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发表于 2008-12-25 20:15:14 |只看该作者
MDA GLOSSARY, VER. 4.0 O M* n) P% I7 p211 ' G$ y8 c, H; z* Z, j- cOperational 4 ]1 Z9 |3 }6 }4 LAssessment4 c5 s0 v+ ?7 h9 U An evaluation of operational effectiveness and operational suitability made by an7 K; h' J O+ j6 R independent operational test activity, with user support as required, on other! Y2 y1 N l8 j7 V$ E than production systems. The focus of an operational assessment is on # d0 i1 e! H+ c; q1 R! I& z' }significant trends noted in development efforts, programmatic voids, areas of risk,) E5 N8 y2 ?1 r1 g adequacy of requirements, and the ability of the program to support adequate 9 g/ u! @0 T+ F: v5 a7 foperational testing. Operational assessments may be made at any time using n* E- I' {2 Z) `( h! a8 o technology demonstrators, prototypes, mockups, engineering development & C0 f) {- r% u$ m$ S+ ymodels, or simulations but will not substitute for the independent operational test + m* O- [* s% Y' K; r4 r' j# Zand evaluation necessary to support full production decisions.$ _& m9 `+ n. N Operational ) ]' v. R8 b, Z3 k, JAvailability 4 ?2 [. A( e- p$ o$ A2 U7 s( b4 g) eThe degree, expressed in terms of 1.0 as the highest, to which one can expect% U. d, }* ^, \6 l/ l+ ?: m equipment or weapon systems to work properly when required. The equation is ' ]& d* I! _. h/ |4 g/ v9 Luptime over uptime plus downtime, expressed as Ao. It is the quantitative link ; \2 [$ D' f% M; F! S5 I& i0 Hbetween readiness objectives and supportability. 3 Y- ?$ e% l; h$ COperational# E( X0 @7 [3 T* W1 Y Concept F0 Z, f4 s, T; D0 J An end-to-end stream of activities that defines how force elements, systems,) Z& O1 b4 ?; f1 b0 g5 v organizations, and tactics combined to accomplish a military task. . L. `3 b' S7 d2 c, ?* IOperational 7 \1 a0 N$ K4 W7 i% _5 vControl (OPCON)3 ~5 w6 [" j2 c7 e/ @1 z7 |( p( N Transferable command authority that may be exercised by commanders at any# o' H& [5 ~( f$ m echelon at or below the level of combatant command. Operational control is % _* O' V9 r+ G; }" \inherent in Combatant Command (command authority) and is the authority to$ ]2 ?) i- `5 P5 ^. b5 P perform those functions of command over subordinate forces involving 3 \: k b) Q/ V! Porganizing and employing commands and forces, assigning tasks, designating . q0 u) j& z0 o/ A5 r! M5 jobjectives, and giving authoritative direction necessary to accomplish missions / o1 E v% @; G1 `5 v4 {0 g( Y$ |* ^assigned to the command. Operational control should be exercised through the ( v) r$ q6 l7 }' N d0 P7 B! J# Hcommanders of subordinate organizations; normally this authority is exercised2 z/ U2 Y: J/ ^ through the Service component commanders. Operational control normally& G' F& d8 A' _ provides full authority to organize commands and forces and to employ those 0 Y$ W. P* U1 M4 Jforces, as the commander in operational control considers necessary to h( @6 O6 ]+ V1 I. U* X accomplish assigned missions. Operational control does not, in and of itself,% v' ^- G3 J) R1 b& A8 b; r* K include authoritative direction for logistics or matters of administration, discipline, ! N* q$ W5 m5 H$ V* P" Vinternal organization, or unit training.. D; ~8 X/ i: f: Y0 T Operational8 p: O: _* p, I Effectiveness5 s0 x1 R* e# y: H( h& E, n: ^, ` The overall degree of mission accomplishment of a system when used by , ^* Q; ?! f! @% [; j0 C$ Xrepresentative personnel in the environment planned or expected (e.g., natural,# V" W4 L1 ?9 j electronic, threat, etc.) for operational employment of the system considering 5 g8 K m6 u% U% S7 H: L5 forganization, doctrine, tactics, survivability, vulnerability, and threat (including$ H" p& M" f, Z' \( v4 h5 y countermeasures, initial nuclear weapons effects, nuclear, biological, and; N9 `+ A5 e# a) w chemical contamination (NBCC) threats).- m& e/ w) X3 U8 w& ?9 t+ T Operational2 u: v) n$ x5 O! v H/ k1 I Evaluation% x" z/ P$ `8 ]1 c% e7 F* u The test and analysis of a specific end item or system, insofar as practicable / z8 r! c1 y3 J+ wunder Service operating conditions, in order to determine if quantity production is& N2 z- v5 R& W3 x$ {+ C5 n* V7 g warranted considering: a) the increase in military effectiveness to be gained;1 Y7 _ V9 G3 |* E and b) its effectiveness as compared with currently available items or systems,. a* r2 v" j7 a. \$ [- }" \- d, Y consideration being given to: (1) personnel capabilities to maintain and operate * ]6 m. t7 @8 D# kthe equipment; (2) size, weight, and location considerations; and (3) enemy9 a5 T( A$ w3 ?* J% \0 w! Z. [% U0 o% | capabilities in the field. . b0 Y9 M( \, ~2 |3 i8 Q9 ROperational 1 |& e. |. M) E# H$ Y4 S, L. U6 ELevel of War( D. A J- K( N& r4 Y) ~ The level of war at which campaigns and major operations are planned, * T+ l4 z$ O' v5 |conducted, and sustained to accomplish strategic objectives within theaters or) `2 z) E3 F' ? areas of operations. Activities at this level link tactics and strategy by& ~1 o6 Q5 z9 b& R5 s establishing operational objectives needed to accomplish the strategic 1 k7 z: |! F5 O! L: \8 R1 `objectives, sequencing events to achieve the operational objectives, initiating : [& o; [( A! |* w$ u6 R( T& \8 bactions, and applying resources to bring about and sustain these events. These; o ~4 W" o8 f1 c. Y$ V- Z D* A activities imply a broader dimension of time or space than do tactics; they ensure 7 y2 p' |& ~8 `the logistic and administrative support of tactical forces, and provide a means by ( T0 [7 ^! M5 \3 b4 r9 {which tactical successes are exploited to achieve strategic objectives.1 P. {) z! c' Z7 t3 y MDA GLOSSARY, VER. 4.0 O 6 I5 |9 e( G: _212 0 y# L$ p7 h2 L! F7 LOperational Mode The configuration of the defense system element or segment. Refers to the ( f( Q5 T; Y+ n8 ioperational environment of system, i.e., test configuration or training 6 ]. r& |, B( f3 j u( D# qconfiguration. 0 S. G% U* x5 M( J8 V" _8 @% YOperational 8 o S2 V* \' {1 FReadiness* H. {3 O; r f8 k7 T9 O( b. D The capability of a unit/formation, ship, weapon system or equipment to perform9 x) A% T' M) a5 I4 x) Y2 {1 z the missions or functions for which it is organized or designed. May be used in6 S/ F9 n1 S" Y+ s a general sense or to express a level or degree of readiness. ! }+ _# D5 I( v- w, ^ j3 I- h. rOperational8 J& ]% F! R" Z* A/ i% w* X. _: H! } _ Reliability M( ~* Y J6 F/ f+ {0 ~ K/ t$ DThe reliability of a system or software subsystem in its actual use environment./ g4 f& _5 L% S$ I7 s7 j& d. L6 l0 i# e Operational reliability may differ considerably from reliability in the nonoperational or test environment.. N7 F8 P$ @" A2 v( k1 w Operational* Q! [; e& T' B3 s$ d Requirement 7 x" E0 X0 O. b" c) w$ ANavy document, which describes major characteristics of the alternative selected 3 Q. m5 w$ A& Z1 dby OPNAV. It is submitted as originating document for all Navy new starts (less+ X. D$ k1 t+ d$ [; Y than major programs)--ACATs II, III, IV.

