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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 3 J% \5 Z2 T& maccess and support to a variety of missile defense test and evaluation data./ \2 P; Q% l5 C* L' ]. e STM Significant Technical Milestone. ; K6 `$ z% W* ]0 q ISTO (1) Special Technical Operations (JFACC term). 7 [$ N' c" N9 P; i3 @(2) Science and Technology Objective.; \$ H4 o" i# j+ R4 m STOAL Short Takeoff/Arrested Landing. . |8 n! f; e$ _! e) A% K. lSTOM System Test Object Model.! U F2 L/ G. z Storage, & ^9 m: P0 o4 }) r5 v3 t" } Y/ aHandling, and * y9 T# N# H5 s4 e1 T2 CTransportation/ E7 Z3 o) ^' [+ g6 ] Environments , _. A; ~5 g: Z+ h* ]) EThese environment categories cover the applicable free field or ambient: v: D3 x0 b. j# U( t# |: \ environments, which the system assets must be capable of withstanding during . w/ V) }# [: X1 b5 a7 u( ^7 qstorage, handling and transportation. They include the full array of applicable + V" ^8 |) u4 y7 m @. ?atmospheric and ground environments to which BMD assets will be exposed$ m* ~% S4 U# d7 J8 U' L' a during these non-operational aspects of system deployment such as pressure, 5 q* D7 H# V8 P( e% M% Nshock and vibration environments, among others. ( c* ?; F" I; c! _1 { O; iStorm Name of a theater ballistic missile test target system, part of the Baseline Target u+ ^" T8 M, C" r' F2 `" H Set. 1 H0 F" K8 v3 h+ s5 J" P, GStorm Shadow Conventionally Armed Stand Off Missile weapon based on Matra of France’s : Q! ~1 H1 u5 C" r9 pApache missile.! ^) E5 u4 y' v; [) c/ K/ M2 y STOW Synthetic Theater of War (US Army term).0 V; `7 j+ I) f STP (1) System Test Plan (2) Sensor Task Plan.7 C0 x. Y4 ~5 W# y0 [: { STRAP HATMD System Training Plan./ D3 T" Z6 H. v- c1 v2 Y8 g STRATCOM Strategic Command.9 ? N. ^8 E% g, i* d Strategic ( [) p2 w8 ?8 v9 b4 ODefense " h6 H. o: @. D! FAll active and passive measures to detect, identify, assess, degrade and defeat: v- R9 e0 Z8 d5 ^" {6 p* U! h ballistic missile, air, and space threats to North America, including measures to- h; d- Z* ^. l; f nullify or reduce the effectiveness of such attacks.2 n4 _ J. X' D Strategic ( d7 {. P" z [' B* R8 Y+ u2 k) KDefense 8 J0 {: {9 C0 T- j0 [Emergency+ \' q. a* I/ @; i Declarations that attack is imminent or taking place.0 J3 [* z g. m" L Strategic ! E& b) p% {% Q# d; }% kDefense System + Y8 p2 G: \4 `) ~! f1 V6 |(SDS) 2 v$ N& {( k! x# D! H7 PA generic descriptor, which refers to all architectural elements of the evolving* B, j; U6 O9 Z: u1 D( l ballistic missile defense system. - {* Y' @+ s' {! j, C9 D: @% @; H, sMDA GLOSSARY, VER. 4.0 S 6 o* u! x( }1 q$ ^2800 \6 {. X- \* o) B. c$ }1 h6 t+ S Strategic Level of / _2 a6 a7 Z8 c% sWar ' p9 K# M0 D `' K) A7 Z* ^The level of war at which a nation or group of nations determines national or 1 a" Q1 ~0 ~, R5 Kalliance security objectives and develops and uses national resources to2 j0 u0 n% w; h4 w; E& k/ g+ c accomplish those objectives.' M" Q7 o* q6 d+ |) l Strategic - L+ o& n0 \+ tOffensive Forces . l2 s& a, f+ E$ p" [(SOF) . J0 i' z! s% R, Q1 b" J) V3 XThose forces under the command of the Commander in Chief, USSTRATCOM, % I/ ?2 U8 i; c: P$ {the Commander in Chief, Atlantic Command, the Commander in Chief, Pacific ! G* x8 c7 \+ w3 DCommand, and other forces assigned to execute the Single Integrated , Z: E/ x2 S5 H" X5 r+ gOperations Plan (SIOP). These forces include but are not limited to B-52s, B-1s, / g j; p0 o0 R3 m3 ]FB-111s, Minuteman IIs and IIIs, Peacekeepers, Poseidons, and Tridents. 6 h T% Q* T+ z/ gStrategic+ Z0 U( }& z3 E$ J Reserve0 m j* t5 T) \ That quantity of material that is placed in a particular geographic location due to Y# k$ ] y9 C& J1 o5 i strategic considerations or in anticipation of major interruptions in the supply; C C( Z7 a6 `( u- L2 C0 K4 K' \- @ distribution system. It is over and above the stockage objective.( I4 k& [' V3 w& S: T, Z4 [0 o Strategic% Q$ v0 e& S! i5 ] Warning : A( D2 s( Y5 o' ?- ^( M$ `A warning prior to the initiation of a threatening act.4 }- z6 ^ ?% }% u% l( ?' C! Y$ _ Strategic 1 d5 F% y/ b9 X3 iWarning Lead 4 Y& R- J" S# J9 x8 hTime( O8 M9 I4 E9 ^ That time between the receipt of strategic warning and the beginning of 9 }+ P6 E t7 K# U+ A6 ~hostilities. This time may include two action periods: strategic warning predecision time and strategic warning post-decision time. 2 e6 @ W* m$ rStrategic2 F5 p2 |6 o: t Warning Post- + k' U9 ^' c4 s5 X" W; {! BDecision Time 5 V: Y. C1 ]% w. AThat time which begins after the decision, made at the highest levels of+ X/ a& M* w9 H" }- q+ R% j0 W$ m government(s) in response to strategic warning, is ordered executed and ends : y- `& D# Y' G) }with the start of hostilities or termination of the threat. It is that part of strategic3 Q2 ]% [- \$ x5 B9 e4 @. |; `0 i warning lead-time available for executing pre-hostility actions to strengthen the 0 r$ h5 E- Z0 snational strategic posture; however, some preparatory actions may be initiated in 2 G6 s" Y& i' R" ~0 }/ L- jthe pre-decision period./ Q/ \" X3 y! P& c Z! @7 N; h/ n& ~2 o Strategic2 _7 S* _- w7 C+ ? Warning Pre-$ r2 A/ [4 j; } e- k1 i2 w Decision Time7 G Z0 k' X5 L; P2 P" m, @- q+ g That time which begins upon receipt of strategic warning and ends when a . D% R: T% c, ~+ d' Zdecision is ordered executed. It is that part of strategic warning lead time& s P7 H7 }* q- `- W9 ]8 F available to the highest levels of government(s) to determine the strategic course " H9 H: p0 {3 I* p; y5 Gof action to be executed.7 [7 D$ R% y1 v$ @; r/ x) | STREAD Standard TRE Display. ' |/ T; R* M* b A' g6 K1 @: pSTRICOM Simulation, Training, and Instrumentation Command (USA term).) b( {3 ^) W; J- K9 G( G Structured / @+ O; ~7 Q3 @, A3 ?! m5 oAttack # J$ W/ w R! t$ \An attack in which the arrival of warheads on their diverse targets is precisely0 D: ^# n9 d8 S N: E' i$ c timed for maximum strategic impact. ! q- i5 p( ^3 pStructured 4 {. W/ _4 W4 D2 q% Q" aDesign 2 e0 S( |! I# zA disciplined approach to software design that adheres to a specified set of rules & i# T7 |- q4 X% Z& I8 Mbased on principles such as top-down design, stepwise refinement, and data+ m: ~, _6 P) F" q( {& l' D% o flow analysis.

