle. & B+ R: k" E8 P( k7 TSTS See Space Transportation System. 3 `4 _6 N; c6 I" ^5 \STSC Software Technology Support Center. 7 i8 @ T4 |9 p3 m; ZMDA GLOSSARY, VER. 4.0 S2 P6 C' |4 V: n! f! [. \ 2810 |9 G3 ~2 P$ ~9 Q7 `9 b STT (1) Small Tactical Terminal (USAF term).+ K1 R, g- z! o1 H3 Y. e. b3 F6 H (2) Stockpile-to-Target (US Army term).7 y9 Q5 ]% {9 d9 [4 t$ F& `0 g STTR Small Business Technology Transfer.1 T" q% [' D% U2 a& @* F STU Secure Telephone Unit. 1 s3 K/ q( G7 ]2 fSTW Strike Warfare. & D' b" {* ]! I4 P" @. rSTWC Strike Warfare Commander.% r. f/ P4 k# C& | j0 m STWG Simulation Tools Working Group. 6 X4 V% z# U( f1 d5 P; v% [" ~Subassembly Two or more parts joined together to form a unit, capable of disassembly, which 5 S5 a2 ^* I5 xis only a part of a complete machine, structure, or other article.+ v- t- B0 Y2 E1 W" t6 ]# j$ d Subcontractor A contractor who enters into a contract with a prime contractor. 6 m" ~; W: Y/ P9 D7 w7 m% l( R/ }Subject Security ! P/ O: @9 I* N' @Level 4 T$ }) w8 `; t7 Y. ~( |A subject's security level is equal to the security level of the objects to which it : |, Z d( X2 B4 j, {3 V8 t9 Lhas both read and write access. A subject's security level must always be # |( E8 i, ]( L \8 jdominated by the clearance of the user and with the associated subject. 8 M$ D# O& v7 d9 V% ESubmarine- ( o2 d9 Z' q0 p$ N2 t6 ^; b5 gLaunched: e' ~7 q T/ [) ^2 n Ballistic Missile ; c: }+ X. w2 W; U. Z3 C(SLBM) % p/ `- b/ G, a( MA ballistic missile launched from a submarine, with a range of 3,000 to 6,000 . Q. ?' n9 n7 ]0 Fmiles. 6 n4 n9 p0 S& iSUBROC Submarine Rocket.' @. _& ^) |' o- Y Subsystem A functional grouping of components that combine to perform a major function # n5 U. e$ m$ D: ?within an element, such as attitude control and propulsion.6 D* f. Y! L. H5 u) S' A A Subtractive* w1 L' z4 @% y1 Z7 q Defense 3 A' H# p0 R2 t! v! L ?8 i! aFirst come first engaged as long as weapons last.0 @' v L4 Z5 p: D9 C5 w/ [ SUCCESS Synthesized UHF Computer Controlled Equipment Subsystem./ l& ~& e1 I! @2 H+ ?& w9 j h Succession of $ p4 z6 M2 u1 @. ?& b% R* DCommand " g; C. c- u- Z3 a5 @7 gThe planned or actual sequence in which subordinate commanders, in turn,+ Z. l, X; V. h& N! W4 L) H8 _ become de facto commanders of a senior organization. Devolution of command ; W3 M. \' | Z. b& Iis a synonymous term.* I+ L1 r# ~1 {& n. i. b SUM Software Users Manual (Computer term). 1 X+ G1 G+ o& |; I5 bSunk Costs The costs of resources already committed or spent. In comparing two - K0 r) Y3 u# Dalternatives, such costs are "non-additive," and they are not germane to& a y! b( k0 {3 j" o1 l1 f* ^ decisions about future use of resources.% J, g! H1 Y2 ?4 Y# B3 ]! ]2 V/ s Sup Pro Supporting Programs (MDA term). ! U4 z' m W+ B- H6 X2 Q0 U7 W" zSuper Survivable Solar Power Subsystem Demonstrator.; V, z) N+ D( ?& Q* z1 \% P7 F1 u V Super Radiance The process used by a super radiant laser to generate or amplify a laser beam in$ u6 Z. H( B/ [0 i B+ \ a single pass through a lasant material, or, in the case of a free electron laser, . O# h* X s0 F( _! Tthrough an electric or magnetic field in the presence of an electron beam. Super 8 T0 q$ [8 K+ _8 Z/ M2 I' {radiance is actually a form of stimulated emission. Also known as; q. J% `0 i' X3 s; _7 [4 m superfluorescence, or amplified spontaneous emission. & a7 F& Z8 _3 p6 l1 AMDA GLOSSARY, VER. 4.0 S 8 k t1 u, W2 R& u3 v" C2 |282 ; s; [: j. s% x S* V2 ]Superradiant3 } H4 U) f" P Laser (SRL)( Y/ L: i8 n9 A A laser in which the beam passes through the lasant only once; mirrors are not; K$ y: V$ }+ w* N required for the operation of such a laser, as they are with more conventional & P0 n6 U) {6 I+ p( m' |( Vlasers which are sometimes called "cavity lasers" to distinguish them from - J" }# V$ D# U9 ?+ b1 W& Tsuperradiant lasers. Free electron lasers may also be superradiant; the laser z7 w4 G4 y& Z4 O beam of a superradiant free electron laser would pass once through the electric/ v2 v$ j4 l0 z! K9 } or magnetic field (instead of a lasant) in the presence of an electron beam. }8 P5 ]. ]6 iSupervisory 7 w- I$ Y! W+ T8 XPrograms0 D. s2 S; A8 C8 B x, u" p- o Computer programs that have the primary function of scheduling, allocating, and $ \5 i2 _5 a+ u# j# N0 r- b0 C3 econtrolling system resources rather than processing data to produce results.: J8 {" J: O* R) ]7 A0 w% r Supplemental 5 `" A6 i2 D+ N) ?# RAppropriation* q. D1 J9 K9 `$ H. e An appropriation enacted as an addition to a regular annular appropriation act. 8 i2 @7 r, |6 l6 f. m% Z3 ISupport , n9 ]/ N, E! G6 wEquipment # ^4 M1 J+ H, q- b( J3 h0 c+ DAll system equipment required to support the ground and flight phases of the3 x! z1 W% v R+ O f mission. Support equipment includes aerospace ground equipment (AGE), C; _# _* b+ q7 E& Q, w6 O maintenance ground equipment (MGE), transportation and handling (T&H)% u& J; f" ]) I, k' l9 T equipment, and equipment used to support system deployment (i.e., assembly 4 V5 x. e: I4 P' P* Qtools and fixtures, test and checkout equipment, personnel support and! l! n; N+ ^1 V( N protection equipment). " D4 C" B4 ^, qSupport , ~# o6 p% o. APersonnel. R8 n( V. [2 A Individuals, in addition to operators, trainers, and maintainers, who are directly4 F; y) M( |- F associated with an operational system(s), and who are critical to its continuous 6 x, [( T9 X% j' yoperation. Examples include program management offices, security, supply, 5 m+ G S6 K! {" ]administrative support, and the like.1 z2 F" Q6 m$ D. y/ ~, i Support Software Software that aids in the development or maintenance of other software, for * J# k2 y5 n L' S7 U, H( kexample compilers, loaders, and other utilities. 6 p$ G) _( x6 c/ E/ a, X! VSuppression Temporary or transient degradation of the performance of a weapons system,, ?0 ], G1 v, _7 g( j& a, c; Q2 e$ ` below the level needed to fulfill its mission objectives, by an opposing force. ) F' i8 o/ Z- S) d0 U- zSUPSHIP Superintendent of Shipbuilding. - _* v5 M6 Y+ t; \3 RSURCOM Surveillance Constellation. 3 l8 W# n6 U% n6 e& @Surge Production An increased rate of production necessary to meet demands for defense items 5 t! L, O" v! }7 Ldue to a need for accelerated production to meet a threat or for a wartime or 0 w4 |# l) L8 v; N; ?* O+ |mobilization situation. This increased rate can be obtained by having excess 9 U& ^# [9 p: q: T# r! |. C3 J9 K, Jproduction capacity available or by utilizing multiple shifts of normal capacity ; i4 D$ {( j# Gmeasures. ; V, C9 ^9 V8 O% Y$ K \) K2 dSurveillance An observation procedure that includes tactical observations, strategic warning,* a! B" G3 ]( r$ V- I and meteorological assessments, by optical, infrared, radar, and radiometric 1 U+ d3 t6 E" L8 L; t, m2 _5 Ksensors on space-borne and terrestrial platforms.

