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发表于 2008-12-25 20:15:14 |只看该作者
MDA GLOSSARY, VER. 4.0 O& z" d0 o$ D. i6 p( I2 S 211 ; W0 K% r, J/ W# I- T+ D: R5 AOperational " U& P' }8 q, lAssessment) R+ y3 d. U Z An evaluation of operational effectiveness and operational suitability made by an/ [0 u3 Z+ E" s, D& j D independent operational test activity, with user support as required, on other . j, C, D2 U/ c4 f7 `than production systems. The focus of an operational assessment is on % B3 \! _6 X0 T ?1 {7 Zsignificant trends noted in development efforts, programmatic voids, areas of risk, 7 ]3 d7 ^. N8 C& l% M/ Ladequacy of requirements, and the ability of the program to support adequate ( D( q, A! P+ P: h: c* Woperational testing. Operational assessments may be made at any time using. }2 w* _ f( q9 H/ N technology demonstrators, prototypes, mockups, engineering development P; C' s7 c% R N: l* vmodels, or simulations but will not substitute for the independent operational test/ ~% r4 }8 y7 |( E and evaluation necessary to support full production decisions. ; |; G2 P8 h" @0 {9 U% X0 NOperational ) E( J. a3 F) j3 aAvailability * \0 q7 ] I8 n' J* q+ ~; m0 t( _9 }The degree, expressed in terms of 1.0 as the highest, to which one can expect ) x3 Z/ \: Y- s6 P Kequipment or weapon systems to work properly when required. The equation is, ]2 c, V/ i6 _, J9 J( s uptime over uptime plus downtime, expressed as Ao. It is the quantitative link7 ?, R$ ?) M4 j$ @+ I8 a between readiness objectives and supportability. @4 ~4 Q- w `) H3 _: EOperational. p J: _$ [2 a8 R4 L+ S# Y0 \, P Concept5 a* k2 ?% |6 q5 U7 ~9 n* u7 B An end-to-end stream of activities that defines how force elements, systems,* [4 H* \' I1 X organizations, and tactics combined to accomplish a military task. 9 s: n9 I* U c, ROperational : S% u# h7 I- A% d# WControl (OPCON) 9 c) n; T' D! w0 L' YTransferable command authority that may be exercised by commanders at any , ?, j( Z/ {# i& e; x8 P, r: B2 Hechelon at or below the level of combatant command. Operational control is 3 F$ R7 y9 M: K f ?1 p8 sinherent in Combatant Command (command authority) and is the authority to 5 j, `: e6 M6 E; ]perform those functions of command over subordinate forces involving # Q6 {* k# y' I& n) k Z# g3 r. `+ Jorganizing and employing commands and forces, assigning tasks, designating$ X- C( s7 W( d" T1 b2 k* E objectives, and giving authoritative direction necessary to accomplish missions! [4 r# |) _' r* J/ |5 v! A, h assigned to the command. Operational control should be exercised through the7 L% S0 y& i0 a0 c5 } commanders of subordinate organizations; normally this authority is exercised + s+ z8 l! `% _! }$ h" Ythrough the Service component commanders. Operational control normally3 K0 N/ {: `7 r# w+ J3 T- ` provides full authority to organize commands and forces and to employ those 0 h4 n( s. z' R/ T1 M, y% x7 ^forces, as the commander in operational control considers necessary to5 }* E9 p# o& f2 I4 V! N+ z% g0 t' r6 c: @ accomplish assigned missions. Operational control does not, in and of itself, ) ]9 C7 J7 E$ Y: {! s3 sinclude authoritative direction for logistics or matters of administration, discipline, 6 { G G; V4 [7 ?4 n7 O* ginternal organization, or unit training. ( G0 G" |; C, EOperational' q O6 f( |4 Z1 \* N$ u Effectiveness& L$ y% N0 o0 }8 m' Y0 { The overall degree of mission accomplishment of a system when used by# t5 `- w, b+ j( Y6 s m& b2 t$ o representative personnel in the environment planned or expected (e.g., natural,6 y: T& [* C8 e @- C8 o electronic, threat, etc.) for operational employment of the system considering7 {" n* C; Y1 g+ S- ~/ h$ r! f" u organization, doctrine, tactics, survivability, vulnerability, and threat (including) H6 _% }* K9 B: A countermeasures, initial nuclear weapons effects, nuclear, biological, and , c) N2 o! f9 \2 ichemical contamination (NBCC) threats). x0 b& A/ q" V' L( O; X) m* v1 n, |Operational ; \) D9 p7 S. S( c$ YEvaluation u' O2 X6 P" X7 P( ]% U9 fThe test and analysis of a specific end item or system, insofar as practicable6 E0 O* }/ E8 s6 ^1 Y3 ]2 l under Service operating conditions, in order to determine if quantity production is % ?! f/ [6 y5 v! P0 L) x" cwarranted considering: a) the increase in military effectiveness to be gained;4 x, i% y1 |; l3 U; b; D3 T2 I. A and b) its effectiveness as compared with currently available items or systems, / @( ~' Y1 c% \) O# Iconsideration being given to: (1) personnel capabilities to maintain and operate$ u8 m: b' B" y! i( D7 w1 | the equipment; (2) size, weight, and location considerations; and (3) enemy 9 q2 y3 S$ I/ T; ^0 t+ o8 o! kcapabilities in the field.0 r! ? c3 ^+ d' a Operational 5 k) y1 r8 n! }2 ?8 J: o2 U fLevel of War : P+ O: T! c3 y6 y3 m0 WThe level of war at which campaigns and major operations are planned, 0 D8 ?! Y6 d Z7 C" i2 [5 dconducted, and sustained to accomplish strategic objectives within theaters or % V! C! D7 x% M$ ^4 Xareas of operations. Activities at this level link tactics and strategy by5 `6 ?8 R. b$ ~. e" V establishing operational objectives needed to accomplish the strategic 9 H$ {7 b, ^3 e$ y1 Robjectives, sequencing events to achieve the operational objectives, initiating0 u; k* Q5 z# H2 B% _. r actions, and applying resources to bring about and sustain these events. These4 v2 ?6 L+ ], \% W" t3 _, ` activities imply a broader dimension of time or space than do tactics; they ensure5 q7 Y, A T. _7 b) X) U the logistic and administrative support of tactical forces, and provide a means by - _: [- Y5 c# M8 rwhich tactical successes are exploited to achieve strategic objectives. 4 \) Z; S v1 ~/ yMDA GLOSSARY, VER. 4.0 O % s, I' S9 q+ |7 o+ h, k. ^212" J; |( C% ?% E Operational Mode The configuration of the defense system element or segment. Refers to the 6 L/ F# }$ Q( _7 q9 N6 r8 hoperational environment of system, i.e., test configuration or training7 z1 V0 i0 d x( p configuration. 4 S: }% a, ~6 w; a# o1 R2 }Operational$ Y* R! U/ W; g Readiness0 l- D+ g, e) S" X5 v( h The capability of a unit/formation, ship, weapon system or equipment to perform ; J( a2 m( @! l1 j7 M' _/ zthe missions or functions for which it is organized or designed. May be used in 1 G/ J# b: _; R1 P8 ca general sense or to express a level or degree of readiness. ) q7 V* q" n5 g" q6 f- f, @Operational. [, G2 d' l1 b/ D; r# U& j Reliability d9 h& \: z( x. U$ E& Y The reliability of a system or software subsystem in its actual use environment. * n/ N4 ~8 S( d+ }: ]Operational reliability may differ considerably from reliability in the nonoperational or test environment.: \3 R. C5 q1 t- ~ Operational * {2 G5 { U; i- Z, tRequirement ( O% F" w+ V8 U: i- }3 I1 [Navy document, which describes major characteristics of the alternative selected( J9 V) }3 O8 ?# ` by OPNAV. It is submitted as originating document for all Navy new starts (less ! K5 D6 F' `- J% C ^0 wthan 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) W6 t$ L- B+ M* I4 F Requirements - L$ ^- ^3 h# l, X4 { E$ UDocument (ORD)! \1 r) e$ b } Documents the user’s objectives and minimum acceptable requirements for9 W! V; i, |/ g/ |1 c( r operational performance of a proposed concept or system. DoDI 5000.1 and ; K* |4 l9 ?/ M1 ~4 CDoD 5000.2-M have standardized format across all DoD components.) Q. H$ n$ ?7 b8 K: B/ P Operational) q# B7 X% O* m6 w- v Suitability 5 A c: T- \$ I1 {+ }The degree to which a system can be placed satisfactorily in field use with ! |% J9 ~3 I8 {0 O) Nconsideration given to availability, compatibility, transportability, interoperability,) c6 E/ \& _2 h2 }2 a- Z reliability, wartime usage rates, maintainability, safety, human factors, manpower ) C4 e! T; z* a) n3 L# }8 J( Hsupportability, logistics supportability, natural environmental effects and impacts, ( n1 N' z1 F4 G, R/ bdocumentation, and training requirements.( o9 @+ h0 ] Y( {2 d, _ Operational Test ; q) v0 c& n% o+ c& r+ Sand Evaluation8 N( N$ }# A# o9 U0 ^, B (OT&E)' ?+ i2 ~ y: |* X) b That T&E conducted to estimate a system's military utility, operational - ` S' A" ]/ T) ], b$ eeffectiveness, and operational suitability, as well as the need for any 6 S+ S, p7 b( Q# \3 Ymodifications. It is accomplished by operational and support personnel of the ) s: D$ a# Y0 T" ]types and qualifications expected to use and maintain the system when$ Q. V% r6 i9 X, ]0 N1 o deployed, and is conducted in as realistic an operational environment as ! e5 K2 }: y* D% }' J1 b7 ?4 e; C N" S5 Vpossible.: ^ y; R5 o; c: v! y Operationally# [* }0 l3 M) B0 Q4 U/ P n% |$ o( q3 g Ready ( k2 g0 Z% F) i3 t7 Y. m8 \1. Capable of performing the missions or functions for which organized or & e9 Q% y# P0 Q; u& jdesigned (as applied to a unit, ship or weapon system). Incorporates both 6 t8 _! M. L% Nequipment readiness and personnel readiness. 2. Available and qualified to' C4 q* Y7 m& |4 \: Z; N9 l perform assigned missions or functions (as applied to personnel). 7 l/ D* A2 |1 @% R3 K5 Y% l( QOperations and ( s+ Z. z+ G; C3 U9 vSupport (O&S) $ B6 L+ O, c$ k: W/ R4 JCosts * O% O/ a1 e% Y V+ I5 a. t4 _Those resources required to operate and support a system, subsystem, or a 8 m& s$ a* p4 S3 Kmajor component during its useful life in the operational inventory.