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发表于 2008-12-25 20:21:38 |只看该作者
Structured+ N- k' `) y3 j, n. W Program. p8 A! H1 U3 o! S, ^' c- \ d A program constructed of a basic set of control structures, each one having one6 E% z6 N9 y5 L entry point and one exit. The set of control structures typically includes: ' l- a; Z2 N+ P/ O* f, E) `/ }sequence of two or more instructions, conditional selection of one of two or more # }% } I4 }5 Q! Uinstructions, conditional selection of one of two or more instructions or8 h" C1 [( r/ S9 g I( X sequences of instructions, and repetition of an instruction or a sequence of 0 s# c' h+ J8 q* }+ |instructions. - P9 D! a) l c& Z, k2 j$ ~: BSTRV Space Technology Research Vehicle.! u7 Q5 K# @" ~3 { STS See Space Transportation System. ) N4 f4 d' I% {) c( `3 \STSC Software Technology Support Center. 0 A( w0 k3 }3 \0 L4 IMDA GLOSSARY, VER. 4.0 S 3 {/ O. S6 j$ ]+ B- F- a# ~281' U5 n. s8 Q$ T/ ^2 H STT (1) Small Tactical Terminal (USAF term). ! ~ j% u7 v/ O+ Y(2) Stockpile-to-Target (US Army term). $ X$ q; p% g9 K3 TSTTR Small Business Technology Transfer." u! s7 t. y! O, d. [ STU Secure Telephone Unit. ) q6 D7 `8 N& J& nSTW Strike Warfare.# q( F% U) m E% Y4 i/ Q3 k( e STWC Strike Warfare Commander. . ~6 H& o, B2 _0 F- HSTWG Simulation Tools Working Group. . @4 S7 M% S4 v; \9 p0 W* o: hSubassembly Two or more parts joined together to form a unit, capable of disassembly, which; c2 u- n+ n& k7 A is only a part of a complete machine, structure, or other article. 7 j G5 f2 c( j. ZSubcontractor A contractor who enters into a contract with a prime contractor. ' v) h. |. m; s+ PSubject Security+ c! U a, G5 @) A( F Level3 k5 o$ Q5 r" L* M A subject's security level is equal to the security level of the objects to which it & Y. \/ I2 N7 v. P- B( x" Z F" Mhas both read and write access. A subject's security level must always be) {1 Y" u; m" {2 |! z dominated by the clearance of the user and with the associated subject.: X& ^( B H: B3 y+ _ Submarine-& r$ n! t3 I2 W" l4 v; U% s Launched . h7 X z$ x% S& g: QBallistic Missile6 R# o d) P' v/ ?, }9 D6 q+ D (SLBM)1 @, r, O2 S' l% C' B+ b A ballistic missile launched from a submarine, with a range of 3,000 to 6,000 ; ?; ~& ^: j+ ^8 s3 m s8 qmiles.8 l8 U5 [5 X0 ~5 |6 l; { SUBROC Submarine Rocket. % {! \# \2 U! I0 y3 f. t! D% wSubsystem A functional grouping of components that combine to perform a major function + g1 S0 p& n8 n' M( l9 Dwithin an element, such as attitude control and propulsion. 3 m: ~ {% J: i- R" e) [, a! BSubtractive6 |, ?9 T2 R+ I7 C5 E Defense' i. q/ ]+ v2 a9 B: f First come first engaged as long as weapons last.9 L: E6 U1 v' C+ \8 G$ h SUCCESS Synthesized UHF Computer Controlled Equipment Subsystem.7 [: g$ W' M6 {. O1 H2 d! ?9 ~ Succession of . L& g# Q( @/ zCommand N7 w% s' m: f8 C The planned or actual sequence in which subordinate commanders, in turn, , [' O# m: b2 }0 wbecome de facto commanders of a senior organization. Devolution of command 5 U. Y1 h: u: f* o1 w7 n5 D% c8 G% Vis a synonymous term. # n2 P, S$ K+ K9 TSUM Software Users Manual (Computer term).: |2 |3 @& J) C) z6 F Sunk Costs The costs of resources already committed or spent. In comparing two " V% x+ g' z; \! y2 B; K8 \alternatives, such costs are "non-additive," and they are not germane to9 }4 |+ n4 Y0 A2 w; F0 ]$ Y s decisions about future use of resources.- m0 k# h5 l& n9 |- z Sup Pro Supporting Programs (MDA term). ( v. Y/ |8 m8 E" Y' S, D/ e! H6 qSuper Survivable Solar Power Subsystem Demonstrator.3 F% u+ L( Y8 h# A& O# p" Q Super Radiance The process used by a super radiant laser to generate or amplify a laser beam in % @$ ^" U2 _! c) {, }% da single pass through a lasant material, or, in the case of a free electron laser, : I4 V& m' v7 q' w( f+ z5 t4 ~+ xthrough an electric or magnetic field in the presence of an electron beam. Super 1 d: D: x3 a7 R% c1 Uradiance is actually a form of stimulated emission. Also known as* W4 Q9 @/ l3 w1 g/ G- v; u superfluorescence, or amplified spontaneous emission. : `7 q9 G& C7 l9 | ]MDA GLOSSARY, VER. 4.0 S 2 ?# M' c" o# l8 X282 " r: |2 a' T& G) S* G0 h* Y# aSuperradiant) S% D* K8 x$ O, j3 X; o Laser (SRL) # k# ~3 e! Q( n3 i0 a; z$ sA laser in which the beam passes through the lasant only once; mirrors are not3 `& L) U' r2 L1 `6 m _ required for the operation of such a laser, as they are with more conventional " h" m) k) w. U' c* o( C9 M. \lasers which are sometimes called "cavity lasers" to distinguish them from2 m' {( i4 O/ d) c) _+ r$ d- D0 {+ I superradiant lasers. Free electron lasers may also be superradiant; the laser& Z2 T2 N* M: m7 a; f beam of a superradiant free electron laser would pass once through the electric+ K* Y* w+ b1 L+ O+ f0 [ or magnetic field (instead of a lasant) in the presence of an electron beam.2 M' [3 q2 C- `! y Supervisory . ?1 c {# N/ b! MPrograms 5 w$ I, r! z8 d$ d/ P$ uComputer programs that have the primary function of scheduling, allocating, and % D T7 V' w) B" U$ h' k `controlling system resources rather than processing data to produce results. # S: P# |: i7 `0 m* c* `9 ZSupplemental 3 y9 L: f4 J! W+ M- K% P( m$ U" Y& }Appropriation # T+ G- Q) N2 H L1 }9 iAn appropriation enacted as an addition to a regular annular appropriation act. , }' x. u1 q/ u$ w) J* i/ `Support; u$ w" a' I3 R( k Equipment 2 E! X+ h7 [. M9 y2 i( @+ @6 QAll system equipment required to support the ground and flight phases of the1 ]2 }7 Z; X2 i) c% t8 a mission. Support equipment includes aerospace ground equipment (AGE),7 \& z9 @' G% R maintenance ground equipment (MGE), transportation and handling (T&H)$ h9 K# ~7 @3 y6 X5 x! G equipment, and equipment used to support system deployment (i.e., assembly2 ~; ^6 Q7 b/ @9 i* A$ P& K+ { tools and fixtures, test and checkout equipment, personnel support and 4 O" h( l# G( l5 Aprotection equipment).. j9 [4 {; [# E5 {8 O H# N Support " w3 I8 c* ~( Z& O# q" x9 p jPersonnel - C/ P1 G4 G/ VIndividuals, in addition to operators, trainers, and maintainers, who are directly 1 [$ }$ F1 b2 S# e3 cassociated with an operational system(s), and who are critical to its continuous, p* z: O0 @ u0 @4 C4 u1 O, ~ operation. Examples include program management offices, security, supply, , T6 T) N0 ~6 b- a% u* Padministrative support, and the like.- a: h( F6 y+ ]' @/ }; M. U Support Software Software that aids in the development or maintenance of other software, for 0 I; q5 S0 x5 x- ?8 W7 v: X3 xexample compilers, loaders, and other utilities.' N3 w' g1 y& p- O9 S | Suppression Temporary or transient degradation of the performance of a weapons system,! R1 f& n. b7 | below the level needed to fulfill its mission objectives, by an opposing force. G7 Y+ A3 E; |- T8 D2 {SUPSHIP Superintendent of Shipbuilding. / X0 i! j1 O. X7 D* rSURCOM Surveillance Constellation.) M3 d8 ?4 i! K. F, P Surge Production An increased rate of production necessary to meet demands for defense items ( a5 A2 Y% i( Hdue to a need for accelerated production to meet a threat or for a wartime or; O4 x4 V/ _! x6 F# \8 q9 E mobilization situation. This increased rate can be obtained by having excess+ I% |/ M- e: Z1 b9 z production capacity available or by utilizing multiple shifts of normal capacity 6 v# _9 H/ f- |. f( }measures.9 A( j: v) I! r; B# y% d; v* z: k$ L Surveillance An observation procedure that includes tactical observations, strategic warning, $ j& H9 {, e7 ?" ?- M+ M6 |; Z# Yand meteorological assessments, by optical, infrared, radar, and radiometric1 v* [$ J$ e# ^( ]& a8 M sensors on space-borne and terrestrial platforms.

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Surveillance ) W6 |0 s2 G3 j0 O# `Requirements ( Q8 w8 K" Z2 i/ i5 eRequirements are requests for surveillance, including relative priorities for - j- B# t' _) Q Ecoverage and sensitivity levels, based on operational orders, selected response % B+ _+ y: W5 \# soptions and current surveillance system availability.9 Z) q b( ^0 d, b0 X Surveillance, # _( `. y) k1 M8 G! O! A' A0 ^Satellite and" }# `- C' n) q/ m& \0 Z% U0 d# q Missile4 Q0 S6 a B* x0 P The systematic observation of aerospace for the purpose of detecting, tracking, & f/ Y. h- v- c! L2 e: a, ~& h& U Wand characterizing objects, events, and phenomena associated with satellites" B' Q9 Q1 u, h% ^2 i and in-flight missiles, friendly and enemy.8 J2 F6 ]: N9 @ Surveillance ! k& Q+ o3 c) b# Q0 D6 D, B* ~System - q( N8 y' G7 R. c. _6 PConfiguration . y7 _1 I4 W9 ^( ~% c# N UThe sensor types and locations and the modes of operation currently activated " S3 g! r' F# ?; t1 i- ]in the surveillance system. 8 S5 p4 P! [0 j0 Y0 FMDA GLOSSARY, VER. 4.0 S, {/ y% N# n4 F& c$ V3 g: u 283/ V m& t5 E; f. y Survivability) c2 X: |5 V9 L* U1 Y( ` }) ?3 G Operating Modes& x9 L# G' A3 d/ F; U# f0 x The operating modes not including but in addition to the self-defense modes9 S7 g. ^. b+ Z; V1 A that all the elements can use to protect themselves against direct enemy attack./ @- `4 J; q& t4 u# A Survivable and( h, U2 _7 P* }- _' ?. I Enduring 2 g) t: N2 n* \2 E K( eCommand Center ) x' A4 P/ I% y(SECC) 8 \6 W4 K- o# X3 P( ?) lThe USSTRATCOM mobile C2 facility. }5 L$ A J; MSUS Site Utilization Study. 1 l) [% X! E; ?7 ?6 xSustainer Propulsion stage of a missile usually operating after the booster cutoff. + l1 c) r9 V8 m2 sSV Space Vehicle.! s$ ?" O, z, Y- ?* _ SVS (1) OBSOLETE. SSTS Validation Satellite. (2) Scientific Visualization Suite. 9 i% f/ [! }, U5 d$ RSW (1) Software or (S/W). (2) Space Wing. $ e& g- R% T! d# @SWC Strike Warfare Commander.% u. ]" d6 Q% I5 w" S Sweep Jamming A narrow band of jamming that is back and forth over a relatively wide operating' I9 E1 p: Q- E; x G band of frequencies. b8 S# M4 ~( k$ |: K( O* h0 eSWG Scenario Working Group. Q7 F; i5 J0 A SWIL Software-in-the-Loop.6 L9 { b8 }& |4 g! C3 z SWIR Short Wavelength Infrared.0 p3 E9 F2 N/ b) ~5 O SWSA Spatial Weapons System Analysis." ~6 z3 M( R, w# |3 O SWSC Space and Warning System Center.; Y- N; l& N7 n SYDP Six-Year Defense Program. ; o/ O& a7 [0 f( Z! F8 MSynchronization For data streams, the process whereby a received set of data is placed in one to; i6 n5 \7 V. j: d! E4 H6 u9 N* {# c one correspondence with the data assumed to have been transmitted.