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发表于 2008-12-25 20:15:14 |只看该作者
MDA GLOSSARY, VER. 4.0 O + S% v. P% c& M2110 R$ V- i5 W" w8 A0 j Operational; b& n% C i7 @! H- j Assessment 4 C& k7 n8 c+ u6 B6 x% ?An evaluation of operational effectiveness and operational suitability made by an ( I% k5 Q0 e- P+ ^independent operational test activity, with user support as required, on other, g- r# O- A+ _4 d1 H& V7 r than production systems. The focus of an operational assessment is on $ |) }/ Q Y2 V" lsignificant trends noted in development efforts, programmatic voids, areas of risk, , W/ \: `5 \' V# Jadequacy of requirements, and the ability of the program to support adequate 5 A! d2 {% B+ Uoperational testing. Operational assessments may be made at any time using # i% S: G- _2 ]+ ]! y o+ ftechnology demonstrators, prototypes, mockups, engineering development: Y1 L* D2 T" F4 \& ` models, or simulations but will not substitute for the independent operational test6 y. f+ h* ^& p. W- m. f2 p& V and evaluation necessary to support full production decisions.* @2 L8 [% M' m Operational + n" I5 C' |! `6 a5 z w+ SAvailability" s/ @# |) e. R- |! E( m9 w( J1 a& q The degree, expressed in terms of 1.0 as the highest, to which one can expect9 b1 d# h4 U, [" a8 Q1 T equipment or weapon systems to work properly when required. The equation is + e* r4 U" D+ Quptime over uptime plus downtime, expressed as Ao. It is the quantitative link5 o9 w' ]$ ~4 S6 ~5 y between readiness objectives and supportability. 3 T9 ?6 ?1 ]. z. v; L( aOperational8 u& y$ E, g6 C Concept% z, | J1 c; P6 Q: _7 ? An end-to-end stream of activities that defines how force elements, systems, + S( p2 `' J/ p0 p( w- ?/ Zorganizations, and tactics combined to accomplish a military task. + W/ [6 ~6 I1 H2 n" aOperational . Z0 q: k* l, h* v# }Control (OPCON) . T- n+ g5 _: p' m1 ETransferable command authority that may be exercised by commanders at any0 N( J" U( O' e* v echelon at or below the level of combatant command. Operational control is . j" V. J7 S7 a! i2 z1 G- Binherent in Combatant Command (command authority) and is the authority to/ a: ?! c H `. L$ d' A perform those functions of command over subordinate forces involving 5 o, y3 l; z0 S8 w, b$ Lorganizing and employing commands and forces, assigning tasks, designating C! U% F1 g, u" q! o- q objectives, and giving authoritative direction necessary to accomplish missions! e s( b# u; J9 R assigned to the command. Operational control should be exercised through the ! n! ?0 Z: g8 \) n4 i3 b' icommanders of subordinate organizations; normally this authority is exercised * M, G2 f, t# e% nthrough the Service component commanders. Operational control normally 9 a! I* H6 v( X* S8 U6 b' Zprovides full authority to organize commands and forces and to employ those $ F' S0 ^ K$ Eforces, as the commander in operational control considers necessary to; W4 o j* P9 _, H accomplish assigned missions. Operational control does not, in and of itself,6 t$ M! F" {. |( Q7 s5 O include authoritative direction for logistics or matters of administration, discipline, , U5 D# ?+ |7 Zinternal organization, or unit training.; t9 \" h# C. D3 O Operational ' P: Q$ K2 ^! K6 P& b% VEffectiveness 4 u1 I7 P3 V# P) b# K* v- cThe overall degree of mission accomplishment of a system when used by9 n) D% H2 ~3 X+ M representative personnel in the environment planned or expected (e.g., natural,1 c6 W5 w! p$ o3 N; v electronic, threat, etc.) for operational employment of the system considering 6 O& T* F! f7 V @" p4 E8 {' z$ jorganization, doctrine, tactics, survivability, vulnerability, and threat (including / I- E. o q8 w9 `5 pcountermeasures, initial nuclear weapons effects, nuclear, biological, and% W% o7 O6 ~! _$ H7 T chemical contamination (NBCC) threats).' o8 b% i- f0 ?3 N; _$ F. a Operational: Y! [) I0 E8 s+ v Evaluation 6 E0 Z" l/ B4 e$ v: x8 W! p. z4 HThe test and analysis of a specific end item or system, insofar as practicable' l' f p4 x+ _/ c I6 X under Service operating conditions, in order to determine if quantity production is$ [8 J# R9 j8 S$ D; H: ^, q+ ^ warranted considering: a) the increase in military effectiveness to be gained; ' X& e) e) i" Nand b) its effectiveness as compared with currently available items or systems, 4 a4 a1 a! D* \ F) ~. Y& h6 j) Oconsideration being given to: (1) personnel capabilities to maintain and operate4 c$ q+ E1 d0 z5 K the equipment; (2) size, weight, and location considerations; and (3) enemy 9 f) }; z1 | k/ A$ U' M( c, z: Dcapabilities in the field., B4 S" | r2 }) N1 F Operational 9 x5 \3 e6 ^8 X3 X8 H' `, DLevel of War0 \/ X7 I3 L+ G0 ]* {! v2 ?1 a The level of war at which campaigns and major operations are planned,8 s9 ^( N$ @4 J5 I& U conducted, and sustained to accomplish strategic objectives within theaters or ; d" X7 x( h9 d9 c! a8 n4 q6 Xareas of operations. Activities at this level link tactics and strategy by8 v+ T- p; J9 H3 k9 A; h2 b) _5 ] establishing operational objectives needed to accomplish the strategic # b. o3 L% d% N- D7 robjectives, sequencing events to achieve the operational objectives, initiating+ a1 n7 h# r7 \9 K* U8 d7 e5 v1 j actions, and applying resources to bring about and sustain these events. These; i" P# l4 T) m9 a, {7 W8 z2 A! z activities imply a broader dimension of time or space than do tactics; they ensure % J( s% T" S7 `$ I, b/ ^the logistic and administrative support of tactical forces, and provide a means by 9 L @5 N1 B. Y) f9 f$ Q+ F) _6 t# Twhich tactical successes are exploited to achieve strategic objectives.- q1 K# l( s8 m MDA GLOSSARY, VER. 4.0 O 7 [0 C; I1 p0 Q6 ~3 @0 u! W212( X3 D! `2 N: v: O Operational Mode The configuration of the defense system element or segment. Refers to the' l: C, k& S" D: c$ }1 a operational environment of system, i.e., test configuration or training : b0 k2 J' @1 C. z% ?: W8 R) Sconfiguration.8 q$ P- a: |) i5 E% D Operational - p& a! c8 c( J% TReadiness' k; m- U; l1 d. y z The capability of a unit/formation, ship, weapon system or equipment to perform6 C, @* A' T1 e- s9 U# k0 {* | the missions or functions for which it is organized or designed. May be used in/ D% f# K# X- ^) d% I a general sense or to express a level or degree of readiness.: t$ X) y A' h1 t Operational# |1 `2 d% e! e4 ?. A/ N Reliability ; m9 j* w2 d" [, t9 H/ U T; UThe reliability of a system or software subsystem in its actual use environment. 