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Surveillance : P2 S. G- a' iRequirements% h- v7 B- m. C% j+ z$ K Requirements are requests for surveillance, including relative priorities for- X) i" k: f J P1 d coverage and sensitivity levels, based on operational orders, selected response+ O+ }: T. p/ F3 ` options and current surveillance system availability. 2 z$ t& i9 B6 w1 I0 ~6 cSurveillance,' h# Q3 m; G* u; q& n4 R; P Satellite and* s# `& M. O% k/ f" N4 P: k Missile / h: r# c! x+ K8 t5 K' CThe systematic observation of aerospace for the purpose of detecting, tracking, 2 V8 @, Q2 v9 d1 Rand characterizing objects, events, and phenomena associated with satellites 7 p5 A& b% E3 j$ V. m, o! C* iand in-flight missiles, friendly and enemy.3 } X7 g3 Q2 i4 ?( x# G Surveillance 8 t1 W+ s+ c" _/ MSystem 7 |8 c7 [$ g- S& I( k5 C. K5 iConfiguration* r6 H8 a4 P- G5 C" [+ h- J7 G" b The sensor types and locations and the modes of operation currently activated; V0 T& j s( W7 L/ g in the surveillance system. 4 @; A" x4 t& w9 O! hMDA GLOSSARY, VER. 4.0 S 8 [1 k1 `8 b# \! ?( J1 r283 h* u4 t w9 w8 f% ?, F/ o Survivability! F5 S7 K" a0 @. d) t Operating Modes , [* [5 a" b6 f& ]+ ^ ^5 a* [. G- g, C, bThe operating modes not including but in addition to the self-defense modes$ n3 S5 I3 [$ ^% |8 m- W* g that all the elements can use to protect themselves against direct enemy attack. , L3 c0 G8 ^4 _: k9 w/ c% I$ |Survivable and' M4 o+ S8 R- _ q! g Enduring * h* |2 [+ L( H+ l$ b9 NCommand Center 8 i0 \: E" V: s+ f z( u( ~0 @(SECC)# A. Q3 D6 v& V9 i# G, s The USSTRATCOM mobile C2 facility.. A% `5 \0 G5 Q* ^' {4 B2 h SUS Site Utilization Study.& u4 z. P. e& i& K n9 N2 n& K Sustainer Propulsion stage of a missile usually operating after the booster cutoff., B. b/ L- u) r/ X- w SV Space Vehicle. . r4 s) i) j" E. s5 g! @SVS (1) OBSOLETE. SSTS Validation Satellite. (2) Scientific Visualization Suite.) F8 ~; J- _" p7 H SW (1) Software or (S/W). (2) Space Wing. ]% q3 Y0 N, L8 |' c SWC Strike Warfare Commander.0 ^# G$ [+ f% B0 Y, E y- i Sweep Jamming A narrow band of jamming that is back and forth over a relatively wide operating% F( K" P- y7 y( F4 M. J band of frequencies. 2 b$ N8 ~& g6 B/ n7 D) `: SSWG Scenario Working Group. ' e/ o2 E( j h5 g. ~! A( ^9 FSWIL Software-in-the-Loop.- Z; T$ B' g5 J7 U( Q7 d SWIR Short Wavelength Infrared. " G% @. K( S$ }' w$ |) t# ^# }SWSA Spatial Weapons System Analysis.. Q+ l8 m. R6 Z2 ~8 M ] SWSC Space and Warning System Center.: P& h c; T" A/ I SYDP Six-Year Defense Program.8 s' Y4 C, }) a Synchronization For data streams, the process whereby a received set of data is placed in one to8 o. V4 N3 R: { d, D* m. H; i one correspondence with the data assumed to have been transmitted. . Z* Q- n# w( D4 ?$ r, ASynthesis The automatic generation of a run able system from a specialized design where1 K' q6 F/ T% R# g9 h. T each module description has associated implementations.3 I4 ]8 [8 q2 w) C8 s Synthetic 7 a( e o% H2 u* c" x! I6 b, PAperture Radar 8 Q% x; ]$ C" R7 T(SAR) - D; K! [2 V, B' A) jA radar technique that processes echoes of signals emitted at different points! `6 ~0 H7 g& r j along a satellite's orbit. The highest resolution achievable by such a system is $ r' Y. g ~# C0 ~8 }, g9 mtheoretically equivalent to that of a single large antenna as wide as the distance . z' E# C: W' h7 p$ Jbetween the most widely spaced points along the orbit that are used for, w! u2 H8 r d3 L* t# L4 I transmitting positions. In practice, resolution will be limited by the radar receiver's 6 g9 J4 O9 t: k Z" U4 i# M8 msignal processing capability or by the limited coherence of the radio signal 8 L0 ]5 \9 Q7 Semitted by the radar transmitter.# Z9 K* ?/ J# R7 v: Q. c$ {& z% C SYS System. $ j7 D& D' E; M1 aSys C/O System Check Out." [% |, g8 z8 N% F, v1 ^ Sys Cmn System Common.3 f ]' b0 o% o. y Sys T&E System Test and Evaluation. / e. S8 b% J+ T+ K0 HMDA GLOSSARY, VER. 4.0 S; K! N( w m- y- C7 m 284& I$ f! Q. |3 G2 n% [ SYSCOM Systems Command. 9 ]6 l$ h$ w: S- GSystem (1) The organization of hardware, software, materials, facilities, personnel, $ d" C0 I) ?+ d1 j# z0 xdata, and services needed to perform a designated function with I& V2 {% b! d Sspecified results, such as the gathering of specified data, its processing, ! j( H, ]7 F8 G4 tand delivery to users. , V. \( D9 C9 F: P6 i/ m! |(2) A combination of two or more interrelated equipment (sets) arranged in a0 I* `( E9 n, @% |0 b q7 U functional package to perform an operational function or to satisfy a 7 ?1 l4 u. n1 l) `3 Zrequirement. 0 }& t5 D; K" C% g' G' cSystem 4 j1 p3 R6 x8 d$ F( YActivation, E' {4 Y4 n" r# X) N That set of coordination, assessment, decision, direction and control functions 9 _* Q5 k' b- d1 J# r) \1 Q! vimplemented to enable defense weapons, and to initiate the automated, realtime aspects of Battle Management, Engagement Control, and Weapon System8 K L8 Z6 [( Z; k Control. + m9 X8 Z* V/ m6 _System 8 P; Z: U7 c- _, HArchitecture9 H/ U9 k& @8 G System $ F& x5 \! W& G( G% {' Y( eCapability/ s/ Q. G! T4 n Specification 6 g Z g% b' U& p5 T3 x(SCS)7 `5 Y. v: `; J* N: B: @ The structure and relationship among the components of a system. The system4 Y1 c Q! K7 B Z1 T architecture may also include the system’s interface with its operational6 D: ^& I! U) O6 L environment. A framework or structure that portrays relationships among all the, q* H" [0 K% {9 }2 |. |& k+ H elements of missile defense systems.# |% b( z; T3 R5 {: T C The government document that translates capabilities into functional 2 C) a T7 i+ J9 w% Nspecifications for the overall BMDS and allocates functional specifications among O6 l' D7 W; @. w7 e) y$ vthe elements of the BMDS." I, [& a5 X O% I# z System Center% O1 x7 S3 N8 q/ A1 e @- Z( K (SC)( d* y t6 H% _9 m0 O A center in CMAFB responsible for the scheduling of maintenance for worldwide X6 @' H! k" b2 s/ F! z sensors and supporting equipment as well as maintenance responsibility of - j7 a8 Z; a2 f6 Uequipment in CMAFB.! n, n! E+ E; A A$ b System Concept : W6 b; s; ^- f8 o& ePaper (SCP) & r6 T/ J. }( I$ f$ }* M/ ZOBSOLETE. For a major program, was used to summarize the results of the 7 K" v8 l7 g! Q( `8 Fconcept exploration phase up to Milestone I and to describe the acquisition( \& a* w$ z" O0 T1 J5 e6 M& U strategy, including the identification of the concepts to be carried into the7 c; P9 S* o) T( d$ T demonstration and validation phase and the reasons for elimination of other" @ b; R; i, q 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 , @ i# b5 r0 VConfiguration/ d9 T1 y% x2 v. O D4 H6 \8 R Control Board! r2 W. Q" Q: a7 F' @ (SCCB)* s: D" d' M9 x' E6 }& ~* y4 s. h8 | The senior SDS configuration control board. The SCCB will manage the systemlevel configuration of the SDS and the interfaces between elements of the SDS. ) l# o8 m$ L) y+ e3 I5 v9 ISystem Control Function or task of monitoring the maintenance status of assigned sensors and3 T4 m7 @1 e/ k4 a8 h computer systems. % M" g/ M# [2 N5 U2 @& K( }7 P5 \5 \System-Critical% e8 D* S9 L. c0 d. C8 z/ f Function $ T9 w7 ]/ a' k$ s! EA function that is necessary for the successful accomplishment of the system's/ R& V( G, u/ E: n. `4 z mission. z0 U; ~; @1 U( @ {) _2 J System Definition, u. L5 G! [0 [5 N/ ~! z3 t Review (SDR)* {( J/ W/ M& v7 L c The formal review, in briefing format, for periodically deciding on updates to the4 b/ `" v) W# ?