* m3 ~3 c" A4 G Synthesis The automatic generation of a run able system from a specialized design where ' r7 _: [0 s9 y. q( _( B4 Oeach module description has associated implementations.% P/ y, G' Y0 R- V( c. m Synthetic- o* V6 H% O' J2 v* G Aperture Radar - t/ \) |# J# u(SAR) - I6 n! }& {+ p: @5 i, @% GA radar technique that processes echoes of signals emitted at different points5 t3 ?- n7 n5 ?) ^, C8 x along a satellite's orbit. The highest resolution achievable by such a system is; Y3 k _9 L: g4 R/ W theoretically equivalent to that of a single large antenna as wide as the distance4 t8 y& m3 m% k7 _% e @ between the most widely spaced points along the orbit that are used for! V/ i7 X& B" N, @ transmitting positions. In practice, resolution will be limited by the radar receiver's' Q! F5 S, F/ q' V4 Z6 J1 ~2 a* t signal processing capability or by the limited coherence of the radio signal ) |5 m T7 U9 ~+ k6 nemitted by the radar transmitter.; h& A- K3 }1 z. s& { SYS System.# e3 l1 P3 h: _- Q1 X2 G7 u Sys C/O System Check Out.8 @: P( v( R9 Z: H. O: T% q K Sys Cmn System Common.( {( g- a7 L& H8 h4 I% s( c Sys T&E System Test and Evaluation.7 N" p+ b! i6 t4 ` MDA GLOSSARY, VER. 4.0 S ! }4 J/ I) i- W! i9 i7 X1 E2 x: g284, Q& c- ` N% ?$ I+ i. l. s SYSCOM Systems Command.+ B9 z: c- h( ^ System (1) The organization of hardware, software, materials, facilities, personnel,! R3 E2 @ |. G3 W4 e6 D4 E data, and services needed to perform a designated function with 7 R2 k+ d; C, M. R4 S9 |: k' M V% d7 dspecified results, such as the gathering of specified data, its processing,, A5 V5 @; J; g4 H! ]* Y: G9 d( ^ and delivery to users. * ~& n; i8 @2 }, J(2) A combination of two or more interrelated equipment (sets) arranged in a& u0 Z7 y3 w* R) u functional package to perform an operational function or to satisfy a! e0 n2 A. z6 t: f- K6 F4 X requirement. 0 f3 m( g1 h$ e- a0 v: x! p8 H- ?System 2 h" O* [4 D8 s& C2 `) C9 zActivation/ C y$ T& O6 l- {5 K5 N That set of coordination, assessment, decision, direction and control functions, d! ?5 E9 P0 f implemented to enable defense weapons, and to initiate the automated, realtime aspects of Battle Management, Engagement Control, and Weapon System) X) z, ]: m/ ? Control. : x! x( y8 K9 zSystem' V8 Q" u8 m ]% u9 D! N" G Architecture9 ?1 N* Y* Y9 o2 H* ` System + E! U! T" \; eCapability 0 L- i" u' [6 y' i, kSpecification 3 b+ T$ F" x( `$ \. o(SCS)" F* \" V j- J1 a$ l. y% x The structure and relationship among the components of a system. The system " b0 r r4 J! x& M. t5 larchitecture may also include the system’s interface with its operational 6 G z5 [+ D8 e5 a3 G. [% qenvironment. A framework or structure that portrays relationships among all the, R* \* e9 q4 ~1 b7 ?, q elements of missile defense systems.6 R# |) P( _6 C" ] P6 P7 N The government document that translates capabilities into functional, t& Y! o) j7 Q2 o specifications for the overall BMDS and allocates functional specifications among 6 L2 ?* W3 a) v2 n: Fthe elements of the BMDS.- W7 m# g2 ~4 z* G System Center 2 e1 O2 G; A) q, T/ _. d3 o; a(SC) 2 B7 f; G) _8 KA center in CMAFB responsible for the scheduling of maintenance for worldwide 8 L% o5 @$ h8 A- |( Rsensors and supporting equipment as well as maintenance responsibility of 2 f$ @& ~4 X( o4 ~; ?2 Uequipment in CMAFB.2 _' V9 V8 `! H System Concept. a+ a, ?3 X& ^' ?2 q Paper (SCP) 9 ~! A4 ]9 V2 a( w* u5 g8 ROBSOLETE. For a major program, was used to summarize the results of the ) g( W" M# }* h5 g5 ^% x& ^concept exploration phase up to Milestone I and to describe the acquisition3 O C% w y0 L. c strategy, including the identification of the concepts to be carried into the/ ^' n8 N1 j& L demonstration and validation phase and the reasons for elimination of other" Q) }- \8 x5 P$ ~ 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- o- Y s W3 U+ \1 d; M Configuration) |& K. v7 \3 d8 w- Z' P4 l Control Board1 c8 } _# M `1 D/ s, ] (SCCB)& x, d; t5 c7 T2 Y! v+ P! [- h/ ] The senior SDS configuration control board. The SCCB will manage the systemlevel configuration of the SDS and the interfaces between elements of the SDS. 1 E6 e$ C9 V* |# bSystem Control Function or task of monitoring the maintenance status of assigned sensors and ( {8 r3 O7 Z- @1 l- N5 Ccomputer systems. 5 I/ ?1 p i/ w& d9 o2 O" m" ]$ H& bSystem-Critical & y9 I% m& V8 b$ d. PFunction * y* [1 a/ u8 U7 v' `2 ?A function that is necessary for the successful accomplishment of the system's , d: L# [! a6 umission.4 A, o5 s5 w) n+ w System Definition 4 I' V% L, N# J ~8 VReview (SDR)" x# z1 o% M4 m The formal review, in briefing format, for periodically deciding on updates to the1 j5 o+ j# g& J* C' r. J( B system plans for development based on estimates of the program schedules and; R7 L! [; k) r/ R0 S* a( r4 y8 z# [. b funding. The SDR summarizes candidate development plans and their potential 5 j6 X$ s- ^" d9 `" \. t- Cimpacts on system design, cost, and schedule. The SDR provides a systemsengineering basis for the MDA program planning activities. Following the SDR, ) K' b+ T Y& S& U2 [detailed element planning will result will result in a Configuration Control Board, * }( ]4 L5 z/ W4 J9 T. Afinal trades, and program documentation in the PPBS.& C3 f/ y T& z' r System4 k& `0 C6 L. G! t, N8 w) ^( I Deployment. g8 r$ a6 E3 V5 E; I Delivery of the completed production system to the using activity. & L" S$ i9 @3 l# m' AMDA GLOSSARY, VER. 4.0 S& w+ |* j% V9 m+ |/ Z 285# D9 u. l- o4 V System Design (1) The process of defining the hardware and software architectures," ]# y6 ^$ Y# L5 X6 |9 H" P components, modules, interfaces, and data for a system to satisfy ! {6 o0 P! l0 Q5 gspecified system requirements.+ |) ~5 c/ h8 c6 j; C (2) The result of the system design process. ' H# ~: |9 T" Y) wSystem Design, Z; E8 |' {. I* ?/ Z Concept 4 r: k% Z" Z- d; e6 b, j: NAn idea expressed in terms of general performance, capabilities, and2 o5 F* j1 c4 ?+ }3 |6 [8 }6 D3 r0 ^ characteristics of hardware and software oriented either to operate or to be 0 b+ @# |- X- B5 Z7 h) boperated as an integral whole in meeting a mission need.$ t/ p2 A8 z" R6 U System Design, D8 B o! K2 }$ V6 Y3 @7 _ \ Review (SDR)! x- o8 M& W q2 t Evaluates the optimization, correlation, completeness, and risks associated with9 f# V8 N4 v* `6 \/ ~% k! N! p the allocated technical requirements.' h7 S" @/ t3 B: n* F! L System( W, y, s0 K* W# {) l1 p- Y& o3 l Effectiveness , }% T8 m# u5 RThe measure of the extent to which a system may be expected to achieve a set) I# b3 n4 ]: J& j of specific mission requirements. It is a function of availability, dependability, and- d- S; E9 K3 ? capability.9 Y/ q! e% b" D$ J" S4 Q System Evolution2 I$ o, ~; y5 x1 A5 g Plan (SEP) ( [2 `* q ~) A1 ?: jThe documented plan that establishes the strategy to evolve the BMDS5 q" N6 o% w2 [( t5 e6 F+ @ [ capabilities over time. It reflects the BMD Acquisition Executive (AE) and Senior2 J* F8 O# h7 x9 o0 Z Executive Council’s (SEC) development decisions; documents the current BMDS& P1 c% K5 A; I/ F, _# @# V0 \$ ? Development Baseline; and summarizes the capability, integration and/ v. [) t1 C" a5 y6 e6 n assessment of the BMDS evolution. It identifies opportunities (items that provide8 E, o* l5 @! r3 O significant improvements in BMD capability), identifies challenges (impediments to 3 D+ U, J% d+ x% l0 bachieving opportunity), and points to promising alternatives that can overcome$ B4 D% {1 U; Z; x1 F+ G- p those challenges. # F( j/ @0 E' I$ K" {( ~System Families A collection or grouping of interrelated software systems in the domain that share " Q8 I: B0 }& D6 na set of common characteristics./ a6 l2 {- ?9 x J System' P l1 k0 Z5 f7 M Generated) {2 x. z4 b: l3 o: y& e6 E Electromagnetic: j1 _# e9 q1 C' G4 T1 Y Pulse (SGEMP)* {& j/ m& u0 o. V4 Z V/ f4 _( p8 a Transient electromagnetic radiation caused by the photoelectron emission of the6 M( o# [! @. J; Y surface of an object subjected to a pulse of photon energy. Although local ' }- ^ ~+ c6 x; ^; q5 c4 \; Rfields close to the object surface may reach quite high values (kilovolts), the- E9 i- _6 l8 @: w$ I: m2 E1 s primary disturbance mechanism is the flow of replacement current through the " c; k( ?& B- E( \$ ^object in order to produce charge equalization. ) _ ^3 {& a+ G6 Y* N$ k' hSystem- _- S$ ]7 E# u4 s) ? Integration Test4 C T" ~$ h8 V, D5 j A live flight system-level test utilizing actual system command and control, % f4 J9 I3 n' M+ G# Csensors, and weapon hardware. % a% M, m. i2 `System Manager A general term of reference to those organizations directed by individual r7 z! c: M1 N) u managers, exercising authority over the planning, direction, and control, of tasks2 U5 W4 H' p5 f3 v, i+ P and associated functions essential for support of designated weapons or4 J# q+ T# n' T, @ equipment systems. 7 P* R& q! X9 hSystem, S. D. g2 ]) ^ Operational4 {# w3 Z3 W! N" k8 I9 m$ D' a4 O Concept0 U3 G' g! a) r& ~0 Z4 ~, L A formal document that describes the intended purpose, employment, ( Z9 w7 v& E! R A H0 ndeployment, and support of a system. 5 y- @% V" v a5 k6 q& z+ fSystem S& Y9 ?7 I4 x$ O: k. `2 G Operation and) _+ E. S7 E: S( L% g Integration 4 n o! p; `4 P6 xFunctions (SOIF), `' J8 S% w# e% @* x; J, W The automated activities of tracking, communications, asset management, and! T: k- k3 ^. a4 ]- [ battle plan execution, which are executed under the guidance of the Command# U0 G4 p" y$ |) a9 s5 ^8 v and Control Element. The allocation of these functions (and sub-functions) to8 A0 K! V: u7 @. U" B4 \ the system elements will be specified in the architecture(s)./ Z/ H5 r c2 l4 a) H System Posture A USSPACECOM system of graduated readiness steps to bring the strategic 3 o- ? C; H# \* g/ P% T6 ]4 ? r" X/ dBMD system to fully generated alert, similar to the USSTRATCOM concept of) Y9 \8 V. m z0 X8 U- E posturing aircraft and missile forces to reduce reaction time. ^0 X- q/ s* l. D' }MDA GLOSSARY, VER. 4.0 S / R( g- @2 ?3 z5 j: u' Q' ]" V286; H* [% u- D A' P2 o6 U! ^6 B System Program6 l- _1 A6 \% V% e; T5 P Office (SPO)8 e" R( f Z9 u6 k" N/ E The office of the program manager and the point of contact with industry,1 o0 F6 @+ D7 n; K$ O( M' j* Y4 I government agencies, and other activities participating in the system acquisition . H- ~4 f) n! _! ^, b3 ` A1 yprocess. (U.S. Army uses term “Project Office.”)