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发表于 2008-12-25 20:15:45 |只看该作者
Operational' R; ?2 E. X6 _0 h3 q5 g Requirements1 m: m9 F2 `/ Y: W: X Document (ORD)3 r! n! a" g/ E, S9 k3 g Documents the user’s objectives and minimum acceptable requirements for7 [# r# W! w/ B! a: U+ ? operational performance of a proposed concept or system. DoDI 5000.1 and * _+ H, F3 q, H+ M5 dDoD 5000.2-M have standardized format across all DoD components. 5 d) O2 }5 z9 D& ~' M* VOperational, q9 \7 b/ i0 D* p. I2 B& @+ v7 o Suitability 4 t: Y' A- q% \& I% VThe degree to which a system can be placed satisfactorily in field use with $ a" h* ^: f6 F2 C9 U) w4 x8 Mconsideration given to availability, compatibility, transportability, interoperability,% Y U! X- F: o! E reliability, wartime usage rates, maintainability, safety, human factors, manpower - M6 d5 j& j( [* v& f; P% o4 j6 ]4 jsupportability, logistics supportability, natural environmental effects and impacts, 2 i8 e6 `) f( B ]3 ndocumentation, and training requirements. . ~6 m8 K' c0 ^' Z* ^6 ^Operational Test! n' n! X3 K+ k2 K, o and Evaluation' z5 n0 k' R) `8 N( W0 ^ (OT&E) 1 t2 R5 T$ T0 J6 |- bThat T&E conducted to estimate a system's military utility, operational ) h( a( t% p6 D# xeffectiveness, and operational suitability, as well as the need for any, ], L# T1 a6 y$ s8 a; Y0 ?" q modifications. It is accomplished by operational and support personnel of the, U! G) } J% G4 k) y6 v7 D types and qualifications expected to use and maintain the system when & u6 U+ K) u# a) [4 n) Sdeployed, and is conducted in as realistic an operational environment as , j3 L5 ^, P- [8 Z% d) C2 a0 |7 `possible. % N# V: z* l4 o l3 B" EOperationally0 u3 f& C8 [! J* @! f: N0 s Ready) y; M" j; O0 }; x* g6 } 1. Capable of performing the missions or functions for which organized or 2 p$ q3 A1 s; e! \* L. Y$ v! hdesigned (as applied to a unit, ship or weapon system). Incorporates both B, E1 f' ^" O% ~6 r equipment readiness and personnel readiness. 2. Available and qualified to ) ]0 O6 t! w3 v; Fperform assigned missions or functions (as applied to personnel). $ ~$ E; k7 A" J. U/ P% \Operations and $ o T/ c( f* z( n. S1 XSupport (O&S): b+ s Y3 c9 g9 r3 O Costs : }" H8 R+ o$ g- {; _) aThose resources required to operate and support a system, subsystem, or a5 Z- r$ y7 L" m( f9 u major component during its useful life in the operational inventory. 0 z( C. F( x. w7 B; D: ZOperations ) \+ {6 q( j' e: S: n9 F: w0 a1 w0 {2 wProfile # P; x6 \/ W. H7 V4 pAn identification of all participants in an operation, their actions, and the time% Z& l; L; q1 J4 t7 f7 d, y4 v% O% P those actions occur in the operation. Includes assessment of operational) n( j, k6 g- Y' i7 q! Q( B procedures to ascertain whether stereotyped or predictable patterns are 7 b. n! H/ g2 G6 pdiscernible.- e& @' {& p2 p Operations& }& P: q; x6 v: q2 @ Security (OPSEC) 8 u# X" P5 P( C; h/ g& w1 o9 i- @1 p/ FSurvey 9 A$ z( x2 ~$ w) ~, H PThe method of evaluating the protection afforded a given operation. It is ( Q0 V' F- Z1 k' k# Ecomposed of multiple functional outlines that identify possible weaknesses or # y) H' i2 d/ O2 @5 qinefficiencies of an operation that could, if exploited, degrade operational 9 i/ {- Z* O6 y* k1 I. ]" j3 k& @effectiveness. 2 p1 L) j- i: D# qOPEVAL Operational Evaluation (Navy). 8 T; m) H* g2 Z @) B* @OPINE Operation in Nuclear Environment. ; D& i( v9 V2 K+ e5 `OPINTEL Operational Intelligence Processor. 5 i4 h* i `3 \, k' m! wMDA GLOSSARY, VER. 4.0 O# Q: j7 B- l d! ?1 c 2134 x. w: `- M$ P2 n# ]& A OPLAN Operation Plan.) O$ w4 m9 Q- E OPM Office of Personnel Management.6 Y# N2 ?7 V8 q. B" t OPNAV Office of the Chief of Naval Operations.8 `4 U f' ?: ?- P3 X+ v7 O OPNAVINST Chief of Naval Operations Instruction. 9 p+ i9 @* v* V$ Z! \4 ]" Q9 ?OPNS Operations. ! Q: g; y+ a. nOPO Optical Parametric Oscillation. 6 F2 D! C4 \7 }OPORD Operation Order.- v9 \4 e; K9 } OPP Other Physical Principles. 2 u& s% U. i5 ?- W( J6 C) \: qOPR Office of Primary Responsibility. 4 V5 A3 s" A" U* \* ROps Operations (employment). 7 v. A7 H, I$ C. T- b; XOPS Operations. $ R3 E4 w" G7 D; J5 M& C( T7 m OOPSDEPS Service Operations Deputies. : ~9 I' ^( E# y: J) N) o9 D2 q$ NOPSEC Operations Security. " n/ \: T& ]; @) v# F- DOPSMOD Operations Module.3 I* [6 u: C" I& f ]3 E7 t OPTEC Operational Test and Evaluation Command, Alexandria, VA. (U.S. Army)( @4 k/ D" F- t# u. ` OPTEMPO Operating Tempo. 7 ]! H# J% q) C5 P7 v; dOPTEVFOR Operational Test and Evaluation Force. (U.S. Navy) ' Q' |$ c3 n: U! R& A6 TOptic Cobra CENTCOM Joint TMD Warfighter Exercise.6 s+ a" p8 Y, H Optical Airborne " g( J' s7 z, {) J5 ]3 S9 iMeasurement8 k9 A% a" R# ~4 u0 I: r Program (OAMP)* i0 G& v0 t" ^6 u' J- l' o- s% H- i A program involving an aircraft-mounted research platform to conduct : u( b$ q. w" w5 \' t) {1 M' [2 jsurveillance experiments that can be used to design future defensive systems.7 g2 x% g% E6 ]1 M& ~ (Also known as Cobra Eye.) 8 x3 ^/ @$ p2 c& w% a8 SOptical Coating Layers of materials that alter/protect the physical/electronic properties of the 5 [$ B; Z% E O4 m+ a: N( gmaterial to which they are applied.! J( ^! K6 Z4 [9 n' v3 P Optical 4 J' ]& |* v3 oProcessing . i9 a5 x- B" V7 Q6 A4 O! u5 D3 [A type of analog processing, in which the behavior of light beams, passed$ m+ @; _9 @2 B/ c5 [- w through optical systems, is used in problem solving. & m' r' S% y! i Y- f" DOR (1) Operations Research. (2) Operational Requirement (Navy). (3) Operational 4 z5 @$ I$ ^/ X3 a9 y6 wReadiness. (4) Operational Reliability. 9 W! }4 M7 n" |" \' x' DOR/SA (ORSA) Operations Research/Systems Analysis. * n W) I& c( O- _4 T) i. IORACL Overtone Research Advanced Chemical Laser. 3 _ N, r- R; W- T$ zORACL HYLTE Overtone Research Advanced Chemical Laser Hypersonic Low Temperature. {/ q2 r- {8 R) w9 d' \) E' d2 iMDA GLOSSARY, VER. 4.0 O 7 e2 O' _7 \2 c3 w9 H2 u. o2140 H# Z8 i8 Q: ? Orbital Elements Any set of several parameters (e.g., semi-major axis, eccentricity, inclination, etc.) . I5 f( i' v! I. u" _/ j9 Oused to specify the position and motion of a satellite. Six independent orbital" v* X7 c* s, W elements are required to unambiguously specify the position of a satellite in a 0 v# H( ]' e- _% u% C7 EKeplerian orbit at a particular time.+ X4 `- I1 }7 {3 \6 h Orbital 0 _# G, L0 l& ]2 Z% WManeuvering; W- T; x' x9 \ Vehicle (OMV); O0 C- i; q# M NASA program to provide capability to perform satellite on-orbit servicing.4 n9 k+ R5 C9 Q+ Z7 D! F' X5 y9 M( f Operates from shuttle and Space Station. + _. D) ?/ j* L. f. D0 W4 g. h" EOrbital Suborbital1 U0 p" j& v% [# _ Program (OSP)$ o* l; h; T5 y; T4 t" {) n- v A strategic target booster system used by the GMD Program that uses the 8 g( M7 z% D) F( F. i9 S; d; b% X2 bMinuteman II booster stack.

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发表于 2008-12-25 20:15:55 |只看该作者
Orbiting Debris Term referring to all earth-orbiting objects except active satellites. / _* c- z* O' f+ F5 D/ A* S2 OORC Operational Readiness Condition. 8 E+ f& d C. |- G, g! \ORCA Operational Requirements Continuity Assessment.# `: A, g" K) G- y! O5 U* n, F F ORD See Operational Requirements Document.* y( u0 S1 @" E ORDALT Ordnance Alteration. 0 H! H4 r5 R3 H/ I% @Order of Battle The identification, strength, command structure, and disposition of the 6 H+ ?+ [$ F a% Mpersonnel, units, and equipment of any military force." B; v; Z. C8 i E8 C, p, E Order Wire) u/ I' \8 q, q- k- X Message ) p2 N5 d0 j0 jA communications support function for internal control of communications8 [2 R5 M" ?# _# c, |; _ elements.) k6 w* |- B4 X; U6 u, K Organic Assigned to and forming an essential part of a military organization. Organic & S t: b3 w4 f; vparts of a unit are those listed in its table of organization for the Army, Air Force, P: P4 i4 ]9 G; [$ g( T: }3 p0 N5 rand Marine Corps, and are assigned to the administrative organizations of the# r! c8 @: k6 |" n operating forces for the Navy. - f+ [/ ]- x7 ^: Y; S5 g- DOrnate Impact USFK Joint TMD Warfighter Exercise. . I6 o$ r6 n" KORNL Oak Ridge National Laboratory, TN. 6 f" `2 {! Q" Z( Y. ^* dORTA Office of Research and Technology Applications. 0 s0 V% t9 S" h2 N( x- H3 Q4 nORU Orbital Replacement Unit. C k1 W# N% |2 B ORWG Operational Requirements Working Group. 4 c X( ]9 c, |4 K! GOS (1) Operational Suitability. (2) Operating System.* a! i$ k4 [( L8 n6 ] OSA Optical Society of America. , H z& }1 R1 g7 ]& IOSC Optical Signature Code.9 I: W# d# J- ^- t0 T1 r OSCE Organization for Cooperation and Security in Europe. # ]; R5 r r9 ~& z5 J, mOSD Office of the Secretary of Defense.% ]3 e! [) ]8 |0 {' E OSE Operational Support Equipment.- C6 e, s2 }, b6 i3 N4 W3 E1 l OSEIT Operations and Support Engineering Integration Tool.8 l- O& o7 q' B5 E1 k: r; ~* p MDA GLOSSARY, VER. 4.0 O- d2 c8 ]: r. v& L: y; o6 m 215 4 e% A* Z* @) J8 a- A" DOSF Open Systems Foundation.9 ^) L _: S; M! ~% L OSH Occupational Safety and Health.5 Q8 X9 w) q, R: t OSHA Occupational Safety and Health Act.7 `8 p# K) C6 m% x$ F& H OSI Operator System Interface.+ }4 c& \/ z7 S5 `( ]. O OSIA On Site Inspection Agency, Washington, DC." K v: N- A5 ]8 l/ |; q/ n OSIM Object Simulation (NMD BMC3 term). 4 s g% C3 \. x* A9 C7 YOSIP Operational System Integration Plan. 3 g9 L- I! I. L2 XOSIWG Operating Systems Interface Working Group. % z2 t/ b* l T! a1 n9 y1 r3 ?OSJTF Open Systems Joint Task Force.; n4 P- z6 c [: d! L; ]8 }2 Q6 H+ T/ @ OSM Object Sighting Message.2 s$ ^* `7 I" l7 i1 P4 n; f; j OSS Operations Support System (Navy C3 program).# b* j+ D( w5 u. h OSTP Office of Science and Technology Policy. % G5 r. g* z/ S, t" qOSWR Office of Science and Weapons Research. 8 {' w; H8 {" XOT Operational Test.- e" ?& X1 W# O" [( t1 O OTA (1) Office of Technology Assessment, Washington, DC. 9 e }/ A5 o$ n. P(2) Operational Test Agency. $ b) d+ G8 Y: T" X5 i(3) Office of Technology Applications, MDA.! Q+ U9 z# o* R6 x0 o2 M+ U OTCIXS Officer in Tactical Command Information Exchange Subsystem (Navy term).8 J9 c. \& o8 J2 { OT&E See Operational Test and Evaluation.7 ? }- l6 W4 u OTDR Optical Time-Domain Reflectometer.7 Y; U8 f( |9 R6 n. }: N C" h1 ~ OTF Object Track Profile.9 M$ k6 X7 o# ] OTH Over the Horizon.; ]8 x6 }: q1 _) t1 m$ q5 ~ OTH-B Over-The-Horizon. $ [9 D& }2 _! h+ K9 VOTH-T Over-The-Horizon Targeting. \* `+ A0 p/ e S K+ m; WOTO Operational Test Organization. " |/ J( M% p$ ^0 cOTP Outline Test Plan.7 l% Y( E+ l) D OTS Off-the-Shelf.; u1 d. [1 \- F6 ?' ~ OTSA Off-the-Shelf Analysis.2 l/ Y! P M2 G. U' z1 |( {2 b7 f OTV Orbital Transfer Vehicle. 