/ ]& E system plans for development based on estimates of the program schedules and ! |. f; E3 g0 u+ zfunding. The SDR summarizes candidate development plans and their potential : Q3 K" X+ ]: M! ~impacts on system design, cost, and schedule. The SDR provides a systemsengineering basis for the MDA program planning activities. Following the SDR, : h/ w/ J0 ?2 F1 ldetailed element planning will result will result in a Configuration Control Board,2 N! f4 u9 U0 _# \ final trades, and program documentation in the PPBS.5 {" U N i. U& O System $ x O9 ]2 o# a! ]Deployment/ y/ l6 I# A+ M Delivery of the completed production system to the using activity. ' {3 `/ S( B/ w5 @! |: CMDA GLOSSARY, VER. 4.0 S8 n# ^1 d* j$ {8 l0 h* ^ 2858 }, i% N1 O8 ^) X! X System Design (1) The process of defining the hardware and software architectures, 4 G4 [: l# I) g5 t( ccomponents, modules, interfaces, and data for a system to satisfy 8 N* E, R- X. `8 B4 wspecified system requirements.4 L {0 B( H! r1 s8 U2 M (2) The result of the system design process. w! \) y5 j2 k$ p6 l4 t System Design) P2 B. g$ x. x+ ? Concept: V& H1 F& r% j An idea expressed in terms of general performance, capabilities, and9 O) J: @% f7 n3 M9 E7 Q- |3 b characteristics of hardware and software oriented either to operate or to be ( ]% b" N2 @6 doperated as an integral whole in meeting a mission need. 9 R; R2 m* p2 y+ @: O& S( f" OSystem Design% M& j7 G! a% y$ U. ~; p, r3 Y Review (SDR) 0 P7 U- S, B- {Evaluates the optimization, correlation, completeness, and risks associated with 6 S. g& G5 b. [9 v/ hthe allocated technical requirements.9 ? F2 h9 M; _; q, t System 4 d7 E- f* p7 L( dEffectiveness ; M9 |, A4 r$ n; @! sThe measure of the extent to which a system may be expected to achieve a set ) |: W- Z5 ^2 R* b$ _/ uof specific mission requirements. It is a function of availability, dependability, and/ R* O/ v# C" D8 L capability. / N$ w- [( j( I: Q# GSystem Evolution9 p1 R+ E8 M1 |4 l! C Plan (SEP); a3 Y6 E, c2 k0 z2 }2 S4 }7 B The documented plan that establishes the strategy to evolve the BMDS ; E; K2 N5 Y7 K6 Ocapabilities over time. It reflects the BMD Acquisition Executive (AE) and Senior% g) c$ a, [; Y+ ^, H0 r# R/ G: e Executive Council’s (SEC) development decisions; documents the current BMDS - U! [8 T6 F2 W: h% _Development Baseline; and summarizes the capability, integration and: v3 L7 }; e3 S1 F8 q7 B% g assessment of the BMDS evolution. It identifies opportunities (items that provide 4 r5 J; \& f5 P9 S) J3 E( P8 wsignificant improvements in BMD capability), identifies challenges (impediments to ( @3 D4 Z+ i3 z8 {: E: b/ |achieving opportunity), and points to promising alternatives that can overcome- ~: |+ M' K# B9 o# A those challenges." z; k- w! ^- f: i x System Families A collection or grouping of interrelated software systems in the domain that share6 z# N% h0 ~# R a set of common characteristics.' S5 y! k) R9 y/ @: {* K System 3 R* ^( g" _/ y# W3 X1 oGenerated 3 j+ ~+ R# Z7 S& W/ x* A8 WElectromagnetic + T5 a, ^' e: q s( zPulse (SGEMP)2 e1 x E" p% d" S Transient electromagnetic radiation caused by the photoelectron emission of the : D# p7 Q* K9 e4 [2 p5 Q. d B6 Ssurface of an object subjected to a pulse of photon energy. Although local7 X% J0 V+ ^0 @3 o; c+ W1 O fields close to the object surface may reach quite high values (kilovolts), the - A" f4 g& d7 l" \primary disturbance mechanism is the flow of replacement current through the 0 D# k9 _1 k# Y; `8 x7 gobject in order to produce charge equalization. % v3 r' w5 ?* [* y! A3 M9 z0 vSystem 6 J! `4 B$ [+ w M' nIntegration Test ! I* G& F2 T5 [( \2 rA live flight system-level test utilizing actual system command and control, 1 }- M: e9 u2 e! @% G, {! A# \sensors, and weapon hardware., S3 A: K* ^* p4 n& V9 W2 h System Manager A general term of reference to those organizations directed by individual / L' T- w: |5 v4 N, fmanagers, exercising authority over the planning, direction, and control, of tasks1 i/ l/ c) H% J; E and associated functions essential for support of designated weapons or, H# {# z5 z! @1 `$ ~8 g equipment systems., C3 v( s$ E) A; c3 x2 s System) M( ~: _% W3 }& U+ m Operational+ u' T* |! G' u& X+ G Concept ! E, l1 Q' A& h4 t) ~A formal document that describes the intended purpose, employment,* i# B- `7 W% M+ |. C7 E deployment, and support of a system.& q8 `. b$ [5 g) E System ; d G, _2 h8 z! Y# r8 S6 I; ~Operation and 9 G8 A1 c& v3 oIntegration 7 n C0 R$ e) DFunctions (SOIF) ( B3 L! }) e2 `, Y; E/ ZThe automated activities of tracking, communications, asset management, and : K) x* F+ W4 Y9 I. Y7 \battle plan execution, which are executed under the guidance of the Command: p. I" p2 e; c# o and Control Element. The allocation of these functions (and sub-functions) to+ B5 A+ e1 E% Z the system elements will be specified in the architecture(s). 6 O3 M5 ~( v- H$ {( GSystem Posture A USSPACECOM system of graduated readiness steps to bring the strategic + j: d' s; g! _+ hBMD system to fully generated alert, similar to the USSTRATCOM concept of2 n. M5 |& G, V: `- s posturing aircraft and missile forces to reduce reaction time. + \, H" Q, R# `6 y! n8 w3 l5 y6 JMDA GLOSSARY, VER. 4.0 S ! j; O; ]3 b; x286+ S! X% U+ [7 A. ? E System Program 7 M% l' U9 r/ b7 M* KOffice (SPO)6 }* R; X! q+ ^2 ^: q The office of the program manager and the point of contact with industry,. T+ p) b' E: Y& F- ?) i government agencies, and other activities participating in the system acquisition / W) J; [+ w* l' o# xprocess. (U.S. Army uses term “Project Office.”)

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System: O) ]3 O: d( U$ v5 h) o7 c Readiness 2 V* Q' g& E& b* GSystem Readiness includes the development of OPLANs necessary to carry out5 g& ~- ~) N' J! K! R the assigned mission, using strategy and guidance provided by higher authority & v+ h c4 C8 G/ P: K, `along with knowledge of current system performance and planned capabilities. It! w2 E/ |0 B" h) z4 b1 x% E includes peacetime tests and exercises to maintain the system in an operational1 A1 H0 h7 R& s- n8 l3 y state, and the demonstration and evaluation of alternate tactics and the % U% O7 s9 x$ ?