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System 9 L" g4 Z/ ]' g2 t/ AReadiness* q3 z3 n. C5 X) b* O+ \. I System Readiness includes the development of OPLANs necessary to carry out& Z! A* V% @" \5 }( v/ g+ ? the assigned mission, using strategy and guidance provided by higher authority9 P" o# }8 Q6 D# i along with knowledge of current system performance and planned capabilities. It + g+ ?+ V" K+ vincludes peacetime tests and exercises to maintain the system in an operational8 T8 i& E- M7 O& t2 }" g state, and the demonstration and evaluation of alternate tactics and the & B& |/ Z- K0 x7 B1 w( p. T1 X& M1 Jverification of system performance, to the extent practicable. It provides for the $ r8 B" C! ]: h2 [0 z9 Econtinued training and exercise of personnel in operating the system under 7 \; l% R1 I5 G n& N, u urealistic conditions, and provides for control of other system test functions - E: }, D- ?& S# x( Xnecessary to keep the system operating. It provides for detection of anomalies) p' ^+ }5 S+ d- N and for corrective action. It also provides for maintenance schedule control,, K* |" E; q4 D2 ^" p historical maintenance data retention, maintenance training, and test results( p5 ~ n0 q& } ^, a( N status reporting. ) p5 @- C Z3 a8 U; N. z+ NSystem 8 Q1 A- p" a3 HReadiness0 O; Q! K, e/ V7 Y W Objective$ n" g; K3 }, y A criterion for assessing the ability of a system to undertake and sustain a7 O8 _$ I3 a6 [" C! {* b# A9 B specified set of missions at planned peacetime and wartime utilization rates.3 R q4 o3 H% h# k# s System readiness measures take explicit account of the effects of reliability and . J/ [. Y3 r; n: X5 ]maintainability system design, the characteristics and performance of the support6 V8 e2 C+ \. A/ `0 S _9 Z' C system, and the quantity and location of support resources. Examples of 3 y+ }7 a7 z3 |/ isystem readiness measures are combat sortie rate over time, peacetime mission + ? ]; F( b* e* `. d& dcapable rate, operational availability, and asset ready rate. 5 G" e8 b' P, W6 B* cSystem! Y6 X8 C! V+ P. J a6 u4 a Requirements & I: N* ] `# G3 J8 o( cAnalysis (SRA) 6 L1 R" v5 t Y$ ?0 e- E% NAn analysis of the operational system requirements, as defined in the System3 t3 T3 Q3 F) b8 A: o Concept Paper and other approved requirements documents, used to determine" V2 P0 h# f- q# c& | q' J0 d specific system functional and performance requirements.5 B, ]) x' H" y! H% X' a* ^4 p# L System & A! }, K$ x, n: |" G0 \+ l" `/ qRequirements b+ u! T$ Z( s! P) c1 A# BReview (SRR) 6 G5 g, ] @% o3 [5 h3 W6 C9 uConducted to ascertain progress in defining system technical requirements." \1 @0 \ r0 G6 S9 v, L Determines the direction and progress of the systems engineering effort and the( L; m* v1 O1 w1 \4 A degree of convergence upon a balanced and complete configuration. # d M4 |- I) N( r2 B# h& qSystem Security' r' g9 Z. y8 m0 ~6 l& k2 _ Engineering 2 }( D3 y7 Q. D; M1 j+ w(SSE) / ~3 t. {* O- zAn element of system engineering that applies scientific and engineering 1 ~5 p% I+ T4 s4 B" j C4 f$ o0 Vprinciple to identify security vulnerabilities and minimize or contain risks% {+ ]4 J) q8 m8 J7 q" r# ? associated with these vulnerabilities. It uses mathematical, physical, and related! Z% c0 T o5 i7 } scientific disciplines, and the principles and methods of engineering design and% l! v. H {2 q$ ]$ J; ^ analysis to specify, predict, and evaluate the vulnerability of the system to 4 O9 r0 u5 ?$ G# Rsecurity threats. : x* `6 I- w+ W5 T1 BSystem Security 2 M3 o' O f% n+ |8 O1 zEngineering % G- M* m- G: S9 o E9 A/ OManagement( r5 T! i9 A. p! r+ i Program# V% z! r' X) t* U% }" m$ b (SSEMP) / J& N" r' d/ a: tThe contractor shall establish a SSE program to support economical 9 u, `" x: X3 M: T1 a+ z/ X) e, fachievement of overall program objectives. To be considered efficient, the SSE( I+ B2 m9 Z! g( N program: (1) enhances the operational readiness and mission success of the 0 U- ]; n- a, G- u$ H9 q; Wdefense resource; (2) identifies and reduces potential vulnerabilities to the # a& r( C* V. Q( sresource from sabotage, theft, damage, destruction, etc.; (3) provides0 t* [/ L. |2 X: z4 U7 R management information essential to system security planning and (4) minimizes P! X; B% M* l& Z& U its own impact on overall program cost and schedule. l9 W1 d, W0 j$ c1 N System Security - t! l1 n2 z4 OManagement 0 d+ S5 Y3 i7 }7 l v. j0 t( m- lPlan (SSMP)) @- o% a! |9 _, ?3 K A formal document that fully describes the planned security tasks required to; ]* p `6 ]- @+ S' D) w, Y meet system security requirements, including organizational responsibilities, $ S' A2 B3 z; ?$ Emethods of accomplishment, milestones, depth of effort, and integration with6 c6 R- q" _; M+ g other program engineering, design and management activities, and related/ U/ \) j/ @6 i3 M systems. , C$ ?! O, s6 sSystems) k3 F1 m5 b+ ~- ^ k Engineering ! x" H7 j7 ^1 p. rAn interdisciplinary approach to evolve and verify an integrated and life cycle & @: P+ T% E, N- v [9 _/ g. t+ ^balanced set of system product and process solutions. + [3 A3 B% T, |% GMDA GLOSSARY, VER. 4.0 S : }& v. j+ {. |' {287 1 `4 W' V( M$ I* d1 v0 K* c; H9 WSystems , O" O& L$ e1 Z' b" a2 c2 qEngineering% u5 i! q6 n& R3 A8 H Management$ G) d& `1 g) \) ~% t! ? Plan (SEMP) a, ~( h, `' n4 }This plan documents: (1) Management of the systems engineering process, (2)) J* o2 W7 u( Z; d3 D. M2 R Integration of the required technical specialties; (3) Performance measures& k8 {! O8 \) o development and reporting, including intermediate performance criteria, and (4) 4 S, W x. N# t$ {Key engineering milestones and schedules. # m( M6 ^3 m# w: }, j0 R! \' NSystems Test; k% d2 }+ K0 d Integration and , c' ~3 C$ C9 i& z8 I7 P" W: X5 VCoordination' L( j, X5 B- H& C. P The combination of SDS elements tests to reflect SDS performance contribution.! j% X7 a) C. h9 D4 N System Threat) P$ V5 b& v0 ?( L5 S- A1 O, r g Assessment) D8 c( z, t* }8 b l8 n Report (STAR)1 u; o% }+ @! a Required by DoD 5000.2 and validated by DIA. Establishes the threat (to a 8 n1 J' _2 R) {; \4 mService's Mission Area) and is part of basis for considering mission deficiency3 C' {% k ]7 k+ ] [) `5 j$ k6 Y: L and potential program new start. Updated to support a DAB Milestone or when$ u, \* U! c# {4 x- z3 \$ I the threat changes significantly.0 m; `( _; Q5 t D0 n7 K' S5 D, Q System-Valued 6 g* E/ [# g8 X# xAsset , P; u# O+ h* F" l5 lA system element/component, function, or information element, which is critical to" w- h1 v# p! P2 l- I z' e the proper operation and well being of the SDS. " T' f7 j; c* gMDA GLOSSARY, VER. 4.0 T . Y' R5 L1 n7 t! p! j288 9 b% N+ Q& F( v) r. \9 X6 WT&C (1) Tracking and Control. (2) Test and Control.: z5 L, q& `, E; [4 {. X T&E Test and Evaluation.3 n; } L! v# d# ]+ s; q0 B8 X T&T Transportation and Transportability.9 w( X' G8 j F2 Z; Q T-MACH Trusted MACH.4 Q- @5 ~1 ?+ A! W: _ T-UAV Tactical Unmanned Aerial Vehicle. 8 p- Z: v) J. n' C9 [T/R Transmit/Receive. ; D" r* Y* Z3 {; j2 V2 L q) FT/REA Transmit/Receive Element Assembly (of a radar). - f$ l+ j+ `9 L- `* c5 i; XT! ^1 [+ Z, [3 j; h9 | 2, e: G# E* y/ y- v# D Technology Transfer.% u% ?3 B+ ~& @/ G/ x T, ?, h% U* `) ~1 n$ o# x# f 29 a- H3 z, i8 `2 Y, x, w, { E Technical Training Equipment.' \; e' Q. ~0 K$ H TA (1) Threat Assessment. (2) Target Acquisition. (3) Test Articles. 5 [/ i( K2 W0 D7 D. {TAA Technical Assistance Agreement.8 {$ _# g) b# n7 J8 F" l% A TAACOM Tactical Air Area Commander. ( V4 c* i% |7 H3 JTAADCOM Theater Army Air Defense Commander.6 e3 ^! p! t* N TAAF Test, Analyze and Fix.- H% V+ A- ]) k3 }) ^! m TAC Tactical Advanced Computer.5 z w7 t& x' R$ [8 R TAC-3 Tactical Advanced Computer – Three (USN term).; {9 Y3 @" r! s6 S' c9 E7 D TACAIR Tactical Air. " C$ A6 e0 b8 h" p( ~TACAMO Take Charge And Move Out [Airborne SSBN Command Post]. 0 z7 Q) p: v, H8 J3 STACC Tactical Air Command Center.- w0 Z5 M, y! |! C" R4 q1 A& u TACC USMC Tactical Air Command Center (USMC term).% S! Z! D: d$ D& x r/ C, J/ U TACC USN Tactical Air Command Center (USN term). * f! w2 f% J, b" [ ]. \( b( pTACCS Theater Air Command and Control System.9 _9 O% F0 r& k- @( u( |/ O TACCSF Tactical Air Command and Control Simulation Facility. $ o; Z2 {8 D7 f. @TACDAR Tactical Detection and Reporting. ( s. Z7 Z5 F W9 K0 _; `0 \TACFIRE Tactical [weapons] Fire.