8 j. E7 A5 D M+ UOperational reliability may differ considerably from reliability in the nonoperational or test environment. - u' j0 k5 N1 F+ D: \& G8 o6 vOperational, O4 V. O& v7 Y+ @7 [- ^& ^ Requirement; A, d4 b$ n, V2 }4 K& H Navy document, which describes major characteristics of the alternative selected ! ]/ e% F* d+ O- ~6 Dby OPNAV. It is submitted as originating document for all Navy new starts (less1 Z, c2 }% J% [0 c 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 0 P6 o# X8 R! e6 XRequirements( i7 q! l% H' @7 A Document (ORD) , o. e' F( Y% Y0 K+ f: b# l( QDocuments the user’s objectives and minimum acceptable requirements for - H5 o2 M) C* x7 |( j6 {9 j; Roperational performance of a proposed concept or system. DoDI 5000.1 and ' g' O( i' U1 k9 d& f/ w4 sDoD 5000.2-M have standardized format across all DoD components. # V4 X5 z g) e# D0 k5 LOperational % n# M( S w, `1 Y) [: |3 bSuitability & {+ }' J5 e4 v7 e: j3 P" d. ^& hThe degree to which a system can be placed satisfactorily in field use with( c( m" l7 h; [ consideration given to availability, compatibility, transportability, interoperability, 3 ?4 E) e. f# I2 T x. S, oreliability, wartime usage rates, maintainability, safety, human factors, manpower 3 D5 f% L+ I# X# a# }2 g4 Bsupportability, logistics supportability, natural environmental effects and impacts, " R u$ I) w- x" m% O: Ldocumentation, and training requirements. 1 V4 r: r4 p4 [" e: |Operational Test ! O8 B8 K# n' x- z7 c9 L+ S: Oand Evaluation. I8 o4 X* d- S& X (OT&E) & o/ u$ Q. M5 s4 G2 j* WThat T&E conducted to estimate a system's military utility, operational6 ]3 I9 P, T$ `5 L5 w" `- B; b" W effectiveness, and operational suitability, as well as the need for any 9 B1 @, e/ F/ f B$ smodifications. It is accomplished by operational and support personnel of the& `* D4 F: V* C- X1 h. u types and qualifications expected to use and maintain the system when & g# K3 B2 T7 J7 Udeployed, and is conducted in as realistic an operational environment as3 h, ]! }) B8 X possible.: a! j2 c, S! N Operationally, P) a( G, V& v( { Ready: ]! W! \/ I0 w. n" O% ] 1. Capable of performing the missions or functions for which organized or 9 l% m/ ?- u% e6 kdesigned (as applied to a unit, ship or weapon system). Incorporates both+ { [; [. Y8 A# f. r- ~- a equipment readiness and personnel readiness. 2. Available and qualified to " E3 ]" b6 d' v" c" z8 wperform assigned missions or functions (as applied to personnel).) Q2 I4 _: {$ b# i, d Operations and5 M3 \% A% T, T* I2 X Support (O&S)( _6 t0 R/ q( a5 i: H Costs % e$ h8 W* v+ T/ JThose resources required to operate and support a system, subsystem, or a , F9 B+ {% I" w; K0 gmajor component during its useful life in the operational inventory. # X+ R9 |' R3 q' p, |. G0 \Operations . l7 W/ T& d7 D4 l- \9 G, ~7 G3 E0 dProfile 6 g# N8 m* B$ CAn identification of all participants in an operation, their actions, and the time7 [4 Z/ Z+ R* } `% D' K/ W! U those actions occur in the operation. Includes assessment of operational + ?/ [3 \3 I* ^2 K- f ^& }procedures to ascertain whether stereotyped or predictable patterns are$ C$ [' y4 S3 O) P( {! O/ @ discernible.6 q7 E" f& \5 D/ h Operations3 r: [: E( ?. F7 f6 y Security (OPSEC)4 E; G- D6 _1 S0 C$ q Survey8 V7 D5 ^: B- w% {0 l# p6 ^2 d The method of evaluating the protection afforded a given operation. It is 8 D. E2 D4 ~, f& i8 o# ocomposed of multiple functional outlines that identify possible weaknesses or 9 t# w: t/ e0 t# _/ minefficiencies of an operation that could, if exploited, degrade operational : w' n9 B! h* s/ H7 w( ~% ?effectiveness. ) \. V& O) A8 S6 P5 C/ XOPEVAL Operational Evaluation (Navy).' o/ I5 L: @2 \. e6 C3 S OPINE Operation in Nuclear Environment.7 q( M) D1 a9 V, ], J2 ^ OPINTEL Operational Intelligence Processor.5 k) l" ^" [/ j5 q l* `# ` S MDA GLOSSARY, VER. 4.0 O/ v$ f. K( t/ v3 M% Q2 Y 213 - H7 z1 g+ _3 d6 @OPLAN Operation Plan. X8 I) B* C& ]/ j OPM Office of Personnel Management. 7 [. f N7 Q: cOPNAV Office of the Chief of Naval Operations. 1 {4 z, y1 c. ]4 Q1 [4 JOPNAVINST Chief of Naval Operations Instruction.4 d6 N! y3 r* h- M OPNS Operations. 1 D' v' c* X: A' r1 Q& nOPO Optical Parametric Oscillation. 5 {; ~- N9 y9 n& {$ d: o9 b `3 p2 M5 M5 iOPORD Operation Order. 1 j* V1 P s# j2 u: r/ J* B5 GOPP Other Physical Principles. 8 R& q* G* [- M4 qOPR Office of Primary Responsibility.. ~) m1 w8 g' g2 o+ U( n$ v: l) L Ops Operations (employment). 0 J( u: Y: a7 Q2 }' LOPS Operations. 4 }% D. V. ~" Y2 zOPSDEPS Service Operations Deputies.( {2 b1 Q+ V/ n, ~1 W9 Y& S OPSEC Operations Security.9 y& J% a6 F% V- _. c ]! ` OPSMOD Operations Module.; q, p. ^1 K; {8 @- q OPTEC Operational Test and Evaluation Command, Alexandria, VA. (U.S. Army) ' h' E, g& e/ s" z* _6 B; U ~OPTEMPO Operating Tempo. 9 ^1 _$ x: U$ P8 IOPTEVFOR Operational Test and Evaluation Force. (U.S. Navy) / E8 X7 }: M+ n3 gOptic Cobra CENTCOM Joint TMD Warfighter Exercise.' \+ j; ^6 M( m' q" w: E Optical Airborne5 D* `% J9 m- W$ h" H& v- _% } Measurement 7 }9 D H* G& A C/ B0 @# g' z z; PProgram (OAMP) ! N) d7 m) e% a, u* a& n0 ]8 EA program involving an aircraft-mounted research platform to conduct3 r, u% a% i/ Z2 q+ a# i1 _1 u; l surveillance experiments that can be used to design future defensive systems. , a( m( [8 ?% d& n(Also known as Cobra Eye.)9 _! y- t" U& ]6 j+ _8 _5 I Optical Coating Layers of materials that alter/protect the physical/electronic properties of the k4 `2 x5 B! ]9 X material to which they are applied. ( B9 ?5 a; H2 w4 e0 t* V( XOptical ' q" I" J5 |0 iProcessing 3 t* O, r* k. ? _6 T' GA type of analog processing, in which the behavior of light beams, passed3 n8 W6 F$ ?+ k; @ through optical systems, is used in problem solving.7 m* s# T6 I# z) E$ b/ N: s- L$ s OR (1) Operations Research. (2) Operational Requirement (Navy). (3) Operational 9 E4 }8 l' o* l J& `3 ]+ c$ f0 ~; XReadiness. (4) Operational Reliability. : u* ` ^* Q2 x6 e/ A# OOR/SA (ORSA) Operations Research/Systems Analysis. 1 r4 B+ \9 p: nORACL Overtone Research Advanced Chemical Laser. - l2 B. H$ r+ a2 H: m" kORACL HYLTE Overtone Research Advanced Chemical Laser Hypersonic Low Temperature.7 `( I" V3 G# q C7 l2 R MDA GLOSSARY, VER. 4.0 O - B2 K ^% K8 L w9 Q- e214+ j' F, t U* h Orbital Elements Any set of several parameters (e.g., semi-major axis, eccentricity, inclination, etc.), f- _- `7 P9 W used to specify the position and motion of a satellite. Six independent orbital3 W/ ^& F! Z- n9 c) w6 v' W elements are required to unambiguously specify the position of a satellite in a 9 C3 n0 P4 D- cKeplerian orbit at a particular time. & T! a3 F7 O. Z: {Orbital + C/ m% }7 ^$ Q. g, J- P/ bManeuvering & z* @# ~: N% R7 J- V! pVehicle (OMV) 1 V9 W W$ H# _5 i4 ONASA program to provide capability to perform satellite on-orbit servicing.* d z' a' K8 r% J1 \ Operates from shuttle and Space Station. ) D8 f; v, L* u% G: V9 ]Orbital Suborbital 9 s: f3 g* |: A* ~Program (OSP): a2 ~9 s% U# t! X) K A strategic target booster system used by the GMD Program that uses the0 k+ x6 I& C; ^* b3 J5 ~% x 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.- a# \# p: O# }& I ORC Operational Readiness Condition. ' k# @6 n4 x5 H- m2 G% p8 J; [ORCA Operational Requirements Continuity Assessment. ! M4 Z; }" Y, o9 G+ e4 p- O) XORD See Operational Requirements Document.