& Z2 Z1 c6 Sverification of system performance, to the extent practicable. It provides for the - B# ~6 n' e8 Z1 S3 |continued training and exercise of personnel in operating the system under 5 v; z6 X- t) A' Jrealistic conditions, and provides for control of other system test functions! h0 o: `; ^' f9 B necessary to keep the system operating. It provides for detection of anomalies2 i4 X# g' S& r5 e% `6 F7 o: D and for corrective action. It also provides for maintenance schedule control, ; r# L6 z4 Q6 a, m+ Ehistorical maintenance data retention, maintenance training, and test results) e4 x8 C% H, {3 u* M; G. a status reporting. % |/ ?0 L1 M3 z( x3 t8 i; o CSystem d! n" g9 }* z# q Readiness . _( S; a" f. j: ^" v( e& zObjective 2 }0 d# o4 V: R) L; V% mA criterion for assessing the ability of a system to undertake and sustain a4 s6 K% h7 d" k% c specified set of missions at planned peacetime and wartime utilization rates./ R' B }: z5 p1 V9 A; R D System readiness measures take explicit account of the effects of reliability and 3 Q7 V! v2 {7 R2 Gmaintainability system design, the characteristics and performance of the support # L. j7 _# Q L! x9 O4 Psystem, and the quantity and location of support resources. Examples of! y! e2 W+ s4 T' b" { m1 Y, O system readiness measures are combat sortie rate over time, peacetime mission* `- d: L- y/ v0 A, }% |7 Q# r capable rate, operational availability, and asset ready rate. 2 ~1 ~2 L$ ^1 |; j: sSystem( f# \; W. ]1 h+ C0 Y2 K Requirements/ h" B3 m+ Y" R6 c- l Analysis (SRA) 2 Z0 m1 A* a `4 ?9 [An analysis of the operational system requirements, as defined in the System3 S- P) a5 ]- X$ \: H2 b5 p Concept Paper and other approved requirements documents, used to determine 3 t R) l5 v( b' d$ j( k: E& c. Nspecific system functional and performance requirements. 4 a& w$ b& l O; D* }- XSystem % S2 V1 r3 i3 {2 qRequirements- O2 z) R9 l4 i. I Review (SRR) y: |; p! \3 w+ D; a8 l, | Conducted to ascertain progress in defining system technical requirements. 4 x, ?8 R) n$ _4 X3 e4 T7 N* MDetermines the direction and progress of the systems engineering effort and the ; g3 B( W* S6 ~, Idegree of convergence upon a balanced and complete configuration.4 {( e9 ^9 `6 J" P8 W6 j System Security' e' K) Z( a4 z `3 F; S- i Engineering3 B7 ^5 E ]% B5 |, J3 t (SSE) 5 U: y \/ o! ^9 EAn element of system engineering that applies scientific and engineering! q3 _) ~ g/ d& n6 {8 u# K principle to identify security vulnerabilities and minimize or contain risks & f' y3 ?* J& `3 r# ]6 Dassociated with these vulnerabilities. It uses mathematical, physical, and related7 F# C9 Y- b" M- ~0 W+ Z( l scientific disciplines, and the principles and methods of engineering design and 0 d4 j: O4 K' x D3 i) B! S# Fanalysis to specify, predict, and evaluate the vulnerability of the system to# P! q/ g4 |+ x1 A security threats. % l. k1 u* f. e5 v8 oSystem Security ; \4 Y: N s8 o8 F8 ^0 PEngineering/ s. S. m& ?( ^- Q( U# b% o1 r# H4 W Management# _+ X; o: f) A2 i Program9 n$ ?" H: C# |4 R (SSEMP)) U! L0 v( l7 ?- i4 T) J The contractor shall establish a SSE program to support economical, i" Z: e1 ^9 {5 Y$ b2 P! j$ ? achievement of overall program objectives. To be considered efficient, the SSE- G h( Z/ a- ?, }( J' X program: (1) enhances the operational readiness and mission success of the1 ~/ ]& K* U: v0 S$ A) x1 C; J5 _6 u defense resource; (2) identifies and reduces potential vulnerabilities to the. T& n/ J# q' g' Y3 J resource from sabotage, theft, damage, destruction, etc.; (3) provides X; X. K& U; g7 r# m) S8 o4 l8 ^management information essential to system security planning and (4) minimizes ( P0 r5 W4 m& I) b9 |- W2 M; mits own impact on overall program cost and schedule. " I4 G- i) @3 w: s1 m6 \System Security 4 ~$ w4 D4 Y8 t% v% LManagement , Z5 z; D3 t. \( oPlan (SSMP) . Q7 F @2 F% ^) ~* D) B7 LA formal document that fully describes the planned security tasks required to: D9 _* r: q( t2 Q meet system security requirements, including organizational responsibilities,7 J- e2 n" ]3 s8 O1 @, G0 u2 e methods of accomplishment, milestones, depth of effort, and integration with 0 K, [1 r; G# U7 ]other program engineering, design and management activities, and related 4 M1 a% O3 t- nsystems. , Z/ U' U; ^3 `. ?Systems1 k( z. i2 d1 @+ |% K- V Engineering8 F5 F) V3 z% U F: ]- X3 a An interdisciplinary approach to evolve and verify an integrated and life cycle " G" \5 L( x8 Rbalanced set of system product and process solutions./ u4 |9 u5 T$ j MDA GLOSSARY, VER. 4.0 S , V+ H7 e& }' g7 k! U j: V( w287 ; w, d; W2 `6 P: P, l# ^9 e6 ?Systems ) T* B! r7 V7 d3 f4 ]$ [" qEngineering u8 D% \4 C) w/ K Management6 r: ~& `1 ^2 H% `% A Plan (SEMP)8 X, ~2 t* P% R8 D/ o This plan documents: (1) Management of the systems engineering process, (2)! X' K0 [0 l9 b0 N4 Y Integration of the required technical specialties; (3) Performance measures) i# p, D* o) n7 v2 {) ]# F. A development and reporting, including intermediate performance criteria, and (4) / P+ ~. E3 F/ B# U" h9 Z$ q9 p/ WKey engineering milestones and schedules. 5 N) P2 S/ q& l: M RSystems Test ; P, t4 K* R/ y1 l4 Q: eIntegration and5 Y% s% M9 ~8 E Coordination' V/ p# w- w/ y' p The combination of SDS elements tests to reflect SDS performance contribution.1 T% F: `! l% O System Threat 7 A, l3 k! s8 u/ [+ l( q* F, dAssessment ) N9 d1 @! f! n; d/ ]- DReport (STAR)' L Q& n# g0 ?& Z% z& a Required by DoD 5000.2 and validated by DIA. Establishes the threat (to a ( _6 e/ A' e; g; q `1 OService's Mission Area) and is part of basis for considering mission deficiency- G& b9 f( Z8 U and potential program new start. Updated to support a DAB Milestone or when 8 l9 Q! i- _$ q9 X! L' |5 e0 _/ ?$ uthe threat changes significantly. 4 W2 J3 ?" T/ Z; s5 W4 z7 rSystem-Valued7 K/ j+ L5 v+ s$ {2 h Asset 0 E/ N2 n( X1 T- |A system element/component, function, or information element, which is critical to ' v! ~; A8 D& N: T4 G: p, Fthe proper operation and well being of the SDS.. D+ I ~! Y& f& B MDA GLOSSARY, VER. 4.0 T) q1 b3 j, f6 A2 B/ @; d/ } 288 $ v: z0 n* t4 |6 p" f. ^2 c- IT&C (1) Tracking and Control. (2) Test and Control.1 c1 ?1 \) R* D+ ^, E0 g. J T&E Test and Evaluation. ?: ~' D$ l2 y. j5 @ T&T Transportation and Transportability.; r% |; s) a$ b& s T-MACH Trusted MACH.8 B- f3 }5 k! k1 P9 j2 C T-UAV Tactical Unmanned Aerial Vehicle. / T8 o4 c/ s- B/ p( `# bT/R Transmit/Receive.+ j1 s& W% b- N: `: } T/REA Transmit/Receive Element Assembly (of a radar).. N# T0 K' C0 v5 i g1 D T 2 H5 `9 {* {4 E7 {$ c2 2 ?9 F' ]7 y+ y% D5 `( ATechnology Transfer. $ \9 P0 o! k4 I4 h& E+ pT6 P1 b6 { M+ ^$ ?, N- b V& V 2 - j5 q: k; G3 s/ r& E( zE Technical Training Equipment. ' x( ~0 F5 W2 u9 ~1 G% OTA (1) Threat Assessment. (2) Target Acquisition. (3) Test Articles. % }9 l* w' T" j2 q8 B! X5 L( wTAA Technical Assistance Agreement. * ]8 Y5 Z ^# V# _1 e2 u& D, \TAACOM Tactical Air Area Commander.. U" f$ j3 b. }3 V TAADCOM Theater Army Air Defense Commander.8 n5 x8 Z- o4 v$ M+ A( j TAAF Test, Analyze and Fix. 3 v7 t1 C& E |/ ITAC Tactical Advanced Computer. ) B5 }! M" C. b6 r B& vTAC-3 Tactical Advanced Computer – Three (USN term).( n' P" ^1 U) }# y n/ _. t TACAIR Tactical Air. 9 \0 {2 Z3 a0 s4 h( C+ r4 i) iTACAMO Take Charge And Move Out [Airborne SSBN Command Post].5 l7 V! n, L, P* _, ^; y) d8 E7 ? TACC Tactical Air Command Center. ! J* L5 A; d7 KTACC USMC Tactical Air Command Center (USMC term).+ Z/ |6 E4 y, V6 Q1 w; G TACC USN Tactical Air Command Center (USN term)., F+ x3 n7 B: ~9 d1 E TACCS Theater Air Command and Control System. 2 _1 T2 {* o1 G3 r. T, w% QTACCSF Tactical Air Command and Control Simulation Facility./ ?1 F; I9 ]; e/ `9 D. D TACDAR Tactical Detection and Reporting. ! [, i- B \) ]( R0 e9 n# S& J/ ^TACFIRE Tactical [weapons] Fire.

