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发表于 2008-12-25 20:15:14 |只看该作者
MDA GLOSSARY, VER. 4.0 O1 d* K v( R' }7 j1 g' z B/ f A. Z 211* X2 R7 e5 @8 e Operational3 B# T! A) Z; W5 Q) l2 W Assessment , k) V9 G" B# D% q' }. ^. t% x# WAn evaluation of operational effectiveness and operational suitability made by an 5 c/ h5 l( q6 r8 D# _: mindependent operational test activity, with user support as required, on other 8 I! d- F2 |+ }than production systems. The focus of an operational assessment is on( R, ]1 q! _8 Z/ M7 R significant trends noted in development efforts, programmatic voids, areas of risk,5 s; M# p+ {4 g" o adequacy of requirements, and the ability of the program to support adequate+ W! \- d H0 T9 u operational testing. Operational assessments may be made at any time using0 l' n$ b/ y. I e* M0 L5 o- r technology demonstrators, prototypes, mockups, engineering development) p( M/ S3 W" G; g- {8 L# ^/ A models, or simulations but will not substitute for the independent operational test3 b$ i1 ]0 w2 P- ]& h. B3 { and evaluation necessary to support full production decisions.4 v; J! H( e, z; ?! D1 T! D. _ Operational, k! G/ ^8 U k Availability: r) B4 B! G* D7 m# c1 v& H; h/ A The degree, expressed in terms of 1.0 as the highest, to which one can expect ! ]& f: X2 }5 M7 n1 D2 |equipment or weapon systems to work properly when required. The equation is m8 h. l; v( ~& ]uptime over uptime plus downtime, expressed as Ao. It is the quantitative link A- j7 G& |( V: M3 g. @3 U1 ?' ~between readiness objectives and supportability.+ T- K/ A7 K* {4 ?7 U" t Operational' h7 [2 Y @9 x8 b8 Z. E- N Concept6 M1 ]7 A% B) ]1 V. N; Z An end-to-end stream of activities that defines how force elements, systems, $ i* Z9 h9 t2 \organizations, and tactics combined to accomplish a military task. 7 e$ u- K' X) z! ^* ?1 y8 qOperational : t, i$ R* O! r& q" eControl (OPCON)! F9 e) W# V7 u Transferable command authority that may be exercised by commanders at any 2 D! ?% c A4 k2 Z6 e/ q! K! g" xechelon at or below the level of combatant command. Operational control is2 B" l' X: K6 Z( V2 Y A5 r' D8 s inherent in Combatant Command (command authority) and is the authority to) |5 q2 w/ M8 T perform those functions of command over subordinate forces involving r( f1 U/ a. h7 C$ Eorganizing and employing commands and forces, assigning tasks, designating # H. o/ C9 n3 k0 M7 T ?( pobjectives, and giving authoritative direction necessary to accomplish missions; O/ @6 i, {- l+ Y assigned to the command. Operational control should be exercised through the! @7 n9 k7 D5 | p" j5 e. L& P6 l commanders of subordinate organizations; normally this authority is exercised$ z% h; q8 s9 O! j5 I! u through the Service component commanders. Operational control normally& z" Q, Y( m/ g% [, Q. G5 S provides full authority to organize commands and forces and to employ those; [8 m0 w" R+ t0 s) v/ L" \4 ]" F/ C1 U forces, as the commander in operational control considers necessary to ! P3 q/ `6 y' P% p- |& iaccomplish assigned missions. Operational control does not, in and of itself,& W! S# n5 [( u6 B include authoritative direction for logistics or matters of administration, discipline,9 E" ]4 u& a; f internal organization, or unit training.5 g" I; Z: B) i! K2 j! c3 C Operational; V' O) s- g5 h1 t4 k Effectiveness" [+ D3 r3 r# u5 q; B6 g The overall degree of mission accomplishment of a system when used by) r( u4 H! D: w+ o2 e. I0 a0 N0 _+ V7 v representative personnel in the environment planned or expected (e.g., natural, & g/ [$ K$ z* x6 U- H5 z+ v% u) f6 b% Qelectronic, threat, etc.) for operational employment of the system considering0 E) W5 Z" K1 b9 z9 l" C5 M organization, doctrine, tactics, survivability, vulnerability, and threat (including + M, Q4 ^+ `1 a9 g1 C& U" K* O1 o3 u* ncountermeasures, initial nuclear weapons effects, nuclear, biological, and _ `/ G+ D! k# t S* Ychemical contamination (NBCC) threats).% ^+ K! ]+ o( n. ^( y; m4 D) | Operational 7 _: i5 G, s% C9 ?, U! x/ PEvaluation 1 i0 ?( A6 [6 x- S G. ?6 d+ `The test and analysis of a specific end item or system, insofar as practicable1 x$ q. s @$ v$ | under Service operating conditions, in order to determine if quantity production is * H" F7 C7 Q) d% S& |/ u Twarranted considering: a) the increase in military effectiveness to be gained;& ~9 c3 k) e# v' c and b) its effectiveness as compared with currently available items or systems, 8 W5 k- j. h6 b* Q9 R Lconsideration being given to: (1) personnel capabilities to maintain and operate ' k% V0 P+ A2 z# s7 R& e- _the equipment; (2) size, weight, and location considerations; and (3) enemy * _0 c0 d$ \' S: l9 hcapabilities in the field. + v+ I7 y6 w% |Operational8 ?. k, \: Z$ K& t, H Level of War S! e/ @9 `- m+ w6 b, J/ `) k. r+ [% n The level of war at which campaigns and major operations are planned, 8 O4 G' @$ m9 E2 D# Aconducted, and sustained to accomplish strategic objectives within theaters or( ]; i4 T2 L# e4 {& { areas of operations. Activities at this level link tactics and strategy by , A* W1 T/ \3 f( lestablishing operational objectives needed to accomplish the strategic * _* h9 `, U/ i* jobjectives, sequencing events to achieve the operational objectives, initiating % v, F" H" G# H: x& E3 sactions, and applying resources to bring about and sustain these events. These ; T; z# q1 U+ ?- |4 l2 aactivities imply a broader dimension of time or space than do tactics; they ensure % n5 r% u' n" W& b# qthe logistic and administrative support of tactical forces, and provide a means by1 ~' g6 v( T2 G5 g* _, c which tactical successes are exploited to achieve strategic objectives.9 n- `7 o, x1 a# ?8 V MDA GLOSSARY, VER. 4.0 O 6 Z2 W5 g) R, ~ o1 g212 ) l) x: n. \0 sOperational Mode The configuration of the defense system element or segment. Refers to the " X: b8 D: ^6 M3 k9 yoperational environment of system, i.e., test configuration or training ; }; y9 h6 k- R, y3 s6 vconfiguration. ) H' k8 F6 e; ]; a1 {Operational / C: k. v2 e j5 I4 g" E$ y1 u7 p2 m8 PReadiness # X) F; _* N9 O* b+ q1 X' D, y; pThe capability of a unit/formation, ship, weapon system or equipment to perform# [2 @5 C9 `# Z7 j* f the missions or functions for which it is organized or designed. May be used in5 S1 G* a& O7 q. @4 |: E a general sense or to express a level or degree of readiness. * v3 ^5 `; G7 |, [1 K& |9 {8 SOperational 8 N- Z# x9 E6 U- i) l' fReliability ) x8 [/ H4 G) N AThe reliability of a system or software subsystem in its actual use environment. 7 c \' h+ w7 VOperational reliability may differ considerably from reliability in the nonoperational or test environment.9 J& R; @" M/ A, @& j& Y6 P: ^+ u# u- E Operational) o/ O% U9 ?6 @( C4 N Requirement1 b" z6 h1 x6 Q% f1 B Navy document, which describes major characteristics of the alternative selected) o8 Z/ f& n3 L6 W. |) L by OPNAV. It is submitted as originating document for all Navy new starts (less/ [0 \# N$ |0 s0 Q 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. s% {; Y( n# v3 C' D6 p& Z Requirements % w/ G) Q$ D( b2 |; m SDocument (ORD) " F2 _ F) \' [( b# IDocuments the user’s objectives and minimum acceptable requirements for % |! v5 N- y% a3 _% c1 o0 Joperational performance of a proposed concept or system. DoDI 5000.1 and 1 d' w$ g o \- f' g e4 \DoD 5000.2-M have standardized format across all DoD components. ( W( m8 J5 ]. T2 h! H0 M; T8 aOperational I6 c1 g. c" B) Z* A+ l Suitability 5 } a7 b6 C/ y$ mThe degree to which a system can be placed satisfactorily in field use with 2 l$ W3 M. p0 k3 P, P2 Pconsideration given to availability, compatibility, transportability, interoperability, 5 i: K9 B5 E# C0 h2 V5 q- U3 K+ H4 _reliability, wartime usage rates, maintainability, safety, human factors, manpower; v1 `% F3 a% H; y1 M2 i supportability, logistics supportability, natural environmental effects and impacts,2 X1 Y- b$ T/ N, i' B7 U) D documentation, and training requirements.1 U6 {3 ^. @3 } E. z6 @1 _ Operational Test 4 j" Z& e& w/ m4 Hand Evaluation9 P1 I2 {' O. }8 Q+ _$ t (OT&E) ( L8 l; V# p1 V6 sThat T&E conducted to estimate a system's military utility, operational2 b% i) f* O' X- p; b5 L! d$ t3 s% | effectiveness, and operational suitability, as well as the need for any+ k3 F5 a7 }$ Y7 {, k% H. @ modifications. It is accomplished by operational and support personnel of the 2 x% {& N# ]9 f# z( o, F7 ftypes and qualifications expected to use and maintain the system when/ S4 y* L+ Y2 C c; W7 d deployed, and is conducted in as realistic an operational environment as% ]/ N, B7 E' g3 P* [; A+ { possible. 