% h# J- `$ {$ F/ O9 R9 s9 _8 l5 b ORDALT Ordnance Alteration.0 I' p+ Q' `* J Order of Battle The identification, strength, command structure, and disposition of the" n7 j" q# B) W8 S5 c% \5 T personnel, units, and equipment of any military force.4 X3 r% m+ @& @% J: r Order Wire) z+ h) e) r# B. u1 K ^% U9 a8 o- b Message7 }8 o- L- J0 {( \& X+ z A communications support function for internal control of communications - |6 g7 f; F# M' h! z$ jelements. + E& y& K9 R- Y& d& SOrganic Assigned to and forming an essential part of a military organization. Organic+ i, J6 G |8 z. m g parts of a unit are those listed in its table of organization for the Army, Air Force,7 ~( e' B+ w3 O% f% T6 H0 h$ \6 w% B and Marine Corps, and are assigned to the administrative organizations of the : Y8 R1 E1 z, \- o% v ~/ ]operating forces for the Navy. 1 @! s: K# L6 w, cOrnate Impact USFK Joint TMD Warfighter Exercise. 7 r$ V" o5 ^8 C, y W: G" RORNL Oak Ridge National Laboratory, TN. # Y( t" w# c/ O& H- X$ K5 y9 tORTA Office of Research and Technology Applications. 6 \1 ?! E; _2 f H& r" ^ORU Orbital Replacement Unit./ K! T' | C V4 e0 ]! w ORWG Operational Requirements Working Group.; y' {! Y- I- q OS (1) Operational Suitability. (2) Operating System. 1 \& K. T! e4 p" V/ KOSA Optical Society of America. ) m" C, c3 F4 I/ f& ~OSC Optical Signature Code. % ?7 O! y8 l7 n" ~, D8 p8 ^OSCE Organization for Cooperation and Security in Europe.5 N0 e( i4 b' _, J+ e OSD Office of the Secretary of Defense. 3 {4 m) j X& j: [ y5 wOSE Operational Support Equipment.6 D5 s) f* [4 d" a( L3 k OSEIT Operations and Support Engineering Integration Tool.( T) Y* p5 `2 l$ \% E" y1 A, @ MDA GLOSSARY, VER. 4.0 O * _$ ^% z9 a2 q, G6 v) A215 1 a c; s7 e6 p) Y, C( E# rOSF Open Systems Foundation., \' i$ H- y$ c7 w1 t P! v4 P OSH Occupational Safety and Health.6 \( k4 J' ~9 J( e8 Y2 z OSHA Occupational Safety and Health Act. 1 E$ p7 c$ d9 U+ m" J4 bOSI Operator System Interface. * L, z0 R8 h4 {' a0 A; hOSIA On Site Inspection Agency, Washington, DC. . M, \( y: ~ M; w' k' oOSIM Object Simulation (NMD BMC3 term). / y v# q2 s! \" s4 `' _! ~OSIP Operational System Integration Plan.% q1 }# u* |# r7 y c& ] OSIWG Operating Systems Interface Working Group. 0 C* |' A' q( Z. k$ b2 F) FOSJTF Open Systems Joint Task Force. 5 P5 }" b! D5 v' G' T: IOSM Object Sighting Message. 3 ~, |0 Z- Z0 ?OSS Operations Support System (Navy C3 program). ) S" g U$ T$ I' N! R, r+ bOSTP Office of Science and Technology Policy. & _& G* u) T0 W9 @5 c8 k; bOSWR Office of Science and Weapons Research./ v0 z: W1 o4 I) L, a+ U" C OT Operational Test.# G4 E" E& e; S; R% o4 h OTA (1) Office of Technology Assessment, Washington, DC.& C& q/ g+ ~* a4 j! I# i7 }, K! b (2) Operational Test Agency.# _0 Y9 g, K8 O7 G; T2 u+ t (3) Office of Technology Applications, MDA. 5 l0 c6 n! w y Q# O2 k, ZOTCIXS Officer in Tactical Command Information Exchange Subsystem (Navy term).+ g3 k7 q& s. F OT&E See Operational Test and Evaluation. / S! ]& q. v( J. A% M6 iOTDR Optical Time-Domain Reflectometer. ; F# w2 d" Z3 {2 i& O+ \' s; BOTF Object Track Profile. : a* r, M# x( K2 N: r3 o7 L1 tOTH Over the Horizon., S1 ]! ]4 e. ~' h: t OTH-B Over-The-Horizon.8 v, E- f% z! J: Z& u5 | OTH-T Over-The-Horizon Targeting. , Y# ~3 J; t% s4 X, _; K+ dOTO Operational Test Organization. % O' }2 l' V1 B' tOTP Outline Test Plan./ q; D& t7 M9 H- t9 J9 l: |7 e OTS Off-the-Shelf. 4 U8 w/ l8 Q4 N0 V& e" L8 Y) b' Z" F+ yOTSA Off-the-Shelf Analysis.! K5 x/ [/ ~" e. h1 }# z OTV Orbital Transfer Vehicle.; w V1 z7 v; K/ K J) Y! p OUSD Office of the Under Secretary of Defense. 0 o$ V" t7 J2 L, kMDA GLOSSARY, VER. 4.0 O . Z" M. ?' K2 \0 Z216 8 V; ~. s) {5 p3 c9 ZOUSD (A) OBSOLETE. See OUSD (A&T). 3 S5 O1 H* h" U* b5 Z9 LOUSD (A&T) Office of the Under Secretary of Defense (Acquisition & Technology).: w. l( M' _7 j; P$ S4 Z0 \ Outer Space7 u* d7 n0 f9 Q( U1 ?% Q! ` Treaty of 1967 " C, K! W( o o! s8 x' }A multilateral treaty signed and ratified by both the United States and the" H+ u9 I" O; W1 y' w' f/ W (former) Soviet Union. Article IV of the Outer Space Treaty forbids basing5 ?0 v2 a q$ p' m) I nuclear weapons or other weapons of mass destruction in space.4 S% r* d H& N T Outlays Actual expenditures. Checks issued, interest accrued on the public debt, or 5 K' M |$ ]* P3 Y @4 }other payments, net of refunds and reimbursements. Total budget outlays7 T( y5 K5 C1 ~2 S9 w- H' }: M consist of the sum of the outlays from appropriations and funds in the budget,. A' }' N3 @+ b! A3 I' Q6 E% O minus receipts.# g) ~- P, W3 D2 t" ]' r4 t Out of Band$ x& a- z! Y/ g$ k0 c* G* Q! N Laser Flux # Y8 p* t$ E5 U3 J& G; M$ R(Sensor) Laser energy directed at a sensor that is intended to damage or disrupt ' `0 Z* k0 m4 V/ w) [" Pthe sensor and is outside the sensor’s bandwidth. + F# w1 ^+ ~% v/ N' f; _, m& wOut-Years Normally, six years beyond the year being worked in the upcoming POM/budget. . t; B8 e6 C( ^, |' W6 F7 B1 Y- YOverlay BMD" j- {" L9 o' o% G System8 N2 P& H" o' \) g; Y0 i) P An advanced exoatmospheric defense system oriented toward defense of - G" Q1 h: ], r/ v7 k4 v; cICBMs, consisting of missile-borne, passive infrared sensors and non-nuclear6 n7 S9 p& c: u$ h# j K3 n homing interceptors. ( D7 F t4 j2 S5 C6 t5 LOWG Operating Working Group. 9 B" M, {5 d6 [3 I; l2 IMDA GLOSSARY, VER. 4.0 P 2 F" Z# V9 a( z7 D$ p$ G; n, s$ o- O217 + X) d6 z# }. E; z0 Y$ iP&D Planning and Design (MILCON term).5 H* c8 Z/ s4 x0 n4 Q: x- d* ?0 i P&M (1) Producibility and Manufacturing. (2) Procure and Manufacture.! r! J+ n2 A% l+ C P.B. President’s Budget. ! ?4 O. ]+ q8 x0 u( l( fP2 Pollution Prevention. 2 k* H1 |; a5 m5 j5 S* g5 v- ^p2 NRTA&A Pre-Planned Near-Real-Time Assessment and Adaptation.' V }5 {2 K6 Y5 @5 x9 w2 J P3 Pollution Prevention Program. ( b0 u5 h5 L1 d0 i% X; ]% s4 HP3 I Preplanned Product Improvement. 0 _1 A. _: o i& \4 r- pPA (1) Product Assurance. (2) Public Affairs. 0 i& S* m) R' `8 Q: u _' qPA&E Program Analysis and Evaluation.7 t2 Q7 O1 a, o6 _, {& [% f1 P PA&ID Program Analysis and Integration Directorate.( K* K' L" m2 B8 \ PAC (1) PATRIOT Advanced Capability. (2) Program Assessment Center. (MDA) 9 q" S0 G. m8 }' }! I% d! n+ VPAC-2 PATRIOT Advanced Capability-2 # S, D" i s. U0 i5 j4 c) i/ ?7 d0 mPAC-2/-3 PATRIOT Advanced Capability, Level 2/Level 3. Formerly called ERINT.$ B; u/ C* H5 Y+ o2 p: e' d4 T PAC-3 PATRIOT Advanced Capability-3 1 ]. z" E& z! I. @2 o7 d$ w' oPAC-3 SIM PAC-3 Simulation (PATRIOT), Huntsville, AL. - l! R; a% i6 L* b6 bPAC-4 PATRIOT Advanced Capability-4. ; ?: T3 Q, K: f( SPACA Professional Aerospace Contractors Association. * s. d/ m. C2 M. [+ w( iPACAF [United States} Air Forces Pacific. + H0 Z1 b5 J7 d. k* ]PACBAR Pacific [Radar] Barrier.. o: F5 r0 i* _5 h2 I) M PACFLT Pacific Fleet (US).