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TACINTEL Tactical Intelligence Information [Exchange Subsystem] (USN term). 8 x1 p! l/ ]. U$ VTACOM Tank and Automotive Command (US Army term). + S# o. S% V! k8 J$ lTACON Tactical Control.- p( Z& S% \! o9 S0 h- ]4 F TACS Theater Air Control System. , I7 m8 {" Z3 u& |MDA GLOSSARY, VER. 4.0 T + ?6 ~: y. [. ~: r2 U289 3 b0 y' n5 v) `' `% FTACSAT Tactical Satellite.: a$ F3 s/ z3 t k) v TACSIM Tactical Simulation + ?$ k1 u# [# z6 m! a, lTactical Air: H8 ]/ _ T! b1 R/ h' M4 t Doctrine W* k7 E1 E5 W: W2 p: ~* r4 _6 K! [ Fundamental principles designed to provide guidance for the employment of air, M0 R$ w" R5 E8 w5 f5 T/ E4 x power in tactical air operations to attain established objectives./ \1 s: t- {, z5 J( F. z4 x& T Tactical Air & e7 U2 Q/ c7 r6 YOperation . k" v5 I# G1 Y% a8 F) pAn air operation involving the employment of air power in coordination with " Y' O- i# F: j2 O tground or naval forces. 2 u& a) q' j h# q0 ~* ]+ yTactical Air1 ?# g P* B V" X' h1 e6 \6 } Operations; e4 e5 I, m" k! g/ T Center ! s' b+ @ ?5 i9 t( k& hA subordinate operational component of the Marine Air Command and Control/ L# @* S; V5 z System designed for direction and control of all en route air traffic and air ; U3 g- e% _1 K# Pdefense operations in an assigned sector.: y5 u& y- O8 a7 ]) F' k Tactical Air4 S! D* B' H* e: p Support 6 l7 i/ v5 U: Y5 w! S! `4 _Air operations carried out in coordination with surface forces and which directly - R: f0 ^8 @! {. Cassist land or maritime operations.0 h" I) F! _/ o+ a Tactical Area of 9 L. T8 f1 U/ I* f* a0 PResponsibility * g! q# R) Z# ?, A2 w$ L(TAOR) * S* D/ R' e Z; O& UA defined area of land for which responsibility is specifically assigned to the 0 Q0 ^; j1 A) D# c/ [commander of the area as a measure for control of assigned forces and* M6 Z' R# V8 M! ^" n' Y- R coordination of support. ) t) B$ W' t9 s9 [& b1 pTactical Ballistic( Z h, z6 h( Q; h6 L Missile (TBM) % Z. H3 f# `7 W* ~# SA land-based missile generally having a range of <3000 miles that can be ' Z' e: r A& jemployed within a continental theater of operations. ' s7 s( j7 f4 \) j, ?Tactical Concept A statement, in broad outline, which provides a common basis for future3 M- c0 ], r* ]( T" {3 X$ J development of tactical doctrine.* J* A" y% Y5 a Tactical Control The detailed and, usually, local direction and control of movements or & k3 \! i% Y2 X$ o3 `; lmaneuvers necessary to accomplish missions or tasks assigned. & g) N) E. W- V6 HTactical Data D; |# D# t; H, ~3 L& H. W$ nInformation link $ k- I1 I# z$ |/ V3 M6 {$ x GA netted link in which one unit acts as a net control station and interrogates% o3 |8 R% G, j; N& B; Z each unit by roll call. Once interrogated, that unit transmits its data to the net.' c7 B2 ?. G a This means that each unit receives all the information transmitted.6 K$ A. L9 o6 R3 y Tactical Level of" l4 ?4 G: M2 u War& f, t# G5 l3 U/ o6 O% l1 n1 ^; G: O The level of war at which battles and engagements are planned and executed to0 F1 f4 ~& e# t( |) T' t. G, |9 c accomplish military objectives assigned to tactical units or task forces. % H. j; S: D c2 h4 cTactical4 S0 ]( B; z2 n Operations Area 2 L0 Z4 ]1 y5 W' l6 S(TOA) , E4 [# L# t# ~& _# W( }4 T" nThat area between the fire support coordination line and the rear operations* @- C. }( D- E0 ^ area where maximum flexibility in the use of airspace is needed to assure mission* w: t5 \% w2 Z' [ accomplishment.! P" O/ Y+ t6 J- A1 i Tactical6 f' `1 m! R1 n* O7 w( p s Operations# ~$ [- U% H8 C2 V4 L Center (TOC) : j2 Y+ i( b0 J1 R7 X3 h* IA physical grouping of those elements of an Army general and special staff 6 |/ f0 I8 M6 |3 ]1 {. ~8 ~concerned with the current tactical operations and the tactical support thereof. ; C0 P# f D1 |Tactical Warning5 r6 F7 e5 ]) a9 C (TW)3 ~4 j% u* T' S w9 S (1) A warning after initiation of a threatening or hostile act based on an ]0 k- B6 P9 N$ b: Hevaluation of information from all available sources.* ^* B( G. t: k. ~/ X (2) In satellite and missile surveillance, a notification to operational command 8 O* N; l3 \! v' I6 A! ]; scenters that a specific threat event is occurring. The component + y/ r* M z/ o1 S- felements that describe threat events are: country of origin, event type; J. F5 Q1 p& [7 Z and size, country under attack, and event time.+ M' J5 ]. J4 V4 c Tactical 5 t- K& C7 L7 |+ ]3 kWarning/Attack 8 ~) ~* a% O$ w& ~/ I% V" t: dAssessment ; ?1 G" q7 A; U, z0 ^(TW/AA)- Y6 Y- N+ n, M% k A composite term. See separate definitions for Tactical Warning and for Attack . F/ i8 C% u' qAssessment.+ n: Z/ [ E( v( w- I) w MDA GLOSSARY, VER. 4.0 T0 h$ m! d+ v) E# W% p 290 6 I" v7 }; p4 {* V/ w+ y) Q$ ]1 TTAD (1) Tactical Air Defense. 1 U+ K+ t' b% |7 h6 s% ~% G(2) Theater Air Defense. 7 X2 A# Z% B) L% _9 Z8 @3 t(3) Technical Acceptance Demonstration. 3 t2 M1 P6 P3 hTAD C2 Theater Air Defense Command and Control. + R) p9 _* }2 q0 {; TTADAP Theater Air Defense Asset Planner. . G& t% r! m. X h- q. \ kTADC Tactical Air Direction Center.( N# a$ F8 H2 |5 }0 Q: J TADCOM Theater Air Defense Command.. N7 _# k" j( X Q8 ^9 a( L TADIL Tactical Digital Information Link.% A" ~6 L! h# b( R$ M/ V4 d% v TADIL A Tactical Digital Information Link “A”.3 |0 V; C; g$ ]" [/ L% a) ^2 _! g TADIL B Tactical Digital Information Link “B”4 q, X1 s3 p( K; L0 x" F TADIL J Tactical Digital Information Link “J” ' F6 p3 s. w g% o3 MTADIX Tactical Data Information Exchange. * n) B+ |! |/ e% S2 ~( w( k2 FTADIXS Tactical Data Information Exchange System.3 W2 @ p! u i; [3 W) J2 L TADL Tactical Data Link.4 }% E+ v, ?9 [) g4 E5 } TADS Tactical Air Defense System.3 [& {4 k! L& H6 l- G+ \1 G/ a' ? TADSIM Theater Air Defense Simulation. # T; R7 l3 _# ?5 `3 [TAF Tactical Air Force.. [( y. N2 a2 P$ q' z @% j: ? TAFIM Tactical Architecture Framework for Information Management.. ~+ p9 ]6 ]! H- z0 X TAI International Atomic Time.2 w3 s+ z/ @0 u8 M TAIS Technology Applications Information System. 7 l4 Z, T2 {* `. v% @% Z {9 wTALDT Total Administrative and Logistics Downtime.9 d% T; H* ~) W1 M. q TALON NIGHT TALON programs, which support SOF. & \! ^$ Q1 q9 k0 I3 BTALON SHIELD An effort using stereo DSP processing to provide ballistic missile burnout vector8 s8 k. _# a3 P: [! N9 D and impact prediction for interceptor cueing, counterforce tasking, and passive7 E) B+ v$ j3 z1 c B4 r defense.