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TACINTEL Tactical Intelligence Information [Exchange Subsystem] (USN term)., N1 Q5 H# S" P5 b8 a/ s TACOM Tank and Automotive Command (US Army term).+ v- }5 J# m* c1 f TACON Tactical Control. $ ~) c* {- }: z2 M9 J& }TACS Theater Air Control System. 8 j( v( Z" ^% r0 ?; d6 tMDA GLOSSARY, VER. 4.0 T5 T9 A; P: c' X3 t* ~ 289% r" x4 x+ u2 x TACSAT Tactical Satellite. 0 A, I+ T: R# V. u; ITACSIM Tactical Simulation x- m) r9 \ {) e' O. h; s$ e9 dTactical Air8 ?" V+ T; D& F8 B, X2 [, Q Doctrine* X6 U0 Y0 C' U& i Fundamental principles designed to provide guidance for the employment of air 2 z; N, G+ I$ i' C8 H/ r$ I9 |power in tactical air operations to attain established objectives. y* P e" R. {9 |2 y" e* K tTactical Air# e1 f/ I, N) N5 a& C5 P0 d+ b Operation 9 {1 D: c: }% p; R2 e" J. yAn air operation involving the employment of air power in coordination with* m+ N/ \2 L2 l0 O ground or naval forces.6 ^* ~! C% Q+ u Tactical Air / T, C7 |) p1 V0 jOperations 1 ]- R+ d; q8 \( F4 P) jCenter * q4 z9 g) _* P7 b* p# _* g4 `: M KA subordinate operational component of the Marine Air Command and Control# q- S5 s8 N2 f System designed for direction and control of all en route air traffic and air & h9 E/ J) S5 t# A* Kdefense operations in an assigned sector. 2 q9 A; h7 j& K) rTactical Air ! t, G; A+ P1 k" |+ t, \' M KSupport - @# V9 N$ P8 T; T( r7 mAir operations carried out in coordination with surface forces and which directly * q! s, ~: X" i4 M9 n2 }assist land or maritime operations. 1 c/ k. G" y- j. XTactical Area of 5 P7 R( o% x! N4 w: MResponsibility 6 r7 j" r/ i" Y" P% G: v3 {* }4 }(TAOR) 7 a4 G. T/ N4 f& C; q9 uA defined area of land for which responsibility is specifically assigned to the: O& Y9 c$ v6 V; D- O# b' u0 ^ commander of the area as a measure for control of assigned forces and: R9 y/ V1 v: B/ s8 f2 {0 n0 p, N/ v coordination of support.& ]5 M7 M+ t9 N Tactical Ballistic 4 J; R4 T+ Q8 jMissile (TBM) % J7 u W& @! O% z; i: e3 t3 EA land-based missile generally having a range of <3000 miles that can be/ y) [6 Y1 L$ y employed within a continental theater of operations.0 ^) `, E4 S& G) F$ L7 [ Tactical Concept A statement, in broad outline, which provides a common basis for future3 p0 r6 s3 F/ b+ U development of tactical doctrine. " t% F2 `$ ~4 p- k, K, xTactical Control The detailed and, usually, local direction and control of movements or: t: y7 A4 L% }: d( q6 X* g2 J maneuvers necessary to accomplish missions or tasks assigned. " I/ ^6 R5 D/ t5 ?9 m! ? C9 ~Tactical Data: s5 F9 ^9 H' W8 a Information link 3 U# n5 m9 p' f" a% ^7 F; G: IA netted link in which one unit acts as a net control station and interrogates ! n& x- B# {. k" ceach unit by roll call. Once interrogated, that unit transmits its data to the net.4 ]- n4 `6 P1 P+ \ This means that each unit receives all the information transmitted. & U+ a2 U' v9 k3 t# tTactical Level of , \- x( w, q( z) nWar ; |* \1 b! V8 L* p% p, ?The level of war at which battles and engagements are planned and executed to 8 h$ U: X* b# G2 b B& raccomplish military objectives assigned to tactical units or task forces.8 ?4 ?8 j u/ N0 v: M! ^6 ^* e1 }% p Tactical/ ^$ Q- s8 y& ?4 N+ l& r# L& v7 e Operations Area 0 U- u$ q* ^! S' f* R6 g5 \(TOA) 7 c! N7 J6 i9 }5 B# e! ~That area between the fire support coordination line and the rear operations, I; g O! S- {+ X area where maximum flexibility in the use of airspace is needed to assure mission! i2 t, Y/ a' Q: n5 O accomplishment." k) o$ c; u9 Y; o4 @7 {$ Y0 l Tactical- [8 Q% ]" ]) A; a4 ?% y Operations - m! c. o- S" u; {Center (TOC) 0 _) ?+ x4 S1 V$ ?. d) O7 |A physical grouping of those elements of an Army general and special staff 1 z+ _8 a' k$ u9 econcerned with the current tactical operations and the tactical support thereof.# ?/ ~& _+ r5 i% I6 C7 N Tactical Warning N1 m5 {# k& s3 I(TW) $ `" I9 a8 h0 q1 L(1) A warning after initiation of a threatening or hostile act based on an. b1 Z+ D& Z5 ]( b* K& y evaluation of information from all available sources. 9 X2 }) |: d7 n(2) In satellite and missile surveillance, a notification to operational command/ ?& c9 v7 [3 U8 C$ I" |) o' a centers that a specific threat event is occurring. The component 8 N" h# B/ Z( a* C: Jelements that describe threat events are: country of origin, event type6 W# X" S. K0 ]- \2 T5 O) w# _: S and size, country under attack, and event time.& x- E7 _* ^0 ` I$ ]: Y) m) M% s Tactical ! z6 e0 W* r- D" ^5 ~* sWarning/Attack* _( D9 T7 |6 ^% v) Z5 I% s Assessment+ g( {! O1 R/ K6 e+ Q8 F) Z. e; A, [ (TW/AA) & p; k6 T, y4 W8 y/ x& TA composite term. See separate definitions for Tactical Warning and for Attack 3 S3 D: p, X x8 M; H7 rAssessment. 0 e& X! B6 l2 K9 |" x' U! wMDA GLOSSARY, VER. 4.0 T6 }; g$ p- q9 O8 a# A$ W3 d0 b- c 290' s8 @; n& d, q' ?: N% M TAD (1) Tactical Air Defense.4 j0 i# O/ t6 t; ^5 {# l; W (2) Theater Air Defense. 2 R1 J% S; A& U! _: e(3) Technical Acceptance Demonstration.7 }; k1 K* n3 B ~' [" b TAD C2 Theater Air Defense Command and Control.% \ L3 P3 b! H+ _. o; ~9 g- V1 E! g TADAP Theater Air Defense Asset Planner." J# u8 A0 V% C7 K6 q) k; K: r" p: D TADC Tactical Air Direction Center. 4 X; N6 R. {- c7 K& i/ LTADCOM Theater Air Defense Command. W4 f& Z0 x5 T9 G TADIL Tactical Digital Information Link. & p* ?8 @4 Q! j. M$ y- R+ CTADIL A Tactical Digital Information Link “A”.8 @0 p4 ^2 M, Y$ ?+ { TADIL B Tactical Digital Information Link “B” ! f$ V1 v6 E2 h1 O/ ~TADIL J Tactical Digital Information Link “J”# u) P P. b+ k( B7 a! A TADIX Tactical Data Information Exchange. * _4 _" ? R3 V2 K# s6 w& F1 l# iTADIXS Tactical Data Information Exchange System. ! E" ?0 ?5 o4 x" @$ j# {TADL Tactical Data Link. & q0 K- C- j M) s0 Q0 H* x! L6 \TADS Tactical Air Defense System.2 ]: G7 G, m& k6 t- }% F TADSIM Theater Air Defense Simulation.. m, @, Y3 }6 V/ ] TAF Tactical Air Force. 9 Z* U; |" ~0 C0 L. a# S& L* cTAFIM Tactical Architecture Framework for Information Management. ; z3 p; N" E5 ~1 k2 l; [TAI International Atomic Time. + }' i. C$ \0 `7 i# cTAIS Technology Applications Information System. 0 R5 f- U, h: \/ {6 M U0 Z. DTALDT Total Administrative and Logistics Downtime.& S. M2 h- x5 ^. g, G, l5 K TALON NIGHT TALON programs, which support SOF. 1 \2 a" T( i1 b$ ? u7 Y! qTALON SHIELD An effort using stereo DSP processing to provide ballistic missile burnout vector q7 h8 K3 Z+ S h+ s' E and impact prediction for interceptor cueing, counterforce tasking, and passive , y( Z- e/ M( D! ldefense.