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发表于 2008-12-25 20:16:15 |只看该作者
Packaging, * a% L# G7 Q3 G3 Z% `9 _Handling, ) W) _: v+ {* H2 G5 W- A- |! d: ^Storage, and ( o3 a! L2 m" i% F3 [Transportation2 T7 ]- Z* m7 O; f; e3 U (PHS&T) 2 p/ M0 g, H( u7 tThe resources, processes, procedures, design considerations, and methods to1 M: a- z7 X. \ ensure that all system, equipment, and support items are preserved, packaged, ) U3 c. ?/ v% J1 F9 dhandled, and transported properly, including environmental considerations,) C0 F4 z1 ]$ {/ R) b equipment preservation requirements for short- and long-term storage, and% j* g) J7 ~- G8 l3 C transportability. h$ O& S. J/ K% U1 b f Packet Switching9 a( ~# [5 j! c8 T2 S# e+ o (PSW)! w0 n; @0 p$ K. p$ v A data transmission process, utilizing addressed packets, whereby a channel is ) Q0 n# q- o% coccupied only for the duration of transmission of the packet. In certain data# ^" _& M) x7 s9 Y communication networks the data may be formatted into a packet or divided and e* [0 K P* v% l then formatted into a number of packets (either by the data terminal equipment : Y, T3 B4 ^; d% j6 A) }or by equipment within the network) for transmission and multiplexing purposes.; {5 @/ B! _) _0 z1 z PACOM U.S. Pacific Command. : }) q ~. }: l1 e3 V5 Z+ Q+ V$ p2 ZPACOSS Passive and Active Controls of Space Structures. 3 D( N! C- M, r. `PADIL Patriot Data & Information Link. . s; F! i% @2 @MDA GLOSSARY, VER. 4.0 P : a3 i. e. g' w) R218: Q2 H, l3 t6 d: r, D PAFB Patterson Air Force Base. 4 U! U7 c1 w8 O( f2 [ E+ Z+ \PAL Permissive Action Link. $ @+ S( d! w4 a4 t( wPALS Protection Against Limited Strikes (SDIO term).8 T7 @6 I0 o* m6 y: [" c0 x PAM Pulse Amplitude Modulation.5 W6 w1 o. u9 \* M; r$ X( d. s' { PAN Polyacrylonatrile [carbon fiber].) R% |& @8 a1 V! ^# i, n Pancake Altitude Altitude at which the trailing edge of a chaff puff/cloud effectively catches up to$ B" j2 `( e" S( }$ r1 x2 Z; S the leading edge because of atmospheric slowdown. : E! M- { L+ X/ GPAP Predicted Aim Point. - _& P! B* H; L1 z0 p$ N5 ~8 N# Z3 }PAR (1) Phased-Array Radar." o+ N0 Q s* |1 W3 K0 G# d (2) Perimeter Acquisition Radar. (See Phased Array.) ! S% n. `: T. A, q9 G4 b(3) Preprocessing Analysis Report.4 h# S3 ?) }; ~6 A$ k (4) Program Assessment Report. 6 d F) I. S. J- T(5) Pulse Acquisition Radar. & k" G# n; M8 p# ?; P) mParallel5 J1 f/ N8 t1 @: j) C0 I Processing 5 n# J3 o* @3 \ d C" c, Q( dIn parallel processing multiple processors (CPUs) divide up a large task into 4 S8 B0 S5 {$ M8 ]smaller ones and each CPU acts on the subdivided task simultaneously so that" W; T8 @0 b; O$ o* h much higher effective processing speeds can be attained. - n. F' R" E$ A" Q" `) QParametric Cost # f- L( l7 `8 i2 e. W+ OEstimate; ~6 z9 ~9 P' ^/ u A cost estimating methodology using statistical relationships between historical2 k7 K& N& }' k3 _8 H6 H% f9 V/ z costs and other program variables such as system physical or performance/ a; L; r+ j7 j2 ^# U, ^" {. c characteristics, contractor output measures, manpower loading, etc. Also# O; k9 u- D4 a- ? referred to as a top-down approach. ( _# T( w; J3 G6 ~4 p0 rPARCS Perimeter Acquisition Radar and Attack Characterization System. 6 D* Z2 h$ P* V% s2 OPARPRO Peacetime Application of Reconnaissance Programs. & K3 W8 w% R4 e; w1 k3 {% DPartial Mission ' I N4 e. F% k3 I( X* ~Capable - ~6 L& W: b: o. @Material condition of an aircraft or training device indicating that it can perform at 3 G% ^8 T* _! y. [( ^7 [, sleast one, but not all, of its missions. Also called PMC. See also Full Mission. G( S/ A# K; ~! B+ G3 j" ^ Capable. : t" E8 I/ t( Q* r4 ZParticipating % I" q1 }7 P7 HService* d/ w5 e) n5 ~' E2 f A military Service that supports the lead Service in the development of a joint7 @& G! }7 ]# O d" q acquisition program by its contribution of personnel and/or funds.( I7 N8 |9 ?' ?: U) V, r( C Particle Beam7 m# e5 \3 ]( R( f3 K (PB) " k7 b6 D N* \: _' v3 d+ eHigh-energy beam made up of atomic/sub-atomic particles (electrons, protons, or 4 L5 T7 ^$ S' R2 Aneutrons) accelerated to near the speed of light. ' [& r( @6 O( a0 ?Particle Beam ! h' s' [" j5 @7 f- w" jWeapon (PBW)9 u" p# G$ a( C2 x: M A weapon that relies on the technology of particle accelerators (atom-smashers) & T% G1 |3 j: @. ^6 x& vto emit beams of charged or neutral particles, which travel near the speed of) B s8 L) k% i* T light. Such a beam could theoretically destroy a target by several means, e.g.,- w' o- x# [0 b electronics upset, electronics damage, softening/melting of materials, sensor 8 l! t+ ^6 G/ B1 b. n: Fdamage, and initiation of high explosives. , A+ r3 C8 Q" l: D/ C& U2 pPASS POET Advanced Submunition Study. . Y& u) R7 \7 J, VPassive In surveillance, an adjective applied to actions or equipment, which emit no t8 Z) U, w7 }energy capable of being detected. / f* S j7 |* X5 h5 ^MDA GLOSSARY, VER. 4.0 P 7 E. w: b& V0 K7 Y; u" Q219& s9 p) i n' a3 L+ w# X" x( U. y Passive Air1 @$ f) q; s I7 Q Defense$ H5 Q: I/ Q0 h2 h. q All measures, other than active air defense, taken to minimize the effectiveness " @5 B6 b+ n3 T# W) N; kof hostile air action. These measures include deception, dispersion, and the use / w; s; c' d7 d( Q wof protective construction. / w- m! V" `8 e) t8 ]Passive2 b3 b: Z3 Z3 B1 W6 g Communications 7 D8 u5 [$ |8 @% @ A4 }0 ESecurity Threats ; A7 V8 V. H- W @8 LThreats to electronic systems posed by a capability to obtain intelligence through * J' E( ^: W( u& r5 p; [. Kintercepting and evaluating intentional and inadvertent electromagnetic& g+ ^; T) M( c6 i Y; i emanations from electronic components of the system; e.g. communications 1 f9 {( n0 c! W% ] t* `0 i! H( `interception and direction finding. 3 Z7 D( X h% ?; k( VPassive Defense (1) Measures taken to reduce the probability of and to minimize the effects) j& n8 \; x9 A% L C6 L5 u of damage caused by hostile action without the intention of taking the 4 ^) l$ F, z- z J2 vinitiative.) R+ F4 ]2 P& B9 |% L7 \( G" ] (2) Passive defense minimizes the probability and effects of theater missile ) h9 |0 G7 a3 o* r; n' Tattack by reducing an enemy’s ability to target friendly assets, reducing ( l2 v& X9 r& `the vulnerability of critical forces and infrastructure, and improving the 5 @# i$ h' z( G1 E* Spotential to survive and resume operations after an attack. Passive, ~8 [/ ?& F# r% t" u. H% Y6 z0 W& L measures might include counter-surveillance, deception, camouflage and: I* Y5 v" P; Z/ P; t6 V concealment, hardening, electronic warfare, mobility, dispersal, and * P) w9 ^" y; e; Gredundancy. Passive defense is considered one of the four pillars of % Z: [; U- j0 m& Q# hTMD capability. (JCS J-38 CONOPS) 1 U' g/ s" O0 n6 E+ k7 Z" G0 [Passive Sensor A sensor that detects naturally occurring emissions from a target for tracking0 C# Q$ ]. P4 C$ O$ x 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.