8 N- d2 z' G6 Y: sOUSD Office of the Under Secretary of Defense., c9 R6 r( f8 t" K6 l MDA GLOSSARY, VER. 4.0 O : Q1 Q6 G$ z( r" S216 + H5 t* B; ?7 w6 l! ^# C7 e8 i1 }" eOUSD (A) OBSOLETE. See OUSD (A&T). ) S" L, C: o& [! YOUSD (A&T) Office of the Under Secretary of Defense (Acquisition & Technology).1 n; t0 I% X4 d/ c) v2 E6 v$ |1 J! c Outer Space( l" k% t; m8 L5 a: H {- d Treaty of 1967 6 `% p5 i" x3 K, I8 y7 p/ \& r! K4 QA multilateral treaty signed and ratified by both the United States and the 1 S/ p$ _" U! Q: k8 ?4 \( Y) G(former) Soviet Union. Article IV of the Outer Space Treaty forbids basing- o- \( D8 r$ z, H nuclear weapons or other weapons of mass destruction in space.4 K2 o9 L: Z9 F6 m2 g; C Outlays Actual expenditures. Checks issued, interest accrued on the public debt, or% L5 \. T/ d" Y3 W* [ other payments, net of refunds and reimbursements. Total budget outlays ! t" Y7 G5 `4 @: cconsist of the sum of the outlays from appropriations and funds in the budget,) _1 c( i3 V: ?1 ]: E minus receipts.1 n: L% [# ]$ C$ t Out of Band % f: w4 m7 Z/ U$ G8 {Laser Flux% z# Z/ a B- ^ (Sensor) Laser energy directed at a sensor that is intended to damage or disrupt 3 ?9 D' E& z( Y3 j; b1 Qthe sensor and is outside the sensor’s bandwidth.2 i+ C" h9 l C6 i! Y4 x! z x Out-Years Normally, six years beyond the year being worked in the upcoming POM/budget. ' S1 d" ^ ^: W0 x. V7 N! Y$ MOverlay BMD; r5 K; N& o4 W8 V4 M; N6 Z System + I1 k3 V" L4 z, \6 o4 {An advanced exoatmospheric defense system oriented toward defense of C( K' x) r$ {0 G# g4 }, s% B* a3 { ICBMs, consisting of missile-borne, passive infrared sensors and non-nuclear 7 J* g. b& p8 F& U: B& f4 v. [homing interceptors. ! @& B3 v* |4 w' d! vOWG Operating Working Group. $ d; b6 T, Q+ A5 y) Y% {MDA GLOSSARY, VER. 4.0 P 8 h, ~7 q" R7 h- C2179 R" F! K3 Q+ Q, B4 L P&D Planning and Design (MILCON term). % T" K4 h) G+ c# }P&M (1) Producibility and Manufacturing. (2) Procure and Manufacture.9 @3 q3 ^' u6 f5 j& J3 k$ t& z: ~ P.B. President’s Budget. # o4 m4 f% e9 f* UP2 Pollution Prevention./ ?/ @% F" k- u. p p2 NRTA&A Pre-Planned Near-Real-Time Assessment and Adaptation.& M/ s- s p; b# Z, J# {( u E3 N1 Z P3 Pollution Prevention Program.3 M, ~+ C+ ^& n; q4 c& A P3 I Preplanned Product Improvement. 9 |" z4 D$ v- oPA (1) Product Assurance. (2) Public Affairs.0 x" S d( i9 Z" M( _1 q$ _7 G& b PA&E Program Analysis and Evaluation.' g1 i5 ^/ }9 B; M) q# f2 W! [% L7 p PA&ID Program Analysis and Integration Directorate. 7 {) U, D& d$ Y( f: e% R" ]* t: tPAC (1) PATRIOT Advanced Capability. (2) Program Assessment Center. (MDA)% i( C. m, O, ?- d& N3 t9 O PAC-2 PATRIOT Advanced Capability-2 1 W# X- R* i+ m' g2 T- Z. H8 {PAC-2/-3 PATRIOT Advanced Capability, Level 2/Level 3. Formerly called ERINT.+ {) V. H0 s' ]. W PAC-3 PATRIOT Advanced Capability-3 ( ~- Z/ `6 W$ ~/ u& vPAC-3 SIM PAC-3 Simulation (PATRIOT), Huntsville, AL.$ N% h9 m( z5 C- ?6 @; [1 i PAC-4 PATRIOT Advanced Capability-4.5 ?) o; m1 N0 s/ s PACA Professional Aerospace Contractors Association.. v/ E$ j6 g2 ]1 W, y# c% k PACAF [United States} Air Forces Pacific. 1 q+ s- {$ @6 H4 {+ M0 fPACBAR Pacific [Radar] Barrier.! O+ W- H$ l. v5 q1 I" |3 Q PACFLT Pacific Fleet (US).

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发表于 2008-12-25 20:16:15 |只看该作者
Packaging, 3 y* ^! W- C- y% U! UHandling, , d5 p& u0 W: {9 hStorage, and0 @3 u r( L- E+ p: ? Transportation $ A6 T2 |( T6 R6 L0 E" J/ a(PHS&T) 6 m+ Y& I. h1 c1 t/ S, A b; nThe resources, processes, procedures, design considerations, and methods to$ K! H3 h. X* H! B ensure that all system, equipment, and support items are preserved, packaged,9 S' Q: ^; i* |5 C0 K7 e handled, and transported properly, including environmental considerations," B6 u8 ? n/ z0 d8 K8 w equipment preservation requirements for short- and long-term storage, and2 J4 [. a ^* q$ u* ]7 L transportability. T6 a6 g' w' W: nPacket Switching 8 w* F+ X" a/ }) G" [9 G(PSW) 9 x( y% o1 B4 ^9 b5 Z- l; iA data transmission process, utilizing addressed packets, whereby a channel is1 |9 b: t' b: o9 q* r occupied only for the duration of transmission of the packet. In certain data; ^3 f1 S! c7 ~: C# R- a$ v" f3 M communication networks the data may be formatted into a packet or divided and. c& C3 i4 N) S6 _* N U7 |" j then formatted into a number of packets (either by the data terminal equipment * S L7 g( g" X* }9 M% oor by equipment within the network) for transmission and multiplexing purposes. 7 j- Q. E6 p% A& kPACOM U.S. Pacific Command.4 h. n* a9 j4 [ PACOSS Passive and Active Controls of Space Structures.) c, l) m4 k: W PADIL Patriot Data & Information Link.4 m. n( T6 I" {" Q2 R3 S MDA GLOSSARY, VER. 4.0 P/ e5 n6 h+ p, ?$ o; S9 B8 ~! B& L2 l 218. p O, q+ F4 P9 }% g/ F PAFB Patterson Air Force Base.+ P% v2 _: k' O5 W5 ] H PAL Permissive Action Link. 4 ^9 y/ ^) I1 ~) X5 fPALS Protection Against Limited Strikes (SDIO term). . ~" s& |) q" Z& l4 PPAM Pulse Amplitude Modulation. ; I" ^: T& ~: S+ M; _. h+ W( y! rPAN Polyacrylonatrile [carbon fiber]., @# T+ c( l% x$ |& T Pancake Altitude Altitude at which the trailing edge of a chaff puff/cloud effectively catches up to8 M$ i1 D- [/ L0 T the leading edge because of atmospheric slowdown.7 F x4 T: ^3 R% R" N1 W& a8 c PAP Predicted Aim Point.* c7 c$ w5 ?5 n8 ~* Z) b! [ PAR (1) Phased-Array Radar. ; d/ j" q$ v6 @( R% r(2) Perimeter Acquisition Radar. (See Phased Array.) 6 K7 Z) C6 i4 W+ h& D, [(3) Preprocessing Analysis Report. o+ A: u T4 T( M3 a' t# F2 b(4) Program Assessment Report.; U0 H' P+ o' H5 U8 L$ n1 Q( a (5) Pulse Acquisition Radar. ! L @9 b; z5 E# t' W6 c. C2 R2 i- x$ UParallel8 j* E4 i$ X4 U- o: u Processing 8 U' K# B. V [$ j; uIn parallel processing multiple processors (CPUs) divide up a large task into- @: a( W. M' J* {+ d$ C( w smaller ones and each CPU acts on the subdivided task simultaneously so that 0 H: {: L: r# y( o: V$ Fmuch higher effective processing speeds can be attained. t& b1 p- g* I Parametric Cost - }% u5 ^4 I9 b+ l2 H+ Z8 ZEstimate& |" |0 S' c- \. V/ P) p8 [ A cost estimating methodology using statistical relationships between historical 7 V0 T; L& ^: W( T& B1 kcosts and other program variables such as system physical or performance( E8 S; u+ }# ?7 i characteristics, contractor output measures, manpower loading, etc. Also 5 W) [2 v8 |2 m( S9 C- `referred to as a top-down approach.- X4 D, { X: T PARCS Perimeter Acquisition Radar and Attack Characterization System.3 _& V' K0 e* d$ I, G" M PARPRO Peacetime Application of Reconnaissance Programs. * K5 a# `% s: Z1 v9 c: YPartial Mission . c9 Z5 j$ Y; jCapable# K% Y3 |- f4 T4 K Material condition of an aircraft or training device indicating that it can perform at ) n' W3 m( u% ~& Y2 rleast one, but not all, of its missions. Also called PMC. See also Full Mission ( G0 b0 `8 Y, _! Y: {Capable.- l% D" w1 H# B* ? Participating; w7 D. X9 M+ O; E2 B# T/ i$ y, q4 y Service1 Y! }8 |, O6 @( P A military Service that supports the lead Service in the development of a joint - n: t3 n$ z/ y+ r v7 Wacquisition program by its contribution of personnel and/or funds. $ u$ \+ R6 R5 d2 T% c1 f& g# tParticle Beam0 O( `! S$ m3 X$ j, k( E& o (PB) $ c( f4 U; R3 E) H/ p1 wHigh-energy beam made up of atomic/sub-atomic particles (electrons, protons, or) m/ I1 M/ L( } neutrons) accelerated to near the speed of light. + r2 \2 U7 o3 z4 ^( rParticle Beam 2 ~' z/ e4 V& \. J- ]Weapon (PBW)) O$ J5 B1 S7 m1 x, Z" S A weapon that relies on the technology of particle accelerators (atom-smashers)9 H0 b% P0 N* [( V2 b to emit beams of charged or neutral particles, which travel near the speed of8 q& I* C T9 S- t* S+ D light. Such a beam could theoretically destroy a target by several means, e.g., n q' K! j6 w* B- ^4 ]electronics upset, electronics damage, softening/melting of materials, sensor5 ], j- ~# ^ }& A( g/ H damage, and initiation of high explosives. H! L0 f6 V0 ?3 t" ^PASS POET Advanced Submunition Study. 8 j* {9 a p5 `7 p1 LPassive In surveillance, an adjective applied to actions or equipment, which emit no6 A. W* M3 G, a# q6 V$ W0 ~ energy capable of being detected.' I, M8 S7 j1 N! H MDA GLOSSARY, VER. 4.0 P# x- g9 U& `: `0 C; g3 o 2197 x1 c6 e* K6 A- w4 y# g Passive Air# S8 X0 n1 \# R Defense: j2 y" d7 h6 s q All measures, other than active air defense, taken to minimize the effectiveness' G! z6 j# M$ A& y! N. K' M# y- r; b& b k of hostile air action. These measures include deception, dispersion, and the use * q; W0 G, N' L! n3 d7 h5 K( Nof protective construction.. H, |8 X- j, ~( b$ W e Passive + G' c5 ~/ N9 P0 I! N! r. v; uCommunications6 i" L( A" t O! N/ e; u Security Threats 4 H& {# k4 S3 w' Q3 n% R9 `6 C1 h6 hThreats to electronic systems posed by a capability to obtain intelligence through 2 t* A% z ^6 \ yintercepting and evaluating intentional and inadvertent electromagnetic % `! W; x1 W4 \emanations from electronic components of the system; e.g. communications' y* d5 |+ ?8 t3 o" c2 h interception and direction finding. 4 g! `6 l" J$ f. X( k* ^Passive Defense (1) Measures taken to reduce the probability of and to minimize the effects + ~3 [* \1 X) }& Q. G2 ` h- ]of damage caused by hostile action without the intention of taking the. u) ]9 s" [' @6 Q$ v" C k initiative.8 l. ^1 W3 f/ r# t: [- e (2) Passive defense minimizes the probability and effects of theater missile : K7 [1 p; D' ]2 kattack by reducing an enemy’s ability to target friendly assets, reducing . Y+ H- a+ t$ F: L! ^! {/ Y7 fthe vulnerability of critical forces and infrastructure, and improving the + V% P N0 T3 w6 N5 r4 y8 T& z6 Wpotential to survive and resume operations after an attack. Passive! r0 _" V* v. f& }) o. h# k8 d measures might include counter-surveillance, deception, camouflage and s# O4 Z k) B0 ]4 _+ v4 @ concealment, hardening, electronic warfare, mobility, dispersal, and 9 B. h! U; O2 j5 n! L; W4 J6 Wredundancy. Passive defense is considered one of the four pillars of7 W( [( x0 m) y$ a- `* K1 m TMD capability. (JCS J-38 CONOPS), @9 o9 q0 A5 A- _! } Passive Sensor A sensor that detects naturally occurring emissions from a target for tracking5 `7 J4 F' O; j- \4 h7 j5 A and/or identification purposes.