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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. 4 r) l0 j+ x' W: S& m5 JTAMD Theater Air and Missile Defense. ' c+ O, t& [0 d3 y; n% W0 y/ CTank Final Propulsion Stage (used interchangeably with sustainer).2 ^ I3 U H- }# ?- Q) U Tank Debris Hardware associated with tank. . H h' ~( x3 x) PTank. N d+ v# E. f Fragmentation 6 f: J1 z# F3 s8 E- ^. AThe breakup of a tank, either intentionally to serve as a penaid or naturally as a 5 g9 u& o9 C, v! h1 n3 \. kresult of aerodynamic loads and heating upon reentry. ( V( J. H i# OMDA GLOSSARY, VER. 4.0 T 7 B9 `- g; ]) X291 # v, u. V/ |) p! mTAOC Tactical Air Operations Center. $ h4 s7 B1 w( _ w L. D4 ^5 Q7 s1 ZTAOM Tactical Air Operations Module.! Z+ h6 P2 ] k: v2 U7 X TAOS Technology for Autonomous Operation of Satellites. q' l* ^+ I, ]) Y6 Q' uTAR (1) The NMD Threat Assessment Report. 4 J; X1 \* m8 S1 e6 Y4 s(2) Threat Activity Report.4 c8 z3 m8 S0 W3 j9 R2 d5 a" d# l (3) Target Acquisition Radar. ! m$ b! Q& @# r$ ^6 OTARA Technology Area Reviews and Assessments. * a- U" D) O4 n4 WTARGET Theater Analysis and Re-planning Graphical Execution Toolkit.9 [) R( y8 K/ d( b: y2 y! A7 G Target : \ x6 p6 N' uAcquisition2 s# S% R) P$ y( x3 o; O0 ^ The detection and initiation of track on a target in the surveillance coverage. j" W8 o- k3 _- |6 c6 x; i/ i region of a sensing system. 0 G; |+ y9 X) x: u3 ~0 i' o! m& q0 `: wTarget ( I& P0 l* I) m: h$ ]& \0 C& yClassification + L G+ v, @2 `6 rand Type + T$ {7 o' ^/ ?; \3 @+ N. T( QIdentification of the estimated target category based on surveillance,, j5 \; w' a1 w, c5 _ discrimination, and intelligence data. 9 Q5 {, c/ ~: V u2 r! iTarget* v( G0 _( x* c$ C$ O% x b Discrimination & X) B0 z* ?2 eThe ability of a surveillance or guidance system to identify or engage any one - R/ y" Q9 H5 ?2 t! Etarget when multiple targets are present. 7 d6 K) g( B/ Z, z- C" yTarget Object% a# L& C* e' e9 e( F; u Map (TOM) 9 R6 l/ z& ? _7 m7 T4 F" ~A data set, which contains three-dimensional position, estimates for target and8 G9 I4 S( y( }6 o6 h8 i) r, B! f other objects predicted to be in a weapon interceptor's field of view for use in ; I5 B/ S4 F9 h. u. k& Mtarget designation. (USSPACECOM) 9 f/ ]4 j' M4 Z! g: uTarget Resolution The splitting of a single target into two or more targets. 1 W% M. p u# FTarget Signature (1) The characteristic pattern of a target displayed by detection and ; o) P2 e0 z3 E* N8 A" a) K. ^/ T# f0 ~identification equipment. : |4 y# }. I+ f2 N$ v( d% \. l+ K! s(2) In naval mine warfare, the variation in the influence field produced by the1 r! s/ `4 b% p4 Y0 @8 K' D P passage of a ship or sweep. ! t: `* g2 r# rTarget System( C3 M1 K' g; |- _ T( ~2 w' { G Requirements & f& d/ e7 ~& |' M; |Document (TSRD) ' T+ D& J. ^( a( w5 u/ N9 O; KBMD Program level program management document. Developed by each BMD5 n7 N C5 M" X% C& b/ ]( x$ z Program Office, it outlines to MDA/TC and MDA/TE what the PO’s target ) c; Z, R. ~" i+ H( Mrequirements are for each specific flight test based on the test objectives. ; e$ I6 z2 f F) O4 E* ~Producing the TSRD is the first step in the target development process.. J/ ]/ s; T7 } TASA Task and Skills Analysis.5 {, f _1 s, N5 v) M Tasks The required actions to accomplish all or part of a COA. Tasks contain guidance + O- m! p J5 C3 \to the Battle Management/Command, Control and Communications (BM/C3 ) 0 w" ~/ ^+ R% O3 {engagement planning function concerning resource allocation, constraints, and 5 L/ w; H. Z2 k Z; b, Yrequired performance.' _1 h2 _4 `' F4 G. n0 Y$ Q TASM Tactical Air-to-Surface Missile.6 R. G( ?! q c! `5 } TASO Terminal Area Security Officer. 1 R+ _$ h1 |( `TAT Technical Area Task.6 J4 a* a0 E; V# S/ r3 W6 K/ m, ^ TAUL Teat and Upgrade Link. , g* b. D" A) J/ C' aTAV Transatmospheric Vehicle.$ E$ p" K6 L) @! p* F MDA GLOSSARY, VER. 4.0 T" y# K$ e9 v( C 292 8 L2 _9 h, L) f9 h( dTAWG Threat Accreditation Working Group.! {8 Q4 v# b3 ^ TB Test Bed. 0 l% t2 R9 B+ O4 ]1 \" GTBA (1) Theater Battle Arena. (2) To be Announced. 0 p' d6 n5 B, X. rTBD (1) To Be Determined. (2) To Be Developed. ; d( X& z# o6 w% `. ~! V, \, y7 jTBIG TMD BM/C3 Integration Group.! q( `) D4 h/ x9 m p% |4 k TBIP TOMAHAWK Baseline Improvement Program. 8 F& L$ f* S! uTBM See Tactical Ballistic Missile/Theater Ballistic Missile.) V% a' [, H' r( j0 D TBMD Theater Ballistic Missile Defense. " t, h4 f0 S3 d# eTBMDSE Theater Ballistic Missile Defense System Exercise.7 l1 ~% h1 q" i* x) L1 d TBN To be Negotiated.' r7 j/ |% ?$ Y- Z; P8 j( C* \ TBR To Be Resolved. ; u. j4 ?! G. G$ g" v1 L% QTBS (1) Tactical Broadcast System (US Army term). 1 B q+ Q& Y5 Z6 T) Z3 \" s(2) To Be Supplied. 7 d- ~) P5 I/ U: Z(3) To Be Scheduled 4 M8 B2 A7 p" x# C. l) f2 W: @5 }* ]2 v( ] TCAMS Technical Control and Monitoring System.8 i! I3 f4 A# \ TCC Tactical Command Center.% Z/ H! V, }" B: L& `) C TCCF Tactical Communications Control Facility.& N/ o% w8 X9 T% Y6 H. b6 K3 S) w6 F. t TCE Three Color Experiment. % C- W. W# s& X. G/ o/ |TCF Tactical Combat Force.9 T1 x6 L4 X( U. L: V. _! D TCMD Theater Cruise Missile Defense.) H0 E5 a1 y6 ^* V Y9 m2 { TCMP Theater (Missile Defense) Countermeasures Mitigation Program.3 B; ~& \/ K& K9 A/ H TCMP I Theater Countermeasures Mitigation Program One.9 O& X+ d' q0 {+ ?2 S. @ TCMP II Theater Missile Defense Critical Measurement Program Two (Replaces TMD; R% C# x- m( t! G( q" g& ^ Countermeasures Mitigation). : p4 y8 C* p$ A7 {; ^% t4 ITD (1) Test Director. ! j$ \( R8 ?) }/ A) a2 M(2) Technical Data. 9 I9 F. U6 f& Y: U) t+ w% O(3) Technical Director.) r, }- n* g5 n4 f1 U (4) Training Device $ l4 b2 ?8 N7 v6 ^TDA Table of Distribution and Allowance. ( v; U4 ?. ?& c% D2 P( v6 TTDADT Total Distribution Advanced Technology Demonstration.8 G5 i @0 m' \% t TDAS Theater Defense Architecture Study. $ l( ~6 K5 c8 u4 ATDASS Theater Defense Architecture Scoping Study. ( s5 i" ^9 c4 f) d7 eMDA GLOSSARY, VER. 4.0 T7 N+ u4 R/ s% ^ T5 n8 x 293$ g7 L0 Q3 a! {7 f TDBM Track Data Base Manager. 3 B9 e4 v" X4 u# m4 xTDC (1) Tactical Display Console.$ b0 G1 g! v4 A5 G7 Z& Q. B (2) Theater Deployable Communications (USAF MDAP). : n7 k0 C7 B. wTDCC Test Data Collection Center.) d0 t. V- @- ?/ y TDD Target Detection Device., C9 A! M% `; |# ~- m1 w TDDS TRAP Data Dissemination System.1 g! B/ }: D# o4 S TDI Target Data Inventory. % ~# m8 H9 k+ X, K7 Z _TDK Two-Dimensional Kinetics nozzle performance./ r. C1 X# n. r5 W9 K) K; n TDM Time Division Multiplexed.1 d" B1 q ^* R' z# |5 r/ r* H TDMA Time Division Multiple Access (TelComm/Computer term)., S1 @( \) g0 V! @4 t. S: g TDNS Theater Defense Netting Study.: D2 E* y3 K8 \, r TDOA Time Difference of Arrival.' v& U- c* {. n; U TDP (1) Technical Data Package. ) T( s) X" G' P6 ?$ x% {3 L(2) Test Design Package.( a6 O, A6 x. `6 d8 @ (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. / |8 y; V/ F& I4 f! J+ z# o5 ZTDR Terminal Defense Radar. * [1 Y" b' O/ M- V7 c( D4 |! gTDRSS Tracking and Data Relay Satellite System.$ `( z; N6 V7 f% p3 x# M TDSSPA Technology development for Solid State Phased Arrays. 0 g/ S: q2 p7 y0 t2 gTDT Target Development Test. 9 `( ~: Q" p4 C3 L3 @, YTDTC Test, Development and Training Center. * N0 A( \7 O: @- V0 S. O* G. @, mTDU Target Data Update. * X+ U2 M: B8 Y$ I" c$ s# a$ eTDUGS (1) Target Data Uplink Ground Station. (2) Target Data Update Ground Station.& ]& f/ W8 V6 Q4 c( c& n TE (1) Thermo-electric. (2) Test Engineer. (3) Training Element. 3 \0 _/ r; O( r& p# Y(4) (BMC3) Test Exerciser.; I; D8 a4 H! p, T \, f TEA Transportation Engineering Agency.7 C- N. h# g, D6 Q6 {+ s TEAS Test and Experiment Activity Summary. 0 t8 W6 p9 t5 r7 pTech (1) Technical. (2) Technology. (3) Technician! \! _4 R4 d& Q3 I5 n& H TECH Technical @0 X+ Q2 u/ _: g7 n6 ? TECHON Technical Control. & n" H4 y' N( _, a4 vTECHEVAL Technical Evaluation (USN term). 0 f7 i: {6 `& _6 }* C0 r) ^MDA GLOSSARY, VER. 4.0 T5 g$ M" X6 Z3 ~+ H 294! \7 G( t0 `) n+ D5 Z Technical Data Scientific or technical information recorded in any form or medium (such as $ a& A% D, c, B5 B4 ~8 E+ gmanuals and drawings). Computer programs and related software are not3 Q/ T; d0 W# b/ a8 y" n5 c) t6 h$ o technical data; documentation of computer programs and related software are.& S6 g5 Q8 |) r- N5 s+ C Also excluded are financial data or other information related to contract 6 {( R3 |! N! @# a& Tadministration.2 s, U" q7 N& ^; M% s/ Y. R% K Technical Data 9 U- u {( ]4 ~8 P& A: QPackage (TDP) & a2 Z& r. b# G4 ]6 i9 \ n4 L% ~" tA technical description of an item adequate for supporting an acquisition - H, _* D+ @7 A5 M+ J4 @/ Estrategy, production, engineering, and logistics support. The description defines& X: C. M( V; @5 n) M the required design configuration and procedures to ensure adequacy of item$ w! i2 Y2 c' g2 h/ C performance. It consists of all applicable technical data such as drawings, ( F' X2 l4 a; \; d# {% z( B- ~associated lists, specifications, standards, performance requirements, quality3 v$ Q- E" ?* c! i3 m; Y* O/ k" w assurance provisions, and packaging details.