& ?, M' k# ^7 r ~0 q. w+ d PAT&E Production Acceptance Test and Evaluation. . h. P9 E5 j2 X/ F" }9 a p [PATHS Precursor Above-the-Horizon Sensor. 2 a5 w+ `1 o; W: ?7 q' k% zPATRIOT See Phased Array Tracking Radar Intercept On Target (missile).* w; r. A# D( w0 h/ ]: E9 X PAVE PAWS Position And Velocity Extraction Phased Array Warning System.4 d- m# J! a8 i. U+ Q" E7 T% ^, u Phased array SLBM warning system. Four sites: # ]2 N- T$ q) ^$ P! na. East Otis ANG Base, MA4 T, b% t6 Z7 A b. West Beale AFB, CA ! K2 W& Y7 o( E# W3 e# R$ L/ [c. Southeast Robins AFB, GA ( Y a5 S9 q; [( S0 Ld. Southwest Goodfellow AFB, TX # |, r/ \( Q. n2 y- _" |$ _) aPAWS Phased-Array Warning System (USAF term). 9 I; K4 ~4 O6 {' \% e) }Payload (Missile) (1) The warhead, its container, and activating devices in a military missile./ U# S X6 }4 Y. F) g4 O# m* `5 M (2) The satellite or research vehicle of a space probe or research missile.) T, ^" `# O5 P4 ~5 c2 M (3) Any part of a ballistic missile above the booster stack. Includes reentry 6 O$ _! T5 e- Y9 \+ z! ]' [. Lvehicle, guidance-control system, countermeasures and countercountermeasures, decoys and chaff. (MDA Lexicon)8 k' w3 r' L' \/ h, f+ c Payload Build-up6 j1 ~! v% B5 b (Missile and3 Q4 G! K; E% s4 q! V* t Space). } K4 R7 h6 s4 Y+ U0 ` The process by which the scientific instrumentation (sensors, detectors, etc.) and ! I1 D' d: l( _3 D k4 X# V' tnecessary mechanical and electronic subassemblies are assembled into a; Q9 L3 }6 u8 q! M( c complete operational package capable of achieving the scientific objectives of $ P8 q4 k4 H4 S$ Mthe mission.3 U; _6 f) Z! q Payload X9 L- ^) Z9 F2 X V7 zIntegration & u/ W$ m e+ u1 _(Missile and0 P# [2 h/ B3 I Space) " `$ R; n* d' Q& ]8 W/ M5 DThe compatible installation of a complete payload package into the spacecraft , H. ~1 N, N. B; k1 Yand space vehicle.1 y" `+ x2 ]4 {8 c9 G9 g MDA GLOSSARY, VER. 4.0 P ! d" d( t) e* b- L, ?0 `+ ]220# {- H2 y0 @8 l9 `1 }! |" k PB (1) Particle Beam. (2) Post-Boost. (3) President’s Budget. 2 {2 ~( \' f9 |3 {* A(4) Program Baseline. ! _3 u" M: L' d1 d5 g3 Q/ gPB/MT/D ATD Post-Boost/Midcourse Tracking/Discrimination ATD.) v8 X+ P7 K) k/ Q& Z) W PBCRAW Post-Boost Control Reaction Altitude Wafer.7 R" h& c F6 M% Z* w PBCS Post-Boost Control System.6 }. w) o% D- b R q a) L3 f PBD Program Budget Decision. 8 \- s7 m9 [( r5 @3 zPBI Post-Boost Intercept. / [$ \7 }, ]4 r) n: r0 Q- X$ k U+ a5 wPBP Post-Boost Phase.) t. w# u2 [' @- g% l, J PBS President’s Budget Submission.- S8 V) n+ V) G6 U+ L% | PBV Post-Boost Vehicle. # b! o& C k- o9 cPBW Particle Beam Weapon.* [+ U, L. r& M: { PC (1) Printed Circuit. (2) Personal Computer. (3) Principals Committee. ! d- \7 }/ [: _- h9 QPC-PC Personal Computer to Personal Computer (JFACC term). . M9 D7 t: [7 g1 JPCA Physical Configuration Audit. & g% t, Z: I! g4 TPCAST President’s Committee of Advisors on Science and Technology.; `- M% Z1 K, v/ ^6 d PCB Printed Circuit Board., a2 e) N3 ], G a PCC Pilot Command Center (C2E term).2 e3 q) I6 Z1 Z4 d* _, t PCD Program Connectivity Diagram (MDA/POC term).) P; `8 k# e, I3 K' w PCE PLRS Communications Enhancement./ L; e6 F+ M. y# F ?% \) j4 o8 l PCERT Pursue Computer Emergency Response Team. * n- W% y+ C7 e4 s/ wPCF Packet Control Facility (TelComm term). 1 B! h% v3 S8 }. q/ G% kPCI Peripheral Component Interface.% Z+ O5 x3 Q; a5 j: ?/ f( ` PCL (1) Pulsed Chemical Laser. (2) Printer Control Language. 7 Z9 R' u- L) k/ zPCM (1) Pulse Code Modulation. 8 x5 N- o7 x* ^! Y' g- x- ]PCMCIA Personal Computer Miniature Connector Interface Adapter.5 R( U `9 Y( A6 {5 U# { PCO Procurement Contracting Officer (FAR term). ' l1 f# r/ B0 [, B$ WPCR (1) Program Change Request. (2) Program Center Representative. 7 U0 d0 a0 m3 @$ F- ^- oPCS (1) Permanent Change of Station (ILS term). (2) Planning and Control System.# D$ o8 c$ X: S# \$ d PCWBS Preliminary Control Work Breakdown Structure. ( f3 @0 N, N- s4 Y$ Z- fMDA GLOSSARY, VER. 4.0 P" |) N; Z7 G& n4 _ 221 # E1 s4 x* K( s7 C+ S0 vPD (1) Presidential Directive. ( o; [: Q, D& N(2) Procedures Description. # ]" r7 H- V4 \; @(3) Probability of Damage.& `' ~8 R$ G: ?6 C (4) Probability of Detection.) _0 p& F- U* ?* ^9 S( B9 w (5) Preconditions for Defense. + B$ J' R0 [- d(6) Program Director (AF).8 C. J4 W5 q; t! l$ g& y (7) Production/Deployment. ( L; ^& }6 \& L(8) Phenomenology Document.2 o0 g" q7 r# Y3 F# x5 ]# P (9) Passive Defense.* L6 W- \% x. h, P2 F% M/ m PD&V Projection Definition and Validation (MEADS Program term).; p S( `' [, N0 Y% L/ R7 } PD-V Program Definition-Validation [Phase] (Acquisition Phase term). 7 d, e9 H- M* rPD/RR Program Design and Risk Reduction (Acquisition Phase term). . R$ r% _7 k, v# C& C h- zPDB Post Deployment Build (PATRIOT).+ m6 ^ G1 y3 X, S" m PDC Plume Data Center, AEDC, TN. ; }, o$ y& l4 @3 c) APDD (1) Point Defense Demonstration (USN term). (2) Presidential Decision Directive. 6 E6 t, [: M* _! hPDM Program Decision Memorandum (DD 5000 term). ! ~4 J1 {8 u" I3 wPDM (I or II) See Program Decision Memorandum (First or Second).7 l* X% Y F- U {+ f1 l* l! U PDP Pulse Doppler Processor. - c+ _" k' `+ q8 oPDR Preliminary Design Review.; K9 ? a" u$ C: y/ O PDRR (1) Program Description, Requirements Review [phase] (DD 5000.1/2).- w2 X3 I q! A+ Q0 ` (2) Program Definition (Development) and Risk Reduction. / A0 _/ L1 S$ Y# g7 d/ KPDSL Process Data Sensitivity Label.. Q! h5 Z+ s8 `) l. |4 G PDSS Post-Development Software Support (ILS term).1 v t3 D6 q- D# n) V2 @$ @2 B/ K2 A PDUSD Principal Deputy Under Secretary of Defense.' m3 \' s0 Z# \* y+ V: C PDUSD (A&T) Principal Deputy Under Secretary of Defense (Acquisition and Technology). - @0 y( q: W8 ?- t' hPDV Program Definition and Validation.# U: e6 w8 |6 O! N# B PE Program Element.

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发表于 2008-12-25 20:16:38 |只看该作者
Peacekeeper US MX Missile.2 y ~3 Z5 j9 V U( e Peak Gamma8 n4 C& B: K% R; b# P. G' Z! t: B Dose Rate1 u( E0 I5 h4 o1 l0 |* d The maximum rate (per second) of gamma radiation that the system could$ c. ?5 ]/ j; a8 c; Z9 a8 b3 C+ K survive and continue functioning.( C2 D6 |4 Z& Y# R PEC (1) Program Element Code. (2) Pre-authorized Engagement Criteria.: ?# O# Y3 A: ~0 Q PEELS Parametric Endo-Exo Lethality Simulation.. a! f# g# S" o0 A2 y1 i PEIP Programmable Embedded INFOSEC Product (ex-MSD). 2 v; S* y5 q8 k) q ]) NPEIS Programmatic Environmental Impact Statement.$ j+ C P# ~4 \. A0 Z, E) [ MDA GLOSSARY, VER. 4.0 P ' u' K8 J" @/ H" r222 / O2 A9 t# w9 K! r% q* ?2 hPEM Program Element Monitor (AF). ) R* T7 i5 c4 U% n8 EPENAID Penetration Aid. ' J. k" Z; p3 R7 _6 S) ?Penaid! v6 D! i4 g8 C7 u3 e (Penetration Aid) ! v# x6 c5 u3 S6 e(Formerly an acronym for Penetration Aid.) Techniques or devices employed by) N$ L- c% h* L7 p. ? F offensive aerospace weapon systems to increase the probability of penetrating% ?0 G4 v0 P& a2 a; B) m enemy defenses.