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PAT Process Action Team.+ V. ~: }- v$ t/ _5 Q PAT&E Production Acceptance Test and Evaluation.5 R: C/ H$ P1 c6 h8 M PATHS Precursor Above-the-Horizon Sensor. 9 Q, t3 I R6 v% q0 b7 a) o! `4 tPATRIOT See Phased Array Tracking Radar Intercept On Target (missile).* m7 u: ^4 _* l PAVE PAWS Position And Velocity Extraction Phased Array Warning System." l. d' [1 e2 a: K9 N/ p Phased array SLBM warning system. Four sites:. I# ]' f, ~+ N# m a. East Otis ANG Base, MA " g$ T3 l3 _3 \8 [% ^& Ib. West Beale AFB, CA+ { X7 D6 N/ F6 }' u6 d6 q$ i c. Southeast Robins AFB, GA' {( N/ v' Y" p8 R* ^5 {8 `+ K d. Southwest Goodfellow AFB, TX * `; p4 a0 N! L6 I8 Y( GPAWS Phased-Array Warning System (USAF term). : q2 d4 ^( Z4 R. x; x& c! rPayload (Missile) (1) The warhead, its container, and activating devices in a military missile. 2 h+ \5 Z G- g(2) The satellite or research vehicle of a space probe or research missile. 6 u% h- X0 w4 `9 n(3) Any part of a ballistic missile above the booster stack. Includes reentry $ d7 P/ S+ k# b4 x6 p* Dvehicle, guidance-control system, countermeasures and countercountermeasures, decoys and chaff. (MDA Lexicon) 6 X- h) t9 B. _* t1 R$ ePayload Build-up' O- K' V! n: T! h4 y (Missile and & q% @; I$ _" T! O+ y, q. S+ OSpace) 8 l+ R! j* W, o, M2 q4 R0 P! X" l% Y% |% uThe process by which the scientific instrumentation (sensors, detectors, etc.) and5 g/ Q2 t- o! n3 Y) b2 w necessary mechanical and electronic subassemblies are assembled into a( f% {+ X/ N) [/ A) H. g complete operational package capable of achieving the scientific objectives of $ a/ F# Q4 F0 m6 s- bthe mission.! v3 N& `0 n4 J0 ^0 s Payload 7 d( E/ b ~ M$ _+ QIntegration $ |7 @: d& F' @(Missile and! R2 T% d5 S N9 e/ L3 B Space) ( k g( l; b' ?, k: s; oThe compatible installation of a complete payload package into the spacecraft/ p( c" D0 M$ }. q2 y and space vehicle. 7 D' E8 o, |5 x% k, h HMDA GLOSSARY, VER. 4.0 P1 _- S0 @# R' m6 l4 z# t 220 & p# A' m8 Y/ I) WPB (1) Particle Beam. (2) Post-Boost. (3) President’s Budget. * k% p/ [( _, B7 ^, ^* E" F: C(4) Program Baseline. ) j9 M; j6 Z& r" HPB/MT/D ATD Post-Boost/Midcourse Tracking/Discrimination ATD.4 A' E7 Z( x& }4 i/ } PBCRAW Post-Boost Control Reaction Altitude Wafer. ' i) t6 O+ Z/ h" ?- Q/ zPBCS Post-Boost Control System. + V& ]. }6 U* V6 j! E+ v- _ PPBD Program Budget Decision.* G( ~) x/ A( g0 s PBI Post-Boost Intercept. 2 O* T, ?% y3 w6 q g! mPBP Post-Boost Phase., d) C( ^" t+ i) g9 [! o+ ? PBS President’s Budget Submission. ! {7 F7 d# z3 ?8 X( {PBV Post-Boost Vehicle. Q' e+ S0 R7 O6 a% |4 Y8 N8 OPBW Particle Beam Weapon.3 ~; B8 t, K& Z* G+ d% c- F PC (1) Printed Circuit. (2) Personal Computer. (3) Principals Committee. ; V+ L, P( n `PC-PC Personal Computer to Personal Computer (JFACC term). , Y& `8 n2 B. j2 uPCA Physical Configuration Audit. ( Q2 @5 q/ \8 ^8 ]1 V6 j0 _PCAST President’s Committee of Advisors on Science and Technology. , S; G0 h% f; b- w9 ~2 U0 ?+ v& ^PCB Printed Circuit Board.5 F) i) r$ v5 Z% f1 j3 B PCC Pilot Command Center (C2E term).8 n$ |& L/ N6 m# x, R# }, B4 ? PCD Program Connectivity Diagram (MDA/POC term).5 v/ J, L$ k' I9 h8 e PCE PLRS Communications Enhancement. 5 }" q1 E! U! j4 }: n2 u9 S6 _! ~) TPCERT Pursue Computer Emergency Response Team. * r' E5 k; _+ c6 M/ }0 qPCF Packet Control Facility (TelComm term).5 f+ C6 E# g( J. L* m& A" `$ [ PCI Peripheral Component Interface.$ C) e. Z! E- b PCL (1) Pulsed Chemical Laser. (2) Printer Control Language. 5 b2 E3 X$ s- d2 }2 W$ ]PCM (1) Pulse Code Modulation.6 B% T9 C& L1 X0 q+ Q( d; }( l PCMCIA Personal Computer Miniature Connector Interface Adapter. 7 q+ [3 V* M: m' q/ IPCO Procurement Contracting Officer (FAR term).# R( m) {; j9 E& m PCR (1) Program Change Request. (2) Program Center Representative.0 v: R- w1 l9 w6 j7 o PCS (1) Permanent Change of Station (ILS term). (2) Planning and Control System.7 H# [# b) V% \) e PCWBS Preliminary Control Work Breakdown Structure.- u, e5 W# C5 X/ \0 [: y$ ? MDA GLOSSARY, VER. 4.0 P ( s5 i0 R5 y5 t* I* [221' w' B$ ]" U. m+ O PD (1) Presidential Directive. 2 q! m' V- T+ z8 Z3 b! |& T" F(2) Procedures Description. o7 A$ ?# x% u5 c) ?6 K D5 J% |' ? (3) Probability of Damage. 4 j P! |9 ^1 ]9 v; T/ x' J(4) Probability of Detection. . [5 }# r1 @5 B(5) Preconditions for Defense. ) \/ N+ n) K/ L. ](6) Program Director (AF). & H9 ~: I4 P' q, v/ C C) c(7) Production/Deployment.* m3 K+ H7 i% N, R (8) Phenomenology Document.7 N6 T. ]$ U$ }0 |- C% o (9) Passive Defense. " J3 w# q$ Q8 I$ Y$ W3 m4 nPD&V Projection Definition and Validation (MEADS Program term). 8 X3 B5 p. v6 o5 A' A& U8 `% Y8 GPD-V Program Definition-Validation [Phase] (Acquisition Phase term)." ]% G: _* u" r, o4 c PD/RR Program Design and Risk Reduction (Acquisition Phase term).0 ~. ^& K6 a" s* r PDB Post Deployment Build (PATRIOT). & C" x- c& b& ^$ ePDC Plume Data Center, AEDC, TN.( z6 _' @: @+ e2 j1 N PDD (1) Point Defense Demonstration (USN term). (2) Presidential Decision Directive.% ?6 l" h: W6 K PDM Program Decision Memorandum (DD 5000 term).1 q- H' N$ q- N# P PDM (I or II) See Program Decision Memorandum (First or Second).- N; {2 y, V; A. p PDP Pulse Doppler Processor. ' P" N! b2 D) h4 ^) u! X X% fPDR Preliminary Design Review.% T( X) u% b% X- n; r% @9 h PDRR (1) Program Description, Requirements Review [phase] (DD 5000.1/2).5 S! z+ @! T; N: i: p (2) Program Definition (Development) and Risk Reduction. 7 J/ V% O6 ]2 \( P; x5 f& h, IPDSL Process Data Sensitivity Label.& P3 l6 V4 G1 N PDSS Post-Development Software Support (ILS term). / Z# q- g4 d4 \' f8 [4 P9 ?PDUSD Principal Deputy Under Secretary of Defense. # S c) i! G) t% K; l7 P- fPDUSD (A&T) Principal Deputy Under Secretary of Defense (Acquisition and Technology).+ h3 H0 l6 c# M5 c }+ Y, \) O PDV Program Definition and Validation. + s) x& j, C$ U0 w! s5 jPE Program Element.

