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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 $ Z$ `4 m1 a/ f' Q* Raccess and support to a variety of missile defense test and evaluation data.: g6 J' {; y1 J5 n; r' y- s STM Significant Technical Milestone. 6 N3 b; L9 B/ X0 _STO (1) Special Technical Operations (JFACC term).+ p+ A% O6 u+ F5 N/ ] (2) Science and Technology Objective. 5 g; C+ B& I& b9 CSTOAL Short Takeoff/Arrested Landing. ]3 X7 R1 B3 R$ z2 Y. _0 Q2 [3 c6 YSTOM System Test Object Model. . p) b/ I& k) @% w' G5 I; Q% |- kStorage,& _. h* A( B( M) d: g" g) o) h Handling, and, `( @9 I" J t6 U0 V Transportation , @5 g) ? f: u# U- hEnvironments ! y, o; t; i; T; V- c1 V: oThese environment categories cover the applicable free field or ambient. _& M: p2 m7 o/ ^& d( F, j" R environments, which the system assets must be capable of withstanding during$ \; S2 ]+ j! \ z* s' l storage, handling and transportation. They include the full array of applicable- n+ t' x3 F0 V atmospheric and ground environments to which BMD assets will be exposed 4 |' W8 V& [6 \! b% Nduring these non-operational aspects of system deployment such as pressure, ! O+ ^! e5 \' Y: k& p% Q$ Oshock and vibration environments, among others.1 t C+ E, U1 t P |9 H* y Storm Name of a theater ballistic missile test target system, part of the Baseline Target9 p9 r2 k# V+ { Set. ) }( J3 W" Z2 oStorm Shadow Conventionally Armed Stand Off Missile weapon based on Matra of France’s) d- D9 n/ G q6 d8 S" m7 K Apache missile. " i. o! o v5 ySTOW Synthetic Theater of War (US Army term). - i2 N; `) F8 P2 {STP (1) System Test Plan (2) Sensor Task Plan. - K( l; D, \5 qSTRAP HATMD System Training Plan.) ~. q, [; X* r3 ~8 X( W- v STRATCOM Strategic Command.. p" g* J& a5 F L6 Y$ c2 w6 m% R Strategic$ K& J5 V+ y' g( K Defense 1 m* A1 n- s. z& a( VAll active and passive measures to detect, identify, assess, degrade and defeat4 m2 ?2 q+ ^# F( D, [6 ^ ballistic missile, air, and space threats to North America, including measures to s+ Q' e& j1 L nullify or reduce the effectiveness of such attacks. + j3 a1 Q8 P- R$ b0 M- UStrategic' |1 Z$ W% Y. \4 s4 \* b Defense 3 Z* q- ? t5 a+ FEmergency+ I0 w) x' N- m8 l; s, O: t Declarations that attack is imminent or taking place.2 [- s' u( X) g* C8 q Strategic 8 S& V+ y7 q6 ^5 K+ |, Y. D; ]& CDefense System 5 k+ m8 U; v( u2 Q9 C2 G3 S(SDS)$ r2 [+ B4 k; {+ @) ]% b5 I/ S A generic descriptor, which refers to all architectural elements of the evolving( f2 L+ I7 w) u x' F' m ballistic missile defense system.! a% s1 Z d4 L; f6 v. L MDA GLOSSARY, VER. 4.0 S l- ?% X5 ]' x 280 . ^/ D1 |* ]5 N" k2 Q0 fStrategic Level of2 y; w2 ^1 g5 V; f War 2 b8 L3 C: f0 W9 p$ e4 rThe level of war at which a nation or group of nations determines national or1 c6 {% ?( t; m1 Z8 U. H" z alliance security objectives and develops and uses national resources to ( C+ X. p: G2 z0 {% D6 S) ]& {accomplish those objectives., W. c# d2 L z0 ^ Strategic $ b$ q% v: q' y( C& C) oOffensive Forces' R0 k2 M4 d5 W+ A. c& R+ D (SOF)( z5 J7 f& H& | Those forces under the command of the Commander in Chief, USSTRATCOM,. k5 f- Z4 w4 _9 f7 t$ @ the Commander in Chief, Atlantic Command, the Commander in Chief, Pacific , r8 |7 s9 [* A0 n# N' KCommand, and other forces assigned to execute the Single Integrated - X* M Y; `6 r, n' j( GOperations Plan (SIOP). These forces include but are not limited to B-52s, B-1s,, Y' Q% n6 `+ ?3 M/ b FB-111s, Minuteman IIs and IIIs, Peacekeepers, Poseidons, and Tridents. ( R' r- |% M! eStrategic ) _! I7 L! _1 ?7 x6 b6 M- c/ i* \Reserve/ }4 J4 ?; z4 A4 D2 Q! | That quantity of material that is placed in a particular geographic location due to ' N* T; _. z4 b) \6 y3 `( R/ y' sstrategic considerations or in anticipation of major interruptions in the supply " c: P% K7 X3 }5 Cdistribution system. It is over and above the stockage objective." R3 b! D c3 P3 c# z Strategic* t C" H% u8 E Warning& a6 i4 ?+ [. ~) C) ~# y% g A warning prior to the initiation of a threatening act.( [" L: `4 o8 H% v& c Strategic . T# F; F: e+ V: }Warning Lead - w3 s/ Q7 u: @0 H1 J* N& UTime& X8 s F* H' y3 D* b That time between the receipt of strategic warning and the beginning of. x* F; h2 D/ b3 |- H0 i A hostilities. This time may include two action periods: strategic warning predecision time and strategic warning post-decision time. ) w0 F% z) `" X: `) aStrategic : d3 u) D8 W* j3 Z! C! xWarning Post-9 W4 G$ D' N4 w) O- G4 | Decision Time ) W' f7 |3 }5 Y' E. yThat time which begins after the decision, made at the highest levels of ) U" |4 Y* Z. [/ d" r2 v' Vgovernment(s) in response to strategic warning, is ordered executed and ends0 \$ c5 {2 u$ m. X) j! ~ with the start of hostilities or termination of the threat. It is that part of strategic 6 f- i0 `. C) B+ Awarning lead-time available for executing pre-hostility actions to strengthen the, V: Y9 ? a' h+ g b national strategic posture; however, some preparatory actions may be initiated in # F5 h# U) [2 `0 Gthe pre-decision period.+ ~' G* |; ]( B$ @4 ^ Strategic) }2 x0 H) {9 a) k3 `, M8 h Warning Pre- 1 ^7 U8 C7 }2 K' p( y$ Q6 I; {$ ~Decision Time$ w& E: H: G5 F- ?% H4 | That time which begins upon receipt of strategic warning and ends when a 9 [4 o3 g7 _( fdecision is ordered executed. It is that part of strategic warning lead time* V, r7 z$ ]3 R/ C: r8 k+ F$ o available to the highest levels of government(s) to determine the strategic course * ]7 R! i5 z, G- Yof action to be executed. ! s* _6 ?% K, q {! ]5 l- J" B ]* C( @9 _STREAD Standard TRE Display. ; m1 V+ l$ Z: B4 K; fSTRICOM Simulation, Training, and Instrumentation Command (USA term).* r& X" ~# v9 f2 D8 K) C7 j Structured - u4 g: f+ f4 {( T$ JAttack ' Q: U2 n7 r4 O3 F- D `& g) YAn attack in which the arrival of warheads on their diverse targets is precisely* k2 T* |" P' _& L timed for maximum strategic impact. * A* ^; R v1 i& _1 FStructured & F& `! E1 b6 y4 HDesign + K+ S, P+ l% c7 qA disciplined approach to software design that adheres to a specified set of rules/ y7 X0 R ?" n6 j- }! v based on principles such as top-down design, stepwise refinement, and data 8 Q) t6 b; y* g$ J9 h! ^' E( Aflow analysis.