5 }& l: k" m, h* k4 T0 {, VOperationally . I9 S8 W$ [7 }Ready' O0 o! y5 d; v7 O ]; Y5 d 1. Capable of performing the missions or functions for which organized or/ l) W' ]8 O5 U0 t. d$ @6 v: ?. Q designed (as applied to a unit, ship or weapon system). Incorporates both! U7 m0 |) H, H# \. w equipment readiness and personnel readiness. 2. Available and qualified to! e6 V0 q, C8 Q: ^- ?0 H perform assigned missions or functions (as applied to personnel). 4 |- ^3 t% R2 f4 j* l2 SOperations and! t* Y2 q6 d- Q4 R: E Support (O&S) I) X' d8 a- B- N, o+ \Costs* j/ j8 u S, b2 ` Those resources required to operate and support a system, subsystem, or a" ^" }/ V. U! N: {5 I) F8 B major component during its useful life in the operational inventory.6 O. x# Y/ Y4 D- P6 a3 k5 d9 ] Operations4 Z4 U( Q& F" t* c Profile : B( o: {/ `$ L9 d" \* ~An identification of all participants in an operation, their actions, and the time+ g0 d1 s9 y0 G. ] those actions occur in the operation. Includes assessment of operational# m7 A& x0 @( C" L' Z; c6 G Z procedures to ascertain whether stereotyped or predictable patterns are # t, F3 T. T& ~/ [4 Odiscernible.. }. v; x3 @( |! q9 t8 C Operations ! ]6 A/ A) {% n* zSecurity (OPSEC) 9 E: Y: Y! D6 n4 l4 @. i8 kSurvey5 H: _3 N$ `2 r) Q- A& x9 k- [5 Z+ c The method of evaluating the protection afforded a given operation. It is 7 t; C& ^8 d* A6 X7 H: R7 kcomposed of multiple functional outlines that identify possible weaknesses or ' a2 W! S& M% |/ X0 a' Sinefficiencies of an operation that could, if exploited, degrade operational e3 n+ g- m# {: d2 Veffectiveness.- ^; a/ |' e8 N8 S: y7 [" @ OPEVAL Operational Evaluation (Navy). & z5 w( X$ w) HOPINE Operation in Nuclear Environment. ( m8 A* I7 k# o. _$ ^" |% SOPINTEL Operational Intelligence Processor.. {( w' o( a. ]. A' D; y/ U8 L MDA GLOSSARY, VER. 4.0 O" r4 c ~& n" ` V7 Q4 n" m# U 213! ^+ F. B' V+ X OPLAN Operation Plan.! ~3 | s5 _" h1 x$ R4 M% ~6 P3 j OPM Office of Personnel Management. 6 b+ U$ @( b# U. ]. |3 s. GOPNAV Office of the Chief of Naval Operations.& W1 M6 @4 e) _' T' u OPNAVINST Chief of Naval Operations Instruction.4 a6 e: i: c$ u ^ OPNS Operations.! s! z; o! X2 l& ~7 L" k OPO Optical Parametric Oscillation. & m. i6 w: y: v* U5 kOPORD Operation Order.$ m: h" ^+ Y; W, b6 @, ~ OPP Other Physical Principles.9 ~, c* [( k) R5 } OPR Office of Primary Responsibility. 7 u$ i' e7 V+ q' j0 \ t, G8 Z7 GOps Operations (employment). ( g8 n+ O1 Z; c5 J- nOPS Operations. + S. p$ j/ c; S# N9 bOPSDEPS Service Operations Deputies.' o: c! B% { v& N5 K3 s# ^ OPSEC Operations Security.- X0 t; \3 ~) W. F7 B- g5 G* |6 M OPSMOD Operations Module. + n9 p- a* a* ^" n: |) eOPTEC Operational Test and Evaluation Command, Alexandria, VA. (U.S. Army) 0 P8 T* R- K6 f2 D# l: {OPTEMPO Operating Tempo. 4 c5 i& W; J/ mOPTEVFOR Operational Test and Evaluation Force. (U.S. Navy)3 N& R& Q, O9 l6 D9 ] Optic Cobra CENTCOM Joint TMD Warfighter Exercise.7 ?$ {% O1 \. b% P2 v! P4 Q- v% { Optical Airborne 1 d# v( J, U6 d0 ]/ P2 qMeasurement 9 L% s! U5 ~& |" y4 TProgram (OAMP) - H$ ~1 j) b3 F2 {4 V1 k7 A+ W3 G9 cA program involving an aircraft-mounted research platform to conduct& N- b/ i3 r. Y surveillance experiments that can be used to design future defensive systems.- X7 |. D% _9 ~; u$ i2 ~6 o (Also known as Cobra Eye.) 2 P* H* m: y5 Z3 u& ]2 ZOptical Coating Layers of materials that alter/protect the physical/electronic properties of the - {. X: o1 V! I: Ematerial to which they are applied. " t5 N0 s( X" q8 R( p4 n0 uOptical. m) M0 W, ~ a5 g5 E2 Z6 y Processing/ m: z) W' T8 E8 Q* U A type of analog processing, in which the behavior of light beams, passed 6 p7 o( k6 Y7 z- E" R& G/ Ythrough optical systems, is used in problem solving.% v$ r+ R2 y3 H9 A s' C$ N! | OR (1) Operations Research. (2) Operational Requirement (Navy). (3) Operational7 Y9 ?* m. U3 t+ A" ?0 `- S Readiness. (4) Operational Reliability. ! a/ r; s2 J+ J' R4 POR/SA (ORSA) Operations Research/Systems Analysis. 6 X7 V P/ Y0 p& OORACL Overtone Research Advanced Chemical Laser.! f9 {0 o$ h# X! A. T0 T ORACL HYLTE Overtone Research Advanced Chemical Laser Hypersonic Low Temperature.6 \1 q0 A. I' {4 k7 U MDA GLOSSARY, VER. 4.0 O6 \; d) v( @. M4 { j 214 ; w, @9 Z* |" H1 M' x' B) ~Orbital Elements Any set of several parameters (e.g., semi-major axis, eccentricity, inclination, etc.) p4 s& B& O' o1 o# Z: F/ b+ |9 X6 s used to specify the position and motion of a satellite. Six independent orbital ) s' c {# _0 j$ [1 zelements are required to unambiguously specify the position of a satellite in a ! F4 k/ f, U7 l8 kKeplerian orbit at a particular time.% M1 {7 |9 I" [( K: }1 G- p3 ?" S Orbital% _% _; E" a4 d h/ R& Y! ]& F Maneuvering4 V# D! \4 h/ G# O Vehicle (OMV) # ?: p5 I+ i7 P; W4 u3 Q6 b0 FNASA program to provide capability to perform satellite on-orbit servicing. - N. m6 |# e3 |: K6 _' F3 l. ZOperates from shuttle and Space Station./ b5 ~. `2 x! R1 D+ y, z" U7 Z Orbital Suborbital. K, K. c) @ q) y Program (OSP)9 V$ S( b6 M9 I2 l1 y7 y A strategic target booster system used by the GMD Program that uses the g# K# r4 k) w H/ e9 ] 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.' t6 f: B5 t1 X5 R+ u ORC Operational Readiness Condition.9 G0 K p1 X6 y0 c ORCA Operational Requirements Continuity Assessment.. g! g0 b7 N$ V, w. S& y9 ^: i ORD See Operational Requirements Document. ( e! B; _9 Q' iORDALT Ordnance Alteration.! c- u+ z. p: G/ c( D. j Order of Battle The identification, strength, command structure, and disposition of the ! @# ^* M' [* @6 [, z) ~2 fpersonnel, units, and equipment of any military force.3 a1 ^9 {' y/ e1 o U- N Order Wire$ X) \1 W* F: ?. i Message " ^4 q ^& Q2 o8 U3 o" K. cA communications support function for internal control of communications5 F. u/ m K. n# w elements.0 \# A/ V. ?$ {. @" |! w3 L Organic Assigned to and forming an essential part of a military organization. Organic, D3 x) N6 j/ {! J' {6 |; F2 Z! h; L parts of a unit are those listed in its table of organization for the Army, Air Force,/ P2 r# ^3 ~/ L* k4 J4 M8 } w! R and Marine Corps, and are assigned to the administrative organizations of the4 B- f; n6 L- g: _ operating forces for the Navy.8 k6 F" b) M- h) N: d0 E% n( w Ornate Impact USFK Joint TMD Warfighter Exercise.5 F( n: o+ f! P, S& b ORNL Oak Ridge National Laboratory, TN.% b. t& Q4 |* Y. R ORTA Office of Research and Technology Applications. " I2 D4 K# k7 F( @) I# Z: SORU Orbital Replacement Unit. & O: s ?1 Q# |% P$ \2 GORWG Operational Requirements Working Group. 7 U# Q( z" ]( G' K9 p$ e. lOS (1) Operational Suitability. (2) Operating System. * y Q$ U: ^" m* d, GOSA Optical Society of America.* G: y* U4 z6 v. e- |) ?. ~8 g OSC Optical Signature Code. $ G9 {4 F4 h+ i. HOSCE Organization for Cooperation and Security in Europe. ! o+ p! u0 \" D/ Y% u8 j* ]/ Y ?OSD Office of the Secretary of Defense.+ {4 z7 m1 | N* f8 X1 Y OSE Operational Support Equipment. + R2 S5 J. E5 f4 I; x; n# r" iOSEIT Operations and Support Engineering Integration Tool.' t X4 m, Y% W j+ T MDA GLOSSARY, VER. 4.0 O: t4 v8 y# i! q/ }) f" D* a6 e* ^ 215 # j0 J' v+ I0 [5 M- e4 rOSF Open Systems Foundation. % U) ] V. F( r8 P! WOSH Occupational Safety and Health.0 X& Q9 j7 s# c' q OSHA Occupational Safety and Health Act. 7 B& S( n/ @; d' ?! z% ROSI Operator System Interface. ! L0 B4 A/ D% B5 pOSIA On Site Inspection Agency, Washington, DC.) ^+ e$ v7 |. s8 p D OSIM Object Simulation (NMD BMC3 term). 7 K h' V; U# ^OSIP Operational System Integration Plan.8 j6 b x+ k0 I( Q% j% R OSIWG Operating Systems Interface Working Group.) F; j; W) y/ Z {. r4 D5 K OSJTF Open Systems Joint Task Force. - @2 Z3 r6 |+ F, m+ ]7 pOSM Object Sighting Message.5 R( b) _ b0 Y% I# `' \ OSS Operations Support System (Navy C3 program).- V7 f0 m* N% v0 O' L% W- ? OSTP Office of Science and Technology Policy. 8 J# Z V* D8 i0 iOSWR Office of Science and Weapons Research. ' z- X1 P, k& c9 G7 DOT Operational Test. 3 {2 F2 i$ h- K# r6 y* iOTA (1) Office of Technology Assessment, Washington, DC. / o# w2 E# v0 e8 Y _(2) Operational Test Agency.