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Peacekeeper US MX Missile. ; ~& E4 ~4 w5 S4 b5 o0 R7 T. N) cPeak Gamma ( N* k, O s# zDose Rate Z7 b2 S+ l3 J The maximum rate (per second) of gamma radiation that the system could! Z2 B9 p. N) w% n1 R survive and continue functioning.3 l9 m0 m7 T" Z: y1 B- a$ H PEC (1) Program Element Code. (2) Pre-authorized Engagement Criteria. * F; r+ C0 ~- J3 h; E: f2 lPEELS Parametric Endo-Exo Lethality Simulation.$ c; u" _# S0 D1 }: d6 i PEIP Programmable Embedded INFOSEC Product (ex-MSD)., r9 f7 G4 P F; Y* P) V+ a+ {5 @( f PEIS Programmatic Environmental Impact Statement.+ h5 P$ g; {3 r8 V MDA GLOSSARY, VER. 4.0 P) D+ s( V2 D( x9 C 222 1 D) w+ h0 P' b" H* T; RPEM Program Element Monitor (AF).1 |) ?! g# d/ Y# j0 v) B5 q# K7 g PENAID Penetration Aid. % R* f0 \3 v+ l) ~' D! {6 t7 ~& H& L# NPenaid ( f6 P6 J8 ?0 m& S+ ~. d(Penetration Aid) P0 |6 h: N4 a; ?* p: `(Formerly an acronym for Penetration Aid.) Techniques or devices employed by ; s; \5 ?: p0 B$ P$ a2 l$ p% z9 ~2 eoffensive aerospace weapon systems to increase the probability of penetrating6 _. ~. o3 d5 |4 d: c: x6 t5 Z enemy defenses. 9 T) d, j6 d- @8 T3 @' G+ f3 ePenetration $ Y0 ~( B7 c7 ]3 |5 zTesting + V* u4 F. O- f. ], Y0 a) V% xThe portion of security testing in which the penetrators attempt to circumvent the $ x1 C$ s8 b" V5 X5 usecurity features of the system. The penetrators may be assumed to use all: z) I, R. w: A' g2 p2 A5 P+ \ system design and implementation documentation, which may include listings of : ?2 q! b: b0 a- H; osystem source code, manuals, and circuit diagrams. The penetrators work under3 h, X( ^/ I6 S! J. g7 H8 u no constraints other than those that would be applied to ordinary users. * o+ H$ `0 B! t, }+ d2 HPEO Program Executive Officer.$ e& z& \' X$ K4 U PEO-AMD Program Executive Officer, Air and Missile Defense. (U.S. Army) ; P, }' \2 `+ oPEO (SC/AP) Program Executive Officer, Surface Combatants/AEGIS Program.% q- _, h p' G$ V( z. K PEO (TAD) Program Executive Officer, Theater Air Defense. (U.S. Navy)( C* [0 B+ | M6 E3 V- F x PEO (TAD)-B Program Executive Officer, U.S. Navy Theater Ballistic Missile Defense Program$ v1 a9 }. j6 [9 x8 r Office. , j! i V3 D- \ v* I$ EPEP Producibility Engineering and Planning. % K! F, H0 D- P* ZPEPP Producibility Engineering and Production Planning.; w0 S0 k, ?+ L" N: c4 Q# t Peregrine An Air Force boost-phase interceptor concept under development at USAF/SMC. # ~* ^4 ^: t/ ^$ e0 t" c$ J; KPerformance Those operational and support characteristics of the system that allow it to5 e6 }/ G6 Q# h4 Z, D; u effectively and efficiently perform its assigned mission over time. The support + C3 F. x# F) \* [characteristics of the system include both supportability aspects of the design ! W# |- _7 u. Zand the support elements necessary for system operation.( }& N# }/ H- Q2 p2 `( L( t9 } Performance i1 p" ]* l+ ]' X0 H- \+ K, m Requirement " Z, _+ Y7 F9 c: i6 _" IA requirement that specifies a performance characteristic that a system or system % F+ P4 X0 P J4 Lor system component must possess; for example, speed, accuracy, frequency. - C7 G3 w A8 q4 \' SPerformance 9 _2 E% T R' U8 ]0 aSpecification$ P' L! U- v8 B' H- S (1) A specification that sets forth the performance requirements for a system " @. A/ N3 W& V. m( R- N1 s) tor system component.1 J6 e# Z9 U, ]2 x (2) Synonymous with requirements specification.+ M" K3 G+ K7 b% m$ i Perimeter' B" J" a2 H. Y# F, n3 U2 Y Acquisition8 ]2 S" ~2 D: f Radar and Attack " [9 K2 F- [; L' g) f0 DCharacterization # F6 B4 C d1 i, H2 @System (PARCS) 8 p6 U7 @4 J1 @( IAN/FPQ-16 phased array radar at Cavalier AFS, ND, used for early warning and 3 f9 w/ A, v9 @: K6 i; l; Zattack assessment. + L- U B& p& }Period (nodal) Time for a satellite to travel once around its orbit. 3 d. i8 O- `$ o7 e+ T$ mPermeability Having the ability to diffuse through or penetrate something. # ~$ S6 `) \* f- dPershing II OBSOLETE. US intermediate-range missile deployed in Europe. & f& C h6 R) Y3 [4 m: ~* SPERT Program Evaluation and Review Technique. ; {0 u0 g/ ?5 f3 ~' K5 ^4 m5 oMDA GLOSSARY, VER. 4.0 P % h: {5 I' I: g9 L1 W, B223 / q7 @" m; `& {6 k9 nPERT Chart A graphic portrayal of milestones, activities, and their dependency upon other : G# L7 W$ ]1 n1 Q* Q+ N/ f& uactivities for completion, and depiction of the critical path.. `' d5 R+ z9 g! e* x+ ~ PESHE Programmatic Environmental Safety and Health Evaluation. % l* ]+ i9 m* bPET (1) Pilot-Line Experiment Technology. (2) Production Environmental Test.: E* W' R/ Y$ G PFC Prototype Flight Cryocooler.' l% D- }6 p) H" Q$ c" h8 s8 c' J PFD Preconditions for Defense. Y1 ^" j `( yPFIAB President’s Foreign Intelligence Advisory Board. 4 u+ {4 t3 K3 \8 nPFS Pre-Feasibility Study (UKMOD). b2 l( r, N% E1 r6 _$ K) z( z PGG Patrol Gunboat, Guided missile (Naval term). " j5 z4 j) b- v! h$ \) b X! |PGGH Patrol Gunboat Guided Missile Hydro-foil (Naval term). 2 L- z3 S2 V$ s7 k( nPGM Precision Guided Munition. 8 Q7 a: y4 U, Q7 Q& a+ ^7 GPGU Power Generation Unit." y! o; J' i2 A0 F# L PH&S Packaging, Handling and Storage (see PHST) (ILS term).% w( q$ y0 U6 c/ D Phased Array The arranging of radiating or receiving elements that, although physically 2 q n j, H9 H7 \* v4 ]stationary, is electronically steer-able and can switch rapidly from one target to / h! ]2 e! C5 j- B3 U( uanother (e.g., phased array radar). 0 r. @3 ~( k4 yPhased Array/ v9 V3 F7 A; E6 w Tracking Radar & _% s: d- D3 S$ r; S* E2 tIntercept On 5 M3 u1 r5 ~; c9 x$ VTarget (missile). X$ o2 S7 K6 N, o% | D3 e (PATRIOT)5 F6 t3 _4 ^7 e& x( s8 \ A point or limited area defense system originally built to intercept aircraft. PAC-3" R3 E5 W- F0 n( O improvements, which will give it greater capability against theater ballistic missiles,5 v3 _8 x1 X2 X+ K8 L+ ?4 W include upgrades to the radar and selection of an improved missile, either6 D z, T' E) g) b PATRIOT Multimode Missile or ERINT.' o8 @& K# `' m+ E4 O' d Phased+ W( k9 y0 R5 _' P7 f4 g Deployment 6 ~. C5 X9 F6 L* c( HThe sequential steps of element deployments leading to a designated system0 s! H W& v; `6 J capability that is realizable with fiscal and technological constraints. $ o( H1 F6 I) ~! D6 g/ d1 FPhase One6 E& i, T* `7 y Engineering6 x2 m9 l. f% L Team (POET) , v/ _" x1 d( r* EOBSOLETE. An FFRDC providing technical support to the Phase I Program& E8 e" w6 z& B% ~; M Office. Now referred to as POET. # e' |9 F) y4 E# b& WPhenomenology The topological classification of a class of phenomena. Phenomenology efforts 8 P2 ^2 O- i% z. y! q8 dcollect and analyze optical and radar signature data, and model phenomena ) M# l7 y/ d) @$ Urequired by systems developers to design and evaluate SDS elements. : n0 q1 {/ X$ b' S' F& x- `PHI Photonic Hit Indicator. 7 {; d, O$ M2 V$ p7 |; {PHIGS Programmer’s Hierarchical Interactive Graphics System. 7 u+ h8 Y* ^, X, PPHOTINT Photographic Intelligence.: z9 J$ G) Y: B5 ^1 X, W Photochemical A chemical reaction resulting from exposure to radiant energy or light. 5 ~8 J. t- e ^MDA GLOSSARY, VER. 4.0 P + \$ g1 G" h! y4 w* p7 }; g224 0 R! |6 D) v6 \! u" F) pPhotoelectric u6 B. @; u0 b2 K/ L* TEffect+ b2 i8 W2 M$ g ]& { h. a The process whereby a gamma ray (or x-ray photon) with energy somewhat 3 e1 z# H( d1 Agreater than that of the binding energy of an electron in an atom, transfers all its , M9 i& Z! W: l$ Renergy to the electron which is consequently removed from the atom. Since it, c4 R+ i. {, ^8 }0 R has lost all its energy, the photon ceases to exist. (See Photon.)) f$ S6 V9 Q3 \ Photon A unit or "particle" of electromagnetic radiation, carrying a quantum of energy,; n% }, l# M: G1 ~2 g7 O$ ? o3 M which is characteristic of the particular radiation.' r/ I/ b5 x3 ?" u PHS&T Packaging, Handling, Storage, and Transportation.1 f8 F! o0 l# h' F Physical Agents Descriptive term that includes non-ionizing EMR, static electric and magnetic# T4 i0 A( g* T' L fields, ionization radiation, energy beams, noise, explosions, de-orbiting debris, & W! Z( [) L! A9 v$ ]and extreme cold.