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发表于 2008-12-25 20:21:38 |只看该作者
Structured+ e" v2 i( R4 ` Program 8 C+ t+ U1 Z( R ]A program constructed of a basic set of control structures, each one having one9 z4 Q7 _1 A P. g. m. W8 G entry point and one exit. The set of control structures typically includes: - W% ]% C9 s5 k+ lsequence of two or more instructions, conditional selection of one of two or more 5 C. H, P5 l# Z O" ginstructions, conditional selection of one of two or more instructions or2 o) U) f- J" @. v6 d! k- X sequences of instructions, and repetition of an instruction or a sequence of. l' ^6 h3 F4 H% c! ?# t" D instructions.' S4 a6 ~) S0 G! B STRV Space Technology Research Vehicle./ U& }4 M: m _6 s, u4 x5 ` STS See Space Transportation System. : |# i, _9 H, ^) F" K5 |5 l* r. |5 ^STSC Software Technology Support Center.$ ^) L. }8 c% F MDA GLOSSARY, VER. 4.0 S # R! W2 h; k0 Q) h8 y281 : o; ^& ~: E0 p# C9 nSTT (1) Small Tactical Terminal (USAF term).( u9 N6 m1 A+ R! ~& u9 Z, S- a (2) Stockpile-to-Target (US Army term). ! _- f' p& K% D- ]# d; S+ ?STTR Small Business Technology Transfer. * t; }) b& r9 B( g' M" A! T8 _STU Secure Telephone Unit.* G, N- ^3 R: v STW Strike Warfare. # Q4 h* C0 r" x0 M* ASTWC Strike Warfare Commander. 2 i; d7 J; D4 \* Z. h- f6 J" KSTWG Simulation Tools Working Group. ; Y1 ^& m9 p9 X: uSubassembly Two or more parts joined together to form a unit, capable of disassembly, which8 j$ C' _) ^3 v. Z8 E. @ is only a part of a complete machine, structure, or other article. $ n( g4 p) {4 h/ o u: nSubcontractor A contractor who enters into a contract with a prime contractor. 8 j) K3 }4 ^( K" U- ~6 i' PSubject Security( I. {' t/ s* e Level % E& |. ^& [8 j ~ n V; }* t& AA subject's security level is equal to the security level of the objects to which it 6 e. [1 O9 z: M ~; B, |has both read and write access. A subject's security level must always be2 t% y0 _& }4 E$ L, l$ n, [ dominated by the clearance of the user and with the associated subject., |1 z8 z9 q' F2 f. d5 g" }) s1 x Submarine-8 j6 S! a" l* x q Launched + U' j; p2 {5 J. B% yBallistic Missile 6 k# d& Q' I& I, U(SLBM) ; ~4 O \, l3 F; RA ballistic missile launched from a submarine, with a range of 3,000 to 6,000: P1 H# U3 [) z6 Z* } miles.5 M* b$ X6 D& v SUBROC Submarine Rocket., P* i6 A8 ]5 v" v9 }$ O Subsystem A functional grouping of components that combine to perform a major function . H2 Z& r+ R V. y4 S; \" vwithin an element, such as attitude control and propulsion. r) X. \5 I, ^/ ^Subtractive! t2 y3 \# E+ f Defense$ ]: ~1 Q) N1 a1 |7 g First come first engaged as long as weapons last.3 r- y* F3 }5 ~& k8 e SUCCESS Synthesized UHF Computer Controlled Equipment Subsystem.4 x5 p( h( m: C/ K, e4 n Succession of ( g# M- b& ^; P$ wCommand2 J0 ^; Y9 s$ M7 c3 s$ W, Q) H( E' s The planned or actual sequence in which subordinate commanders, in turn,- @* y# q; M9 A& Q become de facto commanders of a senior organization. Devolution of command8 E% s8 h) s& K. k B- q is a synonymous term. & L) M8 v D$ qSUM Software Users Manual (Computer term). - a# M4 Y2 l) J# `3 {2 XSunk Costs The costs of resources already committed or spent. In comparing two ) z- H2 K- p2 A4 v @: H/ N, ualternatives, such costs are "non-additive," and they are not germane to9 ?$ ^8 O# Y+ e0 f/ t decisions about future use of resources. ) [- C2 z8 d# f7 I) P. eSup Pro Supporting Programs (MDA term). 5 k) M1 R; H) _ M4 w; c& kSuper Survivable Solar Power Subsystem Demonstrator. / r5 H1 X" J4 |. v) TSuper Radiance The process used by a super radiant laser to generate or amplify a laser beam in ; v+ s1 f% M, h, a! Na single pass through a lasant material, or, in the case of a free electron laser,6 F! {. x% w! X through an electric or magnetic field in the presence of an electron beam. Super & f0 m' u- r9 I4 Kradiance is actually a form of stimulated emission. Also known as , H# Z/ r2 M! j2 M$ x5 Isuperfluorescence, or amplified spontaneous emission.8 G# O5 k1 {0 w MDA GLOSSARY, VER. 4.0 S ' s9 H; A. o. s0 ~: U9 D282 9 W* V4 J/ H9 MSuperradiant 0 B S7 i% Q% t* \Laser (SRL) 6 f5 U' v0 ^5 N3 U% G DA laser in which the beam passes through the lasant only once; mirrors are not " u; ]" i8 E1 y$ U/ w' @0 Urequired for the operation of such a laser, as they are with more conventional 6 B; g, Z' p1 @& vlasers which are sometimes called "cavity lasers" to distinguish them from 2 O5 G) a/ \: f+ o0 m. \& Wsuperradiant lasers. Free electron lasers may also be superradiant; the laser- ? e" F' V( P( _3 R beam of a superradiant free electron laser would pass once through the electric& w0 e4 A, ^' e or magnetic field (instead of a lasant) in the presence of an electron beam.2 x+ c- V( B; E: v0 Q Supervisory! j6 M t" r/ X# l! t! f! S" l Programs 7 \: s3 v* N" O8 C; W' w1 |Computer programs that have the primary function of scheduling, allocating, and . \& N$ w2 } `) ?* B$ scontrolling system resources rather than processing data to produce results. 8 |* R# s S! L. B3 a/ E: a1 tSupplemental - t1 N Y9 ?: y. a* {4 W. H; @Appropriation0 K, }, `* S* Z) `; | M An appropriation enacted as an addition to a regular annular appropriation act. * ]- A* f' |# A- Z4 GSupport0 q3 U2 a* y: T6 g6 w. A1 ~ Equipment' h; f" d7 g2 B All system equipment required to support the ground and flight phases of the0 S! D8 f2 G5 ^( N0 K& } mission. Support equipment includes aerospace ground equipment (AGE),. } X" v3 r4 U. v6 r0 P maintenance ground equipment (MGE), transportation and handling (T&H)& r* D0 u4 s# ?# |5 q* N' k equipment, and equipment used to support system deployment (i.e., assembly. I/ ]3 [' H( Q! E5 f& p z' }' B tools and fixtures, test and checkout equipment, personnel support and 0 `0 L9 g3 j" j4 r% O9 Mprotection equipment). + j- h* K8 q a; S. e6 i* QSupport/ r4 z/ @: Q4 B" h# r2 d: X Personnel : T/ }5 A/ \1 @8 n5 k1 [, t& R% ~Individuals, in addition to operators, trainers, and maintainers, who are directly 9 K( e8 P. Y# |% t8 h! h3 R, ~associated with an operational system(s), and who are critical to its continuous / d8 Y& J& U1 S' S' @7 |0 S! \operation. Examples include program management offices, security, supply, ; B* s$ K/ Y. t4 m- zadministrative support, and the like.9 F& m0 n" f0 x- b* t$ @ Support Software Software that aids in the development or maintenance of other software, for : M. m, b+ I$ e5 f' K# d: b7 pexample compilers, loaders, and other utilities.* g0 {; V9 Q; I) q, ` L+ H Suppression Temporary or transient degradation of the performance of a weapons system,7 B+ J! E) [! X. c below the level needed to fulfill its mission objectives, by an opposing force.! Q- O. b3 _0 Z1 J5 k6 s+ ` SUPSHIP Superintendent of Shipbuilding. 4 L' g( G( n3 x$ ]+ ^7 ?SURCOM Surveillance Constellation.: O, v- Q. \/ {# C3 k Surge Production An increased rate of production necessary to meet demands for defense items 5 r1 G9 ?2 @% C/ T& Z( E- @due to a need for accelerated production to meet a threat or for a wartime or5 Y, K: v5 ~* l3 w/ } mobilization situation. This increased rate can be obtained by having excess x, l z7 Z! a/ U% L4 f# Q; B' n! C& @ production capacity available or by utilizing multiple shifts of normal capacity / X* @4 G5 U5 q1 J$ o% Emeasures. 0 Y. n0 u% m" k( D) sSurveillance An observation procedure that includes tactical observations, strategic warning, 3 }; b. X4 l2 `# dand meteorological assessments, by optical, infrared, radar, and radiometric; U: M# o" ]4 ?$ D% ]4 B sensors on space-borne and terrestrial platforms.

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发表于 2008-12-25 20:21:58 |只看该作者
Surveillance 4 G) Z% C3 H* x) o2 t- M( YRequirements$ z, t B. b$ X" J0 T Requirements are requests for surveillance, including relative priorities for: c$ ]; _/ \' E. [2 c J5 }: d( ^6 w coverage and sensitivity levels, based on operational orders, selected response & Z* x! ]0 [0 W, n# ^& H x4 Goptions and current surveillance system availability., l9 S1 K9 e8 E6 s# {5 K$ s Surveillance,) q% Q+ S* h2 D Satellite and+ a9 C! H! w: f) N; O, B9 U Missile 6 ~* ?5 n. ~1 V, F; MThe systematic observation of aerospace for the purpose of detecting, tracking,- s/ l4 X! v' _3 d and characterizing objects, events, and phenomena associated with satellites 6 l2 s" u5 T. U0 [/ K$ e* P2 nand in-flight missiles, friendly and enemy. 5 b5 E2 Q; v2 Y# j' mSurveillance$ j$ c! c2 A G4 f: t8 f5 R8 o2 G4 q; h System ) x4 t' N6 w/ K- _0 ?% M% l' zConfiguration+ F8 G# m* C& L The sensor types and locations and the modes of operation currently activated9 N- V' L, l7 ]9 C7 u+ ? in the surveillance system.' N2 N6 z& Q! j* u6 X MDA GLOSSARY, VER. 4.0 S 4 d$ u! J! v' G! a283/ o& k& r! N: g/ |6 n0 _4 x Survivability: Q6 R. U' N8 s2 [! J1 X/ v, W2 } Operating Modes! F# U: s6 _& n The operating modes not including but in addition to the self-defense modes8 d( k7 ~+ D5 V1 H+ n3 L: j that all the elements can use to protect themselves against direct enemy attack.$ b- A0 c+ ~/ n: g Survivable and3 d. X9 I" G8 Z Enduring- X! n6 @& u# ~/ V3 ` Command Center, Q; u/ S( g; s b& m, \ (SECC)2 \2 W5 H F: E9 g( u) | The USSTRATCOM mobile C2 facility. % M* a1 |2 a: I9 `SUS Site Utilization Study. 2 q4 k; h8 _% A9 e1 O6 g1 rSustainer Propulsion stage of a missile usually operating after the booster cutoff. % h! k7 v- a @, E- vSV Space Vehicle." k% p- N1 @- g- G7 I SVS (1) OBSOLETE. SSTS Validation Satellite. (2) Scientific Visualization Suite. " X {) ^$ @9 i8 bSW (1) Software or (S/W). (2) Space Wing. 3 W- n" j; W& Z! c3 ]) ASWC Strike Warfare Commander. , A( g- g% {3 W5 L; @+ LSweep Jamming A narrow band of jamming that is back and forth over a relatively wide operating! U: ]6 G+ E. W band of frequencies.: Y' v# L {, \4 x- ~ SWG Scenario Working Group.. w* F/ |' n6 S' N$ \# S+ s SWIL Software-in-the-Loop.+ L. D. i9 E7 G) ] SWIR Short Wavelength Infrared.# h9 k8 _" i( R5 G: \5 A% P SWSA Spatial Weapons System Analysis.5 F9 f4 M" h8 w: |# ]6 e( a SWSC Space and Warning System Center.( {. K" {. P2 _8 @/ X. z SYDP Six-Year Defense Program.% X* y1 \+ m) l9 `. A Synchronization For data streams, the process whereby a received set of data is placed in one to ; F: g$ X8 {7 Q6 ?5 V5 ]1 O( ?( q% cone correspondence with the data assumed to have been transmitted. - q% `; ?