& `# J2 y8 p* o Operations 6 ^& m: D2 d8 A. f6 l+ ^Profile# s$ W% x9 t6 V& g An identification of all participants in an operation, their actions, and the time6 v/ K3 Z2 K# h n those actions occur in the operation. Includes assessment of operational 3 G* W Y$ u9 }3 [procedures to ascertain whether stereotyped or predictable patterns are 6 e/ [2 x B3 }$ q. p3 gdiscernible.' N* _$ n: ]6 [+ w Operations * @5 }/ P. Y" y+ h3 ISecurity (OPSEC) 2 E6 c( @4 |% C/ H3 LSurvey * K4 e* c7 O. _+ W6 qThe method of evaluating the protection afforded a given operation. It is " ^: d2 ^+ w5 ?( Gcomposed of multiple functional outlines that identify possible weaknesses or 9 i, Y" Z+ @" e; m% E1 ~inefficiencies of an operation that could, if exploited, degrade operational, X7 i, _, o) F6 m. X1 C6 e1 ~ effectiveness./ @$ e$ i3 X* s OPEVAL Operational Evaluation (Navy). 6 I; U& \: ?1 r- Z! L0 @OPINE Operation in Nuclear Environment.5 z: i- Z3 c( p. U L8 l: K# W OPINTEL Operational Intelligence Processor.3 H% a. }: `6 A) s1 {* n MDA GLOSSARY, VER. 4.0 O ' V( d0 s* N4 F5 {- N213) K# h* d, f1 }2 c, T; d% p) V: r OPLAN Operation Plan.% V; Z/ Q! H/ L& K- D OPM Office of Personnel Management. - k3 v4 ? a# U" F: G+ C$ h* ?OPNAV Office of the Chief of Naval Operations.. [0 \, u, N3 S; \, J OPNAVINST Chief of Naval Operations Instruction. / D) u; }/ X: LOPNS Operations. ! b# h' }$ }2 y% y9 k0 zOPO Optical Parametric Oscillation.: l: P4 o0 r5 v d2 ` OPORD Operation Order.4 s/ ?2 e! o( n9 T OPP Other Physical Principles.' o. O' J4 ^6 k# T OPR Office of Primary Responsibility. ' {( ], ]0 V' w4 Q* wOps Operations (employment). ; U B1 I6 F" m4 o. DOPS Operations. ( f) A1 E/ K: M- D' _/ b& vOPSDEPS Service Operations Deputies. - M5 y9 A+ Y" ?% A" `' IOPSEC Operations Security. # a5 A0 e( y3 C9 ~/ e: e* YOPSMOD Operations Module.5 l* v: g, _5 G, K9 h5 D" Q OPTEC Operational Test and Evaluation Command, Alexandria, VA. (U.S. Army). x4 X! v' W( L OPTEMPO Operating Tempo.% u2 ^3 K# a+ o5 U: ?/ c) a4 b. w+ t; } OPTEVFOR Operational Test and Evaluation Force. (U.S. Navy) 4 M5 b5 M5 G3 A! O* z& aOptic Cobra CENTCOM Joint TMD Warfighter Exercise. 6 ^) v7 _ `% G* ?7 |9 o/ [2 C" QOptical Airborne & a, W# a6 N$ D/ { t# V0 Y* HMeasurement - i$ Z6 s n/ D: e. gProgram (OAMP) ; S( h! z: {9 zA program involving an aircraft-mounted research platform to conduct 5 ~$ A' E' D' e, Lsurveillance experiments that can be used to design future defensive systems. $ I( e$ k) j# m- R(Also known as Cobra Eye.) 7 u, x" D' U; X' |1 h+ @. FOptical Coating Layers of materials that alter/protect the physical/electronic properties of the) M3 n3 h2 V" x g7 f6 f1 I [ material to which they are applied. ( v! g; h& t- Y1 o7 h4 dOptical 1 p2 f; P2 v3 q; ~, NProcessing ; C' v- M% d- m5 pA type of analog processing, in which the behavior of light beams, passed5 Q% ?3 c) }, J: w! w0 W | through optical systems, is used in problem solving." i$ j, H* E: v* x: N OR (1) Operations Research. (2) Operational Requirement (Navy). (3) Operational i! t7 Z4 i A' P7 [, g) L/ ` Readiness. (4) Operational Reliability. 3 `) h" b F' {2 M5 L2 fOR/SA (ORSA) Operations Research/Systems Analysis.: f5 Q$ o; L; ]' ]/ Y9 @7 J; p( h$ q ORACL Overtone Research Advanced Chemical Laser.7 [3 t* K5 x) d$ }# {" V5 d/ W8 S' V ORACL HYLTE Overtone Research Advanced Chemical Laser Hypersonic Low Temperature." U3 A9 M8 P; Q9 P6 H MDA GLOSSARY, VER. 4.0 O . u. T# w$ E* |- t214 - r- a2 X1 R# b* i6 @Orbital Elements Any set of several parameters (e.g., semi-major axis, eccentricity, inclination, etc.)4 W7 N( \, ?1 d! S2 H3 J4 W used to specify the position and motion of a satellite. Six independent orbital % z) D' o' K$ E; delements are required to unambiguously specify the position of a satellite in a4 @1 E2 C s# Z. o( J& o- P* g. \2 Z! g Keplerian orbit at a particular time.6 L$ h/ u! W; I$ s. L' K" P# s. V9 U Orbital . j2 c$ B% Y' xManeuvering * {5 K5 x V7 f5 qVehicle (OMV) , V4 i+ h7 a/ k% \/ eNASA program to provide capability to perform satellite on-orbit servicing.2 K7 P4 Q& f8 a9 `- o9 f Operates from shuttle and Space Station.6 x2 ~- l& F8 e( W3 K. v" C Orbital Suborbital$ |- l" ?; [3 I8 k f Program (OSP) 6 S) ^$ H- c0 N$ bA strategic target booster system used by the GMD Program that uses the 3 ?# @7 o- N# m" t ?Minuteman 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. / b ? t! S- f5 Z cORC Operational Readiness Condition.5 m+ D# p- n3 u, ?, n* D+ c4 R ORCA Operational Requirements Continuity Assessment. ) T! L; W2 j8 W3 \ q& n. B4 [ORD See Operational Requirements Document. , ?8 Z6 k$ `0 fORDALT Ordnance Alteration.5 A. s9 A- F5 R' Y, P4 p! t- ? Order of Battle The identification, strength, command structure, and disposition of the2 m# ?% F5 h4 Q( Q personnel, units, and equipment of any military force. ( g! J% [7 o/ R8 t7 B/ ^3 POrder Wire # B* c6 b$ @! Q% X: O3 K- |Message 2 ~2 f2 n x4 T, M% hA communications support function for internal control of communications# n5 r4 W% |6 V% L( f2 H* R elements.; y7 X! F, H; ?& R+ Z7 Z" N Organic Assigned to and forming an essential part of a military organization. Organic 0 G% R5 @- b; tparts of a unit are those listed in its table of organization for the Army, Air Force,* ^3 N/ t+ X/ O, L5 K+ H9 y and Marine Corps, and are assigned to the administrative organizations of the0 J4 j, S! o4 E2 @* b9 H operating forces for the Navy. ( K' b' d$ \7 jOrnate Impact USFK Joint TMD Warfighter Exercise." Q. v2 K9 O. P; I/ }, ]7 K9 n ORNL Oak Ridge National Laboratory, TN. ) z) m# y8 Q7 i4 N2 E) n& CORTA Office of Research and Technology Applications. 9 p8 `6 F$ j0 iORU Orbital Replacement Unit.2 X* d1 {; g; z3 ~ ORWG Operational Requirements Working Group. ( Q3 I& P$ p" \! o" R1 m* W" u1 S& S. POS (1) Operational Suitability. (2) Operating System. / J% S+ ~+ I, A6 v. n/ L( `+ yOSA Optical Society of America.( }7 S9 O& f+ H9 Y! k OSC Optical Signature Code. 1 Q1 f6 @7 C6 _; K1 mOSCE Organization for Cooperation and Security in Europe. ' G; w0 d8 r: hOSD Office of the Secretary of Defense. & O9 ]2 C) ?. \6 |# TOSE Operational Support Equipment.2 n* d& I% w" n) T; @- r6 y OSEIT Operations and Support Engineering Integration Tool. ' C4 r8 B% K9 nMDA GLOSSARY, VER. 4.0 O. D b3 q7 y2 m8 [9 Y/ ] 2150 X& y0 s0 T) Y8 x3 ]' @+ b OSF Open Systems Foundation. 5 g, X9 T0 m: f6 c7 \- p$ iOSH Occupational Safety and Health. $ V) @) y7 Z2 ^1 |% c0 s( JOSHA Occupational Safety and Health Act. # v- R0 L* O u: aOSI Operator System Interface.5 M# {# Q( O6 K& S0 t- a" A OSIA On Site Inspection Agency, Washington, DC. 3 V2 s3 R4 G: [& c, m6 KOSIM Object Simulation (NMD BMC3 term). $ m1 y0 h) ]- L3 p' rOSIP Operational System Integration Plan. ) K# h5 P' Z E; ]& |3 v& ^6 COSIWG Operating Systems Interface Working Group. 7 t* L4 S1 r# j2 IOSJTF Open Systems Joint Task Force." m7 V8 U4 Z# g/ i4 P9 M OSM Object Sighting Message.9 z& s0 k( x1 i. b" p1 d OSS Operations Support System (Navy C3 program).- i% i' b1 N3 D, |4 Q0 k# I OSTP Office of Science and Technology Policy.3 P* _( g3 E+ D% i* s [# x% } OSWR Office of Science and Weapons Research. - x1 i0 {( R( R& S0 m- HOT Operational Test." s+ j* o7 A& s L9 C OTA (1) Office of Technology Assessment, Washington, DC.! `0 v% J1 N3 Y. b( b (2) Operational Test Agency. 2 E$ i/ q8 R3 s7 s(3) Office of Technology Applications, MDA.8 i4 Q* C5 J, b# |- N4 p2 p OTCIXS Officer in Tactical Command Information Exchange Subsystem (Navy term). ; K- t; A( ]0 m0 \' rOT&E See Operational Test and Evaluation.4 L Y% C1 }# s' v OTDR Optical Time-Domain Reflectometer.4 H2 Y ^5 {3 }; A- a OTF Object Track Profile." y8 |3 e( X! D/ o0 U OTH Over the Horizon.( u- e- S* c- A7 a$ ? T OTH-B Over-The-Horizon.5 r: y Z" M3 F0 U" \6 N# |" c OTH-T Over-The-Horizon Targeting.8 ^$ y8 ?/ I( R% V OTO Operational Test Organization. , Q' L0 G) ?- s) F- { r1 FOTP Outline Test Plan.- a: t3 Y @7 M* m+ | OTS Off-the-Shelf.- B) V) }/ r$ r& i; y OTSA Off-the-Shelf Analysis.. m7 W, p( f7 c3 [# }, c OTV Orbital Transfer Vehicle.# a$ G* @0 J( h8 m OUSD Office of the Under Secretary of Defense. & M) |$ k/ Y. LMDA GLOSSARY, VER. 4.0 O1 H ?1 ^( \+ M9 J 216$ u( P1 Z% U: D# I" E4 U# Y9 Q OUSD (A) OBSOLETE. See OUSD (A&T).- x" M( H0 A$ i& N OUSD (A&T) Office of the Under Secretary of Defense (Acquisition & Technology). ]# m! [( {! Q* V ~' B Outer Space6 m1 X4 b/ I7 |& _! y8 i Treaty of 1967% x3 O. r" x, |4 b$ C! ? A multilateral treaty signed and ratified by both the United States and the $ I$ t% i* f8 w$ C8 `6 x' u6 z- I. t( y(former) Soviet Union. Article IV of the Outer Space Treaty forbids basing- ?& U+ ]' C/ l2 _1 Y/ \ nuclear weapons or other weapons of mass destruction in space. $ W4 {% k( Y" G) eOutlays Actual expenditures. Checks issued, interest accrued on the public debt, or/ o/ O0 ]9 }! v4 B/ p- ^9 H1 O other payments, net of refunds and reimbursements. Total budget outlays+ S8 X, C/ Z- Y8 {( ?, o( C/ u consist of the sum of the outlays from appropriations and funds in the budget,9 J, Y1 y8 z/ v' G) i7 @( ~' |& I- f8 ~ minus receipts. E$ D; F/ B) S( w+ T* LOut of Band4 @: N5 ^) k. o: z& S* K Laser Flux ) W) }* {/ I( R9 H9 y J3 ?, L(Sensor) Laser energy directed at a sensor that is intended to damage or disrupt 1 C/ c# f4 u L ^9 b* A3 ?the sensor and is outside the sensor’s bandwidth.4 \2 K @$ K7 ` Out-Years Normally, six years beyond the year being worked in the upcoming POM/budget. 