* l/ h; l4 P" ?" a( }6 M (3) Office of Technology Applications, MDA. ( K. b4 ~9 p" {$ x/ ?, EOTCIXS Officer in Tactical Command Information Exchange Subsystem (Navy term).$ M* Q ~4 M2 ]1 ]5 q( J OT&E See Operational Test and Evaluation.1 Z% r, N; M4 q7 d OTDR Optical Time-Domain Reflectometer. ' W1 Z: }2 u* `# [OTF Object Track Profile.9 o/ B# F. N- ?: H9 z0 v2 u/ q( r OTH Over the Horizon.' B8 T- J6 k: a OTH-B Over-The-Horizon. ! P: U# v8 T; f, o# U- YOTH-T Over-The-Horizon Targeting. ( H/ E, u+ H }; e4 s7 jOTO Operational Test Organization.; M/ c7 ?2 {1 z/ X! l OTP Outline Test Plan. 5 J; F$ ^! Y! X, B' w$ u9 cOTS Off-the-Shelf. ) H4 o3 o% u" a& c/ u/ S4 d: IOTSA Off-the-Shelf Analysis.8 P2 D! e/ v. a0 U" L7 Q+ d3 ~ OTV Orbital Transfer Vehicle.& Y. y# H8 i# e, i9 I7 N OUSD Office of the Under Secretary of Defense. 9 ?, ~$ X) l+ j0 R! o& mMDA GLOSSARY, VER. 4.0 O 5 C1 Q: | k2 z, n/ Z* d216: w- _5 I- |( c3 X$ |5 Z OUSD (A) OBSOLETE. See OUSD (A&T). 5 J; h: k# O& X6 t2 f* [OUSD (A&T) Office of the Under Secretary of Defense (Acquisition & Technology).- h' q p& |5 s2 {0 K Outer Space & K- l" ?5 q3 K" \' ^; e3 o# J, JTreaty of 1967 & A$ Q2 t( ~% S' B. f8 TA multilateral treaty signed and ratified by both the United States and the4 k1 I& k" S6 G* { (former) Soviet Union. Article IV of the Outer Space Treaty forbids basing# F8 N/ C" |6 R1 ] nuclear weapons or other weapons of mass destruction in space. # ]: k9 w" T+ s6 W, q b1 AOutlays Actual expenditures. Checks issued, interest accrued on the public debt, or 5 G c" g- L6 Q$ o- Yother payments, net of refunds and reimbursements. Total budget outlays 3 U2 g, B& r# P u8 @+ fconsist of the sum of the outlays from appropriations and funds in the budget, * N2 z! q F; l& H- x" E; cminus receipts.+ N: D1 |+ L a- m R Out of Band , b' Z+ j1 v: d4 E5 m; NLaser Flux6 @) t2 G8 `$ o- P9 U8 y (Sensor) Laser energy directed at a sensor that is intended to damage or disrupt' z- d* ?+ O1 p/ J% ?9 Y the sensor and is outside the sensor’s bandwidth. ' i6 i& `; g2 Q7 M- T. @+ E0 JOut-Years Normally, six years beyond the year being worked in the upcoming POM/budget. $ S) u7 {. f- q' L( V) @4 BOverlay BMD 2 J7 M" S1 v s+ `' U9 ^! JSystem $ l6 i0 I X) s: G7 a( h. A% B$ zAn advanced exoatmospheric defense system oriented toward defense of 4 j6 M; G0 Y% V; C1 o# D1 oICBMs, consisting of missile-borne, passive infrared sensors and non-nuclear3 b# j0 \9 f- X9 `- p8 L' @ homing interceptors. % r* b1 n4 N, K0 tOWG Operating Working Group. 1 D6 p$ Q; k) T' J+ ?5 \( x! }MDA GLOSSARY, VER. 4.0 P# _- P0 |- t8 a( V 217, V9 z! U5 P9 _8 S A. i4 N P&D Planning and Design (MILCON term)., _$ Z5 L5 c; W& Y) k, d! H: p P&M (1) Producibility and Manufacturing. (2) Procure and Manufacture. 7 L; m, y& N) _3 z7 O( S: UP.B. President’s Budget.7 q& d2 O' C4 m- m0 t3 |( W P2 Pollution Prevention., F: V8 Y/ R, \/ v4 v/ d6 l+ A) O0 L p2 NRTA&A Pre-Planned Near-Real-Time Assessment and Adaptation. * ?3 t. _% Y* F- _/ n6 }0 j! b3 N8 mP3 Pollution Prevention Program., r$ c9 V* Z5 n* o9 i6 E5 f P3 I Preplanned Product Improvement.) I5 o( r0 \& D* q+ x& }% ]. B3 C PA (1) Product Assurance. (2) Public Affairs. 5 y# [' z" w2 K% e1 F7 IPA&E Program Analysis and Evaluation.- \5 \" |; Q. P; {. Q$ | PA&ID Program Analysis and Integration Directorate.: z/ X* e$ K% ] d! n" c PAC (1) PATRIOT Advanced Capability. (2) Program Assessment Center. (MDA)8 r: Z( F# k+ z, ] PAC-2 PATRIOT Advanced Capability-2 9 u; _( J, T: ` Q! mPAC-2/-3 PATRIOT Advanced Capability, Level 2/Level 3. Formerly called ERINT.4 ^6 ^* o1 ~$ } PAC-3 PATRIOT Advanced Capability-37 }& [6 ^! p! m8 \) N. \ PAC-3 SIM PAC-3 Simulation (PATRIOT), Huntsville, AL. & R4 j8 h8 f" T" ?+ GPAC-4 PATRIOT Advanced Capability-4.* H5 j, J* i8 b; J# S PACA Professional Aerospace Contractors Association.% o+ t1 _3 Y& S3 k% a2 c PACAF [United States} Air Forces Pacific." b6 |9 H) s; t% f PACBAR Pacific [Radar] Barrier. , Y5 P1 F9 S3 d; Q' C; j BPACFLT Pacific Fleet (US).

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发表于 2008-12-25 20:16:15 |只看该作者
Packaging, , h! s% p/ P+ d5 ]4 AHandling, 7 Q i) k+ p ] ~4 y3 `1 cStorage, and" y1 A* t" R2 V Transportation& v/ J. q" y4 n8 ^ T' ~ (PHS&T)' l6 R$ E, |% R5 F; Q The resources, processes, procedures, design considerations, and methods to* i8 j6 G( X0 p$ Y% x& n) z ensure that all system, equipment, and support items are preserved, packaged,: C3 y* `9 m8 P5 }! b handled, and transported properly, including environmental considerations,; T) |, W4 Z; ^8 U9 [ equipment preservation requirements for short- and long-term storage, and7 m* X) D& p, I1 S8 f0 m; M9 T transportability. ' d3 a$ W, r2 w5 U5 R, e9 M$ fPacket Switching 1 x8 |0 d' F! t+ X2 d! B- r(PSW)' i$ K9 ]' h; x+ C% m6 m A data transmission process, utilizing addressed packets, whereby a channel is' P5 \" W, i9 h9 K5 G2 {3 ? occupied only for the duration of transmission of the packet. In certain data # S. U4 A% t- l9 I1 V1 B. [4 _* x8 F5 scommunication networks the data may be formatted into a packet or divided and! B% k$ c! F. O then formatted into a number of packets (either by the data terminal equipment " c% f4 F4 O7 w* z+ B9 J9 N; Ior by equipment within the network) for transmission and multiplexing purposes.9 }1 X2 o" s( \# H8 y% a+ j: I2 e) y7 ` PACOM U.S. Pacific Command.. }- k! {: }' \ PACOSS Passive and Active Controls of Space Structures.6 V8 Q% j) [! A. r PADIL Patriot Data & Information Link.' L& L* ?5 E, _1 D. d MDA GLOSSARY, VER. 4.0 P M- f! M& C$ r: W* ]218. F8 C3 s' e/ O/ H' t PAFB Patterson Air Force Base.+ v4 V3 Q) n9 r2 @ PAL Permissive Action Link./ n8 t9 y! N- W: h( m PALS Protection Against Limited Strikes (SDIO term). % T$ \! E! S, ~6 S5 j5 u: \PAM Pulse Amplitude Modulation.0 j; [* X4 f0 [6 s' @* ] PAN Polyacrylonatrile [carbon fiber]. / ^7 J$ q: Z: ?+ V# v7 x) XPancake Altitude Altitude at which the trailing edge of a chaff puff/cloud effectively catches up to # M# @# b/ \" `/ V a9 h. E# Sthe leading edge because of atmospheric slowdown.8 E$ s0 q- Z) t/ J( i8 X1 O2 s PAP Predicted Aim Point. ' @: l: J' }0 b* k% c' YPAR (1) Phased-Array Radar. $ y% {% p5 G9 u4 F* Q2 D C. i(2) Perimeter Acquisition Radar. (See Phased Array.) * i# W" Z: f7 f$ I4 t(3) Preprocessing Analysis Report.8 j! Y( o8 m: g: ? (4) Program Assessment Report. + d s1 o2 s8 a: I4 E4 Y(5) Pulse Acquisition Radar. $ ^! A( I/ u" P" OParallel) c% A. v) M! Y) P, c Processing - R. V% P/ |3 n0 R* @In parallel processing multiple processors (CPUs) divide up a large task into7 Q) P( r) h' C" m smaller ones and each CPU acts on the subdivided task simultaneously so that& _) i9 b" [$ R6 Q7 d much higher effective processing speeds can be attained.& n( m- l2 x- I3 Q+ f& M Parametric Cost 1 i$ w. r) s% H! [ B/ oEstimate - ^( c* P& `5 }3 x' p1 {5 l4 \A cost estimating methodology using statistical relationships between historical : B4 o/ d3 I% \6 a; v7 N0 e1 r3 qcosts and other program variables such as system physical or performance ) d' z f% q8 W) w+ C3 fcharacteristics, contractor output measures, manpower loading, etc. Also; L0 `5 ^4 m( O' G referred to as a top-down approach. N4 U5 L/ K0 ?$ L PARCS Perimeter Acquisition Radar and Attack Characterization System.1 `' ^- q4 r* W) \) E PARPRO Peacetime Application of Reconnaissance Programs. % _1 |1 c) B9 k" [# U: T5 ?6 T- x& XPartial Mission) {7 g3 B: s, A7 V, ] Capable; \: w B; a" K Material condition of an aircraft or training device indicating that it can perform at4 \. {. W7 k- Q. D0 n- b2 q, x3 u least one, but not all, of its missions. Also called PMC. See also Full Mission5 l/ t [. V0 t! v1 x5 q Capable.2 X9 l$ ^% ]" q Participating; T( P6 C: Z! ` Service 4 u ^* L; d' s0 X& h; LA military Service that supports the lead Service in the development of a joint; {: N- ]" h+ N3 ^9 ` acquisition program by its contribution of personnel and/or funds.. X, b5 X8 _! |$ ? Particle Beam( {/ V ~- \2 p& o6 K M% A, V& [ (PB)+ `! b3 ]+ y" A3 }$ L X5 X( Y. V; T High-energy beam made up of atomic/sub-atomic particles (electrons, protons, or9 X; W) v+ u) x" U+ V- X neutrons) accelerated to near the speed of light. - d3 U" m( M* ]7 W# KParticle Beam # m2 O" K: X: `7 w# C3 e: n- w6 pWeapon (PBW)' S& s9 U2 l) M- Z3 `6 { A weapon that relies on the technology of particle accelerators (atom-smashers) ! c4 p7 @2 u9 x: e: ]to emit beams of charged or neutral particles, which travel near the speed of ' B' _$ v& n* k8 q: i( K; Llight. Such a beam could theoretically destroy a target by several means, e.g.,3 s1 l) Y8 j7 Q c b! l electronics upset, electronics damage, softening/melting of materials, sensor0 f' U2 J1 Q$ T i) ^4 @ damage, and initiation of high explosives.7 F( x; _+ j3 G1 ?1 T2 z4 q PASS POET Advanced Submunition Study. 