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发表于 2008-12-25 20:23:44 |只看该作者
TAM (1) Theater Attack Model. (2) Theater Analysis Model.. y6 Z5 g/ W6 ? V7 q4 |7 Y1 ~! d TAMD Theater Air and Missile Defense. 5 ]( B6 ~: Y4 g8 [5 w- D; t8 NTank Final Propulsion Stage (used interchangeably with sustainer). Q8 |( p% t: R h0 v ? Tank Debris Hardware associated with tank. : }' S. c+ W1 c' ?5 OTank 5 J/ l4 D# H: MFragmentation ( ^" [; h/ W# D$ J! BThe breakup of a tank, either intentionally to serve as a penaid or naturally as a a% a4 ?; r7 |( J+ k8 [5 f result of aerodynamic loads and heating upon reentry.+ h/ D# ^( l" `% J" { w MDA GLOSSARY, VER. 4.0 T$ ?$ h6 Z# _& C9 w9 } 291* C) s) }7 S! Y" g; g' T3 p TAOC Tactical Air Operations Center.: t, ~* i& X& n) P. V TAOM Tactical Air Operations Module. ; A9 T }2 ^6 o8 @" L1 ATAOS Technology for Autonomous Operation of Satellites.8 s8 G2 ^) w7 z! v- t- }" ? TAR (1) The NMD Threat Assessment Report.: h; i; O, T/ p! B( @2 _0 ^ (2) Threat Activity Report.. u2 P( k2 A5 W. O (3) Target Acquisition Radar. ! v: m; g( Q1 I4 x1 |5 x6 rTARA Technology Area Reviews and Assessments. 0 N( M. G' m/ Z4 zTARGET Theater Analysis and Re-planning Graphical Execution Toolkit. 8 P, W9 X d' I7 L( m5 T' UTarget & b6 |, ^" K' ?+ ~+ pAcquisition7 D/ h0 v. }9 C! D8 V The detection and initiation of track on a target in the surveillance coverage6 d+ w4 }% R. i2 h" E* v region of a sensing system.; F! l( V7 U1 X# ~) H' y: L: s Target ' G* ~3 y4 O3 ]Classification & p! K9 s5 q1 n0 X7 N5 Fand Type u9 G+ y l) T Identification of the estimated target category based on surveillance, , B; i0 a3 y+ N' v, n. ediscrimination, and intelligence data. ) y, |3 ]4 H4 e: I0 l, Z! X9 o2 _6 bTarget ) u4 S* L- k6 S6 `9 yDiscrimination) D, Y8 @% P! X2 q) h' W- i% W The ability of a surveillance or guidance system to identify or engage any one& Q5 D& A; ?4 J# N, b target when multiple targets are present. 3 [, B1 m9 ?. X. bTarget Object% a( o- R* v3 h6 c Map (TOM) 3 \# Z* B; c' Q: h5 rA data set, which contains three-dimensional position, estimates for target and, ^7 ~4 a" A* r$ H6 y* z5 h4 N other objects predicted to be in a weapon interceptor's field of view for use in ) B8 N; r7 u N. p7 c- n) Ctarget designation. (USSPACECOM)( D% g! n ?5 j* A2 o& g Target Resolution The splitting of a single target into two or more targets./ S% g# Z6 z6 ?7 q* E Target Signature (1) The characteristic pattern of a target displayed by detection and0 o7 ]% s4 U) H1 i identification equipment. 4 w7 k7 F" z4 p5 r(2) In naval mine warfare, the variation in the influence field produced by the$ F' e5 M8 K4 ]) }- g. [4 a1 L passage of a ship or sweep. ! I! U2 \. @7 z4 dTarget System 8 V5 `: V) l3 l" B6 b4 VRequirements* C% U. ]4 U, f4 r: K4 w# \ Document (TSRD)+ k( |4 D" k, b0 \+ u8 U! P) a BMD Program level program management document. Developed by each BMD & F4 h" g, j) @/ P6 f$ dProgram Office, it outlines to MDA/TC and MDA/TE what the PO’s target! O) R. C, n; y6 {( ~ requirements are for each specific flight test based on the test objectives. 0 U* i3 l( u; L( G) ?8 m. Z3 ~Producing the TSRD is the first step in the target development process. - ^- k5 W6 v7 B4 X0 f/ pTASA Task and Skills Analysis.6 P; l0 ^, m1 v7 W$ f Tasks The required actions to accomplish all or part of a COA. Tasks contain guidance 2 J4 a- H9 Z/ |to the Battle Management/Command, Control and Communications (BM/C3 ) ' x% @# [" B5 d ~1 L/ `engagement planning function concerning resource allocation, constraints, and 1 n8 _$ R, Y4 O, Y0 g* a" b* e0 c0 vrequired performance. 4 J" w) Z4 U8 p) b- uTASM Tactical Air-to-Surface Missile. 6 \# U9 {# c7 z, MTASO Terminal Area Security Officer.+ o' O, }2 c% Y9 u( ]* g$ { TAT Technical Area Task.. i2 f3 ?4 L5 c" U8 N" z& A TAUL Teat and Upgrade Link.8 H8 j c) T4 G( y+ }: ~ TAV Transatmospheric Vehicle.$ k; S8 d9 E( X& t3 x: d c, A) k4 t MDA GLOSSARY, VER. 4.0 T8 e7 c9 h/ T- f W# M% K 292( v! z! P, m6 C- x* C TAWG Threat Accreditation Working Group.% T8 X' A% I0 o: ~ TB Test Bed. v9 ?& l2 L" a% B) t TBA (1) Theater Battle Arena. (2) To be Announced.0 h j: Y1 V2 ~/ t TBD (1) To Be Determined. (2) To Be Developed.6 b- T$ Y3 C9 P% H5 s TBIG TMD BM/C3 Integration Group. 5 E' w- ]; j. a) B9 B6 Y* v/ t) m* pTBIP TOMAHAWK Baseline Improvement Program.. m4 A7 w) W# _ TBM See Tactical Ballistic Missile/Theater Ballistic Missile. 0 Z9 P: n |! }( ?6 t' d3 uTBMD Theater Ballistic Missile Defense. 1 p3 M4 A5 l/ U2 p' T' Q; ATBMDSE Theater Ballistic Missile Defense System Exercise. ' t* h+ H+ r2 RTBN To be Negotiated.) L/ S6 n! y- `! S$ b3 w" d$ Q TBR To Be Resolved. ! l% E- x! C0 X/ ^TBS (1) Tactical Broadcast System (US Army term). 7 b+ Q: v/ f; }( f' E' i8 D(2) To Be Supplied.: K0 `& A2 S" i; W/ z (3) To Be Scheduled+ o9 J% `- @4 z9 m . 1 z4 Y" A) w% M& M* VTCAMS Technical Control and Monitoring System.4 ~0 t: k3 G: g* @2 a TCC Tactical Command Center.8 D, M9 n& h# B TCCF Tactical Communications Control Facility. " A! Y! M9 `4 k1 {& j( f2 |; P! u; b4 zTCE Three Color Experiment.1 L( ]& ]8 v) y+ b; G$ z, ] TCF Tactical Combat Force. * P" M/ g* }2 q% R3 kTCMD Theater Cruise Missile Defense. ) T3 i+ w7 B3 a F7 }' S# q& D% sTCMP Theater (Missile Defense) Countermeasures Mitigation Program., F9 K' N( L _" c' f8 y+ m TCMP I Theater Countermeasures Mitigation Program One.% ]" W; j$ s( z, b. k TCMP II Theater Missile Defense Critical Measurement Program Two (Replaces TMD1 G2 Z1 a1 k$ N# K/ y; t) w( A Countermeasures Mitigation). 4 f6 @( z- Y; j: c4 f$ qTD (1) Test Director.0 I3 w* J& B$ J (2) Technical Data. A9 P6 @6 ^" m3 w (3) Technical Director.( }3 [( j( @; _$ F2 ^ (4) Training Device 6 X9 `/ j9 w' \: bTDA Table of Distribution and Allowance.7 L! @0 l. U. L: x# ?. h TDADT Total Distribution Advanced Technology Demonstration.2 N" o6 v6 N: B% q- ] TDAS Theater Defense Architecture Study. " Y" d" {9 b" u5 k8 e3 WTDASS Theater Defense Architecture Scoping Study.9 v% c) a( C/ n1 U$ b' { MDA GLOSSARY, VER. 4.0 T 8 [+ f' X; I L/ t. h293 & b* B4 J% {9 h! {! ^1 ~2 `/ lTDBM Track Data Base Manager. 2 o3 O4 Z7 U0 Y5 I5 a, a; jTDC (1) Tactical Display Console. 5 x9 Q+ j$ C5 R6 U(2) Theater Deployable Communications (USAF MDAP). 4 L7 j' s. K. \2 P; T7 M/ g* {# ZTDCC Test Data Collection Center.5 j/ p+ b! m9 I. e# O1 u+ b TDD Target Detection Device. ( k9 u6 l5 D1 E5 d$ q" f: ~TDDS TRAP Data Dissemination System. 9 M J6 ~0 p. v0 H8 w4 HTDI Target Data Inventory.6 @0 T: n- O4 U) O: Z TDK Two-Dimensional Kinetics nozzle performance.5 B V' t' q# b& D. g# U TDM Time Division Multiplexed.+ H" o' ?! t {3 Z4 e TDMA Time Division Multiple Access (TelComm/Computer term). " y# X4 [( B+ X- H% b* l0 S6 l/ \* @TDNS Theater Defense Netting Study. # i' F+ y: F' g) e+ fTDOA Time Difference of Arrival./ ]- Q9 m% C; ?: g7 L) d TDP (1) Technical Data Package.' _& z# l; w" N7 b: X2 F& ]. U& c (2) Test Design Package.' ^# G& { R8 Z (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.! ~/ `3 t/ `1 x8 j TDR Terminal Defense Radar. , f( ^1 F* T& o8 {TDRSS Tracking and Data Relay Satellite System. 1 ~, H/ c& s) l' G4 OTDSSPA Technology development for Solid State Phased Arrays. / L% i" ~8 x1 @6 L- ]' vTDT Target Development Test.7 |: h# O& L% O. ~2 Y TDTC Test, Development and Training Center. $ D2 n3 S$ W: D7 V) X( z9 S# L+ cTDU Target Data Update.& O/ h9 c: l. _7 {& R: C1 E& j TDUGS (1) Target Data Uplink Ground Station. (2) Target Data Update Ground Station.( R ?! b2 u3 M1 R: Z TE (1) Thermo-electric. (2) Test Engineer. (3) Training Element. 1 w9 M& L" @" @( i9 {. q(4) (BMC3) Test Exerciser. & B, t" b( ?+ c, F- rTEA Transportation Engineering Agency.! i7 n* u4 E5 U" o o, Y, E f TEAS Test and Experiment Activity Summary. 4 ]" \- u( T5 U4 e9 lTech (1) Technical. (2) Technology. (3) Technician ! R9 O) |# f$ Z! _9 L3 a6 mTECH Technical' D: W8 M# l7 X8 ? TECHON Technical Control. " `0 y4 S) m% J% G3 }' \" ~' B( i" M, fTECHEVAL Technical Evaluation (USN term). & v0 L& `( |) |) YMDA GLOSSARY, VER. 4.0 T - C) X2 Z8 F% ?6 n" c* {294% ^& Z0 [) a( }) u0 ` Technical Data Scientific or technical information recorded in any form or medium (such as9 Z* `7 t4 b" F9 u' z manuals and drawings). Computer programs and related software are not ( o5 w3 Z3 g9 d' b& ]4 Z q) qtechnical data; documentation of computer programs and related software are. ! @2 v3 y: W" n9 o4 D4 \Also excluded are financial data or other information related to contract . Y1 `5 U! v, g2 Xadministration. $ O, {" {& Y4 g0 k" u* {Technical Data + q t3 ?6 P# FPackage (TDP)3 Z. ~6 J% l& h, X9 Y3 ~* f& [& \ A technical description of an item adequate for supporting an acquisition3 Q# n& c2 c, N1 ^9 O: @" z' n' m strategy, production, engineering, and logistics support. The description defines # d9 C1 y8 `4 y) z) c8 wthe required design configuration and procedures to ensure adequacy of item 2 f& n# _. Y6 Uperformance. It consists of all applicable technical data such as drawings,6 d. [ i0 h" Y) ]4 l* u4 W associated lists, specifications, standards, performance requirements, quality / b3 r% ^6 x9 Y( Hassurance provisions, and packaging details.