4 t% q* C) N) L8 c8 ?5 NOverlay BMD7 a T3 k A! ^. k( Y System 6 |7 o' e& [2 P& ^1 `- D nAn advanced exoatmospheric defense system oriented toward defense of) X; p, \! g3 y! w/ N/ J ICBMs, consisting of missile-borne, passive infrared sensors and non-nuclear# d3 v% K9 [! Z0 {8 Q5 d2 D homing interceptors. 9 p: W5 h# k$ c) D# hOWG Operating Working Group. . u$ c9 \! ^ Z0 s& }6 W3 V" hMDA GLOSSARY, VER. 4.0 P! h; @+ V9 Z0 H+ e0 k 217( A2 q. L9 t& ~/ E0 H* x. r& O P&D Planning and Design (MILCON term).% w& b' Z7 m2 K5 J" p; A P&M (1) Producibility and Manufacturing. (2) Procure and Manufacture.9 V2 e4 V) E% s& C# z( i' x8 E; u P.B. President’s Budget. * s' ^6 T. p4 _P2 Pollution Prevention. 7 P) e- w& i# L8 n$ Y9 `/ Vp2 NRTA&A Pre-Planned Near-Real-Time Assessment and Adaptation./ q. O! k3 f$ p3 ]" s1 i P3 Pollution Prevention Program./ e- M+ P' I4 K, \3 p P3 I Preplanned Product Improvement. . \* U7 i3 ]- C$ [% BPA (1) Product Assurance. (2) Public Affairs.0 y: w9 O5 W/ Z/ m$ x- n, I. C4 z9 X PA&E Program Analysis and Evaluation.2 J, h# e8 M/ `8 y% d" L( z+ @1 w PA&ID Program Analysis and Integration Directorate. - z" {1 x4 }/ v# j$ LPAC (1) PATRIOT Advanced Capability. (2) Program Assessment Center. (MDA) 6 K" a w8 C; C7 w6 I L" kPAC-2 PATRIOT Advanced Capability-2; ]: j$ J0 Y+ a8 Q* g* m- @& ? PAC-2/-3 PATRIOT Advanced Capability, Level 2/Level 3. Formerly called ERINT. ; J6 O+ v$ G. X# I+ f7 wPAC-3 PATRIOT Advanced Capability-3 : _1 V, K- f! W$ B: ~( w" }PAC-3 SIM PAC-3 Simulation (PATRIOT), Huntsville, AL.! i4 v( J; i0 _" T7 t \* S( c PAC-4 PATRIOT Advanced Capability-4. 8 |/ Q4 l7 s! A0 bPACA Professional Aerospace Contractors Association.' B j4 T) f1 M* p% W PACAF [United States} Air Forces Pacific. ( X2 b( o# Z2 R& M6 XPACBAR Pacific [Radar] Barrier. , g% m+ W) |3 k. R. L7 s; J/ |PACFLT Pacific Fleet (US).

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发表于 2008-12-25 20:16:15 |只看该作者
Packaging, + Y b; ~7 g4 a8 rHandling,: @( H1 I2 r0 w Storage, and$ D5 s9 u: C! w! \% d0 A Transportation; ~% R( }- Y# H& k8 j (PHS&T)0 [% Q# q9 _6 p4 o The resources, processes, procedures, design considerations, and methods to ' k+ q# l6 p! u* B, ^ensure that all system, equipment, and support items are preserved, packaged, 3 w/ g0 ~# s% l$ N# K- o" ~( F+ L5 Hhandled, and transported properly, including environmental considerations,2 a+ ]# ~! I" J8 p+ C; F equipment preservation requirements for short- and long-term storage, and% B, J" C5 @5 G" X- }7 a transportability.$ E1 x# U) O" b, z( B Packet Switching " Y- x/ ?% h# E9 x. E! ]9 c" J(PSW)7 S6 n3 B$ h7 j$ d. i% t! Z A data transmission process, utilizing addressed packets, whereby a channel is 7 t3 q" X7 Q' Moccupied only for the duration of transmission of the packet. In certain data + w1 m3 ^4 ^/ h$ Ocommunication networks the data may be formatted into a packet or divided and( K( D6 X: q }7 n+ q5 `" e then formatted into a number of packets (either by the data terminal equipment2 T% K. b" t. N+ `# s or by equipment within the network) for transmission and multiplexing purposes.# P" l% d9 ~4 u$ F/ |7 Q6 W PACOM U.S. Pacific Command.1 ~( y7 M, {: ~0 ]" ~ PACOSS Passive and Active Controls of Space Structures. 9 P' D1 l9 l4 P3 Y0 k, ?PADIL Patriot Data & Information Link.+ n2 X! Z! |# s8 c8 \7 A& X) }( r6 H MDA GLOSSARY, VER. 4.0 P 7 r' x+ \* r2 F7 V7 [3 b6 G218 0 I+ R- N4 _( O! I0 `$ dPAFB Patterson Air Force Base. r8 n1 {$ q/ x PAL Permissive Action Link.& q- `) t/ ~! K; r& a; s3 { PALS Protection Against Limited Strikes (SDIO term).* e& P% t9 P; N+ r1 ?2 K PAM Pulse Amplitude Modulation.. k7 U2 h4 y& a. W# }1 j5 e+ m PAN Polyacrylonatrile [carbon fiber]. T8 S6 W- D1 e# G Pancake Altitude Altitude at which the trailing edge of a chaff puff/cloud effectively catches up to9 ^: D/ v3 t8 x( x* ^4 j the leading edge because of atmospheric slowdown. |' }) d6 N, Z ~) J4 n# APAP Predicted Aim Point. * d! | z7 Z7 a6 ^$ ?9 A9 lPAR (1) Phased-Array Radar.5 U: `# B4 F# ^/ g (2) Perimeter Acquisition Radar. (See Phased Array.)1 D: L) i1 P5 f- y S (3) Preprocessing Analysis Report. $ E& |' a. y D0 D; m(4) Program Assessment Report. . h# O, \! m, [3 v0 \" f* u( p(5) Pulse Acquisition Radar.. C9 z5 X5 t: N& G3 Y+ \% K2 `5 W Parallel 8 G% W, O: w5 r& L# N3 }' g9 tProcessing , d+ Y! _( W' a' Y8 A6 u; G) L3 ^In parallel processing multiple processors (CPUs) divide up a large task into' a L+ }* _* I' a smaller ones and each CPU acts on the subdivided task simultaneously so that9 N) F7 P& M+ }; a( ~7 [$ [+ d much higher effective processing speeds can be attained.7 [8 Z& @0 |- G. { Parametric Cost ! t' l- ]: `( j5 @: |. S1 [, yEstimate # e3 d M% `4 z7 g$ I( ?* w7 c6 E6 JA cost estimating methodology using statistical relationships between historical2 k- R7 K; V% { K9 v costs and other program variables such as system physical or performance. P0 e/ B" j H$ D/ Y* ~+ B' ?& H characteristics, contractor output measures, manpower loading, etc. Also0 _/ K4 `1 J5 y+ h% Y& H$ D( l& o4 B referred to as a top-down approach. 9 D9 k G. V0 {9 x* _. K* gPARCS Perimeter Acquisition Radar and Attack Characterization System. 3 z( v3 H5 z7 B$ ~1 R' [7 l1 cPARPRO Peacetime Application of Reconnaissance Programs. + V& v0 o2 U ~ IPartial Mission, w1 Q1 _7 w1 p! H7 J Capable C4 d- D. h. B8 B+ c( m6 I Material condition of an aircraft or training device indicating that it can perform at 7 h3 j( Z2 a* E7 {! J0 rleast one, but not all, of its missions. Also called PMC. See also Full Mission 1 v+ Z3 }2 w! P4 rCapable. ! g1 Z& p! Y1 T1 F" U/ M uParticipating0 B; u5 m$ A. q Service / z9 y6 C1 i# ^7 A- g9 xA military Service that supports the lead Service in the development of a joint : B B2 ^! b( e1 H2 e/ Oacquisition program by its contribution of personnel and/or funds., `- y5 ~. l# {" H Particle Beam k9 x$ [0 ^) s: _2 u3 W5 @9 d0 Z (PB)! k, L; \. n6 Z4 m High-energy beam made up of atomic/sub-atomic particles (electrons, protons, or5 D F* a' A% Y4 ~1 }; |* o5 s3 m neutrons) accelerated to near the speed of light. 3 G7 B: T5 {/ Z1 V; eParticle Beam : }2 M) ^0 S _/ H6 UWeapon (PBW), n" N! S# i0 O* Y A weapon that relies on the technology of particle accelerators (atom-smashers)$ y; k+ y S b) o* } to emit beams of charged or neutral particles, which travel near the speed of 0 S" n% `: ~! T/ i8 ^light. Such a beam could theoretically destroy a target by several means, e.g., 4 o' }3 _# D5 K, r2 yelectronics upset, electronics damage, softening/melting of materials, sensor " h* \: f* F& W/ d. |3 m" ddamage, and initiation of high explosives. ) g8 T9 m' W0 m& G9 q8 E7 sPASS POET Advanced Submunition Study. ( F' l9 B5 t6 \# W8 E9 g' CPassive In surveillance, an adjective applied to actions or equipment, which emit no4 K; g, d: s! S1 ~5 l8 z energy capable of being detected. # i) S9 A: ?; q+ VMDA GLOSSARY, VER. 4.0 P / |: o c# o" g) E; z219 ) l; R- V" ^) _$ m1 [+ D, p* yPassive Air " |0 F1 `' h" d9 ~5 X* cDefense 8 O3 A8 n+ u9 ]. f* U9 tAll measures, other than active air defense, taken to minimize the effectiveness- l1 E$ g( W5 a# j5 a' L+ ] of hostile air action. These measures include deception, dispersion, and the use8 T! w; f G8 N. J# i2 ^6 ~& ~ of protective construction. 8 v: G5 P! r/ h* v$ sPassive 7 r* }. ?% S5 @Communications : f* d ?9 @- ^. X+ N2 {/ x# nSecurity Threats! H7 H s0 r' d Threats to electronic systems posed by a capability to obtain intelligence through9 t) K @ ?: G1 c. H7 [. ~ intercepting and evaluating intentional and inadvertent electromagnetic 4 U/ `! t3 ^6 E/ E# N2 L1 h3 ^* i4 femanations from electronic components of the system; e.g. communications' g# }9 ^, ?. N2 ?( N, U interception and direction finding.1 \7 T" g4 S# ] Passive Defense (1) Measures taken to reduce the probability of and to minimize the effects' K% N9 T: K2 F0 k& @5 U of damage caused by hostile action without the intention of taking the$ y Y4 S1 i7 M- ~, M O initiative. 9 S" c( G. G$ Z) C$ O(2) Passive defense minimizes the probability and effects of theater missile ( H* o+ Y1 ^2 C2 _/ ]attack by reducing an enemy’s ability to target friendly assets, reducing 2 Z8 q* M( N1 ^the vulnerability of critical forces and infrastructure, and improving the s; D( y/ N( `! @# Z: o potential to survive and resume operations after an attack. Passive4 {' o6 H2 o8 I! L a- Z8 V measures might include counter-surveillance, deception, camouflage and 7 F% R& l- F9 n! Y, Q$ M+ kconcealment, hardening, electronic warfare, mobility, dispersal, and / X& ], R3 `" V- ~redundancy. Passive defense is considered one of the four pillars of / U" e* B4 A6 J! xTMD capability. (JCS J-38 CONOPS)) r, h t- B! I2 J* r: N Passive Sensor A sensor that detects naturally occurring emissions from a target for tracking - I$ J) S% v5 ^; v' b; ^, Nand/or identification purposes.