4 ?4 {* m% g4 c% k% [Passive In surveillance, an adjective applied to actions or equipment, which emit no, A& ?& g8 x* O2 z energy capable of being detected. - s2 Q3 h+ n5 \9 y5 A# SMDA GLOSSARY, VER. 4.0 P* p$ K" y; g$ M0 t" X O6 ^ 219 $ T- C+ i* X, _4 Z X1 [, y- f/ ^Passive Air4 S) M ^, Q4 i2 `, \! n Defense ' Y( E$ T7 T5 ]+ D' x& `; kAll measures, other than active air defense, taken to minimize the effectiveness 0 w4 }; X: M6 y+ U/ Sof hostile air action. These measures include deception, dispersion, and the use 7 D1 Y/ m. ^9 oof protective construction.0 z0 Z9 G) E7 b' E Passive 6 H- {9 r4 X) w* vCommunications d4 T- N" ]* J# [3 P' e' O2 r7 C Security Threats( b# m. N$ O# V4 u* Y Threats to electronic systems posed by a capability to obtain intelligence through+ v5 z2 W4 M4 R6 c intercepting and evaluating intentional and inadvertent electromagnetic 0 ^, n4 P' W5 ?' iemanations from electronic components of the system; e.g. communications4 q) R4 q n5 y% U$ S* [ interception and direction finding. % i1 M0 a* r. {$ H& |Passive Defense (1) Measures taken to reduce the probability of and to minimize the effects7 q/ Q, L9 h8 |. c: Q4 x of damage caused by hostile action without the intention of taking the9 m5 L0 u! g- R% z initiative.5 J* \" O" g" V0 _ m (2) Passive defense minimizes the probability and effects of theater missile; `/ E5 P1 V: H) ]. z% F+ d attack by reducing an enemy’s ability to target friendly assets, reducing ; U% L* P% R2 m% S( b8 X O8 tthe vulnerability of critical forces and infrastructure, and improving the. k J2 m& p) T9 B potential to survive and resume operations after an attack. Passive * V% K5 \4 F% K! \measures might include counter-surveillance, deception, camouflage and8 a* M) `. Z: _ ? concealment, hardening, electronic warfare, mobility, dispersal, and3 i7 W- u5 s ^% C3 z- L redundancy. Passive defense is considered one of the four pillars of + j) l9 V- e) LTMD capability. (JCS J-38 CONOPS)( z& `7 t. Z" b) ^ Passive Sensor A sensor that detects naturally occurring emissions from a target for tracking& Z! T! F8 Q2 t5 V3 `5 Y and/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. ! y8 h% u5 U1 J- P* f6 n0 Q+ yPAT&E Production Acceptance Test and Evaluation.4 d- k( B4 [7 d, F { PATHS Precursor Above-the-Horizon Sensor. 2 G2 ^0 U( u& B" |: UPATRIOT See Phased Array Tracking Radar Intercept On Target (missile).2 N# e. F& _# s4 q PAVE PAWS Position And Velocity Extraction Phased Array Warning System.# ]% t) U/ W. f1 {( b* G$ ] Phased array SLBM warning system. Four sites:& g8 }! ~4 t7 f, x; E* |4 k a. East Otis ANG Base, MA* M7 d$ ^- ?5 E, t b. West Beale AFB, CA 9 c. V. j+ L+ u/ ~/ l# N& E- Vc. Southeast Robins AFB, GA. a7 v. i8 g/ ]% u2 P6 A8 b5 u d. Southwest Goodfellow AFB, TX a7 q( c+ H: N0 O9 | PAWS Phased-Array Warning System (USAF term). 2 a! x* P- j" M: bPayload (Missile) (1) The warhead, its container, and activating devices in a military missile. ! _, }* r' D. S( s z% {# n(2) The satellite or research vehicle of a space probe or research missile. : a) E% Z+ D' u9 H- D ^4 \$ n7 ](3) Any part of a ballistic missile above the booster stack. Includes reentry, t# F6 C8 O4 @0 k# ? vehicle, guidance-control system, countermeasures and countercountermeasures, decoys and chaff. (MDA Lexicon)8 I: C: Z8 I" L Payload Build-up & z0 ^( u }- [4 R6 z(Missile and 7 {. d- j' ^( sSpace)3 G" b. {3 t3 Y9 i0 I: E) h- B The process by which the scientific instrumentation (sensors, detectors, etc.) and0 z( ~% r; Y, m' b necessary mechanical and electronic subassemblies are assembled into a # |' j3 `8 m" P7 h0 Wcomplete operational package capable of achieving the scientific objectives of& g8 G: f F# c( \; r/ ~' n* F, b the mission. 0 \6 o7 H0 r; u8 v7 |5 ^' KPayload* O/ g8 d6 I1 n( t' r Integration! o; q' |; S9 a$ B (Missile and * y3 y+ ?. l& r u: gSpace)' }4 }: J7 Q7 {/ j' `5 e9 t/ z The compatible installation of a complete payload package into the spacecraft x, I2 o( v+ Z! z# F2 L1 A and space vehicle.6 V2 X# \ L f+ r1 H: \4 d MDA GLOSSARY, VER. 4.0 P4 T* S9 o. X$ }; _. u' }2 }2 F 2201 X3 p7 L+ I* o7 d& d9 n5 { PB (1) Particle Beam. (2) Post-Boost. (3) President’s Budget.: ~8 \ w( H) }+ M( c: w3 u9 V) W" e (4) Program Baseline.1 ~! o) z1 }" S4 v! W! W PB/MT/D ATD Post-Boost/Midcourse Tracking/Discrimination ATD.' g3 k, x! p+ q1 s5 u) t PBCRAW Post-Boost Control Reaction Altitude Wafer. R) ]: ~9 o. G9 {) u) ~PBCS Post-Boost Control System. 7 _9 x5 d! L; fPBD Program Budget Decision.1 a, W# y- Z6 k; u5 t# z& n PBI Post-Boost Intercept.1 g' }- n! R6 \9 G7 z: s& M PBP Post-Boost Phase. 2 M+ x9 N( h6 f, [! dPBS President’s Budget Submission. l1 K" O7 Q9 R' M9 r$ j PBV Post-Boost Vehicle. t* {7 j. ^' |: c3 G: M c* `9 sPBW Particle Beam Weapon.0 |3 r% X8 @' H: [1 N7 m" W' F PC (1) Printed Circuit. (2) Personal Computer. (3) Principals Committee. 4 M! K3 C8 J9 YPC-PC Personal Computer to Personal Computer (JFACC term). + }7 `( v6 P+ v2 TPCA Physical Configuration Audit. + }0 g! Y, C8 SPCAST President’s Committee of Advisors on Science and Technology. : S& k3 Y7 _( S$ \5 _* @! R+ RPCB Printed Circuit Board.$ i A# q: ^8 J! S6 n; m' a PCC Pilot Command Center (C2E term). * a1 h6 F- Z) Z, S \, y, _& mPCD Program Connectivity Diagram (MDA/POC term). ( l! r# ?6 E* t$ E) y3 {PCE PLRS Communications Enhancement. $ R3 ]/ y9 T. Y9 _: F( O- D) c4 z& E* s% YPCERT Pursue Computer Emergency Response Team. + }7 Y0 J1 F' u$ g1 i0 t: NPCF Packet Control Facility (TelComm term). 3 F1 T0 g0 I1 h2 VPCI Peripheral Component Interface., L+ L p9 C$ g* c/ F: D# C' _ PCL (1) Pulsed Chemical Laser. (2) Printer Control Language.$ Z4 }2 x8 _) Q/ f, Y PCM (1) Pulse Code Modulation. 8 n+ T5 ? N- @$ vPCMCIA Personal Computer Miniature Connector Interface Adapter. ; G# \0 m1 v9 J7 GPCO Procurement Contracting Officer (FAR term).- w$ |( d/ F: f, c$ E% V PCR (1) Program Change Request. (2) Program Center Representative. 1 F' {8 H( ] G8 V9 t7 APCS (1) Permanent Change of Station (ILS term). (2) Planning and Control System.8 n7 n' m6 x/ j) p3 q" V1 r PCWBS Preliminary Control Work Breakdown Structure. & i( v* N! D9 SMDA GLOSSARY, VER. 4.0 P / e" m1 M3 f" u8 E221 ! K0 J7 s8 C7 vPD (1) Presidential Directive. 9 B0 F, N( M, u1 q3 H3 m- x2 n(2) Procedures Description./ D. v W* O$ i9 T8 S( b (3) Probability of Damage." E" g# ?8 k% L+ `5 S, g# v (4) Probability of Detection. - J" s; _7 E, m8 A, @(5) Preconditions for Defense. % l( A( f/ I. j- W j3 p4 B(6) Program Director (AF). % I# X7 y7 ^( a: b' H S(7) Production/Deployment. - _( q* S& l S$ B; C8 A/ j1 T(8) Phenomenology Document.. e6 y7 k; z0 V) o1 m2 B7 k (9) Passive Defense.2 r- }& b& Y% J7 A1 ?# L# L7 E7 p PD&V Projection Definition and Validation (MEADS Program term).- e/ V [- W& w3 e) }# }1 D PD-V Program Definition-Validation [Phase] (Acquisition Phase term). , t: n9 X/ Z9 E7 K6 `* {PD/RR Program Design and Risk Reduction (Acquisition Phase term).$ p+ n2 v% u% E' _ F2 X9 V) l PDB Post Deployment Build (PATRIOT). : I' X8 u2 [' G" A5 tPDC Plume Data Center, AEDC, TN. $ ?2 B4 W2 J0 N* h' HPDD (1) Point Defense Demonstration (USN term). (2) Presidential Decision Directive.! r7 V2 @5 E) ^! z: i PDM Program Decision Memorandum (DD 5000 term). 5 |* S, N8 a7 k6 RPDM (I or II) See Program Decision Memorandum (First or Second). ( _% \/ A# [% p1 e! cPDP Pulse Doppler Processor.* b2 p$ V8 V0 ^& q. T$ v' h3 l0 } PDR Preliminary Design Review. " d1 X' Q6 n% a3 u: Y2 OPDRR (1) Program Description, Requirements Review [phase] (DD 5000.1/2).+ a+ P$ k! [$ `3 O (2) Program Definition (Development) and Risk Reduction. 8 s. n( D1 Q! sPDSL Process Data Sensitivity Label. ( L) @1 U" ?7 @2 s7 }8 c& Y: GPDSS Post-Development Software Support (ILS term). ) }6 Z2 [: O3 _/ @& p4 Q$ o# OPDUSD Principal Deputy Under Secretary of Defense. " U/ q6 a- J- pPDUSD (A&T) Principal Deputy Under Secretary of Defense (Acquisition and Technology).6 f- W0 r- ^( _9 | PDV Program Definition and Validation. 4 B: a) I1 Z9 \4 O5 Q# V& iPE Program Element.