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Technical1 K; Y" N0 r w( V Evaluation5 |: S% o, T1 ^) I The study, investigation, or test and evaluation by a developing agency to1 b% ~$ ~# x9 K- P9 s% Y determine the technical suitability of materiel, equipment, or a system, for use in& s; Q$ Z' Q% z5 a( i, x& T the military services. (See Development Test and Evaluation.) ; R( z7 `; O4 g8 Z* k3 I& FTechnical5 _5 a8 t: A! A6 h9 h' A7 |- S% l Objectives 7 h2 a/ k& D; Z7 P/ W- D# VThe “target” values for the development effort when insufficient data is available) H8 W6 w, J# j8 @% f9 Q for stating binding technical requirements. . S: N) g, y- X2 H+ z2 L7 u# t% WTechnical/ M7 I. y/ ?$ o) T+ U8 c4 ? Objectives &) P" B. \; ~) N Goals (TOG) : E# ?; M" o9 P- q0 i6 X% zHigh-level acquisition document to guide decision making for BMDS 6 ^& G* M( J+ p) j5 Mdevelopment; communicates objectives and goals. , V; d7 M) l3 h" E) mTechnical ( _7 o7 P& g2 v& M6 g- d4 C" n8 aParameters (TPs)% \9 S/ }7 ^3 r E: } A selected subset of the system’s technical metrics tracked in Technical5 Y( L) o }6 ~1 t! v( N: Z Performance Measurement. Critical technical parameters are identified from risk + R( h F7 p( c8 L# Zanalyses and contract specification or incentivization, and are designed by7 H+ r& R/ Q1 C' p6 o management. 7 x. N' G" H1 y1 f3 KTechnical$ H" J( V+ L- R9 u( m: c Performance 0 r7 r* F y% |3 r# YMeasurement% n* n' x- ]' J! t- T7 Z" `3 y. | (TPM) : q# i, j+ x6 P: F2 w& eDescribes all the activities undertaken by the government to obtain design status9 }* Z; i. X: ~) n7 l beyond that treating schedule and cost. TPM is defined as the product design: G9 p8 Y* h9 H$ M/ D+ N assessment, which estimates, through tests the values of essential performance0 ~& L3 J3 g3 R# i parameters of the current design of WBS product elements. It forecasts the 5 L; m0 L& \% F1 s/ i' M' g& lvalues to be achieved through the planned technical program effort, measures / u' G% c, o$ }: z- f3 e: Y7 sdifferences between achieved values and those allocated to the product+ k* `* t* t- \8 \) \& Y' a0 A/ i. {) q element by the system engineering process, and determines the impact of these ! N( B K! h1 _; mdifferences on system effectiveness. ) O/ N# a9 \0 G7 n2 f( _3 I5 M' HTechnical. }' G9 A# Y; i/ T Specification ) G+ r$ i5 c4 sA detailed description of technical requirements stated in terms suitable to form ' ]1 E: x) }; c, |3 rthe basis for actual design development and production. ! E) e% f2 u, }! a8 JTechnical1 ~+ Y: h0 f# ]* E; [ Surveillance$ G9 t# t, [$ s, | Intelligence gathering methods in which clandestine listening, photographic or 9 v7 K' _* I* l9 o- p+ Q! f4 `( A6 hemanations gathering instruments are placed within SDS facilities, or otherwise " B9 E$ X4 {9 x2 N7 ktargeted against SDS assets to gain access to denied information. 9 N3 k% j- X6 ]) c, ?' E* DTechnology + q" O0 E) z( q# D2 aExecuting Agent7 M n8 n+ Q$ q1 M0 p: x- N The Service or agency (DoD or non-DoD) that has been delegated management* A, B2 E% N6 Q v' a+ p! a: K responsibility for a particular critical supporting technology by MDA or Executing 0 J+ t0 W/ x' L2 w8 m3 bAgent.5 j/ `: G5 r) Z, V) ~' a Technology" p6 q7 V3 z8 v L Program ; J8 j. G* q% F. qDescription( n1 p+ S4 c+ s" U0 A# d The generic description of the applicable supporting technology or critical' x4 J6 e: i& x8 ?" c( C supporting technology.) Q/ G+ i. E+ H4 ^! Q; s9 g TECOM Test and Evaluation Command." n$ ^& V6 Y; k, o8 a& `8 j TED Technology Exploitation Demonstration. 4 w6 w9 Z# @" O3 w5 ~9 h5 o: u$ nMDA GLOSSARY, VER. 4.0 T % ~1 S5 v. N' S0 _0 w% @295& |7 f# C4 K) v2 P4 l TEIPT Test and Evaluation Integrated Product Team.& ~ c* c G/ s$ K) M6 a TEL Transporter-Erector-Launcher. + y: B( h R8 B% f& dTelemetry, 1 P* t# J- p' C" W, c- nTracking, and . G& u( B, v# B0 Y- `4 W' p2 f- {8 _1 T$ _Command (TT&C) " f" p9 o8 g! D5 E( r. ?Functions performed by the satellite control network to maintain health and ) F2 ?/ s0 r w, x# p9 \status, measure specific mission parameters and processing over time a - H, F& l% m" Psequence of these measurement to refine parameter knowledge, and transmit- ]/ b& l' ^& U& G1 N7 f- k mission commands to the satellite.! J( \9 L; h& ?4 i. n1 N Teleprocessing The combining of telecommunications and computer operations interacting in the 9 A# D2 g S) P0 U; @automatic processing, reception, and transmission of data and/or information.9 R9 S8 F ~+ b+ m4 F* g6 o TELESAT Telecommunications Satellite. - Q( j3 V# c, l: i* x4 `, lTELINT Telemetry Intelligence.: {! c) |9 ~) K; U) z+ N TEMO Training Exercises and Military Operations.: h# C" u- ?. o7 m, p TEMP See Test and Evaluation Master Plan. , F" W* n2 V: n# M) Z1 Z0 ^TEMPEST TEMPEST is an unclassified short name referring to investigation and studies of/ Q. Z4 V4 P# L9 \2 M) \ compromising emanations. It is often used synonymously for the term7 v3 c. w; C# t: r1 l K "compromising emanations,” e.g. TEMPEST tests, TEMPEST inspection. (See* o& q9 ^4 w% A* J Compromising Emanations.) 7 c, r0 v+ X- v2 a* H" STENCAP Tactical Exploitation of National Capabilities.3 Y$ D! E8 c2 S: g2 U% n TEP Test and Evaluation Plan.5 V% R0 I! K9 w( E TER Test and Evaluation Report4 c% d# M9 S) B TERC Test and Evaluation Resource Committee. 5 Y# |7 N, O7 f" E e1 @; F5 \TERCOM Terrain Contour Matching. ' q" \3 K# x* K0 _9 j6 u* a6 i6 oTerminal Defense( r) p, G- l" Z, F& @ Segment (TDS), p d9 a& W2 s, G The portion of the BMDS that defeats ballistic missiles in period of flight between0 G& i0 l% c9 z/ k T, L atmospheric reentry and impact. % W+ q. E' z, h9 U6 OTerminal7 t4 M- H% _2 y9 X( e# ] Guidance $ Y' t2 D0 m, u1 c3 b) z Z( L& [The guidance applied to a guided missile between midcourse and arrival in the ' U+ \ r8 @3 L [vicinity of the target. % ~1 j- H6 A2 I2 h1 cTerminal Phase That final portion of a ballistic missile's trajectory between the midcourse phase 3 P8 e. Q' d3 I1 Nand trajectory termination. 8 H+ `9 E; ~7 D: W) b! rTerminal Phase3 P. r1 ]- z n" g1 w Interceptor6 v/ W" M5 ^- A2 { Z A ground-based interceptor designed to intercept and destroy RVs in the* J$ U* W+ \6 }( C8 \ terminal phase of flight. It may also be assigned to intercept and destroy enemy' s9 m8 n/ }: a4 A# F PBVs and RVs in the midcourse phase. (USSPACECOM)+ y+ L6 H% b* c: i: n+ ^1 I Terminator Transition from sunlight to earth's shadow in space./ h; F. t5 `! P( `' F TERS Tactical Event Reporting System.: p: |' T! r' @& L( d1 w TES Tactical Event System. 4 z8 D4 S) S; O7 p4 H% q! TTESP Test and Evaluation Security Plan.2 p7 }* L" g; s c$ b TESSE Test Environment Support System Enhancement.3 V6 c5 T; l1 {# f# z1 B MDA GLOSSARY, VER. 4.0 T Q. j0 H& B$ P2 [' r6 h8 F) U: b9 a; }2960 |" T/ h7 e. @- H/ C Test and Control The ISTC Test and Control provides the human interface for testing system* p, {. U4 v" N8 k/ M hardware and software. The Test and Control will consist of the necessary ; j5 p$ C2 l. Aconsoles, processors, and storage devices in order to be able to control all " }, f. B8 j! c2 zoperations of the ISTC such as configuring the system, running a scenario, $ N: U4 p3 g' Z b0 s5 ~analyzing data, generating reports, and testing system hardware and software. 