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发表于 2008-12-25 20:16:26 |只看该作者
PAT Process Action Team.* K" H5 a, v% ]% E# t: U6 S- L: s, ` PAT&E Production Acceptance Test and Evaluation. 0 M3 d& ]4 _2 ^PATHS Precursor Above-the-Horizon Sensor. 1 M, f; O: l s- L, l% a1 @3 U6 g1 V6 IPATRIOT See Phased Array Tracking Radar Intercept On Target (missile). 6 h4 l. m# p) t( w( RPAVE PAWS Position And Velocity Extraction Phased Array Warning System. , I0 T, O% |6 m" v3 k) U9 DPhased array SLBM warning system. Four sites:' X* w U4 i1 C4 I a. East Otis ANG Base, MA - r# V8 J+ }, p4 Bb. West Beale AFB, CA ! c& J4 N( M8 L% ?) ^/ B* V8 H/ oc. Southeast Robins AFB, GA* F" p: p- F; H5 _ d. Southwest Goodfellow AFB, TX4 t) ^: M* P4 ]- D PAWS Phased-Array Warning System (USAF term). ' B9 |+ W/ g* S) L1 l/ N, yPayload (Missile) (1) The warhead, its container, and activating devices in a military missile. ) [; `$ t, ?' P" S% n4 C(2) The satellite or research vehicle of a space probe or research missile." a- f* Y4 r. m (3) Any part of a ballistic missile above the booster stack. Includes reentry4 h: o$ L' f8 I* ~# B; H vehicle, guidance-control system, countermeasures and countercountermeasures, decoys and chaff. (MDA Lexicon) $ } T( w. I( WPayload Build-up/ x& K) [9 [3 ^ (Missile and7 b P2 b$ H6 Q Space)* p4 l3 x0 Y+ ~ The process by which the scientific instrumentation (sensors, detectors, etc.) and / S0 I7 o; X K' u% D, w' onecessary mechanical and electronic subassemblies are assembled into a2 u7 @; Y; e. p* k complete operational package capable of achieving the scientific objectives of% H4 s4 [! @' V1 A7 K7 t. C8 w6 y% N% i1 D the mission.5 y% k# F' v( a% S Payload/ H, w. n" Q" r# ~' j u0 M Integration * v% C) |3 r$ _' c2 _(Missile and " H' m4 ]: b% [0 rSpace) 8 U2 A z1 D5 n1 q' PThe compatible installation of a complete payload package into the spacecraft ( \5 ^5 D6 D. A- e& F% {2 Nand space vehicle.1 F9 ~; @* p7 a MDA GLOSSARY, VER. 4.0 P . K& C/ |$ A% B2 F, ^/ B, _; J) M/ J220% S7 V2 |, E$ m2 u# U; }8 o PB (1) Particle Beam. (2) Post-Boost. (3) President’s Budget. ]. P1 S4 H+ b6 F( e(4) Program Baseline. 0 C# d1 X5 d% f: J" mPB/MT/D ATD Post-Boost/Midcourse Tracking/Discrimination ATD.5 |6 L# i' [9 m3 b. V) Z6 v/ C6 n PBCRAW Post-Boost Control Reaction Altitude Wafer. ' R4 k b! m W6 ~PBCS Post-Boost Control System. q8 L/ d: J9 c+ u) n! n! zPBD Program Budget Decision. 9 k- S0 t( E' N' g nPBI Post-Boost Intercept.: n* r" W, h0 w& k, w6 s7 p PBP Post-Boost Phase. 9 e% c" t" K5 w+ dPBS President’s Budget Submission. ) M9 K9 g/ S' ]$ Q8 a' B' HPBV Post-Boost Vehicle. ) D1 y. D/ g1 @PBW Particle Beam Weapon.4 J- d3 j9 E7 c/ q+ t$ K6 I PC (1) Printed Circuit. (2) Personal Computer. (3) Principals Committee.& |- Z, @* P9 j% A9 ] PC-PC Personal Computer to Personal Computer (JFACC term). 9 V, ? ^# ` @1 L) O8 tPCA Physical Configuration Audit. . d. h# I# U# S( QPCAST President’s Committee of Advisors on Science and Technology. # ^; _3 }; {9 xPCB Printed Circuit Board. * D, ^% ~, F' H+ ePCC Pilot Command Center (C2E term).0 v, j1 m3 o6 O; j# o: V4 @& Z PCD Program Connectivity Diagram (MDA/POC term).3 t( t* t! {( ], E; z- V PCE PLRS Communications Enhancement. / n P6 V/ M) f( a$ X. F1 D+ v2 MPCERT Pursue Computer Emergency Response Team.$ i& w* |1 N3 I. E0 g$ `* y PCF Packet Control Facility (TelComm term). ; O- W, J. r7 |* D6 X8 u" v7 [* ^PCI Peripheral Component Interface. 6 L! P U. V }+ ^& }PCL (1) Pulsed Chemical Laser. (2) Printer Control Language.( S7 c( g& t$ W/ B PCM (1) Pulse Code Modulation.# {' n5 l1 z+ ?3 J1 W0 n1 P PCMCIA Personal Computer Miniature Connector Interface Adapter./ S+ i: m @% t PCO Procurement Contracting Officer (FAR term). / ]- y4 g% P( U* FPCR (1) Program Change Request. (2) Program Center Representative.9 Y& m/ F% h* L1 V! Z% N PCS (1) Permanent Change of Station (ILS term). (2) Planning and Control System." k6 Y3 ? s& x/ f4 S8 m PCWBS Preliminary Control Work Breakdown Structure.2 l$ `/ k) ~1 ~6 T) _" y MDA GLOSSARY, VER. 4.0 P 7 Y3 s: ^9 D& z, `" N* O1 Y221 - e, n: j0 U$ L0 F5 M8 NPD (1) Presidential Directive./ G4 I, V3 K) x. p3 F o& M2 w (2) Procedures Description. $ g' p, _# W* x2 S(3) Probability of Damage.1 M8 A& E. d/ N (4) Probability of Detection. , t" ^$ _( ~ p0 a7 _(5) Preconditions for Defense.8 D% I$ o" O" @5 y' Y (6) Program Director (AF). I6 e2 Y& S( T/ \. Y4 X2 k% K (7) Production/Deployment. 5 [7 Y0 c9 y J% \) `- N9 K(8) Phenomenology Document. % |" G( c) t+ z' ~! L+ D(9) Passive Defense.8 o7 u" @9 l1 r# a# A/ E. G PD&V Projection Definition and Validation (MEADS Program term). 4 p1 e2 d6 d1 Z1 RPD-V Program Definition-Validation [Phase] (Acquisition Phase term). 3 z6 S @5 }5 o0 [3 `9 S/ nPD/RR Program Design and Risk Reduction (Acquisition Phase term).* M! c2 O! \. V9 r- L# l8 A2 p R# J PDB Post Deployment Build (PATRIOT).& N8 O& F S# o5 h c! ? x PDC Plume Data Center, AEDC, TN.8 e- o. N+ u/ Q! U8 o PDD (1) Point Defense Demonstration (USN term). (2) Presidential Decision Directive. 4 ]# w* k3 _" L# [7 |3 o& j# dPDM Program Decision Memorandum (DD 5000 term).9 G% y( \: O; |) v7 Z# X PDM (I or II) See Program Decision Memorandum (First or Second).- D& \6 U+ k! @3 X PDP Pulse Doppler Processor. : g* I1 e# \4 U. ~/ KPDR Preliminary Design Review. * D# ~) t. D: ]1 T5 ]0 L! E9 xPDRR (1) Program Description, Requirements Review [phase] (DD 5000.1/2).9 y y8 ^7 v; v0 b: X (2) Program Definition (Development) and Risk Reduction." A5 Y& X) o J; E4 } PDSL Process Data Sensitivity Label. 3 ?1 e7 w( y9 O! u8 R3 p+ QPDSS Post-Development Software Support (ILS term).; f$ _1 I( { f3 p/ e4 ~3 ` PDUSD Principal Deputy Under Secretary of Defense. + a" t8 R2 ?' r, b" @PDUSD (A&T) Principal Deputy Under Secretary of Defense (Acquisition and Technology).7 q, y' _9 O: E- z, \/ E PDV Program Definition and Validation. 2 C% g5 {/ ]# s" a/ d9 FPE Program Element.