& q3 S O3 q$ fSynthesis The automatic generation of a run able system from a specialized design where2 u. g& W2 s3 N+ a! H/ \ each module description has associated implementations. % R: h7 M5 u+ u8 E. jSynthetic , R: q7 a. t8 l& N6 lAperture Radar ' }8 ~2 z {; R2 M+ S(SAR) 7 l$ T0 u' `9 hA radar technique that processes echoes of signals emitted at different points- X+ B' p: S0 x: p3 m' F along a satellite's orbit. The highest resolution achievable by such a system is 1 L- V3 r* {& Y& R0 Ttheoretically equivalent to that of a single large antenna as wide as the distance 3 d* v( G$ A) Y4 C. y2 c! ~# |9 wbetween the most widely spaced points along the orbit that are used for0 @$ L1 k- v# Z' w" u' Q( p transmitting positions. In practice, resolution will be limited by the radar receiver's , D& f0 V' H! v, @5 vsignal processing capability or by the limited coherence of the radio signal/ t% I7 B0 `, _ k) x emitted by the radar transmitter. J8 l: O# d0 [ D- d+ ]3 vSYS System.; \7 q" \) W$ e& h) b, s( } Sys C/O System Check Out. / S8 _: A. n* y2 n+ s- s0 J7 tSys Cmn System Common.# X- P" M( s F, m( s1 L4 `% ` Sys T&E System Test and Evaluation.. W/ ^9 B# P0 u5 `' p5 u MDA GLOSSARY, VER. 4.0 S7 ?/ x; g+ C3 C6 V# [& `6 { 284) P6 i9 e1 o# t2 | SYSCOM Systems Command. + {5 S& t% M% O7 c4 N6 y) FSystem (1) The organization of hardware, software, materials, facilities, personnel, 5 j3 Y7 f2 G' l! sdata, and services needed to perform a designated function with, D& T' D4 V- y7 s9 y' n3 ~ specified results, such as the gathering of specified data, its processing, 7 P5 e- S" O7 e6 Tand delivery to users.7 s% g! h1 t& F7 I7 N9 F5 F* B- }! ` (2) A combination of two or more interrelated equipment (sets) arranged in a# G" Q6 G5 D: J9 G6 j+ p R functional package to perform an operational function or to satisfy a * P% X3 y8 W7 H9 p+ Y" vrequirement. 0 O; h" {* L# @* a/ \: ]: _! s; VSystem % x+ ~* b2 \5 R! [/ cActivation 5 e( z$ G) }5 o; a' lThat set of coordination, assessment, decision, direction and control functions * O" V& c. [* t4 kimplemented to enable defense weapons, and to initiate the automated, realtime aspects of Battle Management, Engagement Control, and Weapon System 6 A% g/ l5 f v1 o9 G$ YControl. ! D1 W" Y6 d2 N! j( sSystem' I- P9 \2 d$ e! |& X1 Y6 u0 N: g" A Architecture . n( G% V2 q0 ZSystem$ E2 o& J; p. V( o1 Y/ {1 l0 x' ] Capability " {4 N- l- Q, [% I. R/ MSpecification$ M- j+ O8 V5 l( | (SCS) + I% Y" s. e3 x7 lThe structure and relationship among the components of a system. The system # s6 S$ i# a, c |/ ~! C% }architecture may also include the system’s interface with its operational3 d) Y, h5 t$ C. j+ O% i environment. A framework or structure that portrays relationships among all the/ l( I1 W! P) T Z4 u elements of missile defense systems. ( K) c3 |* D6 @) S! O3 XThe government document that translates capabilities into functional + @. v' p) T7 m2 R6 K7 @: [specifications for the overall BMDS and allocates functional specifications among R) O. f. O6 n/ \! Athe elements of the BMDS.# w( w9 K4 _9 j8 b# B5 U: { System Center8 w. l9 t- j4 R1 B (SC). a i a5 t* }0 W6 C A center in CMAFB responsible for the scheduling of maintenance for worldwide: j# w& t, M7 v6 _, j sensors and supporting equipment as well as maintenance responsibility of 3 w' \2 k! u2 z/ @' V! a. Nequipment in CMAFB.- U0 R9 l% C% T& x7 L p System Concept3 e* r& `: x1 g3 v+ o! z Paper (SCP) ; |" `0 |( I4 y9 V; H8 r3 d+ qOBSOLETE. For a major program, was used to summarize the results of the p/ R0 ^' O$ u6 Yconcept exploration phase up to Milestone I and to describe the acquisition & i( H$ v- x5 e0 ^7 ?strategy, including the identification of the concepts to be carried into the' W' w- b/ l, ?. ]# C* b2 P demonstration and validation phase and the reasons for elimination of other 4 D+ ?+ {) `( g+ gconcepts. 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 8 t# \# o! m3 E' X! ^2 A$ F& m* _Configuration 1 Z3 t! K i! `! Y/ Z4 @Control Board / w$ K7 B: a2 A(SCCB) / [ W6 |7 J$ R0 }! Q [* x2 E: CThe senior SDS configuration control board. The SCCB will manage the systemlevel configuration of the SDS and the interfaces between elements of the SDS., k: u7 m$ a# V1 m- `. [ System Control Function or task of monitoring the maintenance status of assigned sensors and 7 ~9 O* g( \9 H- Z2 _computer systems. % a" s" n7 X% m# U) ?System-Critical % {8 V8 `8 b B* C! C3 }Function * e1 i9 X+ u( o5 i2 RA function that is necessary for the successful accomplishment of the system's 8 W) Y+ U& O5 k1 t( D8 ymission. & s+ u6 h9 x& W; Y ^System Definition0 O |9 a: L4 } Review (SDR)7 t/ l, j2 W, `' k6 ~$ W9 Y" K The formal review, in briefing format, for periodically deciding on updates to the % p2 h$ |, X# r4 V" \2 rsystem plans for development based on estimates of the program schedules and8 D& s1 z% o" h# i funding. The SDR summarizes candidate development plans and their potential/ y7 }1 q/ H Z; S* [8 U impacts on system design, cost, and schedule. The SDR provides a systemsengineering basis for the MDA program planning activities. Following the SDR, k6 B0 J6 Q/ j5 ^detailed element planning will result will result in a Configuration Control Board,$ E- M" l( n l- v7 |, N final trades, and program documentation in the PPBS.5 F2 }6 ?5 \6 Z4 j$ t, x System 8 u% M9 @! y4 uDeployment 2 T- G; X( t6 I0 c/ y4 z" FDelivery of the completed production system to the using activity. ) j3 L$ X, c5 K4 \& v# P4 RMDA GLOSSARY, VER. 4.0 S+ [7 B% z, y% P5 v9 d 285 {2 o L* j) T% a4 W+ f7 NSystem Design (1) The process of defining the hardware and software architectures, / Y$ f1 R- k1 O1 ycomponents, modules, interfaces, and data for a system to satisfy) k# _6 ]. p$ N specified system requirements.8 M' v S2 T$ r, |7 S8 Q& A% s$ }% s (2) The result of the system design process.8 \3 E5 x) h5 u5 u System Design9 P0 r! \0 c. [# j, Z Concept / h4 s' g S3 kAn idea expressed in terms of general performance, capabilities, and$ j" W$ K* f" v1 \8 N characteristics of hardware and software oriented either to operate or to be/ m. Z8 H" ?- {3 D( W+ x1 I& S operated as an integral whole in meeting a mission need.& a6 y! a; x/ P0 R) ]( s2 y) u System Design$ l( s, {: Y. W5 g& o6 j& X* A/ W- L Review (SDR) ! n- ?7 n( R8 W8 MEvaluates the optimization, correlation, completeness, and risks associated with , d( x* O" \1 s2 K4 L! A9 ?the allocated technical requirements. 6 d( s1 ~& ~" L! t0 i$ } \( ISystem) B' }$ N, k4 S9 C7 J Effectiveness . p& ?7 @: _1 n" R0 @: d* o" P9 ]The measure of the extent to which a system may be expected to achieve a set8 u" s( i. U8 ]3 ~ of specific mission requirements. It is a function of availability, dependability, and " i0 w# h' m* V$ I- f! y/ \capability.. ]0 p R" t7 h) ] System Evolution5 m/ _2 g4 X( d Plan (SEP) 5 Z- m0 Q# n8 r: q! h2 y9 JThe documented plan that establishes the strategy to evolve the BMDS% O; W3 `7 L. L% E! |4 H capabilities over time. It reflects the BMD Acquisition Executive (AE) and Senior ) |# S6 K- v; ^. s1 ^" \! gExecutive Council’s (SEC) development decisions; documents the current BMDS' G9 X7 Q. `3 U% ` b }! h: G Development Baseline; and summarizes the capability, integration and 8 U" U H6 j! Oassessment of the BMDS evolution. It identifies opportunities (items that provide8 r$ {- K( T, ~3 h2 O Q: e significant improvements in BMD capability), identifies challenges (impediments to 4 J- H) [9 X8 H' o. d _8 Xachieving opportunity), and points to promising alternatives that can overcome + Q. P0 p j9 I( l) Q+ lthose challenges. ; @% \6 M ~+ }+ ]/ Q p5 K7 ^* KSystem Families A collection or grouping of interrelated software systems in the domain that share( a& u5 ] C2 H7 A$ p a set of common characteristics. & B- N$ q) ?6 ]1 x$ q1 z4 NSystem o0 A8 s" P' f# Z9 q Generated: g. R% }3 E- c" x" o! o4 E& q Electromagnetic2 h. A7 E# V. i9 g$ _) {6 u Pulse (SGEMP) 2 w% Z$ S2 y( yTransient electromagnetic radiation caused by the photoelectron emission of the* h `, m7 s9 E) D# m9 J surface of an object subjected to a pulse of photon energy. Although local . ^/ p( O, X0 j7 c% F: }6 C6 Sfields close to the object surface may reach quite high values (kilovolts), the* D# _. U; P3 A) \' m. H3 @ primary disturbance mechanism is the flow of replacement current through the$ T5 e4 l' K% r object in order to produce charge equalization. % K. N0 I' K1 K8 TSystem 5 W" p" A8 Z4 ?. BIntegration Test $ _0 |) F6 L6 h LA live flight system-level test utilizing actual system command and control, 3 W" e1 V: c; N# H* dsensors, and weapon hardware. : x. w3 B. _* zSystem Manager A general term of reference to those organizations directed by individual5 a: S7 `) \) l% K5 D managers, exercising authority over the planning, direction, and control, of tasks+ Q; v7 M6 @) ?. N' Y and associated functions essential for support of designated weapons or$ x, M# j) B" F2 ^7 w# ] equipment systems. / ?( H' ] @4 g# B. `, fSystem0 \/ d" s8 S% g0 ?& u- u# C2 x$ t Operational 9 t9 _ \9 R9 v o1 O3 [; [3 k/ CConcept # r6 m' a9 \& a2 Q3 dA formal document that describes the intended purpose, employment, 5 `. P2 \5 }! O% c3 D6 ndeployment, and support of a system./ e" [, A0 [# T7 P System / j* P0 \2 Z# h* N& P$ EOperation and/ b5 n9 p: |( q; ]6 Y2 G0 O' [ Integration : }, A: ^ B6 L; k8 y" X- g! EFunctions (SOIF) : _$ C3 `; m4 A# Y* l! F: LThe automated activities of tracking, communications, asset management, and4 l# H. Z/ c7 }- L7 } battle plan execution, which are executed under the guidance of the Command0 z/ i, B+ V6 ^: Y8 ~# u and Control Element. The allocation of these functions (and sub-functions) to ! M6 W6 o2 E* X" Fthe system elements will be specified in the architecture(s).) A% _) c% g/ `; q System Posture A USSPACECOM system of graduated readiness steps to bring the strategic ' |; p( i, \4 j+ XBMD system to fully generated alert, similar to the USSTRATCOM concept of+ E2 t, ^$ N# n8 q8 J L posturing aircraft and missile forces to reduce reaction time." f3 a6 N& f$ K( @- U: O MDA GLOSSARY, VER. 4.0 S & j2 P, W2 K- O7 }286" r% @( O4 @/ v* ~ System Program' g \! c( i$ r7 M2 l Office (SPO) 5 x; p% R2 M& r2 BThe office of the program manager and the point of contact with industry, - g8 Y3 l7 A5 \0 c1 \% W0 \, ogovernment agencies, and other activities participating in the system acquisition O, { }2 ^6 H4 {! [1 k% p. T process. (U.S. Army uses term “Project Office.”)