5 y# _# H& E6 k) A2 L1 C MTest and$ T/ }4 z. C! x" q Evaluation (T&E)3 N( v# H7 t: _. e( A% _) r) F* F Process by which components or systems are tested and the results evaluated& p. r" g g; k% m9 p& k: f( z to assess progress of design, performance, supportability, etc. There are three+ ~* G3 P3 {4 x* ?0 y types of T&E -- Development (DT&E), Operational (OT&E), and Production 5 G/ _' D" B4 A' GAcceptance (PAT&E)--occurring during the acquisition cycle. DT&E is conducted 4 c# ^) `; y2 b+ _to assist the engineering design and development process, to proof J! V3 A9 w1 I9 f# v( I7 B kmanufacturing processes and control and to verify attainment of technical* j4 A1 Z7 N. O! J! k' W performance specifications and objectives. OT&E is conducted to estimate a 0 x# C+ n) W9 f: W' @system's operational effectiveness and suitability, identify needed modifications, ) L! t4 H$ |, w# Band provide information on tactics, doctrine, organization, and personnel u; G" J6 e" `& v a requirements. PAT&E is conducted on production items to demonstrate that 2 l9 p& L7 O/ ^) z$ M4 y% C# u% \those items meet the requirements and specifications of the procuring contracts: o3 r/ _# r7 U k) B or agreements. OT&E is further subdivided into two phases--Initial Operational # H( y+ Q7 [2 {6 a% I(IOT&E) and Follow-on Operational (FOT&E). IOT&E must be conducted before( S: G+ {. o9 N# Y$ J3 L the production decision (Milestone III) to provide a credible estimate of' x# `; |9 M# H! T# q0 o operational effectiveness and suitability. Therefore, IOT&E is a field test$ W, h9 l& ]5 I conducted on a production representative system in an operationally realistic9 {+ \, L/ N2 X environment, by typical user personnel and includes use of realistic threats. 7 M6 U- ?' [- `3 U/ o2 C0 WFOT&E is conducted on the production system to verify operational effectiveness 0 t h+ s" a0 @! i# vand suitability, to fill data voids from the IOT&E, or to verify correction of+ Q- l. r5 f# \! I$ }5 B- W deficiencies in materiel, training, or concepts.

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Test and 1 d7 @$ C; n8 MEvaluation* v0 g* x8 t$ | Master Plan ( s q- Y9 F8 N7 u' F(TEMP) ! y0 Q: c3 ?7 w: W6 _( wAn overall test and evaluation plan, designed to identify and integrate1 i9 [& i/ H3 q$ e1 y objectives, responsibilities, resources, and schedules for all test and evaluation : w1 D% I; b U5 Vto be accomplished prior to the subsequent key decision points. Prepared as! M6 p2 s2 Y7 }0 V, U9 l1 X early as possible in the acquisition process, it is updated as development' Q) K1 _ s; t: a! D. [) B" u progresses. $ W# U0 q% A4 ^2 u) h/ ?! f8 yTest and - J" W; R$ A' j1 bEvaluation ' N5 K0 i% v# ~/ a8 _- BWorking Group W- o( A& S: e1 i- s3 l(TEWG)' I: C, j: p& X: _5 _ M" z, [# c! s The TEWG is the forum in which T&E coordination for test requirements,2 Q! v) m* l/ D% x1 U$ ] planning, execution, and reporting, is accomplished among members of the' \3 E: D1 E6 n' C. ~ Acquisition Team. The primary purpose of the TEWG is to optimize the use of- V& g- ^5 g" W4 e/ R2 j test data, instrumentation, facilities, and models/simulations to achieve test$ _/ g5 e" T1 g. P# j6 I! A integration and reduce program costs. The TEWG is established by the$ x5 s( T' r4 V0 [1 n; g& Q program sponsor to integrate test requirements, resolve cost/scheduling2 u) o/ \) v, L' M problems, facilitate TEMP development, assist in preparation of RFPs and; w T; [9 s1 K, k related contractual documents, and assist in evaluating contractor proposals+ b# c& z5 {2 o# b4 G0 J+ r when there are T&E implications. & f+ y3 n# k5 O3 eTestbed A system representation consisting partially of actual hardware and/or software. ~+ B0 l3 _/ z$ U. } and partially of computer models or prototype hardware and/or software.& [# @3 w& x/ H. o' H* X% |* | Test Criteria Standards by which test results and outcome are judged. ' C2 Z# ~; F9 } j2 zTest Integration + {+ n; @7 e2 K1 W0 n" OWorking Group ! W. W7 s* a# w$ I* B. o7 b(TIWG) / ?" U3 e$ W) s8 L+ Q' i- [A working group designed to facilitate the integration of test requirements in Y5 E% R( U9 y& g order to minimize development time and cost and preclude duplication between! k1 d8 V# Q0 A developmental and operational testing. / N- U9 C, [& o4 X7 vTest Plan A document prescribing the approach to be taken for intended testing activities.4 s5 Y' @9 G' D2 z" w0 W* m, U' U The plan typically identifies the items to be tested, the testing to be performed,# U' L6 Y) ?1 z( S: s9 d test schedules, personnel requirements, reporting requirements, evaluation$ D0 J2 v2 y9 H, }" y& |1 x; s- O criteria, and any risk requiring contingency planning. ; g0 r+ X9 y& t+ d4 dMDA GLOSSARY, VER. 4.0 T9 @; Q/ ]' d! E7 o7 G5 U* F# c& } 2970 u) W0 ?2 B7 l2 N& r Test Target ) R' q. i) Z) L& a# g" p1 j I9 zVehicle (TTV) / @5 t) T& F ~2 b1 BSingle stage, ground launched, solid propellant theater target developed for " E6 @( ]. E1 @( i" oSMD Program. Also called “Aries”. / P+ W2 O. Q$ F5 fTest Validity The degree to which a test accomplishes its specified goal. % `7 i( b8 V) i9 _) I! \! ]$ VTEV Test, Evaluation and Verification.* ~. G; K0 v, z# [* N) k TEVS (1) Test Environment System. (2) Test Environment Support Systems. ( P" X' _1 q/ S7 ATEWG See Test and Evaluation Working Group., v+ |! @# _$ C6 \9 Y TEx Test Exerciser (NMD BMC3 Term). 5 r: u$ b; p; y: x$ _$ nTEXCOM Test and Experimentation Command.7 I2 q# d- E0 V TF Task Force., ` P3 O! u0 `; _9 h2 `5 t TFC Tactical Fusion Center. , T* T; [* f. ~: T7 cTFCC Tactical Flag Command Center (USN term). 8 O I' M: _$ S# w5 U- m- y4 L8 ?/ jTFD Technical Feasibility Decision.( p7 W# Q: U' u; ]# D TFE Thermionic Fuel Element(s). ) y. N8 i; ^3 u0 e5 TTFIM Technical (Architecture) Framework for Information Management8 B/ x1 S+ p/ ^% C TFOV Theoretical Field of View.- O N- n0 o4 q8 \; N TFR Terrain Following Radar. 9 `* N& @; f$ q2 H; w' c# bTFRAMES Tools to Facilitate the Rapid Assembly of Missile Engagement Simulations. 7 u* `" Y i. S9 f8 Z. W3 NTFT Time Off Target (JFACC term). # ]* u, c) N5 c2 ^3 LTFW Tactical Fighter Wing (USAF term). " S3 Z# x9 _4 D2 UTG (1) Threat Generator. (2) Trajectory Generator.* n7 n0 N0 |7 d1 ?0 {& J2 D TGINFOREP Target Information Report (JFACC term). ( Z$ g* H t. l; ?4 HTGS Track Generation System (USN term). 1 [8 _- D6 x$ S, f# ^2 bTGW Terminally-Guided Warhead.7 l2 c. G) X+ _4 e# Q. H! o! R; h2 n THAAD See Theater High Altitude Area Defense System. $ B2 p) r; g0 {5 o1 hTheater The geographical area outside the continental United States for which a8 E8 F2 u; J, u* ^% o7 T commander of a unified or specified command has been assigned. 7 G9 }( q% V7 O) R1 lTheater Attack Attack on a geographical area outside the continental United States. . w( d% V9 B9 bTheater Ballistic( d% b' e e4 t% v, }/ b7 M Missile Defense- u8 _% M+ B, B0 z4 _' {( ]! @ (TBMD) System1 n2 c$ u h6 O* a# N The aggregate TMD C3I and TBMD forces that, in total, provide defense against 3 D% y1 x$ b& m& J; \ballistic missile attacks within an overseas theater of operations. ! p- I& V! c# E) U5 J0 ]6 y: g( Y(USSPACECOM)

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