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Peacekeeper US MX Missile.$ C1 Q3 R& `2 q! @6 i* { Peak Gamma# I! U2 G' k C& j! `' u! ~8 C7 T Dose Rate+ D2 Q* Y7 ?, ~# F3 b( }3 c The maximum rate (per second) of gamma radiation that the system could 2 y& J2 F9 E- r3 }survive and continue functioning. 3 {5 t9 w" [# FPEC (1) Program Element Code. (2) Pre-authorized Engagement Criteria./ h- |9 ^6 |. ^. u5 i+ v PEELS Parametric Endo-Exo Lethality Simulation. 1 C/ ?4 f, q5 L" xPEIP Programmable Embedded INFOSEC Product (ex-MSD). 7 m. ?* U, ]5 ~. P0 L- S/ m: e( bPEIS Programmatic Environmental Impact Statement.8 _: {8 o7 F- K8 _ MDA GLOSSARY, VER. 4.0 P - w. ?0 U C9 _222% r8 k' r& U5 ^9 B- z6 V/ o PEM Program Element Monitor (AF).5 Q Z3 N. k& l' d" Y+ t7 n ]* Y PENAID Penetration Aid. 7 _2 ], R& a' G+ L1 z, EPenaid5 g* j! O* ]# r" t (Penetration Aid) 3 r2 r# g3 j! \5 t2 r" e2 h) p# t(Formerly an acronym for Penetration Aid.) Techniques or devices employed by u" }) B/ D7 r1 q1 ?3 W2 K7 Koffensive aerospace weapon systems to increase the probability of penetrating 9 m! Y( d/ |" ^7 M+ t) X8 fenemy defenses.3 T9 z L6 [. p8 w) c Penetration1 K$ S' R0 {' t7 G) H Testing / A: f+ Y0 F8 A2 G% TThe portion of security testing in which the penetrators attempt to circumvent the 8 t& b. F5 g3 _ f7 f; Jsecurity features of the system. The penetrators may be assumed to use all 3 Q: `! ?; v2 R- C: Esystem design and implementation documentation, which may include listings of I' S8 d/ j) m, _- i system source code, manuals, and circuit diagrams. The penetrators work under - ~' ~, d% w$ G m4 I; Yno constraints other than those that would be applied to ordinary users./ u) @& W( A' w5 u% p2 f PEO Program Executive Officer. 4 P) h( d3 {* iPEO-AMD Program Executive Officer, Air and Missile Defense. (U.S. Army)# @; U% F' o( ^9 Z3 V" E PEO (SC/AP) Program Executive Officer, Surface Combatants/AEGIS Program. * ?7 Y( v/ F$ YPEO (TAD) Program Executive Officer, Theater Air Defense. (U.S. Navy)1 j3 n& ?6 U9 }3 \1 \# N PEO (TAD)-B Program Executive Officer, U.S. Navy Theater Ballistic Missile Defense Program 8 k! V6 ?+ V2 j4 W VOffice.* q: L, }4 V7 A4 D4 q4 V! i- O PEP Producibility Engineering and Planning.% P0 B0 y$ j. ]1 ` PEPP Producibility Engineering and Production Planning.$ U) l4 N; F9 w+ _6 ~7 s Peregrine An Air Force boost-phase interceptor concept under development at USAF/SMC. / I+ f4 b, Y" |: k& D- z3 H8 j sPerformance Those operational and support characteristics of the system that allow it to6 S- ]2 r$ A( b. L+ i effectively and efficiently perform its assigned mission over time. The support $ v. U: v" O3 W4 q$ b" ^characteristics of the system include both supportability aspects of the design 1 [% x) g8 e- s* R4 ^and the support elements necessary for system operation.# z, c; B3 \ S- i9 w7 j0 N1 T; M! z, V Performance! C+ a u' c; T: _8 y Requirement+ C; [- X" `$ _9 o7 V2 Y2 t; r A requirement that specifies a performance characteristic that a system or system; l7 O2 {5 I6 C9 J5 P" O9 c or system component must possess; for example, speed, accuracy, frequency. ; H, V% H9 z2 W/ D* D0 @4 VPerformance, H( N* `) z% m% n( n6 q: w' }; ? Specification0 n% C: d9 Y+ e$ G4 w+ t5 e (1) A specification that sets forth the performance requirements for a system! b% l( b2 \* o0 Y4 t or system component. ; ]6 M) g+ Y: l# W8 R(2) Synonymous with requirements specification.+ I& ^% |9 f2 {4 o Perimeter ' I6 R# n7 v; K3 B( zAcquisition , P) e" {( A; m6 J8 r+ BRadar and Attack( z" }9 E$ o3 G5 B Characterization $ C3 y! L3 d- e* W- JSystem (PARCS)# S6 ?; v3 R3 v- A AN/FPQ-16 phased array radar at Cavalier AFS, ND, used for early warning and' h: c1 t* @0 G3 q% ?6 Z7 X' ~9 P; z2 t attack assessment.+ V8 F8 g) C) V0 _6 O( P Period (nodal) Time for a satellite to travel once around its orbit. % _$ d, ^4 \8 D. b. w4 }2 @% f2 ^0 aPermeability Having the ability to diffuse through or penetrate something. Q) t4 D$ I7 h. U4 ]% a6 ^Pershing II OBSOLETE. US intermediate-range missile deployed in Europe./ v7 ]$ q/ a6 Z8 [$ s( v9 c& G! R PERT Program Evaluation and Review Technique. 9 M3 \- G( E+ ?2 {MDA GLOSSARY, VER. 4.0 P' E9 s3 R( _1 h+ m" y. }7 r; p 223 " l9 W& L5 d. t" @$ O pPERT Chart A graphic portrayal of milestones, activities, and their dependency upon other2 \5 G2 L4 X! C, ]1 o2 H+ K9 | activities for completion, and depiction of the critical path.9 X* q! |+ j6 n5 D: G: t6 d. I$ v' D PESHE Programmatic Environmental Safety and Health Evaluation. " D# j7 ^6 L8 y. O3 l0 mPET (1) Pilot-Line Experiment Technology. (2) Production Environmental Test.9 g+ o" N7 D1 o7 ]0 Y' ^ PFC Prototype Flight Cryocooler. # w! m. f4 J/ Y( _PFD Preconditions for Defense. Q* U N; K) K# ]9 X. Z PFIAB President’s Foreign Intelligence Advisory Board. & ^7 q4 }) Z6 G+ ]+ ^/ W6 bPFS Pre-Feasibility Study (UKMOD). $ B2 u8 j4 Q2 U- l) N* X1 VPGG Patrol Gunboat, Guided missile (Naval term). & C* B: [' I: p' i. r; E% JPGGH Patrol Gunboat Guided Missile Hydro-foil (Naval term). 0 a: E' Z1 {# L+ w' \3 CPGM Precision Guided Munition.* x# {7 p/ e3 H% e PGU Power Generation Unit. + g) l+ N3 W$ |+ i( G* [PH&S Packaging, Handling and Storage (see PHST) (ILS term).. D) k3 ~0 l$ K9 s5 h Phased Array The arranging of radiating or receiving elements that, although physically 7 {, v6 s' c. s g8 w" S: }; Wstationary, is electronically steer-able and can switch rapidly from one target to) N$ ^9 }. {6 t$ n% w another (e.g., phased array radar). ; U# C( K. G9 `2 j7 z* DPhased Array3 |! [9 L- ]$ \8 L8 P8 ^ Tracking Radar % d" b2 r! C" E* | y3 d( ], C7 NIntercept On* C/ e4 k. }8 o% ^2 c: S3 f" X Target (missile) , E) Y) ?8 K2 d9 K+ T& \) f(PATRIOT)& q0 \# d; D# g7 R A point or limited area defense system originally built to intercept aircraft. PAC-3% N! E g* i6 g) p+ Z& _3 Z improvements, which will give it greater capability against theater ballistic missiles, c D: u* }* I8 G include upgrades to the radar and selection of an improved missile, either7 h# `6 e* h* _ PATRIOT Multimode Missile or ERINT. # Q y7 \( b4 p8 G7 Z" e* QPhased G, D8 a3 y' F. c! {Deployment; S. I, v! y7 r5 O+ k3 X1 Y The sequential steps of element deployments leading to a designated system# t; B8 b7 p; R) C: c capability that is realizable with fiscal and technological constraints.: w" Y9 f4 H- b8 U$ q7 X Phase One6 l) d* r6 m4 ]( Y5 r Engineering 3 h; X3 t7 A* PTeam (POET)7 A( t9 l( x6 p" ]$ O9 R1 S OBSOLETE. An FFRDC providing technical support to the Phase I Program t$ `4 S9 C8 T+ m+ u! |! aOffice. Now referred to as POET.( g4 u4 J o8 f3 u7 Z" \ Phenomenology The topological classification of a class of phenomena. Phenomenology efforts 9 `; |- w# f5 A m9 m+ Vcollect and analyze optical and radar signature data, and model phenomena3 L6 ^: A+ }3 I6 P required by systems developers to design and evaluate SDS elements. . o# v! T( u; U: R& QPHI Photonic Hit Indicator.* d `4 x& Q8 D9 S. e1 c3 \5 `) \ PHIGS Programmer’s Hierarchical Interactive Graphics System.5 l% L/ \9 K: z9 u& N PHOTINT Photographic Intelligence. 0 h( p0 S1 V0 `, b) P4 _Photochemical A chemical reaction resulting from exposure to radiant energy or light.( |5 d: t7 v. ^2 I! O. f MDA GLOSSARY, VER. 4.0 P 3 J8 M, E* ^, {. s$ U; U224 4 K2 ?7 g3 T9 v% b( wPhotoelectric3 ?; ^7 [0 z8 q8 j, I Effect $ F1 C. f0 g9 }( D4 V: QThe process whereby a gamma ray (or x-ray photon) with energy somewhat; \5 [- U4 ? a greater than that of the binding energy of an electron in an atom, transfers all its 6 |) E( Y; L* H4 I2 oenergy to the electron which is consequently removed from the atom. Since it; o0 \# [7 }$ t1 R m" F* W has lost all its energy, the photon ceases to exist. (See Photon.) . D; }# i: R) Q, {- ?! h) yPhoton A unit or "particle" of electromagnetic radiation, carrying a quantum of energy, 3 m+ L7 z8 _2 P; ~, m$ u' fwhich is characteristic of the particular radiation. , s5 M' u4 G: B$ S( P! c5 |PHS&T Packaging, Handling, Storage, and Transportation.& U( s* i" a: C/ y7 |$ T$ p Physical Agents Descriptive term that includes non-ionizing EMR, static electric and magnetic " [( A' J5 N/ S' x+ Pfields, ionization radiation, energy beams, noise, explosions, de-orbiting debris,2 n; x+ w- ^) }# D! u4 { and extreme cold.