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发表于 2008-12-25 20:16:38 |只看该作者
Peacekeeper US MX Missile.* m0 l; N1 }% Z( \9 _ Peak Gamma / g. s* S+ r9 a! B/ \Dose Rate1 A8 b4 b; N; b# v2 p, G4 S: p* D; I The maximum rate (per second) of gamma radiation that the system could , f, M) G9 K/ z, wsurvive and continue functioning. ) s5 _; s: [2 h1 LPEC (1) Program Element Code. (2) Pre-authorized Engagement Criteria.' i: @; i" O0 @2 z5 V PEELS Parametric Endo-Exo Lethality Simulation. 5 p' m( `! z6 a# Y* @: rPEIP Programmable Embedded INFOSEC Product (ex-MSD). 5 K1 Z! d$ c( yPEIS Programmatic Environmental Impact Statement. ! u8 S9 v+ n( W. x& L: n2 ^& dMDA GLOSSARY, VER. 4.0 P ! O* X2 G" s: E8 i222 7 c: O) y$ K4 c7 ^5 M3 G1 w; T; }PEM Program Element Monitor (AF).. E' `* U7 R* s6 S PENAID Penetration Aid.5 p3 L) Q2 @* [+ e7 W Penaid6 o2 u! x! k$ k# \; n; C3 x) o (Penetration Aid): |/ u& N) |8 B/ _2 L R (Formerly an acronym for Penetration Aid.) Techniques or devices employed by3 f9 G2 Q) o% p7 A offensive aerospace weapon systems to increase the probability of penetrating $ f# l0 a, Q1 _enemy defenses. ( }" J+ D' a6 {4 hPenetration$ W$ Y0 H, { h' G d* w; o; h Testing/ n. ]; S* l0 t/ {. i The portion of security testing in which the penetrators attempt to circumvent the $ n; O, x2 C. z rsecurity features of the system. The penetrators may be assumed to use all+ Y3 x' p# t! ?+ ?6 j$ p system design and implementation documentation, which may include listings of0 y/ [1 B& ?7 O3 {. \, {" ] system source code, manuals, and circuit diagrams. The penetrators work under $ {) K: M4 o% A9 Q8 r! K/ O& C* Nno constraints other than those that would be applied to ordinary users.9 k( {3 d x$ I2 k PEO Program Executive Officer. K* R+ I; ?4 R; H/ [. v5 s" A7 x4 |PEO-AMD Program Executive Officer, Air and Missile Defense. (U.S. Army)$ h: K. v& j" K5 S1 p( A( S8 E PEO (SC/AP) Program Executive Officer, Surface Combatants/AEGIS Program.6 K* d/ V4 [/ r5 B' E, ^; x PEO (TAD) Program Executive Officer, Theater Air Defense. (U.S. Navy)0 x0 F* u/ v# V# p7 \ PEO (TAD)-B Program Executive Officer, U.S. Navy Theater Ballistic Missile Defense Program ; Z" v' L: j: B. i- v' sOffice. 7 |/ Q/ i" Z" I. {PEP Producibility Engineering and Planning. % J7 D) m% n9 ]PEPP Producibility Engineering and Production Planning. ! |( |8 {: Q1 C) P) VPeregrine An Air Force boost-phase interceptor concept under development at USAF/SMC.9 \* q, R& ? G' Z2 e0 Y, }6 z# w7 E Performance Those operational and support characteristics of the system that allow it to# `6 o k& O U7 K A effectively and efficiently perform its assigned mission over time. The support # \0 N! k9 v3 ?! R4 ccharacteristics of the system include both supportability aspects of the design : {# o, M$ ^' F; \! land the support elements necessary for system operation.- Y/ p# I3 y( X& C Performance ' Y/ \" F/ n* B$ P: k% R! R6 a& O# J4 MRequirement9 g r( U" ]% M3 i/ ] A requirement that specifies a performance characteristic that a system or system ' m* |8 m- V! J: Por system component must possess; for example, speed, accuracy, frequency.: b4 w7 K) ]) L- ~4 k* J Performance ~1 r2 _2 w6 Y* ~$ j/ B |$ W8 B Specification5 l0 u$ {" Y7 T' e; [% u (1) A specification that sets forth the performance requirements for a system 8 H0 R6 @6 ~! Aor system component. - j r3 U! v! z# W0 ?) V+ q(2) Synonymous with requirements specification.3 F% C! i' s% \/ F2 L Perimeter % H+ H" z9 s. d8 g. HAcquisition % p7 U$ K6 L7 z$ lRadar and Attack6 m" R% q5 M! N0 _% k Characterization & W5 u6 D. e$ A Q# ?3 DSystem (PARCS)6 J5 N6 {" e( U AN/FPQ-16 phased array radar at Cavalier AFS, ND, used for early warning and( f. I7 b$ g& P- Y% F- t; q" P attack assessment. 6 Z0 U9 ]: M( f" p% m( ?1 A2 oPeriod (nodal) Time for a satellite to travel once around its orbit.) _9 |% ^/ b) l$ F. O! a Permeability Having the ability to diffuse through or penetrate something./ R9 v2 }9 r: k: E7 j' ] Pershing II OBSOLETE. US intermediate-range missile deployed in Europe. & g& l3 \( H Q" U" t0 APERT Program Evaluation and Review Technique. ; G$ X- o' i, K# vMDA GLOSSARY, VER. 4.0 P) m( O1 C$ F$ o/ e: J 2239 y- M" J' H, O7 p" a' ? PERT Chart A graphic portrayal of milestones, activities, and their dependency upon other+ ^" v/ Z3 e: c# s activities for completion, and depiction of the critical path.% R$ k/ S5 A, _$ U PESHE Programmatic Environmental Safety and Health Evaluation. ! @$ O- n- z* p2 f4 }PET (1) Pilot-Line Experiment Technology. (2) Production Environmental Test.2 Z" n: h9 A; v. z* p PFC Prototype Flight Cryocooler.1 d! m0 e1 z& B* Q5 `4 K PFD Preconditions for Defense.& B; [: t9 M/ x; z. `% R3 f PFIAB President’s Foreign Intelligence Advisory Board. 7 s. z1 E: q; w. Q0 w( R8 m$ wPFS Pre-Feasibility Study (UKMOD).: ^9 z4 \" k, ^6 T PGG Patrol Gunboat, Guided missile (Naval term). ! c* E( v8 O9 K+ ~PGGH Patrol Gunboat Guided Missile Hydro-foil (Naval term)." b! K3 Y5 v. Q( ^, T PGM Precision Guided Munition.* y4 z! l) _; B& t$ F# a PGU Power Generation Unit.2 P: N! M+ r) w; R2 O |5 H PH&S Packaging, Handling and Storage (see PHST) (ILS term). " J% `2 p5 z7 }( _Phased Array The arranging of radiating or receiving elements that, although physically * Y2 i, I# q; P5 `( [6 B5 s5 _stationary, is electronically steer-able and can switch rapidly from one target to + R: Q2 Z, y$ m7 s6 Zanother (e.g., phased array radar).* X! L* M, q- g Phased Array ) D9 i; x5 i+ h0 _% N1 gTracking Radar& d2 ^6 u6 a# f Intercept On / p+ G) E; r g( ?, L% ]3 `Target (missile) ( K! ^; Z3 E: {! ]7 C4 D- g(PATRIOT). E4 i* O# S* g A point or limited area defense system originally built to intercept aircraft. PAC-3, n. X; ?7 E: r" _1 H0 u improvements, which will give it greater capability against theater ballistic missiles, 9 b- B- |/ A" ^7 K4 g( S3 binclude upgrades to the radar and selection of an improved missile, either 2 i0 k2 }8 a0 u! ^: cPATRIOT Multimode Missile or ERINT.9 E9 R- y; t+ [+ \: h Phased - {; b0 c2 f% w, ]0 Q/ R+ fDeployment $ A. T+ f; u& C4 O( A* c( J, i9 `The sequential steps of element deployments leading to a designated system . \- e' H @7 h* E- Acapability that is realizable with fiscal and technological constraints.: x. s0 e- n# S! O6 S Phase One; t1 }% m9 K/ n) p Engineering9 S% V. A' h- p7 P" p0 Z, v, Q Team (POET) # d, R7 k+ m& X4 L+ JOBSOLETE. An FFRDC providing technical support to the Phase I Program ( F* X/ X" U, F8 U4 HOffice. Now referred to as POET. " E9 T( `* D8 k4 U* n! I! x) zPhenomenology The topological classification of a class of phenomena. Phenomenology efforts 5 t" W# ~8 Z+ o6 U- Ccollect and analyze optical and radar signature data, and model phenomena + P: [; q" m5 }4 }1 |* p+ N& u5 {/ orequired by systems developers to design and evaluate SDS elements.- ]" Y# v6 w+ O! T0 c PHI Photonic Hit Indicator.$ I' m" w) E; d; H! I. n: b# F PHIGS Programmer’s Hierarchical Interactive Graphics System. + \* a1 Y$ r. _1 D& MPHOTINT Photographic Intelligence. " ^7 h( Q5 ^; {6 `8 _ S6 ?! mPhotochemical A chemical reaction resulting from exposure to radiant energy or light. , ^* u8 q* E9 x' }6 [9 q9 _MDA GLOSSARY, VER. 4.0 P7 `3 \8 W. ~4 \ i3 m3 \& k 224 9 s. H& {# o4 D$ \$ r9 FPhotoelectric 2 W# O1 {- J# bEffect/ C! a' B5 K1 O% c The process whereby a gamma ray (or x-ray photon) with energy somewhat 1 I, q* @* ]1 R* H7 P; z4 ogreater than that of the binding energy of an electron in an atom, transfers all its* _" U7 J: y5 J0 Y energy to the electron which is consequently removed from the atom. Since it - J9 O4 c7 t$ }8 d- \has lost all its energy, the photon ceases to exist. (See Photon.) ) f8 o; h( V, _. h5 j$ K3 cPhoton A unit or "particle" of electromagnetic radiation, carrying a quantum of energy, * s) D8 k# \! H6 s$ i4 `( bwhich is characteristic of the particular radiation. Q! T3 f+ l9 H4 B; S5 b PHS&T Packaging, Handling, Storage, and Transportation. ' G) C( j) W D, V; B! {, EPhysical Agents Descriptive term that includes non-ionizing EMR, static electric and magnetic, \' f. L* @% o' y fields, ionization radiation, energy beams, noise, explosions, de-orbiting debris," J$ x* I. F! O3 _" P and extreme cold.