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System J% W6 j$ u. I Readiness' _; k6 m! l- r) ] System Readiness includes the development of OPLANs necessary to carry out5 r- K% V+ \/ W0 \ the assigned mission, using strategy and guidance provided by higher authority4 @5 k( l1 Q# e- o- h; e, _5 X along with knowledge of current system performance and planned capabilities. It ! \8 ]! b" }2 h. Nincludes peacetime tests and exercises to maintain the system in an operational ; a. x; W% i1 y5 I2 k istate, and the demonstration and evaluation of alternate tactics and the1 |# F4 R( ~2 Q5 Q" P+ k7 H verification of system performance, to the extent practicable. It provides for the L' s' E! v$ A9 z# v7 O. D continued training and exercise of personnel in operating the system under- J$ \# d' i# s realistic conditions, and provides for control of other system test functions 3 K0 t0 O- r1 r6 G# n2 p# Mnecessary to keep the system operating. It provides for detection of anomalies + a7 a5 o( L) w% p- Aand for corrective action. It also provides for maintenance schedule control, 2 n) f$ f2 v: P& zhistorical maintenance data retention, maintenance training, and test results 3 e* W) I: \0 e5 dstatus reporting.* J4 A9 W* L. @% C8 n7 D7 W System7 K1 i* a1 K$ j- N% d7 u7 D Readiness. G2 A6 ^& T! j. c$ Z5 Y Objective # `; ] N/ |6 e ]9 }5 w3 UA criterion for assessing the ability of a system to undertake and sustain a8 ]: M4 S* |! T+ [4 C) r6 `# x- D specified set of missions at planned peacetime and wartime utilization rates. & D# |3 i8 O" [. `# }System readiness measures take explicit account of the effects of reliability and$ ^2 S ^5 `: [" H- w/ J7 ] maintainability system design, the characteristics and performance of the support + o0 Q. M. s( Q; O9 \system, and the quantity and location of support resources. Examples of / [3 b S8 T/ D! @system readiness measures are combat sortie rate over time, peacetime mission " M* P( X3 E- S, ^$ t( q% Xcapable rate, operational availability, and asset ready rate. ' m+ X7 H: U" u |5 A x- eSystem: C! t- p$ i9 J Requirements/ _8 l; { m' x/ e Analysis (SRA) 7 s+ \" J) R, h5 |) U. I" t: q! mAn analysis of the operational system requirements, as defined in the System+ v f' u6 c! E8 f Concept Paper and other approved requirements documents, used to determine# g ?: G7 C" U# s" p% h+ t specific system functional and performance requirements.1 O7 i! T: x% Q System 6 `) o: O; P6 l. @Requirements6 u) u1 L7 W3 V& E. B Review (SRR) ; r5 b) ]! j, G/ i8 aConducted to ascertain progress in defining system technical requirements.2 K& N/ C& e, Q3 f/ e- W7 Q Determines the direction and progress of the systems engineering effort and the 1 M2 b. \2 R7 V! T0 Fdegree of convergence upon a balanced and complete configuration. z! f7 L! f: {% O8 S9 o System Security * J7 I* \$ |0 W4 N" E8 w# w. S1 kEngineering# j2 F( I7 R: R, |# w) {6 g: y (SSE) 6 h3 f1 G) L" T, E+ uAn element of system engineering that applies scientific and engineering( ]/ h7 v; F+ V& I' b& X principle to identify security vulnerabilities and minimize or contain risks3 P0 M* \ Z+ M# w; b* B; @ associated with these vulnerabilities. It uses mathematical, physical, and related / _( P l9 m, N8 M* x, vscientific disciplines, and the principles and methods of engineering design and% k3 O y8 ~6 a' d2 Q; l2 N analysis to specify, predict, and evaluate the vulnerability of the system to2 o% u, a2 B! C6 v+ c security threats. ( m' A* g& l% [System Security% h! k& [6 F+ D" N! ` Engineering ' O+ S" |( q; }' ?+ M1 cManagement 5 a- D0 B* v+ D8 o( I. [Program 3 ^; c1 `1 D' _3 C4 E. R( V(SSEMP) , M; A9 r$ Z1 y# y! i. H& R2 T# cThe contractor shall establish a SSE program to support economical% H' t4 i( Z5 \& M' M4 n1 [( L achievement of overall program objectives. To be considered efficient, the SSE$ j3 S4 F3 x- _ program: (1) enhances the operational readiness and mission success of the9 H; f: R) T$ A9 O, l( _/ o defense resource; (2) identifies and reduces potential vulnerabilities to the7 ~: [% B; I5 n: d5 M! t resource from sabotage, theft, damage, destruction, etc.; (3) provides, Z- C& o7 N0 S1 n; _" [ management information essential to system security planning and (4) minimizes9 R! B* F) ]. X) | its own impact on overall program cost and schedule. - h$ Z) y% N9 m: L( F" p. PSystem Security , ?: K/ L/ x+ r' VManagement8 p/ _# v; \) e0 Z6 a+ N) V Plan (SSMP)' ?; n9 h; ?9 S% t A formal document that fully describes the planned security tasks required to9 ], y9 I0 v/ z8 { y: _. g3 i2 D" X meet system security requirements, including organizational responsibilities, ) T# _ B0 q& @3 g* Jmethods of accomplishment, milestones, depth of effort, and integration with1 O+ F4 V1 n! k( o% H# S3 _ other program engineering, design and management activities, and related. _# G& }4 M A+ B systems. : a/ x$ a8 k; |- W/ t6 r7 }$ H) U) VSystems 7 G0 h$ T( @, k5 S, w, ?* hEngineering- M9 S1 E& S: e3 a& E An interdisciplinary approach to evolve and verify an integrated and life cycle [7 A6 d: G& y6 a$ _9 T5 w balanced set of system product and process solutions.( K W" m- \# [+ X6 Q0 R" G, Y MDA GLOSSARY, VER. 4.0 S, n5 K% t2 X t. T: W 2873 o# R( y: ?7 {; Y ^* Q Systems7 x4 g- P# P, z Engineering , a( ^0 x6 T( [ `: hManagement 4 R1 A: Y; z4 |Plan (SEMP) 3 R8 B9 r2 l+ |, lThis plan documents: (1) Management of the systems engineering process, (2)1 F8 [) t# F* ? Integration of the required technical specialties; (3) Performance measures ! d( y: }# p8 r* I. Edevelopment and reporting, including intermediate performance criteria, and (4) $ S i% A/ n% u- X+ GKey engineering milestones and schedules. ; E, ^; [6 s# }0 {Systems Test t( o X& R/ [7 t. M( f Integration and! F8 j8 k. M6 {6 e Coordination 8 X: Z! _; k+ ?/ V. LThe combination of SDS elements tests to reflect SDS performance contribution.& n; @$ Z0 X! F1 v System Threat , g; o/ D/ ~6 lAssessment + h% u3 H/ s1 t1 s0 F1 m) g3 [ HReport (STAR)+ C, i) T/ b* T ^" l. @ Required by DoD 5000.2 and validated by DIA. Establishes the threat (to a " q2 f" O4 G! b' v! qService's Mission Area) and is part of basis for considering mission deficiency1 i* l& K( H; Z9 I and potential program new start. Updated to support a DAB Milestone or when w1 t9 z" q- w* rthe threat changes significantly.5 I& j) ^5 H+ Q+ r( t System-Valued2 p/ C0 Z5 m2 }* y Asset8 s9 ~; \/ T D8 g0 x A system element/component, function, or information element, which is critical to 3 y+ F; W8 W2 }9 rthe proper operation and well being of the SDS.5 ^ c- V' K" _8 d MDA GLOSSARY, VER. 4.0 T : q7 G$ d4 k% E288 5 k% S1 a% o# WT&C (1) Tracking and Control. (2) Test and Control.. w2 \7 {' M. b8 g! V T&E Test and Evaluation. 7 ?# [4 U8 ]+ H8 M/ O. M- ^T&T Transportation and Transportability. ( X6 M# H5 M1 |T-MACH Trusted MACH.' c% m4 A$ q" C8 `, [# x T-UAV Tactical Unmanned Aerial Vehicle.1 e$ ]' u9 D U& b; ?+ d+ S T/R Transmit/Receive.6 M/ k2 _6 M/ |" I D: U T/REA Transmit/Receive Element Assembly (of a radar).% S& P! k" ]4 c x1 ?- Y/ o+ }. a T " Q! f! T" p& d% L2 # C- r% B3 H# KTechnology Transfer. % j- S; W( ]9 L/ R2 J' \/ AT6 a! F! N( p! e$ ]$ }* S7 Z$ H 2 * Q# H/ @! l" o5 p, T. e( g8 _) IE Technical Training Equipment. " X* F* l6 G. VTA (1) Threat Assessment. (2) Target Acquisition. (3) Test Articles.; { Z! O( h" P4 V# _ E4 C TAA Technical Assistance Agreement. 1 [/ `8 P8 O7 ETAACOM Tactical Air Area Commander. . d8 L) o5 u3 o( \2 G _3 fTAADCOM Theater Army Air Defense Commander.7 N f# n) Z; Y# U" L TAAF Test, Analyze and Fix.- ~* L! Y. s, G2 `) Y; t) x, } TAC Tactical Advanced Computer.5 d7 t) G* K& z1 F, m% | TAC-3 Tactical Advanced Computer – Three (USN term)., q0 a u; A9 ~% x# i TACAIR Tactical Air.; W3 D( Y. K4 V! i6 A TACAMO Take Charge And Move Out [Airborne SSBN Command Post]. 3 x. n0 ]$ ~2 g2 FTACC Tactical Air Command Center.! q, o6 o4 `+ A( ]( ]& I: u TACC USMC Tactical Air Command Center (USMC term).9 m6 U5 i0 f& F TACC USN Tactical Air Command Center (USN term)./ x2 N" t) u6 c2 a1 w) k TACCS Theater Air Command and Control System.1 @; a1 U1 f% H0 \ TACCSF Tactical Air Command and Control Simulation Facility. / C; W" X' O4 r) o8 }TACDAR Tactical Detection and Reporting.( W3 z7 C# B& r3 ^5 P$ B; e4 | TACFIRE Tactical [weapons] Fire.