( z. I; x _1 z& F# h$ Z Penetration ; J# J; \: c2 s1 n6 b' ?Testing! @) ]6 t6 d0 S# }" `3 W The portion of security testing in which the penetrators attempt to circumvent the9 W2 A3 i8 f g security features of the system. The penetrators may be assumed to use all c2 s" n% f* F+ xsystem design and implementation documentation, which may include listings of$ A% h, {% k* c1 u( H system source code, manuals, and circuit diagrams. The penetrators work under k! K7 U' B( v6 J, Jno constraints other than those that would be applied to ordinary users." a: n) M& B& h2 X' N( Z, P PEO Program Executive Officer. 9 p; J! D; F; f, }( s# {PEO-AMD Program Executive Officer, Air and Missile Defense. (U.S. Army) % B' J. j9 H2 K2 i9 z7 `0 oPEO (SC/AP) Program Executive Officer, Surface Combatants/AEGIS Program. N M+ }2 i$ W PEO (TAD) Program Executive Officer, Theater Air Defense. (U.S. Navy) * Q/ F3 d9 q& l, `0 KPEO (TAD)-B Program Executive Officer, U.S. Navy Theater Ballistic Missile Defense Program - \: F7 v2 g# H! g5 R/ M1 E9 x) ZOffice. ) U* \( \' ^9 O' @9 f; QPEP Producibility Engineering and Planning.; Y9 C. y; a" G, M5 p$ k5 O/ I PEPP Producibility Engineering and Production Planning.2 t1 _, ~8 [: Y0 j/ B Peregrine An Air Force boost-phase interceptor concept under development at USAF/SMC.% E, i5 L7 u' q4 l6 q: ]$ v Performance Those operational and support characteristics of the system that allow it to! U2 L0 K, a: F/ ~ effectively and efficiently perform its assigned mission over time. The support - g3 O: q6 g6 t" }* x% ?% Z Wcharacteristics of the system include both supportability aspects of the design 8 g9 a% J5 j, z+ N' ^* z/ S+ V. A* Dand the support elements necessary for system operation.7 i+ F: k" H4 q/ B Performance% z! ]5 [6 R, X# ?1 [, A; b Requirement " {+ }1 M- j$ s& x/ OA requirement that specifies a performance characteristic that a system or system 7 Q; N' |! I0 f) p Y5 k* Mor system component must possess; for example, speed, accuracy, frequency.( r- h9 O( r, N3 a8 _* ?& K Performance 7 F1 W v# J& s2 O5 B5 d4 h( T& y! uSpecification 6 ^$ {6 x" x+ ~6 k) S) Y) C% ^(1) A specification that sets forth the performance requirements for a system 8 ?! K4 y! e* a9 u4 Nor system component. . Z9 f7 m( O1 B6 c6 V(2) Synonymous with requirements specification. 1 S$ C/ R# X" |* i6 v, `+ W* \0 {Perimeter ; w# W& x2 H5 `& }+ S! ^Acquisition/ A* B2 ?+ @' L% O% D* l4 y+ M5 t Radar and Attack ( P* H9 i. s( o9 b8 m* L% @Characterization$ O* D/ r) A# ~ |3 N( g) y3 `0 v System (PARCS) $ e8 A$ P' w, ]- GAN/FPQ-16 phased array radar at Cavalier AFS, ND, used for early warning and# K+ [- o5 u2 T# W* W9 n' Q' y attack assessment.2 ?1 e2 @; r0 s( F$ ]0 F Period (nodal) Time for a satellite to travel once around its orbit.3 q( C; [ ^! w' U8 a- g& ^# H Permeability Having the ability to diffuse through or penetrate something.3 s) m; e2 K2 D9 E2 N Pershing II OBSOLETE. US intermediate-range missile deployed in Europe.# h; N8 |& X/ S2 d PERT Program Evaluation and Review Technique.% [: P) y' l# U1 U5 f6 x MDA GLOSSARY, VER. 4.0 P 0 l' I3 A4 v1 C2 M" O223 , X$ t: x0 O" r3 c8 @4 n0 zPERT Chart A graphic portrayal of milestones, activities, and their dependency upon other s( M/ `( y6 `9 L- l activities for completion, and depiction of the critical path. 8 w% k4 f) u. j4 c# [" n" RPESHE Programmatic Environmental Safety and Health Evaluation.- n* |# c. I2 v+ ?0 b e. N! j# Z PET (1) Pilot-Line Experiment Technology. (2) Production Environmental Test.- _% M2 l, h7 i7 j2 a" v PFC Prototype Flight Cryocooler. & a/ `- f0 u6 m* d+ |8 HPFD Preconditions for Defense. * H5 B3 ]7 _: c0 a# `: T3 CPFIAB President’s Foreign Intelligence Advisory Board.8 H {8 t& A. t5 X PFS Pre-Feasibility Study (UKMOD). 7 K: r* D" s( y, |, r5 Y/ X- tPGG Patrol Gunboat, Guided missile (Naval term).8 T6 K, U3 _1 C, E9 @9 P* W! R PGGH Patrol Gunboat Guided Missile Hydro-foil (Naval term). 7 C' K" Q! n3 @2 O# UPGM Precision Guided Munition. : ~9 l7 w0 c0 l' ] h" lPGU Power Generation Unit.( F& `2 M/ p. N; z4 h9 w- {3 X PH&S Packaging, Handling and Storage (see PHST) (ILS term).! w. i5 \/ T* U. m Phased Array The arranging of radiating or receiving elements that, although physically 7 k5 p a% Q1 c4 G" Ystationary, is electronically steer-able and can switch rapidly from one target to # ~: G+ U$ }+ z- z4 uanother (e.g., phased array radar). . d% L( k' I3 qPhased Array2 Q9 {# D$ d4 ?6 y5 y Tracking Radar. L2 A! o2 _7 s ~ Intercept On " w8 W9 ^, ^' }/ R8 v) ^- Q/ i! mTarget (missile)5 a/ C2 w; Q T* S4 u9 ]6 O+ Q3 n (PATRIOT) : S( H% r+ U, ]3 G0 ~9 LA point or limited area defense system originally built to intercept aircraft. PAC-3: i, B8 f$ N1 } improvements, which will give it greater capability against theater ballistic missiles, ! i+ o- O0 E% m% l7 A+ L7 {include upgrades to the radar and selection of an improved missile, either 9 W+ i1 ~8 B5 ^0 Y' H9 ~PATRIOT Multimode Missile or ERINT.8 y7 l% D, W4 O Phased 9 }- a+ v% K o b, ^2 ]8 ~Deployment 5 Y; S, D% O- H( Z3 N9 }The sequential steps of element deployments leading to a designated system* ]: `: m7 |) G2 b2 c capability that is realizable with fiscal and technological constraints.; A$ O) C5 e4 P8 h0 s M Phase One+ ?4 E9 A s. _, z+ y0 K Engineering 7 M5 l! z5 ?$ |, q* o8 ~Team (POET) . u2 r1 k+ g* \* TOBSOLETE. An FFRDC providing technical support to the Phase I Program- L6 L% w& m/ T; s1 e7 @ N, O Office. Now referred to as POET. " B c, L+ H/ VPhenomenology The topological classification of a class of phenomena. Phenomenology efforts! p* h7 `5 W! i collect and analyze optical and radar signature data, and model phenomena ! I1 \$ H2 g' n; o. V, a; rrequired by systems developers to design and evaluate SDS elements. 7 H ]! v$ J, V; {$ W3 j9 Q1 r9 tPHI Photonic Hit Indicator. 6 n: i" k4 O' D: ?$ S5 }/ {PHIGS Programmer’s Hierarchical Interactive Graphics System. 1 o8 D+ _3 x* s; lPHOTINT Photographic Intelligence.4 h9 J8 [* p& U9 [ Photochemical A chemical reaction resulting from exposure to radiant energy or light. , `6 P9 F) y5 [* l+ g% w5 f2 y+ {MDA GLOSSARY, VER. 4.0 P8 u9 ]! k% F. n( V& o! V: n 224 W) M* O5 q& s6 C7 ?Photoelectric) L# f3 d( x4 z" V$ ]" \0 b& p Effect 9 i3 p. r5 u- TThe process whereby a gamma ray (or x-ray photon) with energy somewhat: N1 I# A- C2 t5 Y greater than that of the binding energy of an electron in an atom, transfers all its / {5 |& L+ @6 r( v8 I! h5 T+ n) I. Zenergy to the electron which is consequently removed from the atom. Since it% L: N0 q% w4 \ has lost all its energy, the photon ceases to exist. (See Photon.)+ M3 _( E& @, M Photon A unit or "particle" of electromagnetic radiation, carrying a quantum of energy,% G% f8 l5 S6 u: z which is characteristic of the particular radiation. - w3 H* h# O e' b+ F1 b4 z7 MPHS&T Packaging, Handling, Storage, and Transportation., z4 Y( E) K( w0 j Physical Agents Descriptive term that includes non-ionizing EMR, static electric and magnetic9 g0 z7 M' Z& c" [ fields, ionization radiation, energy beams, noise, explosions, de-orbiting debris, C/ M9 K0 \% Y d/ o3 n& [9 [/ H7 Eand extreme cold.