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发表于 2008-12-25 20:16:48 |只看该作者
Physical% Q2 Y& n; Z( U( N Configuration 3 x. K" a# t7 G' ?* R6 D8 VAudit (PCA)/ c O; a; R7 y) }* D5 g Physical examination to verify that the configuration item(s) “as built” conforms to & d! U/ O5 K1 Q1 z1 H- ]: ethe technical documentation that defines the item. Approval by the government ! R- S. u5 C9 Q, }+ \/ m1 nprogram office of the CI product specification and satisfactory completion of this3 _9 R; H# }) g audit established the product baseline. May be conducted on first full production ( @: k: u$ i; aor first LRIP team. / L& q2 ?; R! |. tPI Program Integrator. ; I8 b8 J+ j3 z0 d x1 z4 fPIA Personnel Identification/Authorization System (USA term).; r/ j+ a8 s. W2 c h PIC (1) PLRS Interface Controller (US Army term). 0 z" ^3 @. c, T(2) Policy Integration Committee. $ y3 W5 D9 |; l" B9 j(3) Program Information Center (Computer programmer term). ! @9 x. H! a) G4 D# r' d, a) nPicture Element& }5 d' P) F: m% u7 \ (PIXEL)3 r, ^- {* b6 i9 c4 r, K3 Z The smallest element of a display space that can be independently assigned3 f/ B. H; x5 B color and intensity; the finest detail that can be effectively reproduced on a0 O4 w* y. o# v# M& A recording medium. 1 T5 Q) [( v' ?! lPIDS Prime Item Development Specification. 3 c( b' E0 u; B5 c! bPilot Production Production line normally established during EMD to test new manufacturing ' z r& K) M1 W+ rmethods and procedures. Normally funded by RDT&E until the line is proven. 3 K0 l2 c) p4 T2 g. d$ k& F9 ENot the same as long range initial production.% q; M, K$ P. K- i3 J PIM Position of Intended Movement (USN term).0 u; E2 P% }! I5 g3 }( N; `% M' ? PIMS Programmable Implantable Medication System." l: ^: w% \- D G PIP (1) Predicted Impact Point. (2) Predicted Intercept Point. . f+ \ T" q S& j' M6 q(3) Product Improvement Proposal/Program.0 X+ q: W) R5 w% L$ P. B PIPT Program Integrated Product (Process) Team. 0 Y: n, k( ^- t6 {3 LPIR Program Information Report. 2 m. K& U! Z% J) i6 CPIXEL Picture Element.# k; X5 I% U) j, r$ ] Pk Probability of Kill. 0 j5 ~+ O0 T" p0 }PKCS Public Key Cryptography Standard.6 {( D! D) g/ ~% G$ h PKH Probability of Kill, given a hit. ' V" T/ w6 B8 g" BMDA GLOSSARY, VER. 4.0 P ; y' e. X3 C0 B+ u225 7 t. t$ r0 z% `; ]; `- n/ hPKO Peacekeeping Operations. 9 L$ M, h& n" \- f- ~9 s1 M8 o9 e6 UPkss Probability of kill -- single shot.1 Z* x+ I) n$ ^0 L* j3 a/ X PL (1) Probability of Leakage. (2) Phillips Laboratory, Kirtland AFB, NM. (3) Public * `* h. o1 q* A5 ~) dLaw. 6 x' f% `2 B+ [3 \0 u6 vPLA (1) People’s Liberation Army (China’s army). (2) Patent License Agreement.! G9 U8 r( H( a+ m* k PLAN People’s Liberation Army/Navy (China’s military). + g/ ^9 j7 X$ R, J) O. m4 @Planning, 3 i6 P6 v" C# L# ~# EProgramming, 0 S6 H; g# R" K6 @Budgeting * C- k; D, X) N- \4 H U* JSystem (PPBS) ' s- d+ B5 _6 F GThe primary resource allocation process of DoD. One of three major decisionmaking support systems for defense acquisition. It is a formal, systematic0 N6 Y F9 N* T% X8 B* `- |& S structure for making decisions on policy, strategy, and the development of forces }# p* h6 h/ J( J- \! tand capabilities to accomplish anticipated missions. PPBS is a cyclic process2 x* t1 W t( X" {' W! e containing three distinct, but interrelated phases: planning, which produces the , c: ]) y1 ]/ d$ V: y8 RProgram Objectives Memorandum (POM) for the Military Departments and + a$ g, w- [/ p- {7 y' CDefense Agencies; and budgeting, which produces the DoD portion of the 2 t6 I' d5 L0 [! a3 u3 k& _President’ s Budget. DoD PPBS is a biennial process starting in January of each( c9 D* ?9 J2 Y/ t, Z odd numbered year with national security guidance to initiate the planning, q0 H) ]0 h( q" `3 q/ J phase, and ending in January of the next odd numbered year with the ; u" ^; n% V |4 i, {+ I5 v$ [President’s budget submission to Congress. (Defense Systems Management6 `5 X$ q& K5 J College)8 Z8 R; f! d) O PLCCE Program Manager’s Life Cycle Cost Estimate.; }6 I( a/ B( x9 Z7 I. O PLISN Provisioning List Item Sequence Number (ILS term). + V& @& ?* G* ~: S2 BPLRS Position Location Reporting System.- S; W4 \! B* Q# y+ h3 M Plume Data $ B q1 j+ I0 M a9 Y: aCenter + {8 b9 _( s1 k5 V$ w4 r( h( DAEDC, Arnold AFB, TN. + [: B6 Y' t. [2 B) \( yPLV Payload Launch Vehicle. 3 i# ]8 O# K7 X0 [" h# N5 W. ]PM See Program Manager.: b1 N- l: }+ o PMA (1) See Program Management Agreement.0 j) b5 |' e d8 C2 _7 q+ d" H (2) Post-Mission Analysis. 2 N; ]5 b1 I( W# ~. o" C(3) Pressurized Mating Adapter (NASA term related to the space station). * c- Y' u/ I9 \% ~, @ j5 ~PMASIT PMA Software Input Tool MDA/DPI S/W tool). 0 q5 u+ {4 v- u7 F2 K7 W5 Y a$ vPMC PCI Mezzanine Card (computer H/W term). 3 v. p+ {; _* Z5 Y' UPMD (1) Program Management Document. (2) Program Management Directive (AF).) I$ M" M: U8 d: X PMEL Precision Measurement Equipment Laboratory. 7 U! V, n$ ^: K1 \9 @6 F' mPMI Preventive Maintenance Inspection.6 r- Q) F0 _# E4 l% ] PMIT PATRIOT Missile Integration Team (PAC-3 Program term).. H* F6 i/ I: }# v/ ^ PMJEG Performance Measurement Joint Evaluation Group. . z# P# |( W$ t# S' DPMO Program Management Office. 0 b; ]2 t* m9 q$ ?+ v6 iMDA GLOSSARY, VER. 4.0 P& s, f7 j. [8 |3 |: U# a# x% R0 ]4 I 226 - R( u5 b+ {! G, v' OPMP (1) Parts, Materiel and Processes (US Army term) (See also MPP).5 @' v% S0 y9 `. M" a- e (2) Program Master Plan.3 G8 \# ?' Z* r% d! s h0 R3 v5 _ (3) Prime Mission Product. # O" \ L" p, c( C7 J(4) Program Management Plan.' `2 Z5 p, z6 c- \- \' k* x- s PMR (1) Program Management Review. . d6 n' B' h2 R4 d(2) Pacific Missile Range. 1 Z" r P* T& d* r& A7 A(3) Program Manager’s Review (PAC-3 term).4 f i7 }1 K, t) g PMRF/KTF Pacific Missile Range Facility/Kauai Test Facility, Barking Sands, Kauai, HI.4 w s( }! w u/ a+ m. k PMS (1) Planned Maintenance System (ILS term).* K- e8 \: V- M8 | (2) Performance Measurement System. : z4 a% @5 ], r, P' |6 R5 ZPMTC Pacific Missile Test Center, Pt. Mugu, CA. ( v5 `2 m- f# EPMWG Producibility and Manufacturing Working Group.' }6 }' S) t; ? G5 @' T: [1 ? PN Probability of Negotiation. # ^' s9 C2 Z7 MPNE Peaceful Nuclear Explosion., b2 ~6 |0 t2 p: F: e) t. H4 d PNET Peaceful Nuclear Explosion Treaty. % s T. K1 J: |( qPO (1) [Acquisition] Program Office.7 b4 o) c) p9 K6 v# K, V% o (2) Purchase Order./ C7 e4 N( c! d1 {+ k* _0 N POA&M Plan of Actions and Milestones. N! V* K' m$ I" I POC (1) Point of Contact. (2) Proof of Concept.7 {3 N' c" v$ L( s0 N: S. z POC/ET Proof of Concept/Experimental Test (e.g., modular USSTRATCOM ground mobile" c) F) O+ _5 j d8 p command post).; N4 @0 `: p. H( L* q POCT Passive Optical Component Technology. 6 ~# D) H' r# e7 }/ W4 oPOD (1) Plan of the Day. (2) Probability of Detection. (3) Port of Debarkation.& j- h8 [" r3 T4 z$ o% m7 _8 T PODIUM Project Origination Design, Implementation and Maintenance. ; W7 [$ o% b( b2 s# q' _POE (1) Program Office Estimate. (2) Projected Operating Environment.5 I6 N2 F. x2 u+ d- ~ POET A consortium of scientist and engineers from FFRDCs providing technical support 1 d5 a k( g" B8 k: Mto the MDA. (Formerly referred to as the Phase One Engineering Team.)/ p$ K: ^4 y% s7 P& i+ B. _ Point Defense The defense or protection of special vital elements and installations; e.g.,: z# k. h4 |5 Q2 `6 n: { command and control facilities, air bases, etc.& F' `/ T/ s5 C0 T3 { w4 F9 Q Point Defense& `0 {' Q/ H$ v System . ?4 V& Q; M2 X; y) U$ ]- OA terminal defense system using radars and large numbers of guided projectiles 9 {4 k2 s4 _' o4 [' g0 rto defend ICBMs. This concept was considered in the early 1980s./ F0 C$ J3 X6 }$ V' o* V Pointing The aiming of sensors or defense weapons at a target with sufficient accuracy7 [; L6 R5 r/ I! |9 v2 I either to track the target or to aim with sufficient accuracy to destroy it. Pointing 3 F. y2 [1 W# X0 land tracking are frequently integrated operations. 7 G4 r; z* N4 p5 {9 O2 XPOL Petroleum, Oil, and Lubrication.# H- T$ m. k! B/ |0 N MDA GLOSSARY, VER. 4.0 P+ j/ Z+ e" J& x2 C 227+ w7 i/ k1 r. |, ` C& ? 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.% j3 e7 s" l& f1 N& j POMCUS Pre-positioning Of Materiel Configured to Unit Sets.: Q+ T8 V7 P1 g$ a$ H5 \( o* P( Q POP Proof of Principle.1 }4 {# p3 ~- h/ t8 R, h Port Covers Mechanism for thrust termination of solid-propellant systems.; s: J" V/ z8 {0 X3 j! ~% R Portability (Software) The extent to which a software component originally developed on ' X8 h" t: V4 k4 lone computer or operating system can be used on another computer or 0 F5 h* Z3 c& X! [0 d1 q' J& Roperating system. " e: J; O; z3 k& oPOS (1) Primary Operating Stocks. (2) Probability Of Success. (3) Position. 1 q9 B" _0 ?. e5 _ RPoseidon Class of US nuclear ballistic submarines (USN term).: ~' r, y B3 U" R POSIX Portable Operating System Interface.: ?% x8 F" M8 T1 S, Q+ m POST Portable Optical Sensor Tester.- P5 {/ z2 h* V. Z; J! K8 o1 } Post-Attack The period following the attack, prior to the next wave. 2 S' U5 r" o2 A6 v, f3 E8 \Post-Attack 3 W0 K1 y9 ~3 S8 YPeriod 4 c( ]6 X- l: g/ j' m3 l0 p- EIn nuclear warfare, that period which extends from the termination of the final 9 u; u9 e# S& C. {4 p$ U% Uattack until political authorities agree to terminate hostilities. " w G v/ h2 _' @Post-Boost& y1 |* C& X3 c& P- Z$ O( C Phase (PBP)# a. M3 b6 U+ P% Y4 M# j! v) ~- p1 { That portion of the trajectory of a ballistic missile between the end of powered' x. v, R$ Y6 A" L) _ flight and release of the last RV. Applies only to multiple-warhead ballistic1 m3 F: o7 [+ z H) S missiles. (USSPACECOM) ! O1 \: V" H& x" g; [Post-Boost , J4 q' U( {+ w' ]1 KVehicle (PBV): ?, s' o7 p X+ o, ^3 X The portion of a rocket payload that carries multiple warheads and which has the: a8 X* e: I5 Y maneuvering capability to independently target each warhead on a final3 ^: x2 i( P7 L" j3 N* x, ^ trajectory toward a target. Also referred to as a "bus."9 q% j' u/ Q" L, }7 E( f POSTPROD Post-Production.; @8 ~6 h3 |% x. X- _7 d a POTS OBSOLETE. Phase One Threat Specification.! k; v1 C* n; c& T! s1 B- d1 \ PP (1) Parallel Processing.* E% x: I7 a# V/ E( p/ q' J (2) Principal Polarization. ' I, \! N- H" v* C! i d# @& w(3) Post Processing. " [, i/ {1 `$ i5 K! y! M8 x(4) Program Plan. ( p# c5 B& e5 G8 u- W; ~/ b2 ePPBES (1) Planning, Programming, Budgeting, and Execution System.6 ~: A! M$ r3 S4 _" B (2) Program Planning and Budgeting System.# N" Z' ?( ]; o9 t0 D1 V, j3 k PPBS Planning, Programming, Budgeting System. - [2 J" R7 j& y8 BPPG (1) Parallel Programming Group. (2) Program Planning Guidance.- `/ s8 `# |$ x3 J" V/ a PPI POM Preparation Instructions.1 J% ~ M0 T: w9 u PPIP Program Protection and Implementation Plan.; L/ e& ?" p/ S0 J5 c- E PPIRS Producibility Programming and Issues Resolution Strategies.