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TACINTEL Tactical Intelligence Information [Exchange Subsystem] (USN term). ) c; A9 r# k- t: r' _TACOM Tank and Automotive Command (US Army term). ( W9 u, k8 R7 {9 Z1 I# HTACON Tactical Control. " O2 q* E$ s( L! d8 o1 b5 S5 @& OTACS Theater Air Control System.6 ?3 E. R) M+ F MDA GLOSSARY, VER. 4.0 T/ e- o o, {" i- m 289 ( O' M5 j! [9 T- yTACSAT Tactical Satellite. 4 y5 o/ e" _* j: mTACSIM Tactical Simulation 1 \. k! Z+ c% G( C9 A" i& kTactical Air1 l \/ w: Q# ?! P" q' F- P8 r Doctrine V. J+ u; z% [ q% C Fundamental principles designed to provide guidance for the employment of air% X3 C1 [2 u- v6 H' \: @3 q7 ] power in tactical air operations to attain established objectives. - Q$ J, g' r2 }4 y5 \ }Tactical Air# {' r# D' D8 | Operation. Q: _% R4 Q! ?$ E1 Y An air operation involving the employment of air power in coordination with , t% m5 m% o1 F( n, S2 ?ground or naval forces. . w: V9 _9 G+ f* e( V2 QTactical Air0 ]4 c% ~, Z3 e3 _% Q$ A1 F Operations6 D7 p$ [$ ^( D- y9 f+ f Center % C4 y3 F! q4 ]- i5 j) m3 mA subordinate operational component of the Marine Air Command and Control3 [8 r1 y \9 ? System designed for direction and control of all en route air traffic and air ! l. u* B% @+ @: T8 `% O" gdefense operations in an assigned sector. _: ^$ ]4 X) d4 ] Tactical Air) e4 u. X, M1 | Support$ F8 ~. I1 U# t) d6 @; M3 G Air operations carried out in coordination with surface forces and which directly 5 O$ Q9 C/ B+ @* uassist land or maritime operations./ r: D$ m: {9 w* w( m Tactical Area of ' t6 X! L! B( {7 g* ?, [Responsibility ! q6 F& [: {3 |% U! T0 P2 H(TAOR)+ j* Z6 G7 z |/ V/ ?* M A defined area of land for which responsibility is specifically assigned to the+ J" p& F X1 J Y commander of the area as a measure for control of assigned forces and4 P' h( Z; P4 r9 Z; z" N coordination of support.! I# }, V- A: P1 U1 ?6 c Tactical Ballistic0 u, ]* M4 v' q Missile (TBM) ; w2 c- `9 G4 E5 a* ~' W, ?: TA land-based missile generally having a range of <3000 miles that can be / _! F% q) c% lemployed within a continental theater of operations.& z7 e' [6 \2 e1 J4 |9 ~. X Tactical Concept A statement, in broad outline, which provides a common basis for future8 S/ V6 E0 ?: ]! u development of tactical doctrine. ' \! y; j, J) a5 ^6 _; _+ z0 ]8 wTactical Control The detailed and, usually, local direction and control of movements or( o: M2 z# H& T9 {0 n( ], j9 d maneuvers necessary to accomplish missions or tasks assigned.! s) S% W! D; n$ {0 L3 @) |( v/ d Tactical Data2 k7 D: u+ r7 S" B7 J) L4 X4 c Information link + g( t5 T: p: ?0 K yA netted link in which one unit acts as a net control station and interrogates( c8 i9 X9 }# r6 I each unit by roll call. Once interrogated, that unit transmits its data to the net. 7 B7 B+ o. v+ H- Q0 |3 @( h3 T" ]This means that each unit receives all the information transmitted.$ f, Z- `2 ]' _ Tactical Level of 9 p1 L7 k. I: \9 D5 v- N# i5 ^War" ?, N0 ~' c6 d3 W, x/ [0 i The level of war at which battles and engagements are planned and executed to & D% ?9 A3 F& daccomplish military objectives assigned to tactical units or task forces. 8 l# m, T5 J e% b6 k9 }: K6 PTactical. ~8 _0 \9 M$ V# C ?) R$ w8 K! k Operations Area 7 [0 e, e" [& m# h(TOA) 5 e: p/ P( C2 U9 z! V3 a) J/ iThat area between the fire support coordination line and the rear operations - o% O; L: y! w' W! b6 e6 rarea where maximum flexibility in the use of airspace is needed to assure mission- A" O. L0 k2 }. ~* i accomplishment. 3 i- W" W2 E* ? o$ m/ _3 FTactical & c% ^4 m0 M+ T/ O1 t8 uOperations9 |" R* E! g T; x$ N/ H4 S Center (TOC) 1 D4 q1 q( }9 y2 ~( W$ F# i1 T$ S) iA physical grouping of those elements of an Army general and special staff* K$ l5 ]6 s/ D j concerned with the current tactical operations and the tactical support thereof. ' a* D& D2 R+ S) \Tactical Warning ; v' D( N& U, }- X. O(TW) 9 } W! b3 D1 i/ @(1) A warning after initiation of a threatening or hostile act based on an2 d. M- ]; K6 h9 M; }) c( y+ X evaluation of information from all available sources.7 y. }. c- t+ M" Q) W8 @+ e (2) In satellite and missile surveillance, a notification to operational command" u6 T/ f2 f" k- \ centers that a specific threat event is occurring. The component+ [+ _$ p/ Z- w. ?0 _7 m elements that describe threat events are: country of origin, event type" Z# `' B2 l4 Z# Q; ]+ r6 w and size, country under attack, and event time. , H0 }) B6 |( o# S/ x) P( mTactical " f% C. Q k' c- i" I2 X! FWarning/Attack 4 Z8 V7 X9 o1 g/ _6 PAssessment6 \3 u% ~# t' ?2 p8 M X4 k2 G (TW/AA)5 f* {/ G% O( G5 @9 n A composite term. See separate definitions for Tactical Warning and for Attack5 J4 u: |- P0 F9 H) j Assessment. " ^% x: L5 t, a' p8 B; I) X& UMDA GLOSSARY, VER. 4.0 T * W+ O- _" I" A2 h290- d# V Y0 g0 T& ? TAD (1) Tactical Air Defense.! m9 h4 u8 J) d& H2 u# Q7 n! R1 z (2) Theater Air Defense.5 T1 X8 H5 X1 E( I (3) Technical Acceptance Demonstration. 8 A6 B+ Y9 F6 ?% o; H; A7 TTAD C2 Theater Air Defense Command and Control. , G" N( t" ^: d- _3 `* [ U0 lTADAP Theater Air Defense Asset Planner. 2 @* s% F1 ]9 i$ B" w" x* ? WTADC Tactical Air Direction Center. # K+ T2 B$ r$ R3 m' G; UTADCOM Theater Air Defense Command. * I4 A D3 `/ p( g# d9 E: w' PTADIL Tactical Digital Information Link. 6 d, k. ~4 U- i# FTADIL A Tactical Digital Information Link “A”. - v! M7 h$ g) P3 g: Q$ B* r8 OTADIL B Tactical Digital Information Link “B” & s0 l6 Q: \/ p. X; ~4 c d. S/ fTADIL J Tactical Digital Information Link “J”4 D- P, \: e b0 k2 s/ h TADIX Tactical Data Information Exchange.3 x2 ]" q2 G% ~% L6 b: x8 B TADIXS Tactical Data Information Exchange System.( C8 [6 r7 j6 W P( j TADL Tactical Data Link. 2 R" j, Q) f0 ~- ITADS Tactical Air Defense System. O2 F+ r5 A X: H. [ TADSIM Theater Air Defense Simulation. 7 z8 I- u% Q5 V/ h+ O, h/ QTAF Tactical Air Force.. b' f9 ?0 b& M) s- g% B! | TAFIM Tactical Architecture Framework for Information Management. ( R9 [* x( A0 I* W5 zTAI International Atomic Time.$ B- o# H1 W5 f& [2 S" J5 [ TAIS Technology Applications Information System. ( F' n( O U' x# r" v) ]* D% ?7 |TALDT Total Administrative and Logistics Downtime. ! i! e9 ~7 m! ^7 M& c/ a0 [5 jTALON NIGHT TALON programs, which support SOF. % |. a9 ~; F1 G0 D4 VTALON SHIELD An effort using stereo DSP processing to provide ballistic missile burnout vector ' D5 G8 N$ x% k) l7 G: `and impact prediction for interceptor cueing, counterforce tasking, and passive! {" T& u# Y1 I$ n3 ^: K# g3 d. i defense.