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Technical" m/ B2 b& J8 f Evaluation , X* |& [6 O+ N4 `7 I0 g4 JThe study, investigation, or test and evaluation by a developing agency to ' ?6 @' d- ]1 ]; c2 ndetermine the technical suitability of materiel, equipment, or a system, for use in, x( |2 w- _; y- } the military services. (See Development Test and Evaluation.)% A! c' Y7 c* X! h, x8 B8 E& N Technical9 h5 U' G$ n2 B; z Objectives ^$ o5 P9 \* U, O% F$ g The “target” values for the development effort when insufficient data is available % R# P' L- d8 H! }/ bfor stating binding technical requirements.( } n( d5 a6 F Technical A% z* z: t" r. d( E* j) W; O+ M6 q Objectives && o% |* s3 {$ C3 p" e Goals (TOG) 3 A7 }5 a! K' ]% m ^+ S" oHigh-level acquisition document to guide decision making for BMDS# T6 Y+ Q( G. D' n# {3 H9 H1 f% S' B; i development; communicates objectives and goals.. k: X8 {/ N3 _3 |/ z; X+ p/ x: @ Technical( Y; B, X; E- k Parameters (TPs)# B$ y% D2 b5 g( A. c2 ] A selected subset of the system’s technical metrics tracked in Technical3 v$ J5 n6 o, p- v Performance Measurement. Critical technical parameters are identified from risk8 h& ~2 R8 _3 S8 [! z analyses and contract specification or incentivization, and are designed by ' u. x# D1 h3 N, f0 ]management.9 D O; K) a Q8 D% } _ Technical2 {1 n, ^8 w+ O0 o2 D Performance) G" ~) M, I! Q! b Measurement " E5 q% K( O3 s& j) `& U0 w(TPM): f8 Q* D5 C1 O/ R( u) { Describes all the activities undertaken by the government to obtain design status - z9 b* ~6 X' F; o3 qbeyond that treating schedule and cost. TPM is defined as the product design' c) S: ~" I9 b assessment, which estimates, through tests the values of essential performance 4 R/ n* U, A* }% J# Tparameters of the current design of WBS product elements. It forecasts the3 D' q& w( G. _# Q" U% K values to be achieved through the planned technical program effort, measures , i6 {- K4 N6 j* L. s# S) vdifferences between achieved values and those allocated to the product 3 D* E9 `! l, [' S! Uelement by the system engineering process, and determines the impact of these 5 k: Q+ v7 u6 H% cdifferences on system effectiveness.8 K p. b# ?7 H# w' k$ b Technical, D# Y7 l) n9 _ r9 P Specification 1 P% L, }+ M2 n* M" P$ I5 f3 c( PA detailed description of technical requirements stated in terms suitable to form p) j9 N. P; q1 B the basis for actual design development and production.0 ]( l0 ?, N3 O& o0 D% K% F Technical + @, L5 O* E) S( xSurveillance+ L5 T; S) O3 U* d$ R! `/ k, e: s Intelligence gathering methods in which clandestine listening, photographic or 4 o9 I6 `9 @: {- p1 } h7 \emanations gathering instruments are placed within SDS facilities, or otherwise, X4 A2 _1 w0 ~; P& D; F; M5 J7 e targeted against SDS assets to gain access to denied information.2 T* I6 h( y/ X o! a Technology- U2 d9 X' y- c' C Executing Agent ; ^ F9 q5 Q" ~The Service or agency (DoD or non-DoD) that has been delegated management 7 e* ]$ w2 z3 S( y+ i2 a, jresponsibility for a particular critical supporting technology by MDA or Executing ! L% r/ v- a9 {: W' _) QAgent. , v; v1 T2 E) G# s+ T4 x% {Technology j# X6 q2 s6 \- Q( h+ S9 C( U5 KProgram - X: B& W: U, @ O& y4 _2 {5 K2 O" kDescription ' { g) k. |) U3 OThe generic description of the applicable supporting technology or critical 9 w* m6 ^% O& `# fsupporting technology.) D; M5 X- Y8 v+ h3 l* l: v4 C TECOM Test and Evaluation Command.7 |: V6 ~" q' {0 D. w! ]0 ? TED Technology Exploitation Demonstration. / T7 U0 j1 B& t) d5 L* YMDA GLOSSARY, VER. 4.0 T$ u6 E" i0 v; ~ 295 1 g7 y5 f5 A1 L; bTEIPT Test and Evaluation Integrated Product Team.' Y3 I' `0 k1 I TEL Transporter-Erector-Launcher. 0 K2 N3 I. x6 S9 R2 j+ g5 oTelemetry,; a, r5 l* e/ [ Tracking, and6 H* r- n2 d- k# t( { Command (TT&C)& ~' y+ E2 N2 ? p Functions performed by the satellite control network to maintain health and9 ]2 U2 Z; `$ s7 j v: H; m$ d status, measure specific mission parameters and processing over time a % d% [0 [# i2 J) ]8 T" e1 Jsequence of these measurement to refine parameter knowledge, and transmit& |" S* n3 l8 ]! F mission commands to the satellite. # F) \8 _& P! WTeleprocessing The combining of telecommunications and computer operations interacting in the & c l/ q2 d5 `2 V& Tautomatic processing, reception, and transmission of data and/or information. ! s; P- `7 c! x, a* |8 BTELESAT Telecommunications Satellite. " Q& T3 U- m, I8 X/ MTELINT Telemetry Intelligence.$ R1 k) N+ L- O* k! @+ ] TEMO Training Exercises and Military Operations.5 ^: I. `* V" M* B- p TEMP See Test and Evaluation Master Plan. 6 s6 i5 G5 }; G6 y% hTEMPEST TEMPEST is an unclassified short name referring to investigation and studies of8 E$ j6 b) p5 S b- P0 G compromising emanations. It is often used synonymously for the term % r9 E* `0 C6 x1 V/ W"compromising emanations,” e.g. TEMPEST tests, TEMPEST inspection. (See ) d1 F2 ]3 y* s2 rCompromising Emanations.) $ T0 A; u8 p4 x' E9 R9 ITENCAP Tactical Exploitation of National Capabilities. % H% e9 F# f. |" ITEP Test and Evaluation Plan. $ d6 t$ |. O0 E# jTER Test and Evaluation Report 7 w# q% V- a6 T% H# j: UTERC Test and Evaluation Resource Committee.# [! }, u T2 h; L7 u3 L! \ r TERCOM Terrain Contour Matching. ' P5 G9 P1 e. k* j! x( ]3 pTerminal Defense 1 s! w. j6 s/ n- GSegment (TDS) 6 ^3 }, Q1 }; T1 c" I: z. o9 oThe portion of the BMDS that defeats ballistic missiles in period of flight between & M% M& N' ]9 A0 q: xatmospheric reentry and impact. * x3 H' F# i- M1 L& XTerminal$ b6 a" |4 h( u% ?9 w7 e4 K Guidance 4 C$ t* c3 Q& j+ VThe guidance applied to a guided missile between midcourse and arrival in the5 T* l* ^# L* P9 B5 H0 Q vicinity of the target. * a$ R: X# j) e6 G/ ?Terminal Phase That final portion of a ballistic missile's trajectory between the midcourse phase 1 n6 _ u F( dand trajectory termination.) q( m5 `: {1 n! b0 E. E# W F m Terminal Phase . @7 M+ O: a* Y9 u, J3 HInterceptor / h- X" ^% t1 H, o2 U0 k2 uA ground-based interceptor designed to intercept and destroy RVs in the ) U- D% T) r. C8 O' w) Rterminal phase of flight. It may also be assigned to intercept and destroy enemy 0 Y5 {8 r$ h2 j& s. }! M( HPBVs and RVs in the midcourse phase. (USSPACECOM)0 j& H2 S8 B7 F" P Terminator Transition from sunlight to earth's shadow in space.' U8 Z& i& x( |& T% s TERS Tactical Event Reporting System.2 }, m" E; f, m$ z' A' q TES Tactical Event System. ' ~3 B% p7 L8 j5 g8 \+ |TESP Test and Evaluation Security Plan.