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发表于 2008-12-25 20:16:48 |只看该作者
Physical ( M0 q% m4 I5 m/ b: s4 lConfiguration 5 e5 v% b$ w1 O* j+ g/ oAudit (PCA)8 x" X4 X. L/ ~. p' P Physical examination to verify that the configuration item(s) “as built” conforms to ' [& K$ h; Q+ Cthe technical documentation that defines the item. Approval by the government8 W6 C9 e! ?6 v# j* M& [ program office of the CI product specification and satisfactory completion of this. \% D$ ~7 W7 o* i4 k7 P Q audit established the product baseline. May be conducted on first full production - Y' ^$ E: `( U7 ?. m) S, Bor first LRIP team. ( b% _/ y1 d% o& n# o8 E( i" K# J4 {PI Program Integrator.$ \& w; x0 x4 u) o PIA Personnel Identification/Authorization System (USA term). # |, D* k/ S& h `! _6 }0 w. EPIC (1) PLRS Interface Controller (US Army term).) w, f: p3 P# o: N (2) Policy Integration Committee., E& W" k W0 m0 I$ D7 p8 I (3) Program Information Center (Computer programmer term).7 f1 h4 r/ f; w) E: b Picture Element 0 O& J! z2 h! m6 }1 i( y(PIXEL) 1 a; V$ b3 [" s8 l- eThe smallest element of a display space that can be independently assigned6 j _/ e. G6 u color and intensity; the finest detail that can be effectively reproduced on a & Q! W! ?; m. V" O, l; J( nrecording medium.# O, K2 g1 @: t* N N% ] PIDS Prime Item Development Specification. 9 u( z3 N8 f3 p" `7 B* ?$ cPilot Production Production line normally established during EMD to test new manufacturing% y [9 g7 M9 g9 _ o methods and procedures. Normally funded by RDT&E until the line is proven. ; n# ^7 [5 F$ X2 {: d3 eNot the same as long range initial production. 8 T- O) t8 l& ^& s) l+ |& ^- ZPIM Position of Intended Movement (USN term).$ h Y# A8 p5 W# A PIMS Programmable Implantable Medication System.) g8 z2 S* g) d5 {, ?& X PIP (1) Predicted Impact Point. (2) Predicted Intercept Point. & J' I. j* x3 r2 h1 g+ w(3) Product Improvement Proposal/Program.* _1 L3 k% f6 j( c B PIPT Program Integrated Product (Process) Team. * ]0 ~, _) g3 U7 q/ IPIR Program Information Report.& p& B+ I& ~$ }$ x0 L- d/ A+ N6 B PIXEL Picture Element.) Y: ^1 j9 M/ }3 T$ ]9 E. B# Y$ h Pk Probability of Kill. 0 }4 ^6 M s0 b" M* mPKCS Public Key Cryptography Standard.1 q$ W, h+ j% L PKH Probability of Kill, given a hit.7 g/ i) l6 ?! k7 x6 r MDA GLOSSARY, VER. 4.0 P % O& w0 x: b9 c% d* p225 . v N! q- n0 `4 K- tPKO Peacekeeping Operations.( \3 t9 M" X* d% e3 l, p1 g5 ` Pkss Probability of kill -- single shot.! P- D" @4 V7 b3 A. c3 v PL (1) Probability of Leakage. (2) Phillips Laboratory, Kirtland AFB, NM. (3) Public) m! [0 y) ]+ e' I8 b3 v B Law.8 \4 P# @% U% E2 p }9 Z' K PLA (1) People’s Liberation Army (China’s army). (2) Patent License Agreement. $ d+ z" w* _; n% W+ HPLAN People’s Liberation Army/Navy (China’s military).! N$ Z }4 `# {5 ~1 q' r Planning,& F0 V6 ]4 m$ f$ H6 u8 I" L Programming, T9 ~0 A6 E. e! C0 C5 A$ PBudgeting 0 @$ i" v2 \" M! c: B' k- aSystem (PPBS) ) A6 ~4 w: S" @# S* [1 G, BThe primary resource allocation process of DoD. One of three major decisionmaking support systems for defense acquisition. It is a formal, systematic 9 ^# b1 N5 E' r$ q- `2 M- Wstructure for making decisions on policy, strategy, and the development of forces* y1 A. H- l: U) ?- P* H and capabilities to accomplish anticipated missions. PPBS is a cyclic process2 Y) Y6 C+ ~+ q. Z+ g/ v; t containing three distinct, but interrelated phases: planning, which produces the H/ C4 g5 v, b/ V: X2 e Program Objectives Memorandum (POM) for the Military Departments and0 T6 o! D4 s" k3 N, \" |( N: R Defense Agencies; and budgeting, which produces the DoD portion of the; Q7 b+ _1 f; z9 F5 S President’ s Budget. DoD PPBS is a biennial process starting in January of each( C( U" P2 Q' R2 E/ r odd numbered year with national security guidance to initiate the planning3 ^' M. v. G S% G/ A# c$ j2 X% D phase, and ending in January of the next odd numbered year with the * h2 C) Y2 T7 K/ L Y# rPresident’s budget submission to Congress. (Defense Systems Management % P7 F9 ~1 z* z1 V3 g9 \College) ; A2 C, m. @! p5 C+ JPLCCE Program Manager’s Life Cycle Cost Estimate. . Y+ A9 N+ `) ?* y: n* Z5 ?. EPLISN Provisioning List Item Sequence Number (ILS term).8 @" i! V8 ^4 B( k1 c8 B; S: P/ w5 Q; w PLRS Position Location Reporting System. + h/ U% V$ ?' z- M7 ZPlume Data ; _8 s# J9 J0 {# [1 C; K2 ^1 I' OCenter L5 J+ u3 i7 x; B; T5 \ AEDC, Arnold AFB, TN. a7 @6 c* O6 n- _PLV Payload Launch Vehicle.! _; a3 s/ ]. `/ P" d% D3 h2 | PM See Program Manager. # ^4 \6 |, L. p3 L% Q* F. APMA (1) See Program Management Agreement.2 Z8 X ]5 u) O& X7 d1 S8 M" v (2) Post-Mission Analysis. ) Z/ e* P2 y9 W. L(3) Pressurized Mating Adapter (NASA term related to the space station).$ k' Y- N& W. S- Y, p* @' {4 h6 P PMASIT PMA Software Input Tool MDA/DPI S/W tool). % o h) b+ z+ ~PMC PCI Mezzanine Card (computer H/W term). z+ l4 r" \) R1 Q1 v PMD (1) Program Management Document. (2) Program Management Directive (AF).* O& B) E' @/ t# d8 |7 c$ P PMEL Precision Measurement Equipment Laboratory. , w6 B4 c8 u. e' D. G9 S& B9 |PMI Preventive Maintenance Inspection. . _) j/ b2 [9 E: f- |3 ]PMIT PATRIOT Missile Integration Team (PAC-3 Program term).; _, ?" z' i$ b* q3 _8 J+ ^7 g+ ] PMJEG Performance Measurement Joint Evaluation Group. & Y. e! @" d8 f( n9 \6 e a3 RPMO Program Management Office.- L: H- J( V F4 |' r% J MDA GLOSSARY, VER. 4.0 P ) ?% d" ~" v% R' h, C1 y. U226( w. k& ^9 w! W/ O PMP (1) Parts, Materiel and Processes (US Army term) (See also MPP). & [# z: E- D8 O' {; N6 K1 I7 f$ b(2) Program Master Plan.3 h' E6 U' e8 W" J (3) Prime Mission Product./ _/ ~& z8 ~- Z" y- d (4) Program Management Plan. - o; ?' }: @2 `: UPMR (1) Program Management Review. * y0 C# I+ s& T. F$ _(2) Pacific Missile Range. / N( q. q6 y% @1 b: u; K(3) Program Manager’s Review (PAC-3 term). , f0 F8 H3 L/ W/ wPMRF/KTF Pacific Missile Range Facility/Kauai Test Facility, Barking Sands, Kauai, HI. j6 a1 I: z& b" v* k& W2 CPMS (1) Planned Maintenance System (ILS term).' f$ N7 Y B1 A; m% t4 z (2) Performance Measurement System. U& v% P& m/ X. w/ E( l" \3 wPMTC Pacific Missile Test Center, Pt. Mugu, CA.' V: u& [- D- C" m" Z PMWG Producibility and Manufacturing Working Group.8 P/ l* Q' E h5 g PN Probability of Negotiation.7 o# k2 B8 g1 K5 E3 n8 H PNE Peaceful Nuclear Explosion. : v+ k1 B$ E$ x; H0 PPNET Peaceful Nuclear Explosion Treaty.- N2 a3 x, D" x) d, t PO (1) [Acquisition] Program Office.. }7 T" K: t! d, X (2) Purchase Order.0 ]7 m6 I5 Z" j7 m+ R% z3 s$ U POA&M Plan of Actions and Milestones. - \5 w9 V- K. _& M4 Z& F: sPOC (1) Point of Contact. (2) Proof of Concept.6 `; n: K# h. f ]6 g0 d POC/ET Proof of Concept/Experimental Test (e.g., modular USSTRATCOM ground mobile ( R `4 @! I5 _/ ncommand post). & |- T5 }: X- A R8 PPOCT Passive Optical Component Technology. / s" d% [8 T( O, T! ]9 f+ uPOD (1) Plan of the Day. (2) Probability of Detection. (3) Port of Debarkation. ; E0 q0 o5 ?* y6 x6 \7 Q( oPODIUM Project Origination Design, Implementation and Maintenance. ; n3 A; r! U, HPOE (1) Program Office Estimate. (2) Projected Operating Environment.1 g& n3 I- i6 Z2 |; t' H$ D/ g POET A consortium of scientist and engineers from FFRDCs providing technical support 7 n) r( C8 D, Q- k% A7 R! q( {- mto the MDA. (Formerly referred to as the Phase One Engineering Team.)% W$ Z: F. @/ ^! I1 M Point Defense The defense or protection of special vital elements and installations; e.g.,2 U6 c, U8 G* [7 z5 C3 Z, k command and control facilities, air bases, etc.# ^& U, Z0 N2 R Point Defense . R Z7 k; q/ w0 RSystem; g& h6 ~& _( R* F5 o% \2 _ A terminal defense system using radars and large numbers of guided projectiles0 ~$ p' L, R* M- s- J+ l to defend ICBMs. This concept was considered in the early 1980s.4 @' f" r) O5 I m# F8 l Pointing The aiming of sensors or defense weapons at a target with sufficient accuracy " s c G6 f- j" M4 m9 j1 [9 Ieither to track the target or to aim with sufficient accuracy to destroy it. Pointing j" _& x2 Q0 y9 O. N! r% c$ m; i: ^and tracking are frequently integrated operations.8 q8 l! h8 A! ^( C5 k, n( I POL Petroleum, Oil, and Lubrication./ {/ \' |9 E7 V; ~ MDA GLOSSARY, VER. 4.0 P # N) _: P8 y/ A1 w; n4 ]- \227 / |! N% M& @4 N5 I' x3 H9 S3 ZPOLAD Political Advisor.