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TAM (1) Theater Attack Model. (2) Theater Analysis Model.! k% f) [& N) k/ _: O: _8 x/ d TAMD Theater Air and Missile Defense. & R/ K( V3 b k% F8 GTank Final Propulsion Stage (used interchangeably with sustainer).4 g% u% I9 {) r0 `$ }2 J8 s6 [* u Tank Debris Hardware associated with tank. 2 @" z) {" n- b% Y' rTank & _! m c) p& m. m0 kFragmentation ' E9 W- u$ f" X- u* w% y2 q& jThe breakup of a tank, either intentionally to serve as a penaid or naturally as a ; n2 c- q8 x @# lresult of aerodynamic loads and heating upon reentry. 6 i K( m6 Y+ X8 J. t2 a) hMDA GLOSSARY, VER. 4.0 T- C z" o% s: k8 y 291 ! V! y5 l* W% v2 @; i; L. yTAOC Tactical Air Operations Center.% |+ w/ ]$ Q. f5 Z$ s, @) M4 c TAOM Tactical Air Operations Module.7 {/ |/ V& e: V# x5 D2 u2 a TAOS Technology for Autonomous Operation of Satellites.0 {% G- T! ?7 A TAR (1) The NMD Threat Assessment Report. |6 v* t; S# h) ^- Q(2) Threat Activity Report. - }9 W: E3 o0 T% b' j3 w3 R(3) Target Acquisition Radar. " b9 _: U9 `; `; i. D+ }5 C; bTARA Technology Area Reviews and Assessments. ( H4 `4 E1 z% Q* Y$ k3 ~TARGET Theater Analysis and Re-planning Graphical Execution Toolkit.* h% w" B! r3 B" F Target ) q* ?7 s, `# e: W# C2 H( @) eAcquisition' ?! x+ Q+ E8 M! p* X The detection and initiation of track on a target in the surveillance coverage* f/ j5 {7 q. _ region of a sensing system. $ \' B7 M8 I4 t1 B2 S5 RTarget3 z. R5 P3 g& n) [5 p! c Classification . n; P$ b; _ k6 eand Type # y2 S: d* W G1 E$ WIdentification of the estimated target category based on surveillance,; |% x1 a2 j6 q' r% J& k, \ discrimination, and intelligence data.4 F' \$ U5 {. R! @& f3 } Target * t& M# T( w( l/ a9 _Discrimination 6 I1 I* n" K$ l) w1 lThe ability of a surveillance or guidance system to identify or engage any one ; I/ I8 f, _8 B# Y- Etarget when multiple targets are present. - o$ P9 N4 s- P- i4 n5 C hTarget Object$ S& U9 H) X3 K5 U6 s3 [ Map (TOM); n# Z7 e' ~6 T: ?% e* O) D A data set, which contains three-dimensional position, estimates for target and & u& T1 A( W1 H1 p0 `4 O' uother objects predicted to be in a weapon interceptor's field of view for use in$ N! q7 f4 U: K1 _# t target designation. (USSPACECOM)6 J: w3 X4 e# p1 T3 t5 Y7 f8 D3 H- H Target Resolution The splitting of a single target into two or more targets. ) o( R" l6 h8 ]* g+ X' k1 d% `$ M) I ETarget Signature (1) The characteristic pattern of a target displayed by detection and 0 Z& |! Y7 u& G3 O( s7 ~* V$ zidentification equipment.& [: a2 R! z9 h; x9 f (2) In naval mine warfare, the variation in the influence field produced by the1 M% _9 O9 a+ Y- x$ L/ R passage of a ship or sweep.' ^2 E& C( ^: v# f( k Target System4 m) } W: S# O( p o3 B: {& T1 @- n Requirements 0 K0 ?+ c( O/ Q) @! K: {Document (TSRD)0 X6 j0 v- ?1 K N7 ^9 f! X. k' b BMD Program level program management document. Developed by each BMD 7 k8 B& f! v0 S, k/ p6 G6 oProgram Office, it outlines to MDA/TC and MDA/TE what the PO’s target+ B/ N [# i$ F9 j" l0 S requirements are for each specific flight test based on the test objectives. + f# h3 _$ P2 u# ~$ ~0 iProducing the TSRD is the first step in the target development process. / i; c# V5 i; T1 q* lTASA Task and Skills Analysis. 2 @" X) B& ~: `$ RTasks The required actions to accomplish all or part of a COA. Tasks contain guidance . j% p, O/ m0 jto the Battle Management/Command, Control and Communications (BM/C3 ) ) s' k) u6 x0 n- u; uengagement planning function concerning resource allocation, constraints, and 8 g C. \, R9 O$ |- D2 U- arequired performance. : K8 u o6 Q7 i: ^2 c' w6 {$ ZTASM Tactical Air-to-Surface Missile. 2 [3 y' a2 A9 U8 _5 n: JTASO Terminal Area Security Officer.5 z- Y, O; N9 z; G* y o! } TAT Technical Area Task.: Y; Z [2 I, k2 _6 E- j" M+ b TAUL Teat and Upgrade Link.( | w! R. s, L+ [- M TAV Transatmospheric Vehicle.8 d, W% \/ M% i5 i$ c8 G X3 v MDA GLOSSARY, VER. 4.0 T * V7 h+ C% ^2 H292 . R/ {6 v7 g2 d' N& j P8 _TAWG Threat Accreditation Working Group./ m) ^% C5 K: S7 i: h% V TB Test Bed.* K* j! ? }# j& M TBA (1) Theater Battle Arena. (2) To be Announced. 9 Z; k" }' F8 v* g7 I3 l" @TBD (1) To Be Determined. (2) To Be Developed.: V+ t" ^( h8 D3 h TBIG TMD BM/C3 Integration Group. , Q4 ~# U9 l. F: j& `$ F8 dTBIP TOMAHAWK Baseline Improvement Program. $ {! ?4 ~' N4 ]4 STBM See Tactical Ballistic Missile/Theater Ballistic Missile.' f' N0 T$ P, a0 C( }( l+ ] TBMD Theater Ballistic Missile Defense. l8 C* `: J( L5 N TBMDSE Theater Ballistic Missile Defense System Exercise. & G) ~! w) U6 m, ]1 ?& b) E# @TBN To be Negotiated. / }1 @6 g( v: s& DTBR To Be Resolved., }3 w, Z5 W: ^" F! A TBS (1) Tactical Broadcast System (US Army term). - B1 G) S% q# Y* [(2) To Be Supplied. # R t( p6 ~/ ^(3) To Be Scheduled, p. j4 v: Q' z$ S) f . ! a" _! {1 c/ c$ o" ^+ E, LTCAMS Technical Control and Monitoring System. 8 p# x3 @" p g( [- S0 ~4 v9 HTCC Tactical Command Center. 4 a4 U1 g0 `1 f: QTCCF Tactical Communications Control Facility. * o0 z3 w% n7 j$ d- q" y- tTCE Three Color Experiment.8 p$ N: A5 u6 @" n9 D TCF Tactical Combat Force. , G7 T3 s. _4 ^6 E7 K" w- KTCMD Theater Cruise Missile Defense.( ?# a* Y) Z0 f' G# k3 ~) {. n; c TCMP Theater (Missile Defense) Countermeasures Mitigation Program.) `' [* l9 _8 R! s; k/ x TCMP I Theater Countermeasures Mitigation Program One. ' W8 L0 V4 s1 q8 j' [TCMP II Theater Missile Defense Critical Measurement Program Two (Replaces TMD , k- D0 y5 F1 Q E! L" M7 O8 F) ^; OCountermeasures Mitigation).! Q8 _ B6 n. n5 g" V# e TD (1) Test Director.+ G# M* m, N2 O9 [/ r9 L (2) Technical Data. / ]1 f8 Q' C3 Y5 W9 j8 N(3) Technical Director.3 F+ c$ n; B. ]# {6 t. U (4) Training Device8 E j. Z( [0 V, u7 B. s TDA Table of Distribution and Allowance. 5 L( v! f) V: v" h& A6 T9 A4 gTDADT Total Distribution Advanced Technology Demonstration." v7 b" |1 r! [! c* R5 e9 r. R TDAS Theater Defense Architecture Study.& C# [5 A7 h* ^/ l5 X TDASS Theater Defense Architecture Scoping Study. . y7 W" x- h2 ]7 n0 ~MDA GLOSSARY, VER. 4.0 T # ?# _4 u9 j1 ]* k1 ? R* f293 2 C2 Q+ z, s5 a; e6 bTDBM Track Data Base Manager.2 L1 [& ~" C. e) O& z5 Q TDC (1) Tactical Display Console. . \0 O& g4 G* u' T4 L" w8 t(2) Theater Deployable Communications (USAF MDAP).- T/ U% Y7 [/ d6 ~1 Y2 Q7 [8 O TDCC Test Data Collection Center.0 k6 k- I1 }: g. ^ m TDD Target Detection Device. 7 U8 {! N8 o5 U- \/ k& JTDDS TRAP Data Dissemination System.- ]& s* s2 V4 Q8 ~; `% O TDI Target Data Inventory. f4 \. l3 A+ W& d TDK Two-Dimensional Kinetics nozzle performance.1 p$ t3 V @; c! y TDM Time Division Multiplexed. , s1 H2 b/ V' R! fTDMA Time Division Multiple Access (TelComm/Computer term). ' E) a- I3 w1 T# L# w5 \( LTDNS Theater Defense Netting Study. + X% Z) _1 t. [) p7 O! VTDOA Time Difference of Arrival. , H( f! T2 I' }, I. @: ~/ m: |TDP (1) Technical Data Package. 1 m$ ?6 r/ l" S; ]0 X' Q1 X1 _3 e(2) Test Design Package. ! S3 a) t9 W7 _* F; f* d) a' i(3) Threat Design Program.