% K# t. _0 u/ O. F8 B* [' Z TESSE Test Environment Support System Enhancement. & c& c& P- S+ p6 s, P& B- Q$ T' TMDA GLOSSARY, VER. 4.0 T4 A5 v& S; |0 B8 _; E' M5 T9 w1 ] 296 ( T8 ^/ _( y- `Test and Control The ISTC Test and Control provides the human interface for testing system; U* o/ ?0 |8 k5 o# P% I hardware and software. The Test and Control will consist of the necessary b1 x& v/ U! j6 y3 l' u consoles, processors, and storage devices in order to be able to control all% e: w9 j& \1 [, k7 m- s operations of the ISTC such as configuring the system, running a scenario, 9 e; h; W' g- e0 y" P& d- tanalyzing data, generating reports, and testing system hardware and software.; T% I* \; l, G Test and - w6 C$ L& h7 `Evaluation (T&E)% I8 Y( D* t4 a- [6 v% L Process by which components or systems are tested and the results evaluated $ V# n2 N3 m$ m/ \7 uto assess progress of design, performance, supportability, etc. There are three7 R$ m; L/ W: W& c) c types of T&E -- Development (DT&E), Operational (OT&E), and Production * a# e+ x' x- @: PAcceptance (PAT&E)--occurring during the acquisition cycle. DT&E is conducted" l, _! g# h$ i% m. k9 w+ A to assist the engineering design and development process, to proof 7 ]5 \5 u/ a$ M! p7 Nmanufacturing processes and control and to verify attainment of technical& ?- }. o2 [; b9 ?- S" ?+ {( n performance specifications and objectives. OT&E is conducted to estimate a 5 m) q2 L1 f6 R5 T5 Tsystem's operational effectiveness and suitability, identify needed modifications, ) u: `; M" W! l) S; N; y) aand provide information on tactics, doctrine, organization, and personnel 9 y2 U" w& E9 e7 Q# i( D5 Irequirements. PAT&E is conducted on production items to demonstrate that ' G; Z! f8 \' Z) rthose items meet the requirements and specifications of the procuring contracts! y5 B4 s! _8 y9 ]! @3 K- }& t4 Y6 O" } or agreements. OT&E is further subdivided into two phases--Initial Operational d+ p' |: w- ~(IOT&E) and Follow-on Operational (FOT&E). IOT&E must be conducted before4 ?3 S% t! c. g7 X0 j" K6 D the production decision (Milestone III) to provide a credible estimate of + t) V. F: ?# q6 f! Ioperational effectiveness and suitability. Therefore, IOT&E is a field test+ T& Q: k1 N* E conducted on a production representative system in an operationally realistic 8 J. _; }. R* \* ^! r8 M' r' o8 lenvironment, by typical user personnel and includes use of realistic threats. 9 q8 |8 m% B w: X& ^( xFOT&E is conducted on the production system to verify operational effectiveness. u5 J( b& j% n/ K) o' i/ `: v and suitability, to fill data voids from the IOT&E, or to verify correction of, i) z% |" Y! S/ T( K E 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 and & I3 f( N; [ EEvaluation: X/ F, `2 V2 N" T/ n$ ~# J Master Plan 9 D/ o6 c9 ?9 Q/ H* p x5 x9 F(TEMP)5 w. i4 D7 E0 h7 l6 M$ R An overall test and evaluation plan, designed to identify and integrate 7 A1 v3 N$ N6 ]( ^' u7 z: R! s/ l7 Jobjectives, responsibilities, resources, and schedules for all test and evaluation3 W1 k0 n& i+ h$ S# x! O to be accomplished prior to the subsequent key decision points. Prepared as2 {$ B, Y S ~1 | early as possible in the acquisition process, it is updated as development4 O# w3 v/ |, M progresses.0 s n+ T/ }$ s/ d1 U$ o0 e# n+ W Test and " T$ N1 m: r6 R. X5 F3 pEvaluation5 y/ S5 }. W1 \/ ? Working Group 3 L7 w* W" G+ B$ w6 b% T7 g4 t1 d(TEWG)0 _) I: T; R5 l' v: i3 }, e The TEWG is the forum in which T&E coordination for test requirements, 9 y3 v6 n/ T- |# iplanning, execution, and reporting, is accomplished among members of the . l( j+ y0 n6 @+ }+ f6 ?' r5 eAcquisition Team. The primary purpose of the TEWG is to optimize the use of ' y8 j# e; @7 t( X/ w0 Etest data, instrumentation, facilities, and models/simulations to achieve test # \6 W1 c* x7 G0 U0 sintegration and reduce program costs. The TEWG is established by the- ? y8 N( K+ F* T program sponsor to integrate test requirements, resolve cost/scheduling ! o9 }6 r x! a7 Rproblems, facilitate TEMP development, assist in preparation of RFPs and w- a3 X7 D s5 g( C" P# Wrelated contractual documents, and assist in evaluating contractor proposals . G" j' Q) e2 O) |/ w6 ^% @when there are T&E implications. " u2 ? _# r& G2 \Testbed A system representation consisting partially of actual hardware and/or software/ X2 ^7 \6 R" G and partially of computer models or prototype hardware and/or software. ( \! J! S$ D+ j' aTest Criteria Standards by which test results and outcome are judged. . m7 @ K0 L( o. h! iTest Integration0 `. h9 p# h Y Working Group & S$ V; Q) x0 h5 ?; }(TIWG)+ m9 f( S6 w" j A working group designed to facilitate the integration of test requirements in 9 p% _- [8 [% r! ~- corder to minimize development time and cost and preclude duplication between + R2 }2 A. n; w8 P' Zdevelopmental and operational testing.! g1 \+ e+ z% H3 `. _ Test Plan A document prescribing the approach to be taken for intended testing activities. 8 m) `, M3 n$ G" B, Q; JThe plan typically identifies the items to be tested, the testing to be performed, : p0 V( w4 E& a+ v3 }% G. Otest schedules, personnel requirements, reporting requirements, evaluation % l) z4 S: {. J5 q. dcriteria, and any risk requiring contingency planning. ) l5 U! o' o5 }9 R5 XMDA GLOSSARY, VER. 4.0 T 3 w- u) d: w/ o& a n297. y5 g! _2 D5 m Test Target7 I, Y& D4 {0 c: z' A6 |3 f Vehicle (TTV)/ y0 u. d' x( w) L: l9 r8 ]9 c7 u Single stage, ground launched, solid propellant theater target developed for' _7 Z$ U! k0 O0 m) c3 X' @ SMD Program. Also called “Aries”. 8 m. t! _* \% W! Q3 r! ZTest Validity The degree to which a test accomplishes its specified goal. % N8 S' ~& h% ^' h# x( r) V( Q$ NTEV Test, Evaluation and Verification.) V( T+ x6 \' \2 F TEVS (1) Test Environment System. (2) Test Environment Support Systems. - {6 E- X3 ]' p3 Z3 R% R uTEWG See Test and Evaluation Working Group.3 P' U* W6 ]3 S/ u% N5 x: E- s) s1 \ TEx Test Exerciser (NMD BMC3 Term)./ E& P# b1 ?5 o7 L" n8 Y TEXCOM Test and Experimentation Command.# Y# D' g# p) u! h. K& K TF Task Force. % I$ t7 e* ~8 d9 N' kTFC Tactical Fusion Center.$ f5 j, b7 c$ G: d4 x7 B1 o/ A. r TFCC Tactical Flag Command Center (USN term). 6 T9 w+ m& u9 d8 c5 n" f" BTFD Technical Feasibility Decision.3 b% e7 f% O/ j TFE Thermionic Fuel Element(s). ! X# l$ w0 l( S- o% U- iTFIM Technical (Architecture) Framework for Information Management' m/ s& N3 h4 `- q. Y TFOV Theoretical Field of View. X8 T$ ~( B' ]8 ZTFR Terrain Following Radar.! m2 I |5 g' [ TFRAMES Tools to Facilitate the Rapid Assembly of Missile Engagement Simulations.( ^; h' j/ b4 W |# [ TFT Time Off Target (JFACC term). 4 w% \. |9 L1 v. R- U0 tTFW Tactical Fighter Wing (USAF term).7 l: d6 O! @) ? TG (1) Threat Generator. (2) Trajectory Generator. X5 r! q G' w8 [ TGINFOREP Target Information Report (JFACC term).% l9 [+ _# _* y TGS Track Generation System (USN term).# F/ y! b& q3 C1 z+ f TGW Terminally-Guided Warhead.9 L6 T& B; ~7 @7 L' r THAAD See Theater High Altitude Area Defense System.0 `# n0 b9 D2 e1 n9 S* o8 q' e Theater The geographical area outside the continental United States for which a & j2 a5 ~& B$ h7 F' I c/ Ccommander of a unified or specified command has been assigned. 6 T# g N% t" m/ Z1 m( ITheater Attack Attack on a geographical area outside the continental United States. ! m+ {. W6 }, M8 i* H6 kTheater Ballistic " m2 i6 N6 ], R- T- gMissile Defense 0 P6 s# {" M: M(TBMD) System/ C+ t; i2 A. Y4 |7 _* P The aggregate TMD C3I and TBMD forces that, in total, provide defense against " w* u" Y6 W! M/ F: @' G* T( Fballistic missile attacks within an overseas theater of operations. ' m6 [- S( B- p# h8 n2 V) a(USSPACECOM)

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