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发表于 2008-12-25 20:16:48 |只看该作者
Physical; d$ m# c; e- H% a) R" q8 ? Configuration9 `# r& q2 X7 y! \& \- q8 | Audit (PCA)/ u6 q- Z2 N* c' Z+ R8 b0 _/ N3 M Physical examination to verify that the configuration item(s) “as built” conforms to% S! n) Z" I; c# A- ~3 H! H/ b the technical documentation that defines the item. Approval by the government ; Y t3 y/ S8 {8 L" R' a! Z$ }: ]program office of the CI product specification and satisfactory completion of this8 @6 T6 R5 f. A1 y8 L audit established the product baseline. May be conducted on first full production7 H8 O6 Z: W+ A2 _ or first LRIP team.( E# J5 F4 v- q5 w; R PI Program Integrator. ( a V& ^) z2 M" }* S) h cPIA Personnel Identification/Authorization System (USA term).# v Q6 y, A4 a5 G6 J. ~ PIC (1) PLRS Interface Controller (US Army term). 1 C* p+ `% s( }$ P( |2 Z6 |(2) Policy Integration Committee.3 K1 _8 W7 H r6 l (3) Program Information Center (Computer programmer term). 3 t/ E3 r' w# W. l+ uPicture Element+ \* j% R. c- X* ?) V4 } (PIXEL) % @6 E* U, M5 x4 L7 OThe smallest element of a display space that can be independently assigned, ~$ Y' t0 _' x2 [2 o/ B color and intensity; the finest detail that can be effectively reproduced on a- J9 E9 A* ?. X2 I recording medium. 3 _3 F1 e: |" h, ^3 CPIDS Prime Item Development Specification.4 F/ B' O6 H6 Q/ v7 i Pilot Production Production line normally established during EMD to test new manufacturing - M5 C O9 ~& kmethods and procedures. Normally funded by RDT&E until the line is proven.! K% F. o0 K0 @4 @ Not the same as long range initial production.; Y x2 l9 I& Q. `* V PIM Position of Intended Movement (USN term).8 V6 \- N7 z4 J# R, A2 I PIMS Programmable Implantable Medication System.& G5 J* `1 ~, Y# B& A" X7 z PIP (1) Predicted Impact Point. (2) Predicted Intercept Point.& A! J P! w; P1 p1 V( a5 _ (3) Product Improvement Proposal/Program. & J# ~. ?. V2 J/ ]7 v. o# P+ ZPIPT Program Integrated Product (Process) Team. + u, I% r% c1 B+ w9 d3 p2 P3 A# c I7 `0 MPIR Program Information Report.) \. ?* f# V, R7 h1 V* f PIXEL Picture Element.! e6 @; u) {2 T) I Pk Probability of Kill.! h- V% c* F. L: ~) M PKCS Public Key Cryptography Standard. ! o% S7 A3 N/ m2 R% iPKH Probability of Kill, given a hit. + ^" `! {8 r! X: y: dMDA GLOSSARY, VER. 4.0 P k9 y1 M! x' Q! `, R2 [8 @) Q 225 5 ?) }# H7 |- S: u( j" Z( u' X TPKO Peacekeeping Operations. * q7 B" I/ i5 E- l+ N" B* A$ K8 q9 qPkss Probability of kill -- single shot. * t0 n9 v, G- ^# pPL (1) Probability of Leakage. (2) Phillips Laboratory, Kirtland AFB, NM. (3) Public; x1 X. v! r& g' n- J. ^1 y Law.1 T2 M$ ?! ~0 `) p+ m: t+ o; u PLA (1) People’s Liberation Army (China’s army). (2) Patent License Agreement.% @9 o8 A8 o, C PLAN People’s Liberation Army/Navy (China’s military). : o1 |% h& g8 O, L% YPlanning, # l# k/ W# W M% G- wProgramming,6 s/ r3 q* N9 i2 O Budgeting 7 i' h% g; x# I- o* XSystem (PPBS) 3 I+ x7 @- h- Z6 M& k+ YThe primary resource allocation process of DoD. One of three major decisionmaking support systems for defense acquisition. It is a formal, systematic + v9 S( @$ a: M% G! A- P- ]6 fstructure for making decisions on policy, strategy, and the development of forces/ w7 c' y7 f8 j1 ~+ U) ] and capabilities to accomplish anticipated missions. PPBS is a cyclic process 5 g! O; t3 u0 Q# ccontaining three distinct, but interrelated phases: planning, which produces the 0 N3 y/ `. |$ R' H1 rProgram Objectives Memorandum (POM) for the Military Departments and & A H* Z( E) W& ?! o0 CDefense Agencies; and budgeting, which produces the DoD portion of the* N' V2 G; k' h* [ President’ s Budget. DoD PPBS is a biennial process starting in January of each, E/ [' H D+ s+ a- b6 `, T, ] odd numbered year with national security guidance to initiate the planning 2 I( ?7 U7 S1 U* Yphase, and ending in January of the next odd numbered year with the 6 B# v$ k( L# k, r/ t( E2 [ d7 LPresident’s budget submission to Congress. (Defense Systems Management " g8 `% [5 s+ kCollege) 7 S4 ^; k6 t( H4 ~ n! J, @PLCCE Program Manager’s Life Cycle Cost Estimate.5 N- r' E) j: b( g9 W, {+ W, W PLISN Provisioning List Item Sequence Number (ILS term).$ Z' j! @* L) g8 a9 q3 z$ T& A PLRS Position Location Reporting System. ) C' o6 j3 C" R! W, {2 P2 C6 ?Plume Data' a2 d( T5 b2 n Center & q) e7 l1 h6 Z2 j6 ^; v7 HAEDC, Arnold AFB, TN.- ~( m& c& `# e1 O4 S. B PLV Payload Launch Vehicle. 6 x. r9 a2 e6 \4 l' [- XPM See Program Manager. ; q# j8 z1 V2 L l) f5 `, ~PMA (1) See Program Management Agreement. % L& D# `1 R& C7 k) C4 v(2) Post-Mission Analysis.; p2 G$ Q% q: i2 _ (3) Pressurized Mating Adapter (NASA term related to the space station). " d' T: U- a. J9 yPMASIT PMA Software Input Tool MDA/DPI S/W tool).& m/ U" p2 T5 Z7 M* Q4 f PMC PCI Mezzanine Card (computer H/W term).7 u: L6 F& j4 e1 C, q! K PMD (1) Program Management Document. (2) Program Management Directive (AF). ) }9 O6 Y1 {* u/ c# o- qPMEL Precision Measurement Equipment Laboratory. ) @5 W0 d5 e: W L# J$ JPMI Preventive Maintenance Inspection. % U9 ^4 d# F5 P7 tPMIT PATRIOT Missile Integration Team (PAC-3 Program term). ! M9 I& G* k) j l( w0 lPMJEG Performance Measurement Joint Evaluation Group.. z! z* ~: f+ J PMO Program Management Office. 1 ~, l+ @* G- P7 xMDA GLOSSARY, VER. 4.0 P 6 z$ U- B. n' T$ N9 O7 i/ J5 J% x7 [: L226 ; c3 z& a. H$ p4 wPMP (1) Parts, Materiel and Processes (US Army term) (See also MPP). $ y- R0 I; a$ A: P% A" L- J(2) Program Master Plan.- m& O! h0 v0 V' n (3) Prime Mission Product. ! s7 c7 |0 _$ l% S' F(4) Program Management Plan. 1 T& b& I5 V. y6 tPMR (1) Program Management Review.$ i& `& U& C& s% H$ p$ e$ q (2) Pacific Missile Range.9 Q. x" s* y6 r, M% S, [ (3) Program Manager’s Review (PAC-3 term). * `# d$ d$ M5 Y: I1 oPMRF/KTF Pacific Missile Range Facility/Kauai Test Facility, Barking Sands, Kauai, HI.& a. T, t3 f0 c; K- M$ w3 J* q g PMS (1) Planned Maintenance System (ILS term). 7 P. t; U7 Q$ H(2) Performance Measurement System. 3 ?% O' W; N) l: P; WPMTC Pacific Missile Test Center, Pt. Mugu, CA./ i$ l$ Y' T9 [( n6 [ PMWG Producibility and Manufacturing Working Group. ( [6 e/ T5 K( mPN Probability of Negotiation. # @# [4 v$ }8 ^% {) yPNE Peaceful Nuclear Explosion.3 f; t/ W& }( d PNET Peaceful Nuclear Explosion Treaty. ! j) c; m, k/ p- [4 @' JPO (1) [Acquisition] Program Office.; @! I) c& V- n' D; q (2) Purchase Order. 2 ?+ F' P7 ^$ m8 n kPOA&M Plan of Actions and Milestones.' l- l" W V# o' ~- J8 f POC (1) Point of Contact. (2) Proof of Concept. ' N T; x- v% Q7 X/ RPOC/ET Proof of Concept/Experimental Test (e.g., modular USSTRATCOM ground mobile ) \3 v9 H6 j- [) i2 I8 xcommand post). ! \2 B) f8 E5 e( Y5 sPOCT Passive Optical Component Technology.' }/ n. O: I5 S, n) s; B1 O POD (1) Plan of the Day. (2) Probability of Detection. (3) Port of Debarkation. " l" ]" ]6 o" C/ \+ jPODIUM Project Origination Design, Implementation and Maintenance. , l: `& T* l0 fPOE (1) Program Office Estimate. (2) Projected Operating Environment.; f) G0 v$ Q' m1 U2 ~ POET A consortium of scientist and engineers from FFRDCs providing technical support # u" O! }/ \5 | ?9 hto the MDA. (Formerly referred to as the Phase One Engineering Team.)- B0 N; b: F: y Point Defense The defense or protection of special vital elements and installations; e.g., - _+ O; a6 R5 @9 r" @3 Qcommand and control facilities, air bases, etc. / t) b: M+ e" a3 uPoint Defense ( H, Z) I' I1 b3 V7 c9 T- zSystem 3 D4 Z7 f2 X, ^; |/ s) ?A terminal defense system using radars and large numbers of guided projectiles , r( Z0 `! x9 h2 j Y% n" F d/ d0 Fto defend ICBMs. This concept was considered in the early 1980s. ' |& }) n0 d; i7 i, @Pointing The aiming of sensors or defense weapons at a target with sufficient accuracy) N9 _2 L2 p/ s, T1 Q- w6 B either to track the target or to aim with sufficient accuracy to destroy it. Pointing+ z7 V" p D% h and tracking are frequently integrated operations. - z5 c+ u9 g1 V( Q/ }: U$ \# J8 XPOL Petroleum, Oil, and Lubrication.$ B5 b) d( h+ r0 C MDA GLOSSARY, VER. 4.0 P3 [0 Z: J- T3 o8 y# Q 227 " q* [9 c8 c. z2 s3 u: v8 FPOLAD Political Advisor.