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TDORC Technology Demonstration, Quick Reaction Capability. " y5 N" P0 ~0 k; BTDR Terminal Defense Radar.4 ^" a1 O5 q9 U; G TDRSS Tracking and Data Relay Satellite System. ? W9 ^1 W8 p5 W TDSSPA Technology development for Solid State Phased Arrays.1 s! E) K! u! \# L, q T TDT Target Development Test. ) |$ K, g: o- {# j9 S7 n* _) s, @) hTDTC Test, Development and Training Center./ m+ `+ y7 z! i7 p7 ^ TDU Target Data Update. 8 w& c$ _6 Z: P9 g- S8 z" U1 z- UTDUGS (1) Target Data Uplink Ground Station. (2) Target Data Update Ground Station. / r( @& w: \1 E6 {4 G( H i9 t% YTE (1) Thermo-electric. (2) Test Engineer. (3) Training Element. 6 U3 J, m0 P( ?9 Q- e) n5 D5 ?: C* _(4) (BMC3) Test Exerciser., ~% y5 ^; \4 u. H* ` TEA Transportation Engineering Agency. ; s% W$ C7 C* J; d( z LTEAS Test and Experiment Activity Summary.' z; F) Z; }4 Y4 C Tech (1) Technical. (2) Technology. (3) Technician 8 @; j5 |; d2 L( j' UTECH Technical 9 O3 L3 @3 v' g0 PTECHON Technical Control.: k# w1 p4 o4 k: K' Y% N5 u TECHEVAL Technical Evaluation (USN term).8 w( Q* j" y' W2 V' K) u MDA GLOSSARY, VER. 4.0 T 7 O. w) w6 X5 W& v, f294! e* b, i. {& `% `* [2 T0 Y, p8 Y0 l Technical Data Scientific or technical information recorded in any form or medium (such as ' r/ _* ?) h S R- {manuals and drawings). Computer programs and related software are not 0 }4 o1 K$ C2 O8 xtechnical data; documentation of computer programs and related software are.& Y4 _- H% C+ O+ ^ Also excluded are financial data or other information related to contract & W& [2 O4 O# radministration.) E( R2 r z0 q1 U2 K/ o Technical Data + m4 V; q$ n) G; p6 ZPackage (TDP)$ ^, R& A* j- `; k A technical description of an item adequate for supporting an acquisition $ }7 L! D% \' j+ o9 O" wstrategy, production, engineering, and logistics support. The description defines" [$ w3 U" k7 \1 ~4 ` the required design configuration and procedures to ensure adequacy of item* c3 k% U, @7 f" U: X& L performance. It consists of all applicable technical data such as drawings, 3 W. ~1 R( `' p! w( X$ F" U3 \associated lists, specifications, standards, performance requirements, quality+ K( Q) u( ]9 J- a assurance provisions, and packaging details.

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Technical. E7 T8 K8 r/ m4 ?, G# s U" ]" @ Evaluation% O1 ?' l5 q. o& h g; p6 A The study, investigation, or test and evaluation by a developing agency to, ]+ a' K1 [8 K7 P determine the technical suitability of materiel, equipment, or a system, for use in4 E. f r6 s6 |( | the military services. (See Development Test and Evaluation.)0 ^- P5 p7 l7 ^( A Technical & {; I `" y& SObjectives D% n- }) J A" k+ ~) M The “target” values for the development effort when insufficient data is available0 a: {! h# X c. y4 F for stating binding technical requirements.4 K" A& x# `1 {- f Technical % C* {9 Q( E7 Z Z7 qObjectives &4 Z3 {) [$ C, a% S8 Q" g9 K; e Goals (TOG) ; u& F& s& k3 C& e% RHigh-level acquisition document to guide decision making for BMDS$ Z' I2 P- w% l9 _! c5 U3 M5 q development; communicates objectives and goals. ( ^" j) b1 h/ ^3 [* `Technical ' u+ u" y- z5 z" @0 q) v# i& u& NParameters (TPs) ' y+ L) v5 n& `# h) @: |) nA selected subset of the system’s technical metrics tracked in Technical2 D- {" A5 E( Y2 `/ l Performance Measurement. Critical technical parameters are identified from risk% E0 D0 T m3 m4 d; \/ T( J: w2 T analyses and contract specification or incentivization, and are designed by ; O1 F- j/ I# }/ Emanagement. $ K& r- T0 J2 G' W" {( TTechnical/ w- f6 B h2 ?8 f+ [# ~% ? Performance / Y$ b( ~! M2 s- t2 h/ ]! }Measurement( U: C( g* z3 X/ w (TPM)+ j* Z$ r+ q- M( |1 R Describes all the activities undertaken by the government to obtain design status G8 G( {/ L. b! ^. u; r9 sbeyond that treating schedule and cost. TPM is defined as the product design % y+ q4 |+ l p0 _- Fassessment, which estimates, through tests the values of essential performance 9 f* C& z. ]1 s; X9 tparameters of the current design of WBS product elements. It forecasts the ; y" v6 D, n$ Q; E7 ivalues to be achieved through the planned technical program effort, measures + t% s4 Q" w" d, vdifferences between achieved values and those allocated to the product + x! n2 K$ V0 |element by the system engineering process, and determines the impact of these7 j, B3 }, M" Z differences on system effectiveness. / C/ [8 z8 ?5 w3 R) I3 w: zTechnical/ x- J R- i( g2 V; L, I( E/ Z# W Specification o1 c$ g- d) o6 U+ ~A detailed description of technical requirements stated in terms suitable to form & z9 C! {0 D8 z! S# K1 {the basis for actual design development and production.2 [: x& z2 e" E& F# ~ Technical; g+ l$ \9 `. `4 r, q0 F Surveillance % ]- o2 v r* SIntelligence gathering methods in which clandestine listening, photographic or % Z* U) g8 E# q1 }emanations gathering instruments are placed within SDS facilities, or otherwise" {6 r& s- A9 x X' F& R' e0 q- F targeted against SDS assets to gain access to denied information. 7 h9 Z5 e7 x3 t7 |+ e. T* xTechnology ; M* b6 M1 { w% f6 D {Executing Agent& S" K1 p1 P, X( V The Service or agency (DoD or non-DoD) that has been delegated management ' }$ s. g) i8 R1 s5 c+ Gresponsibility for a particular critical supporting technology by MDA or Executing- t# l: |7 q t4 a9 @; ~6 i+ p k Agent.) O& V5 D0 ^8 B Technology ' \5 S, H; t& VProgram ) w9 S" u4 ~8 [$ i O3 A7 aDescription + m; s7 Y- B; z0 xThe generic description of the applicable supporting technology or critical , V0 r' ]) N. Rsupporting technology.! {2 E- Z0 J3 t TECOM Test and Evaluation Command. 3 l7 @& n+ M/ \ O& ~- c. dTED Technology Exploitation Demonstration.6 }# L+ W, p$ j7 |; Y MDA GLOSSARY, VER. 4.0 T8 u+ m1 d7 D- g5 |! @6 } 295; W" L$ _( Y' q1 ]* _5 {" r9 b TEIPT Test and Evaluation Integrated Product Team. 5 |& M4 e) z- o4 c# {/ V0 @TEL Transporter-Erector-Launcher.- z* l: v2 g# L! r/ H8 Z& T8 G Telemetry, ) X, {% J5 F1 U' H8 r- STracking, and 8 w3 g" X' m! ZCommand (TT&C) % w7 z k( G z+ `# vFunctions performed by the satellite control network to maintain health and # H; S( K+ Z* M9 Astatus, measure specific mission parameters and processing over time a$ B" C' D3 d- Q" t% x sequence of these measurement to refine parameter knowledge, and transmit ( I6 F( [' x' L3 [$ {mission commands to the satellite.+ U9 m0 o% Q. s3 P9 m Teleprocessing The combining of telecommunications and computer operations interacting in the2 c' v# Y. L9 e8 L3 Q5 { automatic processing, reception, and transmission of data and/or information.8 S# X/ E/ z9 d/ e- i% l TELESAT Telecommunications Satellite.8 t6 \" t) u% p TELINT Telemetry Intelligence.8 c; G! u1 k" [7 b d0 c TEMO Training Exercises and Military Operations. I1 ^. `( V& M M; J TEMP See Test and Evaluation Master Plan. + g6 G1 C2 ^4 B8 g, h; m! |TEMPEST TEMPEST is an unclassified short name referring to investigation and studies of I. p2 c$ h6 x. \ compromising emanations. It is often used synonymously for the term' ]" g: ?: y" T8 u% D+ |& Q "compromising emanations,” e.g. TEMPEST tests, TEMPEST inspection. (See " I) h, F# ?7 W; h1 y; y1 e" LCompromising Emanations.)/ {4 z: C4 Z2 \4 d; g TENCAP Tactical Exploitation of National Capabilities.* Z* _; f, U0 k* Y i/ o* ? TEP Test and Evaluation Plan. 3 x. ^* @1 l" M. C! y" E- M2 bTER Test and Evaluation Report 1 e- c; ]6 J# j' T/ g* Y! I/ LTERC Test and Evaluation Resource Committee.+ m8 S2 O) P$ ~9 l" `8 G TERCOM Terrain Contour Matching.7 y" `5 T8 f7 m- s. f6 P Terminal Defense 9 o' g: M) R/ ESegment (TDS)$ e( q; J& M8 i& d The portion of the BMDS that defeats ballistic missiles in period of flight between ) h( Y5 M- P( L) e/ E0 H0 w7 {8 [( n) catmospheric reentry and impact. 