* Z6 n F+ [( U8 @( b+ B o- u MDA GLOSSARY, VER. 4.0 P + G% l6 B5 Y6 a9 x2 s3 h228 9 q+ B% Z1 B* g1 U3 j/ DPPL Provisioning Parts List (ILS term). 3 I; R* s/ z( }: P+ P" SPPLI Provisioning Parts List Index (ILS term).3 K n0 ~) ~) ~3 W9 y @ PPP Program Protection Plan.6 b, ~. v6 F# t& m, U PPQT Pre-Production Qualification Test. ' H$ }+ [+ L& b( N$ ZPPS Precision Positioning System. . p( g* u' S1 {' n" r- E5 A4 O8 {/ tPPU Prime Power Unit (THAAD). % j8 c! x v- U1 n4 S1 cPR Procurement Request./ N- p' G+ I3 u8 p! b PRB (1) Planning and Resources Board. (2) Program Review Board.# {3 {4 ?% G# W$ h7 m4 D PRC Program Review Committee. Q/ Q- O# z: f% O1 h# j" `7 o# } PRD Presidential Review Decision. . I* i5 u& |: |& D3 ^PRDA Program Research and Development Announcement.7 o4 E- g1 s& G- v PRDR Pre-production Reliability Design Review.- ?' Z& [# _* o8 O. R B- F1 ]% |7 R+ h Pre-Allocated( [3 A% Q: U3 v) [3 T) V Defense 3 S. G0 v- F- Q/ _: O7 ^A preplanned decision to designate a specific number of defensive assets to be 7 s0 y% ~/ Q1 _: r3 r# b# k, [used against a specific target or set of targets or to defend a specified asset or3 K: ?6 w& D( a( V0 G set of assets. The defense will select the best tactic to use based on the : \% n2 y% _; nnumber of interceptors available, their probability to kill, the number of targets* l+ h* O% k/ L8 e3 X. r under attack to be defended, and the scope of the attack.) t- a0 K9 x" v* J! n3 p& M Pre-Attack A period of time immediately prior to an attack, usually hours to minutes to tip-off.# Z# Q {! ~, |8 y) { Pre-Authorized+ e9 E6 z+ X" S4 b9 g- v Engagement * T s/ B: \7 m) TCriteria (PEC) . h4 A( ?6 I8 v1 ]Pre-specified quantitative operational parameter thresholds which when ; `" ~7 s8 d3 B- hsurpassed cause automated engagements to be enabled. : s- z- a7 ?( s h _! APre-Commit9 I" K% }2 [" U _2 T Strategy5 @4 C T. k3 s0 s! _8 p! L+ l A tactic in which defense weapons are fired without being individually committed! D" h: {+ t: V3 F to specific targets. Target commitment would occur relatively late in the: N( X+ K/ D) a7 o u6 a defensive weapon’s trajectory. 0 x7 R8 k3 {) w; L* l2 k! q! dPre Launch& B, G! t/ r' I4 l& I5 W Survivability " F( I" X( h1 f' m qThe probability that a delivery and/or launch vehicle will survive an enemy attack 5 O4 N$ I3 K* I, E' ?1 v) munder an established condition of warning.4 a: Q7 D( f" T( `( X; h Precedence 1. A designator, which indicates the order in which a number of messages shall 0 B- j- m$ }, Sbe served. Four precedence levels are provided for SDS, with one being the ! W4 }7 W' n- N0 U! Fhighest and four the lowest. Messages with precedence level one are served / m$ [1 v( f) j, @* x! B. M& o7 wfirst and those with level four last. These correspond to the four precedence 3 y- d' b2 J' p7 I/ Z' `levels, Flash, Immediate, Priority, and Routine respectively. 2. (Reconnaissance) ) u+ a2 x: ]/ j8 e$ w3 g) Y/ l- sA letter designation, assigned by a unit requesting several reconnaissance 2 V* U1 s+ L& q3 i, \" j2 Nmissions, to indicate the relative order of importance, within an established K! Z4 G" D& l" M% _: v priority, of the mission requested.

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发表于 2008-12-25 20:17:11 |只看该作者
Precision 3 k5 S* [% c7 G' d9 uDecoys # y/ J: G5 b% d( G/ ^4 B6 kDecoys that precisely match RV characteristics either exoatmospherically or1 p" \) y: Y6 x5 q$ m' c4 Y- Z endoatmospherically, or both, and seek to deceive the defense into intercepting! [- ?: f, b/ ?% r them. ' R& s* V& F" ~MDA GLOSSARY, VER. 4.0 P ( a, @1 b( d, c0 h, Q% T229 ; ^2 }4 C9 \- y; F, z. e. p1 a: MPreconditions for0 }' M8 d" t6 E6 O Defense (PD) - ~: l! ]4 g; D2 |. u$ \ XPDs are NCA pre-approved criteria, authorities, and procedures that delineate4 }: R7 p; l# ]5 f circumstances under which USCINCSPACE BMD forces will initiate or continue4 A" C5 ]% J9 {$ G! I9 c- o combat engagements and operations against hostile ballistic missile attacks' a9 \, i! f- S6 U directed at the United States, its Allies, or U.S. interests during peace, crisis, and 5 N: n T; G. J0 f* K( _war. 5 R! f) J# H$ T _Predicted ) H( i- M! M) R) s: ]3 kIntercept Point * r. v# P3 x5 |7 p(PIP) 8 i1 ~& Z* D. J7 p9 P0 g" i) {The calculated position in space where the target and interceptor coincide. & x5 T0 J; j) P5 i BPreferential ; D- c0 q- ?3 W- F: h9 y8 ODefense 4 \. B1 r) p# `- v( kPreferential defense is the a-priori assignment of defensive assets to protect9 S$ {* P/ ]7 H6 n$ o. I! Q* \ given facilities or capabilities. # q, L( }/ a) V$ `( e5 _# yPreferential 1 V' m% v& u% e: D# w0 ^# t$ [Defense Strategy 8 S4 j7 J1 x5 W( g6 pA tactic used as part of the SDS strategy to optimize the use of weapons and% H4 d( ]6 R1 D# J- ~- J$ l sensors by selecting high value targets for engagement by the defense while - x& \6 Q$ V+ |6 n Ptemporarily allowing less important targets to pass. This strategy forces the+ M7 W1 F% Z: j offense to attack with several times as many RVs as the defense has * k2 |3 `% q+ |4 N+ B! ninterceptors. Since preferential defense demands precise impact point prediction, ; V9 P9 X9 \1 ^0 C+ |9 c$ C5 r2 |the strategy is placed at a disadvantage if targets are closely spaced, if RVs can, k& c3 m' y& I! C) u maneuver or if the defense intercepts ICBMs in the boost phase. 8 D+ v! b, C8 Q5 Z0 s" t) PPreferential # J' [; h" y% b& r$ w! C4 bOffense @' I2 h. U6 yThe concentration of offensive assets on a subset of targets. % |* ]. Y! Y' Q3 D- oPreliminary 0 {3 t, ]8 p ^; q* vDesign Review( a- U6 x( r! g, |0 m7 S* l( d0 @ (PDR) # P3 m, a. e4 L- D$ M8 P4 S7 g" B3 FA review conducted on each configuration item to evaluate the progress, % }; h7 ]* x9 j. u6 Mtechnical adequacy, and risk resolution of the selected design approach; to ' R& l' b$ ? \/ E* Ndetermine its compatibility with performance and engineering requirements of the + K# I2 x% B8 Kdevelopment specification; and to establish the existence and compatibility of 8 d4 z; ^0 U+ m" {$ Hthe physical and functional interfaces among the item and other items of" p4 K! b4 N5 K0 l. w equipment, facilities, computer programs, and personnel. Conducted during. t$ p' s- o5 o+ v Phase I, Demonstration and Validation (for prototypes), and Phase II,3 E+ l& K1 q; O' m$ x Engineering and Manufacturing Development.' Y$ L% W! T/ t, O Preplanned$ s+ ^( u. [; `/ B4 ], n7 P( F6 }+ x4 M Product# |1 A" _" V0 g. U. _ M Improvement# g$ a' E% S9 U5 K& H! N (P3 I) @0 V. O0 D; q- i% g6 t+ e) E( w Planned future evolutionary improvement of developmental systems for which- r; q7 r d( X Q' W design considerations are effected during development to enhance future * i+ i. u$ n9 d: aapplication of projected technology. Includes improvements planned for ongoing" D! s/ N) V4 g9 |- g7 W) R& y0 m systems that go beyond the performance envelope to achieve a needed ' G5 W7 v$ D I$ T, u# Q9 Goperational capability.# q# P# L7 Y' P6 B; p9 J- v Preplanned " H6 E5 q* x) w6 _. JResponse6 n: t- Z7 [6 d% I! H! t2 X* X Options (PRO) ! \; h' q& Z, A$ e* cBallistic Missile Defense (BMD) reactions, which have been preplanned,& r. A8 Y _" ~ analyzed, and pre-approved, for specific ballistic missile threats. The PRO, N. q9 t3 m6 Y equivalent to an operations plan, consist of a number of Defense Employment 5 I" \0 ^. `2 ZOptions (DEO) which provide force employment objectives to Component forces3 N1 L) S2 N9 o2 v based upon the world situation, national objectives/guidance, BMD asset status, , z4 Y* C1 V8 E Nand the intent of the threat. PRO is automatically processed with real-time $ }' d; X" a1 x% |human oversight and control when USCINCSPACE directs execution. 5 {$ Z) D8 e, j+ BPreproduction 5 l" X9 C! w# F9 G6 lPrototype8 f" S% |5 V' [8 S! Q An article in final form employing standard parts, representative of articles to be , X! T" B' Q& V. n' u9 aproduced subsequently in a production line. ) `8 n1 o S0 c$ G' SPreproduction * C# @6 J8 S1 n0 Q' DTest 8 K& d2 p" p; |" q: I" E! \This is a test of design-qualified hardware that is produced using production5 q, S$ W9 S1 G# ~! k; g+ M tooling and processes, which will be used to produce the operational hardware. * } [ k i. ?: ^5 tNo production hardware should be accepted prior to satisfactory completion of0 r$ V% _; W, L! ~% h this test. Test objectives include: gaining confidence that production hardware9 y: {! x5 R4 l- N3 a! A is going to work; that it will be reliable; that it can be maintained and supported. ~( e d, l6 u' W3 Y% x, n by the user; and that it is not over designed. 7 n8 t$ \6 H7 O$ G/ N4 OMDA GLOSSARY, VER. 4.0 P2 K; i0 |+ V0 Z' r! P- J 230 ( N& K, n3 u) N: ?' K" P4 |Preset Guidance A technique of missile control wherein a predetermined flight plan is set into the 2 N: V% s5 S& G9 j+ S/ k" ^control mechanism and cannot be adjusted after launching. " \$ }8 V4 G- j! c& N7 ~' d) @+ cPresident's . r* l; G& L# Z) i WBudget (PB)4 l* S v h) W5 b The Federal Government's budget for a particular fiscal year transmitted in 8 w" V4 z$ D$ C! \& vJanuary (first Monday after January 3rd) to the Congress by the President in / T! h8 i) d1 d" m: t7 s5 faccordance with the Budget and Accounting Act of 1921, as amended.0 {* H, E- Z# O Includes all agencies and activities of the executive, legislative and judicial* }7 f0 U7 ~1 V+ k branches (For FY 88/89, two-year budget for DoD submitted in January 1987.) ! _) Q5 y2 t- K [6 fPRF Pulse Repetition Frequency. ; b6 k% R8 S" P2 \, ~PRG Program Review Group. , G" _7 O+ A9 p! t3 u; e9 MPrime Contractor A contractor having responsibility for design control and delivery of a system or - r$ M# I, q+ {/ F4 j7 Wequipment such as aircraft, engines, ships, tanks, vehicles, guns and missiles, ) p; t6 p1 }+ t1 o6 y/ wground communications and electronic systems, ground support equipment, and ' Z1 M+ W" L7 z! Q1 H% a* |test equipment. ! m: h M9 K7 \8 p z8 M; ~1 yPrioritize Targets To identify and rank targets in priority fashion, based upon criteria such as type, ( o/ Z0 t: v" [predicted impact point, and predicted time of impact.0 {4 c" c, p9 L7 S PRN Pseudo Random Noise. 6 g. v7 R6 \ S" h2 ^% }) }5 e' yPRO (1) Preplanned Response Options. (2) Plant Representative Office.$ h4 d9 `) r! ?8 l/ o Probability of , p3 W& q& V; q$ h6 bDamage . @( I2 G- q1 ~( X1 h6 bThe probability that damage will occur to a target expressed as a percentage or. Y2 R% s% M. Z as a decimal. ; ^) M5 G2 _* _9 |) g FProbability of( P' x7 Q3 w& F* Z# j5 b6 h Detection 5 Z' t% t: y" a/ I' d8 w* b(1) The probability that the search object will be detected under given0 K. \( s1 P) w* u, i conditions if it is in the area searched. ; K; Z) `6 C4 a1 A(2) The probability an object will be detected given all known error and noise : j: y9 s3 H) l& K Jsources.