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发表于 2008-12-25 20:16:59 |只看该作者
POM Program Objectives Memorandum. ( z' m& O# x- {/ F6 k) d, C0 gPOMCUS Pre-positioning Of Materiel Configured to Unit Sets. ' f5 f! V6 ^9 \# ?( FPOP Proof of Principle. : d1 |* j+ P' Q9 TPort Covers Mechanism for thrust termination of solid-propellant systems.# j+ F" T% K2 J0 d Portability (Software) The extent to which a software component originally developed on; m* G; K& P( z; S6 H one computer or operating system can be used on another computer or : K7 \2 I6 R1 `$ [, i% ?8 m }! A5 noperating system.* g$ b$ O1 s5 G! J5 q POS (1) Primary Operating Stocks. (2) Probability Of Success. (3) Position. [6 F: o( L3 q/ a Poseidon Class of US nuclear ballistic submarines (USN term).6 i! J+ P3 B3 l POSIX Portable Operating System Interface. % m9 `: j& ~/ j6 HPOST Portable Optical Sensor Tester. ) |9 O X7 C3 e$ p3 \# i9 b% aPost-Attack The period following the attack, prior to the next wave. 5 N* o- n) S# b1 p9 VPost-Attack! |$ K, Y& K8 m/ P' _ Period 8 z1 V' r5 _# ?0 Q! p; t8 I" g2 {# SIn nuclear warfare, that period which extends from the termination of the final # M# u3 A" L# yattack until political authorities agree to terminate hostilities.. V2 e& X4 H M Post-Boost / ?" b( G' Y7 r; U, E7 @Phase (PBP) $ T- T: {3 q+ j+ k/ o+ nThat portion of the trajectory of a ballistic missile between the end of powered [$ P7 u9 [, `! yflight and release of the last RV. Applies only to multiple-warhead ballistic 5 S+ _# n+ X% }+ D/ d7 n1 ymissiles. (USSPACECOM)# x. `5 r. ^& I. d9 _ Post-Boost , L9 k4 e1 D8 s' j" T5 Z' QVehicle (PBV)9 T; [9 M. H5 ?; B) L; i5 ^ The portion of a rocket payload that carries multiple warheads and which has the ' h: q) X$ j4 Lmaneuvering capability to independently target each warhead on a final 9 ?/ \3 e2 |; x: Utrajectory toward a target. Also referred to as a "bus." 1 i, w$ W6 \/ q, K0 MPOSTPROD Post-Production.& \% q; L) Y5 X [ POTS OBSOLETE. Phase One Threat Specification.5 R6 ~9 N) h1 Z! |/ w# E* H. ~/ N PP (1) Parallel Processing. " D, ^' j+ {* D& Z) \" i2 e. V(2) Principal Polarization.7 B$ c! @, s7 B! e: O6 I (3) Post Processing.2 k9 }$ v' [2 a# r) O( a* `" d+ a! e (4) Program Plan.+ ~* L7 A; ]* W5 M4 X PPBES (1) Planning, Programming, Budgeting, and Execution System.: Z% B" n7 C& m1 k( d( i (2) Program Planning and Budgeting System.2 C: _6 ?# f! S- v$ r3 C PPBS Planning, Programming, Budgeting System. ! C+ _" {( W, B0 ~4 d' RPPG (1) Parallel Programming Group. (2) Program Planning Guidance.9 k5 T8 \2 K: b1 o PPI POM Preparation Instructions.7 w. H3 G5 v! k3 E) j/ @) c5 Y PPIP Program Protection and Implementation Plan. $ t _! E: L8 k% iPPIRS Producibility Programming and Issues Resolution Strategies. 1 E+ t6 q K; X5 o6 D0 ~MDA GLOSSARY, VER. 4.0 P) z. k+ d" H0 f* w 228 $ i; [; k/ u; n! m0 |- T8 J8 RPPL Provisioning Parts List (ILS term). * L$ X; |; G7 B2 L* N1 NPPLI Provisioning Parts List Index (ILS term).8 d2 B, C/ ^6 G( e PPP Program Protection Plan. - f6 J, Y2 t6 \9 \& f/ p+ @PPQT Pre-Production Qualification Test. $ L, Z: n' n: fPPS Precision Positioning System. / x2 r( P! t& X4 f( g# ]PPU Prime Power Unit (THAAD). - C( U2 M1 ?6 s3 m+ \3 R t8 P$ cPR Procurement Request.7 ?( r9 G" b0 F8 T( i/ { PRB (1) Planning and Resources Board. (2) Program Review Board. - e+ E# M2 p3 i" e; mPRC Program Review Committee.& X& L$ L2 W9 _2 A( n PRD Presidential Review Decision. \4 M# [& o3 h: {3 k& F) T4 sPRDA Program Research and Development Announcement.- Q( m- m8 `8 D' P2 x9 U9 }% ` PRDR Pre-production Reliability Design Review. ) q3 E7 ]% u. F( z/ o" DPre-Allocated2 k' T/ G' o# K. c" N9 c Defense 7 @7 n' ~ \* P; v. d" ?A preplanned decision to designate a specific number of defensive assets to be 4 B) O9 q4 w' O0 T2 Q# G. b( c( aused against a specific target or set of targets or to defend a specified asset or # i0 d/ p. [/ Y; o- K/ y% M! ?' yset of assets. The defense will select the best tactic to use based on the ; v# ?8 M6 } k ^& k0 b4 ?7 M/ knumber of interceptors available, their probability to kill, the number of targets 0 w- ?3 U) i5 v9 `under attack to be defended, and the scope of the attack.' I: A& ^$ }. V; J8 U& L: L Pre-Attack A period of time immediately prior to an attack, usually hours to minutes to tip-off.5 K. P: l, N9 N1 S+ p3 s Pre-Authorized; l% H: }$ n6 I+ } Engagement ; J: w0 W- N& E! ]; T; f' GCriteria (PEC)# K" L4 ]2 z# u9 @5 Q Pre-specified quantitative operational parameter thresholds which when0 S3 G4 I/ e3 i0 L; i surpassed cause automated engagements to be enabled. 3 \3 d) Z5 Y3 Q1 [Pre-Commit3 y1 ~7 ~. e/ E7 P5 z Strategy0 @ ]8 U1 P& l9 F+ o A tactic in which defense weapons are fired without being individually committed 2 @$ r9 I: ^3 ?5 rto specific targets. Target commitment would occur relatively late in the ( ] p7 W. K1 e' S e" K7 p: x6 Kdefensive weapon’s trajectory. I% S5 `8 f" _+ l! p4 F! i, A Pre Launch # X/ _; P" @' U: G2 v! |Survivability 5 F* U z5 y, R: FThe probability that a delivery and/or launch vehicle will survive an enemy attack' B! J0 M" I- q: ~ under an established condition of warning., h( l# T1 o8 b1 N1 R Precedence 1. A designator, which indicates the order in which a number of messages shall " R9 k8 c$ V! [ gbe served. Four precedence levels are provided for SDS, with one being the: g. G! X$ G: i) J: @$ d highest and four the lowest. Messages with precedence level one are served8 P$ Z1 f; Q* ^! n' \- v! Q: @ first and those with level four last. These correspond to the four precedence, g) V. N1 }' s) ^1 N. ?% M levels, Flash, Immediate, Priority, and Routine respectively. 2. (Reconnaissance)" U- v8 r! s+ n" B' V y A letter designation, assigned by a unit requesting several reconnaissance 6 O+ u# }) y; j1 y5 R @9 i. }missions, to indicate the relative order of importance, within an established 6 M: |# i5 x4 A( Ypriority, of the mission requested.

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发表于 2008-12-25 20:17:11 |只看该作者
Precision 8 V& Z9 [3 m0 u2 J% `Decoys& b4 r' s+ G: Y/ d0 D' w, Y Decoys that precisely match RV characteristics either exoatmospherically or: w- G6 v# o, E* t2 m( N endoatmospherically, or both, and seek to deceive the defense into intercepting0 l3 C3 m0 \: _; |+ b; f) ^ them.1 b0 N& c+ b- A' ?0 ^2 } MDA GLOSSARY, VER. 4.0 P % m, ~& O2 W3 @7 F* n229 4 k* Y4 P( ]/ u% LPreconditions for $ @0 U0 [# b* UDefense (PD); r+ F3 D: d2 t PDs are NCA pre-approved criteria, authorities, and procedures that delineate 0 [- U* Q6 ] o5 F" q/ D1 |circumstances under which USCINCSPACE BMD forces will initiate or continue 0 C7 N H& z) l' V/ R$ [9 Bcombat engagements and operations against hostile ballistic missile attacks/ Y; f( k9 P+ O) O$ L directed at the United States, its Allies, or U.S. interests during peace, crisis, and 1 L. I. M, s" z) q* r6 Vwar.. z/ ^3 p7 }4 ]( A. ? Predicted0 U. S0 I8 o4 j$ Q, K( z* O; v; [' V Intercept Point w. e# ?5 \' A v1 o2 i (PIP) o5 B9 F6 l; |6 T, eThe calculated position in space where the target and interceptor coincide.+ f3 A7 G5 n! @! ~( j Preferential1 `) @- x* w* q5 Y Defense % C5 L/ K$ D# GPreferential defense is the a-priori assignment of defensive assets to protect " s3 ]; e. b. r' W F5 sgiven facilities or capabilities. : `: m Z1 T2 o# |/ W! G% yPreferential . h8 T$ j. T2 yDefense Strategy* ]! O/ u p/ O1 @; |5 q A tactic used as part of the SDS strategy to optimize the use of weapons and3 z0 U+ r+ l2 ^" }# l$ b" x- {$ ` sensors by selecting high value targets for engagement by the defense while+ T8 i5 M, ^: R% _. v temporarily allowing less important targets to pass. This strategy forces the' Q# N) A: K$ m" ~' @+ a offense to attack with several times as many RVs as the defense has5 ?$ |7 `/ v2 {1 R! N interceptors. Since preferential defense demands precise impact point prediction, ) R) K+ G7 N# _3 [0 C; s t4 ]& ~the strategy is placed at a disadvantage if targets are closely spaced, if RVs can Q, ? ~- X3 `! Y1 A E maneuver or if the defense intercepts ICBMs in the boost phase. ; ?7 Q$ H/ l' Y9 H1 mPreferential 1 k5 ^7 n* D7 A6 m/ ~& z+ c: jOffense6 m9 _( t1 `: t7 n/ \' B The concentration of offensive assets on a subset of targets.9 [' |6 \4 W1 y+ c. Y* _ Preliminary, e* O& _' H. V; P3 L) P Design Review + u) W7 E1 c, P- Y/ m(PDR)( f2 P! Y& |) A6 y6 u A review conducted on each configuration item to evaluate the progress, & f/ a" _7 ?+ _! Mtechnical adequacy, and risk resolution of the selected design approach; to5 c4 Q3 ^+ Q' q' v9 I determine its compatibility with performance and engineering requirements of the) e' X4 c& Y8 Y( N% I development specification; and to establish the existence and compatibility of $ U1 |7 }& |/ L3 mthe physical and functional interfaces among the item and other items of; p3 G' C: q) J( Y% ^7 |# \, O: f equipment, facilities, computer programs, and personnel. Conducted during 5 C& K! q! Y' ?) j9 w! APhase I, Demonstration and Validation (for prototypes), and Phase II,9 Q4 M% z h5 A+ a Engineering and Manufacturing Development. & x8 p% L9 K( D# a6 G$ ]3 WPreplanned4 X u3 n8 E- x6 U/ j2 f Product$ c& B2 V9 F% ~" q Improvement - s8 b- q- O$ I: ^3 B(P3 I) 4 C w& ^5 m" A. K1 u* \$ t. X; MPlanned future evolutionary improvement of developmental systems for which" o# Z# L& O- g: g* B design considerations are effected during development to enhance future . K, e) M" e; H0 ^6 qapplication of projected technology. Includes improvements planned for ongoing , ?* H! b& z8 D; w* P( Y' Csystems that go beyond the performance envelope to achieve a needed, N4 \ n/ A/ g operational capability. 8 M: P# a: ~9 X. c0 VPreplanned# a3 v7 ]. p8 w& a/ o8 J Response 6 k$ S; I4 h$ e& ?Options (PRO) - Y* x& m. ^. sBallistic Missile Defense (BMD) reactions, which have been preplanned,$ y6 `) g( q0 @, j# }" c analyzed, and pre-approved, for specific ballistic missile threats. The PRO, o8 N! f1 d2 }/ D% Cequivalent to an operations plan, consist of a number of Defense Employment) T5 t0 u& d8 R. P* t$ i9 r6 T Options (DEO) which provide force employment objectives to Component forces W; k( m6 @) Q$ G' t( }based upon the world situation, national objectives/guidance, BMD asset status,. e# K( f! p7 x7 B6 s; J and the intent of the threat. PRO is automatically processed with real-time0 L/ Y" L! e) F4 V% Z* C human oversight and control when USCINCSPACE directs execution.& j; Z4 w! T! ^6 B' H Preproduction ) T4 g8 E- @7 F% \5 U( Z9 JPrototype" E: A% {7 Q2 G+ K An article in final form employing standard parts, representative of articles to be 5 C" B/ L+ ^. h$ y" ?& W- Q$ D5 mproduced subsequently in a production line.. Q: g4 ~& D7 `7 Q, q9 X Preproduction ! E0 p+ ~: w* P5 n3 o4 N2 mTest ; [+ q* _1 U5 ^( C* Y! PThis is a test of design-qualified hardware that is produced using production5 b+ k, R V& P+ _' ]2 l tooling and processes, which will be used to produce the operational hardware.6 B* C+ q. W( {6 z$ A; G No production hardware should be accepted prior to satisfactory completion of $ x8 K& M _9 K4 d/ W* ?- sthis test. Test objectives include: gaining confidence that production hardware; E' ]) v- r9 Y0 f9 }" j is going to work; that it will be reliable; that it can be maintained and supported) [; u( M l0 n$ b/ c* w by the user; and that it is not over designed. , E! ~" d/ } HMDA GLOSSARY, VER. 4.0 P ; z0 F. x6 c( O3 z230 ! B2 \: O# V4 Q* L7 F6 c) A. R2 APreset Guidance A technique of missile control wherein a predetermined flight plan is set into the5 A' f( f) X3 O, F1 ^& a, N* M control mechanism and cannot be adjusted after launching. 1 U# O. O5 ]" {4 @7 EPresident's; U5 Z# { ~+ x7 e Budget (PB) ( E( p% v( {7 [2 SThe Federal Government's budget for a particular fiscal year transmitted in5 T! ?' l: A1 V! a& B) m8 j( ], c January (first Monday after January 3rd) to the Congress by the President in' |/ B( a% p9 H; q- E0 ] accordance with the Budget and Accounting Act of 1921, as amended. + @9 P' w& h% Z* ~Includes all agencies and activities of the executive, legislative and judicial ' F& }! Y( j! A$ z* M; [branches (For FY 88/89, two-year budget for DoD submitted in January 1987.)8 E1 [: [' B& o/ a5 \4 q& i3 f PRF Pulse Repetition Frequency.9 N2 I3 N$ h4 a8 K; b3 V PRG Program Review Group., [" [% a5 D/ p2 \9 m# L- w, H Prime Contractor A contractor having responsibility for design control and delivery of a system or1 q+ f% i% C" D l: ?, T# N" w4 ~( ` equipment such as aircraft, engines, ships, tanks, vehicles, guns and missiles,4 X* _3 H# T, R: \: E ground communications and electronic systems, ground support equipment, and ' G2 h5 t: n0 a1 |: Wtest equipment. 9 l( Y6 n; b: {2 h# d) hPrioritize Targets To identify and rank targets in priority fashion, based upon criteria such as type,6 ?( e$ l, t6 j( T predicted impact point, and predicted time of impact.. q/ N7 |0 j( Y% e( \ PRN Pseudo Random Noise. 3 V# q& {! {% P9 g, gPRO (1) Preplanned Response Options. (2) Plant Representative Office. 0 v% q5 s6 ~2 _2 R5 }+ Q% Z5 vProbability of ; u+ o a' z' Q4 HDamage( C C5 P) ^1 b% R3 g The probability that damage will occur to a target expressed as a percentage or $ _- W* }5 E4 }5 f e7 gas a decimal." Z; X2 [# @- {! y Probability of$ x+ _( ~( y. j0 l1 K Detection 0 l6 m1 n+ F, U1 N) p(1) The probability that the search object will be detected under given + k: m$ |; d0 I* rconditions if it is in the area searched. ; |( _. t* ]# u; X) v* k* X: p(2) The probability an object will be detected given all known error and noise4 `5 n5 O- H1 y" E$ J sources.