6 W- d( O2 F, y, W, M6 G' ^4 uTerminal ( G% b4 b9 F; u( j( ?. |" mGuidance & `6 y" o& J6 ~. E) n. ^The guidance applied to a guided missile between midcourse and arrival in the 3 l$ F& Q3 i X6 Z! m8 [vicinity of the target.) ^+ Z; d- h/ a P, ]+ ?, q7 j" c7 Y Terminal Phase That final portion of a ballistic missile's trajectory between the midcourse phase* b7 D; ]" B9 ^: j and trajectory termination. , M1 \; {3 w% H; `) e8 A( DTerminal Phase4 t+ c4 p1 i( K+ a# V* D3 u Interceptor ; `9 p* B! G& G6 d& h9 PA ground-based interceptor designed to intercept and destroy RVs in the 1 R) a: U$ c/ n/ m$ q9 ~3 U% vterminal phase of flight. It may also be assigned to intercept and destroy enemy1 a$ s2 W& m G1 p PBVs and RVs in the midcourse phase. (USSPACECOM) 2 Z. u1 D/ T0 v0 Q; \1 ~3 X" lTerminator Transition from sunlight to earth's shadow in space. + r+ T7 x( f8 y) e( A2 g. l4 rTERS Tactical Event Reporting System.. j/ Y z: @( y& U TES Tactical Event System.! g+ L# v; g0 G. }" x TESP Test and Evaluation Security Plan. + E3 J- @9 B6 q! l2 WTESSE Test Environment Support System Enhancement.8 a. X" C( m& c8 R* r1 c% Z4 S7 m MDA GLOSSARY, VER. 4.0 T , S8 @8 i2 v" X/ E' B/ `! K296 , J7 l0 L+ K% c. R, S: ?! i2 KTest and Control The ISTC Test and Control provides the human interface for testing system 6 N5 L# W2 D/ e4 ^3 shardware and software. The Test and Control will consist of the necessary3 t: E$ S4 \( R+ B7 ]' G' A consoles, processors, and storage devices in order to be able to control all4 Q s2 L9 q4 {1 e" K% Y6 C' ] operations of the ISTC such as configuring the system, running a scenario,; d. T7 n1 ~$ m' U5 A- }( A analyzing data, generating reports, and testing system hardware and software. 3 l' y1 Z, v5 x% H% u$ JTest and " u6 w7 Q; [9 B8 x. L% JEvaluation (T&E) , H9 v1 O. Z& b4 U: w& P8 i, {# d1 qProcess by which components or systems are tested and the results evaluated % W3 N) I( h, y% y; O; w, `( _: Mto assess progress of design, performance, supportability, etc. There are three / f! G2 S8 ~2 Wtypes of T&E -- Development (DT&E), Operational (OT&E), and Production* I8 t& u: R2 C' Z6 c0 }+ I Acceptance (PAT&E)--occurring during the acquisition cycle. DT&E is conducted 1 P5 t8 B1 N0 Ato assist the engineering design and development process, to proof2 n' N# S% W6 R+ j1 E4 y& q manufacturing processes and control and to verify attainment of technical ) |6 c7 N8 E7 H! T7 Lperformance specifications and objectives. OT&E is conducted to estimate a & R+ H& X$ C3 w1 k9 p7 ksystem's operational effectiveness and suitability, identify needed modifications, - M/ b( [, }/ Eand provide information on tactics, doctrine, organization, and personnel/ C8 [) s+ d( J( ^: ^ i' j requirements. PAT&E is conducted on production items to demonstrate that. `+ y$ X- Y1 \ those items meet the requirements and specifications of the procuring contracts, h( Q/ k+ n/ F% } or agreements. OT&E is further subdivided into two phases--Initial Operational 9 d7 T2 R% S6 a! u. \0 y- I(IOT&E) and Follow-on Operational (FOT&E). IOT&E must be conducted before7 E! U6 W7 X) M0 Y2 D the production decision (Milestone III) to provide a credible estimate of 3 @; ^1 c5 q7 }, r0 z: u9 _operational effectiveness and suitability. Therefore, IOT&E is a field test 3 ~+ e4 j" a/ j9 E' V; }conducted on a production representative system in an operationally realistic - d! I% L1 i- t# c4 C9 Oenvironment, by typical user personnel and includes use of realistic threats.! I7 H* x% R, o FOT&E is conducted on the production system to verify operational effectiveness " R) h' e ~8 O& Kand suitability, to fill data voids from the IOT&E, or to verify correction of P- C8 V: v1 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 and1 N& }' H0 ]) Y: G( t Evaluation) y8 Q( f( Q- W6 ~9 Y Master Plan' h6 g: A2 p+ [# X# U, D (TEMP)1 w& `: f4 W$ a4 u An overall test and evaluation plan, designed to identify and integrate! n- F- l5 s: b& D objectives, responsibilities, resources, and schedules for all test and evaluation: x1 ?. |: F ?, D to be accomplished prior to the subsequent key decision points. Prepared as) \3 {4 X) ?' e1 M' q @ early as possible in the acquisition process, it is updated as development * h6 y j# z) d; k4 x9 @- eprogresses. 4 ]8 Y# B1 y) c# j+ ]( `Test and % E+ ^0 _9 g8 O ]; _Evaluation 6 `0 h# r6 ?+ ?) W5 Y D. i0 LWorking Group / z% P" v+ {& g R* q(TEWG) 9 G! S! U" a6 `4 j3 @: EThe TEWG is the forum in which T&E coordination for test requirements,4 }% m4 Y1 O8 i2 J planning, execution, and reporting, is accomplished among members of the1 D1 D) S4 }( {/ C( | Acquisition Team. The primary purpose of the TEWG is to optimize the use of6 ?8 j8 g! o6 l5 C& O test data, instrumentation, facilities, and models/simulations to achieve test7 R3 i) t! h9 K+ j integration and reduce program costs. The TEWG is established by the / T* l9 u) X" Yprogram sponsor to integrate test requirements, resolve cost/scheduling , t2 w8 k" o9 ?# fproblems, facilitate TEMP development, assist in preparation of RFPs and+ \' @5 X2 E5 V) `/ v related contractual documents, and assist in evaluating contractor proposals . W5 h4 D* |- n: X4 iwhen there are T&E implications.- D# t0 f9 ]* ]) T' T" O9 i1 N Testbed A system representation consisting partially of actual hardware and/or software q' D: G4 n8 N& \) x5 Q and partially of computer models or prototype hardware and/or software.) N6 y( `. ~9 I4 v Test Criteria Standards by which test results and outcome are judged.3 | C! L2 C! a# u+ N, f Test Integration9 `0 U& `) e& }8 ]# v( M Working Group * @: B# e& J5 O% ]. W' @7 y(TIWG)" I1 ^2 K$ C' w( I( V A working group designed to facilitate the integration of test requirements in1 y2 U# I# ^/ }3 i order to minimize development time and cost and preclude duplication between! _0 \# V% ~% p7 P developmental and operational testing., `% f P: r8 f7 E3 ~: r Test Plan A document prescribing the approach to be taken for intended testing activities. , m" R# w, z6 k; |9 q8 IThe plan typically identifies the items to be tested, the testing to be performed, , k! ^8 D0 j8 F, O6 v- btest schedules, personnel requirements, reporting requirements, evaluation6 G& y3 `0 X, X; ? criteria, and any risk requiring contingency planning.8 m9 e9 A4 _( p# l0 W MDA GLOSSARY, VER. 4.0 T0 a$ B. U' ^+ S& U0 k 297 / K( W0 ]. @( c9 D9 ?Test Target* J4 K9 x; E; `" e' @. e Vehicle (TTV) . _: j) ^* x. |- U1 U+ P0 BSingle stage, ground launched, solid propellant theater target developed for 5 ]. \, M0 C5 E7 w6 I9 N7 ~- O/ HSMD Program. Also called “Aries”. . A+ Y' c/ w. _ a! g0 ?& I: Z" E: tTest Validity The degree to which a test accomplishes its specified goal. $ G. ~+ [4 [0 L& I( ]TEV Test, Evaluation and Verification.1 c- m9 b+ X u$ U# s TEVS (1) Test Environment System. (2) Test Environment Support Systems. # m; {7 t4 I4 Y5 q; W) }1 \TEWG See Test and Evaluation Working Group.. f1 T4 ^. j3 K5 ~. L N TEx Test Exerciser (NMD BMC3 Term). % P. W) a: D" @" \! gTEXCOM Test and Experimentation Command. / J) {6 d7 I f% o- c NTF Task Force. ) ^2 ]8 W8 v/ [3 k9 H' ETFC Tactical Fusion Center.) u9 N( e3 s( ^' p9 Z$ Q2 G TFCC Tactical Flag Command Center (USN term). ( v4 c) C3 {( z" UTFD Technical Feasibility Decision.+ S# R a. p: Z2 k: a8 z4 U TFE Thermionic Fuel Element(s). 9 j0 o9 Z. Z* I! PTFIM Technical (Architecture) Framework for Information Management; j& w' C$ z" L e# Y" ~( |7 u$ I TFOV Theoretical Field of View. ?" F- f: J6 g, l' sTFR Terrain Following Radar. # Q& M( G) E/ i( FTFRAMES Tools to Facilitate the Rapid Assembly of Missile Engagement Simulations.* I. s/ P( B' n/ S% s C TFT Time Off Target (JFACC term).' v+ w( d5 [3 k7 l9 x TFW Tactical Fighter Wing (USAF term).7 g6 n( [1 i; k7 i+ V5 [4 ^$ z TG (1) Threat Generator. (2) Trajectory Generator.+ L1 y/ \$ c5 L$ ^9 C TGINFOREP Target Information Report (JFACC term). $ b- |6 t1 @7 s7 xTGS Track Generation System (USN term).# }+ E4 `$ E1 z/ [ TGW Terminally-Guided Warhead. 1 \5 M' m9 W- S0 L- S; P: X. R; o: RTHAAD See Theater High Altitude Area Defense System.( I# d7 B P" t$ G& J" N1 v" e) } Theater The geographical area outside the continental United States for which a ) L+ k+ P1 I! V3 U0 \. |commander of a unified or specified command has been assigned.$ h5 e, U' A" y7 P% C6 W Theater Attack Attack on a geographical area outside the continental United States.' A9 r% U( y! h9 j) c( x0 I Theater Ballistic# F; A2 _, e9 l$ U2 g2 o' S Missile Defense & O# t! E' X( k: c( ?8 @(TBMD) System; u' I3 p$ x( A7 P6 ]1 z2 m The aggregate TMD C3I and TBMD forces that, in total, provide defense against/ A3 b) }2 L( ~ ballistic missile attacks within an overseas theater of operations." ?( l, S4 ]& T! y (USSPACECOM)

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