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发表于 2008-12-25 20:16:48 |只看该作者
Physical1 q2 A/ M9 \5 ]6 z2 d& g3 v D Configuration# g/ _+ k0 p6 V. n0 x; o; ]9 d Audit (PCA)/ n; V* @* U" D. @9 D Physical examination to verify that the configuration item(s) “as built” conforms to / o L" O5 Y5 U$ y9 Q) Nthe technical documentation that defines the item. Approval by the government ( V3 O. U& M T, I/ Z7 oprogram office of the CI product specification and satisfactory completion of this " Q w! o+ z: H; Kaudit established the product baseline. May be conducted on first full production( j. C7 M% ?4 x. E. X or first LRIP team.: ]! i, l" H i! \ e b PI Program Integrator.% _# N+ T9 i2 B X PIA Personnel Identification/Authorization System (USA term).6 o2 J% j+ w+ x: n0 j6 p PIC (1) PLRS Interface Controller (US Army term). 0 w: i7 `$ K5 P1 x5 W(2) Policy Integration Committee.4 A9 G# O N0 O: \3 I (3) Program Information Center (Computer programmer term). , G3 C' I$ K. G) M3 lPicture Element* c: Q" s' U v% G8 c (PIXEL) ; G/ y5 g# R: U( f0 LThe smallest element of a display space that can be independently assigned |. m- ?5 A( x* U; U7 Lcolor and intensity; the finest detail that can be effectively reproduced on a % O( _7 L3 h6 [, |recording medium. 7 [* }% l3 @/ W+ iPIDS Prime Item Development Specification.. b# V" [+ K$ t) |5 [0 g8 I Pilot Production Production line normally established during EMD to test new manufacturing 1 `) C) H9 U4 Q" f0 U1 A+ Fmethods and procedures. Normally funded by RDT&E until the line is proven. 4 s8 }" H! H2 N; F# O( ~Not the same as long range initial production., J- n& l" m: m% X PIM Position of Intended Movement (USN term).1 ^8 H1 {5 J. s6 _2 I. ? PIMS Programmable Implantable Medication System. ' l! I# Y6 v# X* x- x% V( N: X0 l- |PIP (1) Predicted Impact Point. (2) Predicted Intercept Point./ h O3 T8 ?/ z6 O (3) Product Improvement Proposal/Program. $ h8 j7 u3 ~+ B4 [" H" mPIPT Program Integrated Product (Process) Team. : o) u2 A" E( {, C( e9 hPIR Program Information Report. + q! ^9 B8 I! OPIXEL Picture Element. 3 v; \9 U$ k5 gPk Probability of Kill. 2 d. t8 }$ c. w2 F) g9 @$ hPKCS Public Key Cryptography Standard.+ F7 f5 ~, \/ P: G, Y2 g* A PKH Probability of Kill, given a hit. 4 J4 W& g* c7 m6 S. B* a; [MDA GLOSSARY, VER. 4.0 P) d5 C" k) m/ i 225 , C7 L# T' Y4 OPKO Peacekeeping Operations.$ B b/ ~8 h: z' V. }! P Pkss Probability of kill -- single shot.6 T V7 q% \3 D; N PL (1) Probability of Leakage. (2) Phillips Laboratory, Kirtland AFB, NM. (3) Public6 f& {* ^( G; s: ]: A Law. ; T* E) X& ~0 G y# kPLA (1) People’s Liberation Army (China’s army). (2) Patent License Agreement. 7 Y% }' P$ @/ N7 [, D* g" X3 ~" VPLAN People’s Liberation Army/Navy (China’s military).7 M5 D9 ?6 y. c6 n. [4 Y3 c; @ Planning, % o3 G" L0 |' V( [/ iProgramming,+ J% W' N U; I+ E' R) Y# U Budgeting 8 n" y$ f) O9 D0 ISystem (PPBS) ! a- R- `* b+ G% d9 PThe primary resource allocation process of DoD. One of three major decisionmaking support systems for defense acquisition. It is a formal, systematic . ]8 W, S. u+ `) D# N0 Q% Jstructure for making decisions on policy, strategy, and the development of forces - W% [, I" t0 g0 A' Eand capabilities to accomplish anticipated missions. PPBS is a cyclic process( {3 Q5 s) h* f6 u' _ containing three distinct, but interrelated phases: planning, which produces the 4 y4 t% R3 ]- _' _# O2 aProgram Objectives Memorandum (POM) for the Military Departments and w# S% [5 }* y6 y# F. j" ^ Defense Agencies; and budgeting, which produces the DoD portion of the: R X- |% J. x L President’ s Budget. DoD PPBS is a biennial process starting in January of each5 T8 J9 E3 N# E, t odd numbered year with national security guidance to initiate the planning 4 `! H/ J8 s. Q1 j! q+ @phase, and ending in January of the next odd numbered year with the; {5 s9 e- U6 U) h H President’s budget submission to Congress. (Defense Systems Management. n) q& Q" `1 e: n4 F" p: y3 v7 L College)- b8 V# s0 K8 Y: x PLCCE Program Manager’s Life Cycle Cost Estimate.0 O. I0 g( p7 u/ `, w6 \; _( Z+ L PLISN Provisioning List Item Sequence Number (ILS term). % S; z, g1 J$ j$ [/ ^4 mPLRS Position Location Reporting System.# E# h0 Q# {: @; E$ j3 k! ^7 m Plume Data - I% E" G! z3 l1 g( Y$ k2 r9 vCenter 0 X0 B* F. q8 M1 TAEDC, Arnold AFB, TN.8 v [- Y8 i' z* F0 R x9 n, T PLV Payload Launch Vehicle.# t. F5 d" ^+ F PM See Program Manager. # K4 p7 R1 [% _) F- a: E; M- M/ lPMA (1) See Program Management Agreement. ' v: t. l' U2 [(2) Post-Mission Analysis.5 h6 y, ~! b. n6 w2 ~ (3) Pressurized Mating Adapter (NASA term related to the space station).! G1 N! e3 F6 b# e a# a3 r PMASIT PMA Software Input Tool MDA/DPI S/W tool). ! q% u t" R4 ]! N, GPMC PCI Mezzanine Card (computer H/W term). $ V3 J( |% `2 p" E8 [PMD (1) Program Management Document. (2) Program Management Directive (AF). 1 w; \" u5 \4 S9 |0 o9 Z2 v, h% |8 yPMEL Precision Measurement Equipment Laboratory. 5 l! k9 F# h5 f. I. ZPMI Preventive Maintenance Inspection.! n& ]) r- S" D- L6 }* [ PMIT PATRIOT Missile Integration Team (PAC-3 Program term).8 V% X2 j, s+ B* ~% [1 e4 r PMJEG Performance Measurement Joint Evaluation Group.' k* l$ ~/ q9 N" m4 |7 z PMO Program Management Office. * @5 }1 ]3 A+ A: \; t7 [# jMDA GLOSSARY, VER. 4.0 P4 o4 }0 f2 U* W: E3 s* \- x 226 : ]5 b# }# }/ Q2 C3 FPMP (1) Parts, Materiel and Processes (US Army term) (See also MPP).+ Y0 @$ m* Z* \2 @- ]" ^: J (2) Program Master Plan. ; o* @$ P+ I; j* U+ B" N(3) Prime Mission Product. $ t) O# ^& b5 N2 f(4) Program Management Plan. } h2 v7 l; q# X( x9 |7 | PMR (1) Program Management Review. / n! V7 f" _! F; y7 O% \; n(2) Pacific Missile Range. * d" X' G% `9 r. L( P(3) Program Manager’s Review (PAC-3 term).6 I' a* W% y7 Q2 p5 t6 h( t PMRF/KTF Pacific Missile Range Facility/Kauai Test Facility, Barking Sands, Kauai, HI. 1 \0 t$ L, E, k( `7 n! V. CPMS (1) Planned Maintenance System (ILS term). A* J) ^1 m& ?2 `- r' v (2) Performance Measurement System. 7 i" w# {2 ^* }, e; |PMTC Pacific Missile Test Center, Pt. Mugu, CA.5 l7 f" U, c0 w PMWG Producibility and Manufacturing Working Group. + E% f B) \/ x. y% R, d! W8 f0 U- VPN Probability of Negotiation. * h; i$ V1 ~6 L8 Q9 C5 a5 uPNE Peaceful Nuclear Explosion. + X% j0 h _' L* }. SPNET Peaceful Nuclear Explosion Treaty.$ R/ D) W6 k" d3 J PO (1) [Acquisition] Program Office. H' X) p* A; u- O" T2 G( V4 w8 o (2) Purchase Order.* ^3 C, V1 D! Y0 Y2 K2 \' A; J5 ~8 } POA&M Plan of Actions and Milestones.5 ~: m, ?$ J+ Z8 I9 T POC (1) Point of Contact. (2) Proof of Concept.3 s% B% Q! L: N( x& c0 k3 ` POC/ET Proof of Concept/Experimental Test (e.g., modular USSTRATCOM ground mobile ! K6 H' v* S* L- ecommand post). 4 B8 y: `% `6 c! y8 [. O' APOCT Passive Optical Component Technology.& s5 ^5 U, ?7 p# g4 j: J4 p; @& [" L } POD (1) Plan of the Day. (2) Probability of Detection. (3) Port of Debarkation. . m* A$ W p; a" [" t- o" XPODIUM Project Origination Design, Implementation and Maintenance. 1 D; ]: S; h9 s0 {0 F0 tPOE (1) Program Office Estimate. (2) Projected Operating Environment. / O# H5 f! C. WPOET A consortium of scientist and engineers from FFRDCs providing technical support 3 R" `% U: H9 u6 ]6 f K( mto the MDA. (Formerly referred to as the Phase One Engineering Team.): |4 ?/ G; s0 k+ l9 [ Point Defense The defense or protection of special vital elements and installations; e.g., + T$ y) s1 M3 [ y3 c* T; ecommand and control facilities, air bases, etc.! G2 T$ r$ ~9 R0 W$ u+ H8 W Point Defense; h" M. R& y/ ~" J( x5 O System% C$ O2 |& e& J& o) \ A terminal defense system using radars and large numbers of guided projectiles ! Y8 `1 p: n$ Y+ T3 |: Mto defend ICBMs. This concept was considered in the early 1980s. ; K& x2 X/ Y% u+ D5 U/ BPointing The aiming of sensors or defense weapons at a target with sufficient accuracy6 B! p& s9 g" T8 x- z# J either to track the target or to aim with sufficient accuracy to destroy it. Pointing ! v9 H$ g) ~2 B W" w2 r( {6 gand tracking are frequently integrated operations. % M0 X, y# v1 z% O# ]/ H6 P! X5 i2 gPOL Petroleum, Oil, and Lubrication. ' [0 `$ d/ o' q, \MDA GLOSSARY, VER. 4.0 P7 \: z# W# [/ I+ T: Z 227: P! j( F# U' s. @: x POLAD Political Advisor.