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发表于 2008-12-25 20:17:22 |只看该作者
Probability of : ^2 ^; N+ _; l4 t( ^' l* xDiscrimination5 ~0 |, K5 l% V, `: D This is the probability that an object, which is threatening will be correctly s9 J0 @! X, ~5 O4 [6 Y4 U/ ` identified. The ability to discriminate between a potential target and a decoy is * C0 K1 q; |( W4 L2 {: F( Yquantified by a “K” factor, in which the higher the numeric the greater the' J5 y b% d) t; i probability of discrimination (thus, a “0” K factor implies that the target is4 Q" M9 f: O9 P indistinguishable from the decoy). % t* I! O; H6 C9 ]: u$ YProbability of # I( V% E! g% ~* O0 WFalse Alarm. l9 S6 F' M8 t) G, m (1) For a single sensor this is the probability that an object will be detected. ?2 ^6 i3 v/ m0 g5 x2 g when no object is present.' I& A4 f3 O& V2 K (2) For discrimination, this is the probability that an object, which is not a ) T. c% X' b* l1 ythreatening object will be identified as one., V8 N9 B8 W* J* Z+ e# W Probability of Kill The lethality of a weapon system. Generally refers to armaments (i.e. missiles, 7 v* A5 v: d: U: m* \. Uordnance, etc.) Usually the statistical probabilities that the weapon will detonate " v. Z& ^, b# ?) W: kclose enough to the target with enough power to disable the target. (Defense3 x' C# }3 r4 Z# s) o; F, X% j( J Systems Management College) # m5 j+ q! b/ k: n# P# {8 T. e8 ?" HProbe The air vehicle of the GSTS. $ ?+ m) g: X/ OPROC Procurement. % x2 p1 U$ l' |: c. c% t! rProcess Data" X/ \ ]) D" C7 ^7 z Sensitivity Label3 x' b5 l. Q, G# d (PDSL)/ ?! a/ q& F Q" n3 r R' p The sensitivity label for data contained in a process.3 n3 G$ z" x# ?& Q7 W7 m1 A# b MDA GLOSSARY, VER. 4.0 P : l2 U8 `, e) W0 t4 k+ w6 ^231 + l3 w! a7 ^& Z y" q/ i! t aPROCMT Procurement. ' @+ J; b; z% I% p+ ^8 f" }Procuring # P( n4 ]$ C' w; y# p1 b- YContracting3 M8 Q5 X, l2 W Officer (PCO) ) P) g$ u, \5 J9 WThe individual authorized to enter into contracts for supplies and services on) l# n" q! l/ ^4 c6 _ d ` behalf of the government by sealed bids of negotiations that is responsible for $ A7 a; K7 O3 qoverall procurement of the contract. ; r# t, E, {: ]6 z" ~- S/ k0 aProd Production. 1 P: g7 m* O5 p* }Producibility The relative ease of manufacturing an item or system. This relative ease is; f1 v6 o/ G5 i' }/ N3 ?$ M- M governed by the characteristics and features of a design that enable economical2 U: F% ]/ [1 `; j5 v' c9 w, h1 C fabrication, assembly, inspection, and testing using available manufacturing/ p" x( s8 s( x3 v+ K techniques. # y- A) r' g. }4 _Producibility,% c0 x% s9 {1 p/ R Engineering, and 6 N8 l) ]' q9 RPlanning (PEP)/ W* D' V" o) b Applies to production engineering tasks to ensure a smooth engineering * o8 h, x! r* M8 H/ K7 Ctransition from development into production. PEP, a systems and planning ! j) \9 b' e! S4 Bengineering approach, assures that an item can be produced in the required " {" T, k. F8 P1 y! c) k2 Jquantities and in the specified time frame, efficiently and economically, and will , V8 ~6 ]1 O# \! S( f# ]! qmeet necessary performance objectives within its design and specification ! _7 n [% _* H( Sconstraints. As an essential part of all engineering design, it is intended to1 }/ ]0 P0 U2 k# _/ s identify potential manufacturing problems and suggest design and production1 l8 ?0 j7 Z: U8 r) ? u changes or schedule trade-offs, which would facilitate the production process.( U8 I. H- I3 P o$ W Producibility,1 x7 }& R0 w% X4 K6 Z( E0 u Programming, E$ ?( H5 ~$ ^ and Issues . e0 d3 `0 P2 fResolution& b6 Q' E& {- |& P( q- { Strategies5 J M/ Q) j. E2 A (PPIRS) 8 c& _, C9 u& x$ r4 K. hA semi-annual document put out by the MDA P&M community listing all medium8 ^# t: C1 @3 r' d9 U( K6 @ and higher P&M risk issues as prioritized and coordinated by the MDA P&M& q7 A2 Y3 U9 N! r8 x& _* r Working Group. 9 q2 b# Q" r8 K( [6 a! oProducibility f, N M5 X) [/ Q9 N5 NReview+ r7 V+ O* F: ?% M9 a4 _! }8 ] A feasibility review of the design of a specific hardware item or system to7 Z0 F3 r# E7 Z% z$ C" a determine the relative ease of producing it using available production technology2 a7 a+ `+ R( p: u; V m considering the elements of fabrication, assembly, inspection, and test. This is a4 X# h8 s: S. _/ g" V& h# i, q generic term for the concurrent engineering portions of MIL-STD 1521 system$ Z% x, |- V5 O* y& a8 e6 d design reviews.4 q: s+ l4 F |' v Product Baseline (1) Established by the detailed design documentation for each configuration, H! `! j: T) D' U! s- B' h item. Normally includes Process baseline (type D spec), Material baseline3 E& U9 u3 `* z. p2 y; d7 T j (type E spec), type C spec, and drawings.6 M& D( i2 Y3 ?; {$ X+ [ (2) In configuration management, the initial approved technical & @: w" Q6 J) U9 M8 D9 @documentation (including, for software, the source code listing) defining a' m% N- G9 \. o8 X3 f configuration item during the production, operation, maintenance, and/ j ~& |3 a5 J/ R9 A+ m6 o logistic support of its life cycle.% p, g/ b+ t9 C. i+ a2 B Product * N, o& m/ |- b7 \! [, f2 @' A, R/ HConfiguration 7 x6 N9 Q' }1 Q9 f) @Identification9 V6 P' e5 C4 T% F3 ~# n J9 H w h, l The current approved technical documentation which defines the configuration , q3 ^, p. O! e6 i) y" w" G" Hof a configuration item during the production, operation, maintenance, and $ ~( p: S" G! z2 a. O- tlogistics support phases of its life cycle and which prescribes that necessary for:6 W( ~. T% G# {, [! e fit and function characteristics of a CI (Configuration Item); the selected 1 S: l7 z7 o: `functional characteristics for production acceptance; and the production + m8 q. O* K7 U* E: @# lacceptance test.! K% B. n9 J6 u, [ |; n Product2 ~4 C0 H/ ?' s/ d" g$ H Improvement : F6 ~4 @8 P0 |# M5 qEffort to incorporate a configuration change involving engineering and testing on. p. ?' L; x H$ o end items and depot repairable components, or changes on other than 2 @4 F; e, |! @" [5 Vdevelopmental items to increase system or combat effectiveness or extend 2 X0 w3 A- w, ?- ^) quseful military life. Usually results from user feedback.# E, _6 q2 y* j) ~. W, ~+ u, {7 s MDA GLOSSARY, VER. 4.0 P 7 ?' S5 v+ h* }. `* K# o232. x; |" o+ s2 i: {( i1 ]1 ` N Product Manager The individual, designated by a materiel developer, who is delegated authority 2 Q' K# {" q: H. m% Xand assigned responsibility for centralized management of a ; D- j+ }$ [$ O$ M6 @* Ydevelopment/acquisition program that does not qualify for ! m0 k2 G& M0 M: Vsystem/program/project management. ! O4 U2 F5 N& y/ w' e2 ~% U# \" Z0 c: EProduct Security3 w, [& T& d1 p/ L& K1 O (PRODSEC)0 ~4 y% r6 k0 j; U% q That physical security provided for selected DoD products (major, high cost,% g6 l, \ U( r3 b5 { politically sensitive systems with significant military value) at Department of. e' h2 P7 \" u$ q' F Defense contractor facilities to mitigate the risk of the government as a selfinsurer. Defining and instituting product security during production are essential: j( T; T, Q' i4 N3 I7 q5 B to the delivery of uncompromised systems.

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