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发表于 2008-12-25 20:17:22 |只看该作者
Probability of' V( A7 u8 h4 [3 @0 P) [# j Discrimination : i2 J ~$ \" N z1 X1 V1 `This is the probability that an object, which is threatening will be correctly, K: f7 p: q9 e' l& T identified. The ability to discriminate between a potential target and a decoy is " x; G( _: E3 z# e( y/ d# W. I7 \quantified by a “K” factor, in which the higher the numeric the greater the , p' V6 T: v5 H, F4 yprobability of discrimination (thus, a “0” K factor implies that the target is 5 |8 s; ~/ u, hindistinguishable from the decoy). + ?" {5 F7 D9 A$ y. AProbability of ; y6 u E& s0 H" J2 v/ y7 a+ S/ lFalse Alarm " I5 I, y& A$ `7 B(1) For a single sensor this is the probability that an object will be detected8 @+ P- Y$ B z% V( Q8 X- ~$ X* s. \+ h when no object is present. 7 {" U+ k. l& r& U# K; J2 @& V; ^+ Z' s(2) For discrimination, this is the probability that an object, which is not a9 }5 k# V$ Q5 L% P3 U threatening object will be identified as one.: G2 r/ Q% ?& D. ` Probability of Kill The lethality of a weapon system. Generally refers to armaments (i.e. missiles,6 I, N0 A; w5 Q. K ordnance, etc.) Usually the statistical probabilities that the weapon will detonate2 A) S1 L. b/ d: U3 C close enough to the target with enough power to disable the target. (Defense1 [4 R* P6 z5 [ W1 }, P6 } Systems Management College)1 v5 M5 H3 M1 O4 H1 C Probe The air vehicle of the GSTS.: z6 t# P; N) H9 ]8 H+ l/ U PROC Procurement. 6 g% i2 D% \6 V) r2 |0 XProcess Data ' A# @" z" h# I! m# LSensitivity Label " x; G: A: f2 n, i, H2 U: N8 ^(PDSL) . r2 d* ^2 b9 q( `% d y: E# gThe sensitivity label for data contained in a process. j+ c6 Q$ ^: w* F% i G MDA GLOSSARY, VER. 4.0 P - @/ C s( J! N8 ^231 0 j' ^2 g2 Q$ `0 k7 ~# FPROCMT Procurement. 3 f3 v& q i7 ^+ y7 uProcuring' j$ x5 f7 H& H ~8 J& B Contracting 9 M( p: q. z' e) Q2 E6 i) jOfficer (PCO) : g4 t2 d' o& e1 H! X! cThe individual authorized to enter into contracts for supplies and services on1 k2 C% B( A5 J3 r behalf of the government by sealed bids of negotiations that is responsible for ) Z& \( ^- W& |9 G* q4 noverall procurement of the contract. % s) I) b& h, h. A7 G. U6 \ bProd Production. ) T" B1 z5 C6 p/ ?% g4 ]0 oProducibility The relative ease of manufacturing an item or system. This relative ease is 3 D0 A+ r& ~6 ngoverned by the characteristics and features of a design that enable economical6 g% r( s3 s. e3 ]) }# w fabrication, assembly, inspection, and testing using available manufacturing " |$ F# m3 K& Wtechniques. 7 w2 q/ Q+ c4 p$ p9 `0 P2 DProducibility,3 ?' m- L g# M7 N/ W" S2 I Engineering, and: v8 M% {" ~1 c) X6 \! a$ s* o9 U9 f Planning (PEP)4 v9 f+ k1 J6 y( w$ N2 j Applies to production engineering tasks to ensure a smooth engineering 1 t6 Y/ Y* ?% R' \& btransition from development into production. PEP, a systems and planning p5 G+ D( G8 x. D# t/ i4 Vengineering approach, assures that an item can be produced in the required, v! x4 V8 E6 ^1 r& S5 ]+ \$ L quantities and in the specified time frame, efficiently and economically, and will# D, \& R: l, {# w1 M meet necessary performance objectives within its design and specification4 A. v- }: |7 g7 X) L' ^, ^ constraints. As an essential part of all engineering design, it is intended to: R8 v1 w3 M' ?8 N identify potential manufacturing problems and suggest design and production ; i# b* h9 {, `2 v* V8 |) G8 E4 Echanges or schedule trade-offs, which would facilitate the production process. & Q3 A: ^# k4 b2 [+ \! }7 u" AProducibility,& ^; t; W. v9 k/ \4 x Programming,& D0 B# a. [6 z6 { and Issues; U) m, {/ h# A Resolution 6 Z! |8 t0 e: l/ U5 CStrategies% U/ D( a w2 P9 v (PPIRS) $ j' \- D* ?* Z# m; N* TA semi-annual document put out by the MDA P&M community listing all medium % ^: ] B8 s4 l2 X" Oand higher P&M risk issues as prioritized and coordinated by the MDA P&M 6 j- H* D4 R9 R+ x Y, {/ |( v: d7 J; TWorking Group.: O) G8 w6 R, n( t5 P Producibility- B' `0 X5 R! z5 z Review1 o; a) I/ U# [ A feasibility review of the design of a specific hardware item or system to # A+ M. z& Q- ?9 s( {" Ndetermine the relative ease of producing it using available production technology : n% N9 B8 V, }. o. N- `considering the elements of fabrication, assembly, inspection, and test. This is a4 |& y8 v5 p! {( c8 N, b0 q) D( ? generic term for the concurrent engineering portions of MIL-STD 1521 system. P1 i; y! ?9 \& ^4 A3 R8 U design reviews.0 E8 ?; U& s# o+ D7 H, f Product Baseline (1) Established by the detailed design documentation for each configuration4 y" C5 U- w* z8 i2 { item. Normally includes Process baseline (type D spec), Material baseline" d; L8 }( {3 M6 {- l3 y (type E spec), type C spec, and drawings. - w; V. Y$ R% G+ R) _) F(2) In configuration management, the initial approved technical # V( D8 {: S2 t% h, ]+ _documentation (including, for software, the source code listing) defining a4 s. n3 x- G! j& U: @) e configuration item during the production, operation, maintenance, and $ N; P$ ]( h/ Y/ F% T0 ]logistic support of its life cycle.0 D! [$ @- ~6 k& H) | Product: c' k8 ^2 l" X' u) @' h2 `7 T6 K* M Configuration ) G" M' b& ]% yIdentification0 ?( m/ ~( E8 P. r, Z$ {% f5 o6 R! Q The current approved technical documentation which defines the configuration ; Z( q' i' E/ W+ O& Sof a configuration item during the production, operation, maintenance, and ' c1 s/ h! g4 t* r5 slogistics support phases of its life cycle and which prescribes that necessary for: 3 O( N& U: M+ s$ R& m- ?: B" Sfit and function characteristics of a CI (Configuration Item); the selected " a* l, Q: h) O/ l/ L N- I! wfunctional characteristics for production acceptance; and the production 3 B9 A0 E3 J0 \. Kacceptance test.9 T) _' y, L" H% Y+ [ Product; o7 Z4 z; e( V( m Improvement 4 |1 s" {) a7 L! [2 [* _Effort to incorporate a configuration change involving engineering and testing on & J3 N. z# @: Hend items and depot repairable components, or changes on other than , X$ L8 S0 e: t# ldevelopmental items to increase system or combat effectiveness or extend- ?) \" y+ `/ n' G& j# y useful military life. Usually results from user feedback. 3 g! a) O9 y; a3 J& OMDA GLOSSARY, VER. 4.0 P+ J0 _( t4 R( I# ^ 232 5 T8 \. t3 P9 x, D8 M: aProduct Manager The individual, designated by a materiel developer, who is delegated authority ! g% \/ c9 C5 h% `; A4 w: Z& G6 ^and assigned responsibility for centralized management of a2 M) [6 C. @: m, N% K# W) u* \: \) u development/acquisition program that does not qualify for' B, Q& n% r; S* p system/program/project management. , c0 @! l1 f0 X' F& p% R! B2 g2 BProduct Security & E2 d6 S) f1 }3 ?' N(PRODSEC) % U* p" ^# r) ^That physical security provided for selected DoD products (major, high cost,, G9 \$ h( e% h+ |/ v+ \8 Z politically sensitive systems with significant military value) at Department of ' Q1 E M! t& q6 c* C' g* ^Defense contractor facilities to mitigate the risk of the government as a selfinsurer. Defining and instituting product security during production are essential I% s+ j; H4 R+ _ to the delivery of uncompromised systems.

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