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发表于 2008-12-25 20:16:59 |只看该作者
POM Program Objectives Memorandum. ) l- R* ?- Q' M2 b% }. fPOMCUS Pre-positioning Of Materiel Configured to Unit Sets. + J+ r% j$ l: E- c. x. APOP Proof of Principle. 5 H# ~2 V7 l p0 O4 s) u8 r2 hPort Covers Mechanism for thrust termination of solid-propellant systems.: n- m! |0 A* o, _, O1 @/ A5 ] Portability (Software) The extent to which a software component originally developed on 4 E. q+ ` H5 R! \) _/ p$ Tone computer or operating system can be used on another computer or 1 D2 f% j; q2 ? g- zoperating system./ W% i) U0 x3 a* r POS (1) Primary Operating Stocks. (2) Probability Of Success. (3) Position. , L; G0 J/ Q/ Q4 T# D4 x1 @Poseidon Class of US nuclear ballistic submarines (USN term). ( r. Z# r: Y/ f, tPOSIX Portable Operating System Interface.6 l* B$ X' x) I9 @ POST Portable Optical Sensor Tester.9 z, W1 J$ x0 o+ c0 ~ Post-Attack The period following the attack, prior to the next wave. 1 V! E( w6 x; Z. gPost-Attack; L, T2 J& u: q- E+ F Period% ^5 `4 h4 a0 X0 r5 {9 X In nuclear warfare, that period which extends from the termination of the final3 {- q% H" O) V' c' U6 }# ] attack until political authorities agree to terminate hostilities. * A4 P" i7 q; r& S$ F2 X2 B* P. x; TPost-Boost( r5 X" `/ T% u Phase (PBP)0 n: ~4 z3 v: t# g* ` That portion of the trajectory of a ballistic missile between the end of powered* r1 Y8 k$ G: k1 K- u5 D flight and release of the last RV. Applies only to multiple-warhead ballistic ( I( T9 d9 g+ i- K9 @ J4 `missiles. (USSPACECOM)( ^. `4 J6 j J Post-Boost 9 S4 G6 a& x8 ]3 }# v; V9 fVehicle (PBV)+ s8 W% e' y5 ?5 v The portion of a rocket payload that carries multiple warheads and which has the- f$ U' t2 j# C" ?0 I9 F/ \$ `- D2 b* Z maneuvering capability to independently target each warhead on a final # z. \+ P- A( a; X8 q, jtrajectory toward a target. Also referred to as a "bus."2 j. u! ]+ F$ c POSTPROD Post-Production. 2 y- l% D) j R0 RPOTS OBSOLETE. Phase One Threat Specification. ! I- K6 V* {4 H" _6 ~2 M- M; TPP (1) Parallel Processing.4 y9 a C# f8 h0 @% t3 e (2) Principal Polarization. 1 V. v" }. P8 T- _% i. ^( Y9 q(3) Post Processing.- ^. C" |; }5 |1 D; n0 ] (4) Program Plan. ; g) o9 ~5 a' Y' w% wPPBES (1) Planning, Programming, Budgeting, and Execution System.) I' D3 _; t3 x (2) Program Planning and Budgeting System., t7 e8 X& h+ R+ ]5 L PPBS Planning, Programming, Budgeting System. , \1 I7 C3 K/ U5 G! a4 ?7 n& h5 qPPG (1) Parallel Programming Group. (2) Program Planning Guidance.& t, @2 P! ] p PPI POM Preparation Instructions. ' Q- P( ~1 d! U9 pPPIP Program Protection and Implementation Plan.9 C5 A7 a7 J1 m5 W* t, h$ C' { PPIRS Producibility Programming and Issues Resolution Strategies.# ~. c+ U* l! I MDA GLOSSARY, VER. 4.0 P 4 _" f# O. x/ k228! ]7 h) k: F/ g6 L PPL Provisioning Parts List (ILS term).! ?1 i! ^0 m- j' ]8 T; i4 Q9 V' u PPLI Provisioning Parts List Index (ILS term).# Q' N6 _: c8 ^8 L PPP Program Protection Plan.7 i# @8 j( y1 |; j PPQT Pre-Production Qualification Test.' h, S" Q S1 F$ h! H/ X1 a PPS Precision Positioning System.5 d) c: h0 X7 d% i PPU Prime Power Unit (THAAD).; Q: A! O2 l& P: v+ |* O) J PR Procurement Request. ! H$ Z1 s. _/ u+ XPRB (1) Planning and Resources Board. (2) Program Review Board. ) D9 e) M$ ?" z3 PPRC Program Review Committee. . U/ K0 F# g% v I8 QPRD Presidential Review Decision. 7 T, j: F I' \' RPRDA Program Research and Development Announcement.1 d" C0 s/ ^8 V PRDR Pre-production Reliability Design Review. ( S6 _8 I% F; ]Pre-Allocated $ e6 a! ]8 s3 g4 b" dDefense( p3 q' @* m& f( Q5 O A preplanned decision to designate a specific number of defensive assets to be7 I3 ^0 d9 p1 S5 b5 L! P1 }3 z; L used against a specific target or set of targets or to defend a specified asset or ; x3 g2 Z& f% @& a: H: L( P- `set of assets. The defense will select the best tactic to use based on the! b) R; W' ^* m& c4 { number of interceptors available, their probability to kill, the number of targets / K: b0 z2 `% f. [! Z! Eunder attack to be defended, and the scope of the attack. 8 ?; J, i$ Y) g+ F5 \( @Pre-Attack A period of time immediately prior to an attack, usually hours to minutes to tip-off. 2 k( X- t6 M3 `9 RPre-Authorized; u' y8 K5 p1 o0 \% f; w Engagement! A+ w, x5 O+ r Criteria (PEC)7 W, o3 U5 C5 o Pre-specified quantitative operational parameter thresholds which when6 ~- x/ Z$ {8 u3 }. X surpassed cause automated engagements to be enabled. : y0 B% K$ U/ T- K" o' E* N6 l( `2 UPre-Commit - F n# j, j6 |* X5 }$ lStrategy + w$ A0 A2 ~8 B( K' I8 ]1 J* S, HA tactic in which defense weapons are fired without being individually committed1 b" T, `3 p! X2 v1 k to specific targets. Target commitment would occur relatively late in the2 m) T( q2 K; |% z defensive weapon’s trajectory.% W/ J! X- a x2 j c Pre Launch1 j! ?) w2 o8 L7 F) D Survivability % P0 F' q' u" Y% `4 N" oThe probability that a delivery and/or launch vehicle will survive an enemy attack J: y. A7 b/ e( B5 v' iunder an established condition of warning. 6 V+ `+ Y8 E, lPrecedence 1. A designator, which indicates the order in which a number of messages shall 4 N' X! Y" ~7 _: S. Rbe served. Four precedence levels are provided for SDS, with one being the . R7 ~, \0 E1 R3 Ohighest and four the lowest. Messages with precedence level one are served9 g7 r4 m0 E( z& b$ s% e3 N3 `3 G first and those with level four last. These correspond to the four precedence 3 C3 `+ N/ \; g$ d n+ tlevels, Flash, Immediate, Priority, and Routine respectively. 2. (Reconnaissance)8 [: w/ U' e! `1 ` A letter designation, assigned by a unit requesting several reconnaissance 0 _0 p1 \$ ]( _7 z4 Q! L- Q% ]missions, to indicate the relative order of importance, within an established + a& i( V7 K# ?+ e- j: ^+ S5 H- `priority, of the mission requested.

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发表于 2008-12-25 20:17:11 |只看该作者
Precision - Z7 w2 w+ {8 L% QDecoys4 `: K( E) D2 d- k Decoys that precisely match RV characteristics either exoatmospherically or # z1 i q* T: @1 d" e$ Q& I- `endoatmospherically, or both, and seek to deceive the defense into intercepting5 B9 Q. X4 P" s7 X them. & l0 e5 h+ v' _$ y8 uMDA GLOSSARY, VER. 4.0 P - e( U9 A; T5 T6 j/ N229 & \7 c) ~' f. N, U: cPreconditions for % i3 C2 Y9 d. {# FDefense (PD): |1 i) y5 Z, G: y* W; A$ N PDs are NCA pre-approved criteria, authorities, and procedures that delineate+ U5 ^0 j1 i1 E" o( u& D circumstances under which USCINCSPACE BMD forces will initiate or continue 5 }9 ~* F$ B& V; ecombat engagements and operations against hostile ballistic missile attacks; N8 }, y* _) U1 \ directed at the United States, its Allies, or U.S. interests during peace, crisis, and 5 a( O! r# x! N; ~! Cwar. ' l: S+ h+ W0 c- sPredicted ! @3 A+ z" l) t X/ qIntercept Point : ]- E" y! @0 n$ i; \(PIP) Y* J; e% h' O3 l) w" u) G The calculated position in space where the target and interceptor coincide.* t( Z3 i( e) U' t$ I O9 ~ Preferential ! m3 _$ H; u7 ADefense6 f6 N2 [( ?3 m- D: ? Preferential defense is the a-priori assignment of defensive assets to protect9 V/ D% b3 V, Q0 ] given facilities or capabilities.3 G+ a' r M; G Preferential! Q& T4 \* g/ Q Defense Strategy * E. y3 A5 u7 W, SA tactic used as part of the SDS strategy to optimize the use of weapons and1 c. i$ D2 h2 y" E+ s! q$ L G sensors by selecting high value targets for engagement by the defense while& H8 t1 A" a$ x) Y& p# ] temporarily allowing less important targets to pass. This strategy forces the 3 z! x, _6 x0 [. ^9 I; U2 zoffense to attack with several times as many RVs as the defense has 3 V& Q1 k8 t. |4 L' u8 r; T+ Yinterceptors. Since preferential defense demands precise impact point prediction,1 O$ G' R5 P$ P) g1 k% I the strategy is placed at a disadvantage if targets are closely spaced, if RVs can 9 M. K3 W9 ?8 w0 n; b+ k7 f* zmaneuver or if the defense intercepts ICBMs in the boost phase.) x5 B; n6 e, y0 _' J4 N$ T Preferential" s0 @4 F& ]: g& p5 O Offense+ p& y' v4 y0 k# b' K The concentration of offensive assets on a subset of targets.5 u8 p: J( R9 m4 u# q9 p Preliminary & z( S# H. v: R8 W$ q4 f" |: F7 EDesign Review 6 O, H8 W, q# h4 d/ u(PDR) ! I3 }. a3 S: d2 c* i, VA review conducted on each configuration item to evaluate the progress,! c0 L- B, U/ z, ? technical adequacy, and risk resolution of the selected design approach; to2 c, F+ r6 d6 J1 L determine its compatibility with performance and engineering requirements of the) {8 [- b6 b" R c development specification; and to establish the existence and compatibility of! |) p, e1 T& ?) k the physical and functional interfaces among the item and other items of 0 i+ P8 X5 Q5 x' i$ H, p. \equipment, facilities, computer programs, and personnel. Conducted during f# }4 i/ d# t* j3 v8 I1 PPhase I, Demonstration and Validation (for prototypes), and Phase II, 5 T0 W% Y R0 ~; S+ BEngineering and Manufacturing Development. : ~- V8 v$ T ]* FPreplanned4 V0 C& s; y% D Product # Q) [9 F2 r9 T7 hImprovement4 `, y; e" v% k5 ?! k (P3 I)4 C. _0 \. H: j5 [5 \, @: }( x Planned future evolutionary improvement of developmental systems for which 5 u! r7 m+ a/ d* s" t4 Tdesign considerations are effected during development to enhance future" q+ u; a. X: r2 U: ? application of projected technology. Includes improvements planned for ongoing' s5 z. U5 p% d- @) R6 ~ systems that go beyond the performance envelope to achieve a needed # o. T& {( J }. u2 woperational capability. 0 q7 N4 [6 ~) v" t$ sPreplanned* i! A- E; i2 c1 J: s: x, F5 Z. a Response7 ]+ M: w' J5 N9 Z! S! R Options (PRO) 5 Y# _0 z4 S% q- LBallistic Missile Defense (BMD) reactions, which have been preplanned,; p5 o( \- R/ W5 t# [5 ` analyzed, and pre-approved, for specific ballistic missile threats. The PRO, . E, _5 ^. l6 ?) B2 t7 s2 vequivalent to an operations plan, consist of a number of Defense Employment , n8 D) u; S' L. Y- P8 b( |Options (DEO) which provide force employment objectives to Component forces , X t- x- R7 s% u3 Lbased upon the world situation, national objectives/guidance, BMD asset status,7 S' j6 h! n2 r( r and the intent of the threat. PRO is automatically processed with real-time ) M. n. t g' z' \3 Z: C0 m+ f; Ihuman oversight and control when USCINCSPACE directs execution. 8 j2 T; x' p, o1 rPreproduction $ |% S% p {1 Q/ I% S9 \7 Z2 s6 l5 WPrototype ! I* j4 d5 }) c1 Z- V/ tAn article in final form employing standard parts, representative of articles to be9 {' V/ O) e7 y' q2 M3 f( ` produced subsequently in a production line. : y& [9 q" k* v6 z; k" P0 X* APreproduction & e6 \; Z% \3 }Test ) W, Y" j6 q- x0 M- JThis is a test of design-qualified hardware that is produced using production b' K& m* i0 @% @5 s+ P1 l3 |* R3 Xtooling and processes, which will be used to produce the operational hardware. : \9 }2 w2 y; c' Z% L6 GNo production hardware should be accepted prior to satisfactory completion of( C# v; i& c; K6 o/ p this test. Test objectives include: gaining confidence that production hardware $ y1 a2 y, n! S1 E" q0 O" Tis going to work; that it will be reliable; that it can be maintained and supported- d% ?% U: c2 ~" V% {' p by the user; and that it is not over designed. + P7 `" M& L5 B$ u; K! i% pMDA GLOSSARY, VER. 4.0 P/ I. }3 V/ a Y0 e 230 |' h2 g6 B9 \4 I' E Preset Guidance A technique of missile control wherein a predetermined flight plan is set into the5 B8 X @, ]. {+ A1 J" F control mechanism and cannot be adjusted after launching.$ W; a0 {: T# O" J( x President's ( s' }1 H% x6 `8 r. {Budget (PB)" ~- x$ z! k& c The Federal Government's budget for a particular fiscal year transmitted in9 c: R9 L% \$ a3 L) o. V- B January (first Monday after January 3rd) to the Congress by the President in5 y; u6 W$ P4 d% B/ Y accordance with the Budget and Accounting Act of 1921, as amended.2 Q4 m( V0 B; O0 B2 T Includes all agencies and activities of the executive, legislative and judicial# B; i& ~9 C( w! b branches (For FY 88/89, two-year budget for DoD submitted in January 1987.) + X" P/ W+ X. f: u+ S( X% P0 m" VPRF Pulse Repetition Frequency. 6 Q& I, I: E8 Y1 Z% ?PRG Program Review Group.' l- H: `& a! u& k5 R# B, b7 e1 J) R Prime Contractor A contractor having responsibility for design control and delivery of a system or$ C0 {: O* Z: |0 _/ {! Q+ V equipment such as aircraft, engines, ships, tanks, vehicles, guns and missiles,9 [( Z$ _+ r6 i" e: x* U6 O- z2 q ground communications and electronic systems, ground support equipment, and4 r8 s7 r* d# z2 ?( N test equipment. p4 e2 r3 w- U. s6 ?2 ?, JPrioritize Targets To identify and rank targets in priority fashion, based upon criteria such as type, ' a1 H4 _$ z2 z& \$ b; wpredicted impact point, and predicted time of impact.9 h8 Z) X% ]& z$ C* q \ PRN Pseudo Random Noise.- _- m& Q0 n T- n0 O9 i PRO (1) Preplanned Response Options. (2) Plant Representative Office. : s* d! ?; x* S+ IProbability of. \/ b8 u' z/ u# C* s2 }6 D Damage , W% P: B0 Z5 q, p( A$ gThe probability that damage will occur to a target expressed as a percentage or : I* s- ~. ~/ n' v( gas a decimal. 0 r G+ i, M8 I( W& }Probability of J) e% n C: uDetection $ j4 Q7 H: S! F$ i& ^9 `(1) The probability that the search object will be detected under given. z! S9 P/ `0 J+ j& T0 d+ n% ]2 ~ conditions if it is in the area searched. ) c' F# J- T# J5 K. Y/ ^(2) The probability an object will be detected given all known error and noise & `: x c* b) ]sources.

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发表于 2008-12-25 20:17:22 |只看该作者
Probability of" v# D B2 j2 k x5 u0 l) x Discrimination 4 W. c- m1 r% ]# O+ V% \This is the probability that an object, which is threatening will be correctly5 p$ f- E8 t5 d/ U1 C: _2 Q: a5 O identified. The ability to discriminate between a potential target and a decoy is 5 \% A' _9 @: Q0 pquantified by a “K” factor, in which the higher the numeric the greater the 7 P6 k i9 H2 G- t0 {8 Hprobability of discrimination (thus, a “0” K factor implies that the target is$ i- b7 F$ S7 q: V' K t indistinguishable from the decoy).3 J) Q v; P. z7 p/ e2 b* |; [ Probability of 0 n/ W- O2 S: j) o% c* YFalse Alarm ]9 [) a2 A0 Y2 Q. F+ G2 e(1) For a single sensor this is the probability that an object will be detected; ]/ _9 N- {3 R* i/ ?4 U when no object is present. # X) D e0 k1 B+ V4 }# N(2) For discrimination, this is the probability that an object, which is not a " s+ g" U# }$ h5 b6 V2 h3 \% Tthreatening object will be identified as one. ) } F+ Z' v9 K0 rProbability of Kill The lethality of a weapon system. Generally refers to armaments (i.e. missiles, 7 Q8 s8 u# v0 a3 j: n2 b, Nordnance, etc.) Usually the statistical probabilities that the weapon will detonate 3 l h3 e. S+ O5 xclose enough to the target with enough power to disable the target. (Defense2 {. G4 Y; r8 b% a7 j$ h& f Systems Management College)1 k5 Q) a4 i! N. `' B# ~2 B Probe The air vehicle of the GSTS. 1 o! {/ Q- H% X! n0 QPROC Procurement.! ^ }/ @* |# Y4 @: H8 n8 U6 n Process Data" C7 i% z- V2 z% n9 ] Sensitivity Label2 A. o& X' @ H& R$ a (PDSL)% H/ @; i, D3 E8 Z$ _4 T! Y! @& | The sensitivity label for data contained in a process.% g5 c( q5 C2 b% O: h MDA GLOSSARY, VER. 4.0 P - C2 C) F7 E' c, J5 l2 g231& V* k9 y1 a& H1 G1 q8 ~4 t- d PROCMT Procurement. * {% h3 B ]% N) dProcuring , K% u! Y6 L% wContracting 2 l7 x1 t" o1 z+ t3 H0 N$ LOfficer (PCO), S X6 {; d+ Z9 O The individual authorized to enter into contracts for supplies and services on7 u% F" [: _; r2 A/ u behalf of the government by sealed bids of negotiations that is responsible for + d7 A& n" Y1 t; T+ E% Z; o5 B2 N4 ^overall procurement of the contract.% {, p5 S) k; m Prod Production. l; U% H' S2 g' l5 x& [Producibility The relative ease of manufacturing an item or system. This relative ease is% H/ F) }( n7 R4 w governed by the characteristics and features of a design that enable economical 9 j0 }. w3 _9 l: lfabrication, assembly, inspection, and testing using available manufacturing % Y7 F+ H5 d; e( s: Ttechniques." M1 v# a: x ?. b" ?" V Producibility,- {2 `' {" v9 o6 k Engineering, and8 h8 J/ n3 a9 k' M, V; O; p0 u Planning (PEP) C4 Y4 D( h3 ^; g1 U; {( Z Applies to production engineering tasks to ensure a smooth engineering3 ~# A# Q. K2 ?, W1 z- @& H0 t transition from development into production. PEP, a systems and planning 8 k" m9 x, n/ A- x" Nengineering approach, assures that an item can be produced in the required ; z3 N! y% M: nquantities and in the specified time frame, efficiently and economically, and will) X8 a& a& u. J7 b( T$ O3 @& w# r& S meet necessary performance objectives within its design and specification # M" a8 |1 p' [/ i8 gconstraints. As an essential part of all engineering design, it is intended to & P5 K! W3 N7 W2 M# P2 M* S+ Gidentify potential manufacturing problems and suggest design and production 0 n3 v" l Q4 P- U! ^$ Q' pchanges or schedule trade-offs, which would facilitate the production process. # U* ?( Y/ \+ F$ EProducibility, 5 m) {" C& e4 V# z$ b4 O: x BProgramming,7 M# s1 Z3 M9 [# ^3 @: W2 q" h) ~" V" r and Issues4 Y" }, q1 t! ~' x! P" Q' U Resolution 7 t+ W$ D. H0 lStrategies: i5 L v1 Q/ Z (PPIRS)4 k+ F$ u$ d( w) w; P. { A semi-annual document put out by the MDA P&M community listing all medium8 w$ ~* {* j- _7 b/ F and higher P&M risk issues as prioritized and coordinated by the MDA P&M ; A/ |" I9 L& n+ {) O$ D' y/ yWorking Group. . M( G c% O% F9 XProducibility5 A) |( K/ h' `( [ Review 1 T4 f0 V$ q& I$ _$ yA feasibility review of the design of a specific hardware item or system to5 p' U6 _+ e0 k: O' I; N( n+ i0 q/ Q determine the relative ease of producing it using available production technology 0 a: ~* R" R H& i' Iconsidering the elements of fabrication, assembly, inspection, and test. This is a* s; q3 p1 {" I/ B7 [8 z! s. f generic term for the concurrent engineering portions of MIL-STD 1521 system# ?' f) _' c N( ^7 L% z design reviews. & `( \ F1 ]6 qProduct Baseline (1) Established by the detailed design documentation for each configuration . ]7 x3 s: b0 \3 T" kitem. Normally includes Process baseline (type D spec), Material baseline' j. ?" m+ e8 a9 y) { (type E spec), type C spec, and drawings.6 W* n& b4 \$ T9 m) M" P5 S' ? (2) In configuration management, the initial approved technical2 L6 f8 t% Z( M documentation (including, for software, the source code listing) defining a - a; q! @" K; y3 s& r& j+ Jconfiguration item during the production, operation, maintenance, and 7 O% Q. R" p4 S1 Glogistic support of its life cycle.5 V5 {5 C) y1 l5 H& V5 r" j Product$ }; e% H+ D' ?) L% O Configuration8 q2 w/ k8 b( I+ D9 M- [ Identification. @# O; ?. }& v! s8 Y" Q The current approved technical documentation which defines the configuration ; o/ z; Y P4 }2 Bof a configuration item during the production, operation, maintenance, and # ?# Z1 ]$ E+ @1 J: Slogistics support phases of its life cycle and which prescribes that necessary for:1 c3 H& g+ p6 C' d1 s4 W' M fit and function characteristics of a CI (Configuration Item); the selected 7 X$ Z- `5 @/ ?/ ifunctional characteristics for production acceptance; and the production , M' N, i2 V) c& Sacceptance test.* C% E& |6 f7 v& V6 p Product + O$ H, G! D! Q; i$ D! X+ g: fImprovement - j2 M. L: v/ z" ?* {Effort to incorporate a configuration change involving engineering and testing on! e/ {& a; I% v end items and depot repairable components, or changes on other than; x1 s8 x. B2 g0 M3 ?8 l2 y4 f developmental items to increase system or combat effectiveness or extend k$ f! ]6 `7 w5 {+ J; o0 K) s7 ruseful military life. Usually results from user feedback. ! ] {! D2 g G+ P) _$ X' MMDA GLOSSARY, VER. 4.0 P0 W# G' l: N, e# F% p; w. T8 d 232! f& U8 x/ C/ ]: l Product Manager The individual, designated by a materiel developer, who is delegated authority0 L# p$ U6 A" q, W7 m. K and assigned responsibility for centralized management of a* l/ d' E- y5 } p4 x8 [! L9 L( | development/acquisition program that does not qualify for' \- d5 Z0 v- L# N1 }4 V system/program/project management. 8 p/ t4 A+ T' ^" V" W; TProduct Security 9 K, z" U4 x2 i+ w(PRODSEC) # z# c5 D/ j2 ?2 j0 tThat physical security provided for selected DoD products (major, high cost,$ Z$ B) {0 n. z: r5 @* t x politically sensitive systems with significant military value) at Department of 9 c" [* E% e! b: Q) K0 gDefense contractor facilities to mitigate the risk of the government as a selfinsurer. Defining and instituting product security during production are essential " `9 r! p3 H4 ~/ n+ q1 `+ Kto the delivery of uncompromised systems.

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