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发表于 2008-12-25 20:16:59 |只看该作者
POM Program Objectives Memorandum.6 M& b x ]8 |! n% h0 t POMCUS Pre-positioning Of Materiel Configured to Unit Sets.0 M6 P6 O# R' y& G POP Proof of Principle.) S5 ^+ y/ [8 H1 `* w* d" i7 j Port Covers Mechanism for thrust termination of solid-propellant systems.% f: }) m7 H+ g N9 _( } x Portability (Software) The extent to which a software component originally developed on+ X% M+ l, g1 K; g) _+ d' W one computer or operating system can be used on another computer or 5 P" O3 D8 X5 noperating system. 1 t D6 ~2 H0 ZPOS (1) Primary Operating Stocks. (2) Probability Of Success. (3) Position. 2 {( N" {0 q' ]Poseidon Class of US nuclear ballistic submarines (USN term).# X2 ?; h6 R, W" r/ E) S/ ~ POSIX Portable Operating System Interface.% {. F' s$ v% X* F4 T6 e# j& Z( C POST Portable Optical Sensor Tester.9 H. J8 R* a) p7 y Post-Attack The period following the attack, prior to the next wave. ' d6 r/ ~$ T* {, N, {. W0 V: f# @8 vPost-Attack , i4 ~$ e6 U3 n$ dPeriod 4 y- D7 p" k: t6 F- K- aIn nuclear warfare, that period which extends from the termination of the final ! b5 u) A0 s) @attack until political authorities agree to terminate hostilities." u+ _3 R! o2 `7 {' ?9 s( e Post-Boost) n9 a; F$ w& M# \, N1 z Phase (PBP) * V! C4 |: l- L9 a bThat portion of the trajectory of a ballistic missile between the end of powered1 q8 J! y) `$ K9 K flight and release of the last RV. Applies only to multiple-warhead ballistic : N7 {3 X: e8 b5 |missiles. (USSPACECOM) 7 [5 |! J0 ]6 c) D8 T& d2 uPost-Boost : g! D7 O: E0 \' dVehicle (PBV) 7 I* g! |2 h- z0 {" e2 bThe portion of a rocket payload that carries multiple warheads and which has the 9 Q4 T9 W" a: Rmaneuvering capability to independently target each warhead on a final* l, l: H) y9 p g/ o2 N1 y trajectory toward a target. Also referred to as a "bus."( r* r0 @, M% F; f U+ @ POSTPROD Post-Production. 9 p) I0 X, O0 I) u3 ?8 \2 gPOTS OBSOLETE. Phase One Threat Specification. $ O: D7 S2 C& i+ P2 rPP (1) Parallel Processing. L4 c: ?7 d0 b. l (2) Principal Polarization., D' v0 [: Q, z' j; }/ d7 ^5 a (3) Post Processing. |% G% v1 p# z9 c' ~; |' I0 ?(4) Program Plan. : ?0 p- r' G# f# a' r0 e5 z& U) nPPBES (1) Planning, Programming, Budgeting, and Execution System. 2 Q, e/ e; [4 b: V(2) Program Planning and Budgeting System. ! Y: j7 R L" Y" uPPBS Planning, Programming, Budgeting System.2 z6 M. q3 l* \! \ PPG (1) Parallel Programming Group. (2) Program Planning Guidance. 6 |+ k A) O% @9 E6 W2 \- `PPI POM Preparation Instructions.) M1 m! w0 B& ~ v PPIP Program Protection and Implementation Plan.: v3 B" t: M8 ^9 J2 b9 b PPIRS Producibility Programming and Issues Resolution Strategies. , ^& ^7 ]8 l6 D4 ~MDA GLOSSARY, VER. 4.0 P # Y. A" j2 C% m- v7 {$ ]228 ( W- n8 j: `$ R. `' [PPL Provisioning Parts List (ILS term). $ r. c4 ]( A0 ~9 @6 i) lPPLI Provisioning Parts List Index (ILS term)." q9 _% A- N9 N5 v" O. k PPP Program Protection Plan./ L# G! [ W0 {$ l$ `4 A" b/ b5 Z% X PPQT Pre-Production Qualification Test.) L3 t) n7 k) R: y PPS Precision Positioning System. ' u' s3 r! Q9 UPPU Prime Power Unit (THAAD). + H, a6 t4 Y S* A! j+ g# MPR Procurement Request.8 T! ~0 A A `/ z9 H/ a5 S PRB (1) Planning and Resources Board. (2) Program Review Board.4 }0 z' ^: ]7 {/ A" C7 P. |3 g PRC Program Review Committee.' B/ b9 ^ [# m' x E6 E' N PRD Presidential Review Decision. \% p4 e7 N+ Z% NPRDA Program Research and Development Announcement. & @, C+ x, q) m9 m2 BPRDR Pre-production Reliability Design Review.2 ?1 ^2 r3 g# J0 N4 M Pre-Allocated3 [# r/ h& ^: k1 h9 L Defense* I( k6 b* W2 A$ y8 b! r: a5 k7 h A preplanned decision to designate a specific number of defensive assets to be' t- u0 w4 Z5 h( V6 @7 Q- Z used against a specific target or set of targets or to defend a specified asset or 8 A% L6 K* W1 D$ g* G: |set of assets. The defense will select the best tactic to use based on the . s$ n$ d3 k2 h+ e+ @2 }, W" ]. [number of interceptors available, their probability to kill, the number of targets 9 C4 n; u) z/ D4 G1 C8 Q# M% @- [* yunder attack to be defended, and the scope of the attack. 1 T) c7 p4 w J! G, q# p: uPre-Attack A period of time immediately prior to an attack, usually hours to minutes to tip-off.1 y- m h+ j; C, T/ |6 q+ B Pre-Authorized' e# s# x5 ^$ y" t( @( E( z Engagement/ M- i8 P; v( Z! e Criteria (PEC) 6 |1 r/ x1 t) ^, z4 Q$ kPre-specified quantitative operational parameter thresholds which when: O% s* F: F* u a( _3 F- L1 j+ U, m surpassed cause automated engagements to be enabled. % d1 B$ @9 L6 t( X3 N) GPre-Commit ! Q$ _ U/ h0 d$ F% E9 iStrategy 0 E7 W2 E6 p0 z8 G. [. |' DA tactic in which defense weapons are fired without being individually committed 4 q1 [$ p7 |4 k0 p- W+ }& q- Tto specific targets. Target commitment would occur relatively late in the . x* j7 e* h2 k" S, Kdefensive weapon’s trajectory." x) K/ x- v' L2 ^4 D+ B4 v Pre Launch 4 H% S6 s. m' pSurvivability" v' p6 P- r% M2 m The probability that a delivery and/or launch vehicle will survive an enemy attack% E/ u$ D$ v) G6 x+ M9 S% s under an established condition of warning. . ?2 V4 I5 \$ D3 PPrecedence 1. A designator, which indicates the order in which a number of messages shall, q$ E0 \$ W+ W x: Q be served. Four precedence levels are provided for SDS, with one being the 9 Y. ?: `/ |9 o5 E9 z0 u: U% vhighest and four the lowest. Messages with precedence level one are served8 b% X# X! X2 n: F. r first and those with level four last. These correspond to the four precedence- y2 C2 b, i, G( g* I3 V2 a* K levels, Flash, Immediate, Priority, and Routine respectively. 2. (Reconnaissance)8 [$ z) Q( K, ` A letter designation, assigned by a unit requesting several reconnaissance9 A2 X; e$ t, |' B- K" {9 P missions, to indicate the relative order of importance, within an established ' ?! }$ t5 J& E# o L" A4 C& Dpriority, of the mission requested.

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Precision 7 I4 \" l% N& r/ `# c" hDecoys- Z" ^0 a$ Y. | Decoys that precisely match RV characteristics either exoatmospherically or2 C/ B% t- X# [ endoatmospherically, or both, and seek to deceive the defense into intercepting 9 }0 J7 z3 D o+ Othem. ) r1 E v! |: Z* [( O' `MDA GLOSSARY, VER. 4.0 P: F, ?5 g5 \5 d7 i 229 * O; Q% Q8 h+ g& t3 s, l' {/ oPreconditions for. N5 T, Q2 X9 { Defense (PD) 0 W+ p4 v! \4 E1 A! k4 o! j' [/ GPDs are NCA pre-approved criteria, authorities, and procedures that delineate4 }" A, N; C' j5 c# E$ l: O" W circumstances under which USCINCSPACE BMD forces will initiate or continue& u- E+ {- G' `) G6 g) W combat engagements and operations against hostile ballistic missile attacks! O5 y) w% g; a& E: B$ C- Y4 c, F directed at the United States, its Allies, or U.S. interests during peace, crisis, and % w* o. w( n$ b2 ` Twar. 8 ?! n# E. }5 W( V1 yPredicted n8 |/ `1 A3 q# Z Intercept Point- V- P! L! X$ Y( l B (PIP) . b' I# n$ i5 @* S f' @The calculated position in space where the target and interceptor coincide. 5 ?) l( z3 F+ IPreferential3 r6 A3 N7 \7 p" F/ b8 d5 Z+ n Defense. ?0 }" b; \2 J5 P, X Preferential defense is the a-priori assignment of defensive assets to protect # x: W5 I3 j6 tgiven facilities or capabilities. - R3 u) C) F$ I2 Y7 GPreferential9 a7 H* @/ Q/ y& _) e9 \2 e Defense Strategy " v' Q$ z. m% GA tactic used as part of the SDS strategy to optimize the use of weapons and * W% {' F {9 d8 ~sensors by selecting high value targets for engagement by the defense while 9 J5 X" Q' f8 L' q. B9 atemporarily allowing less important targets to pass. This strategy forces the! V3 Y% M N" _' `5 a, r offense to attack with several times as many RVs as the defense has 1 E' P2 e) S; D6 [( h7 ^interceptors. Since preferential defense demands precise impact point prediction, 6 ?9 u) u9 `. T I0 v* E/ Mthe strategy is placed at a disadvantage if targets are closely spaced, if RVs can ( R* s& D; c; P+ d) Y2 U7 h# Ymaneuver or if the defense intercepts ICBMs in the boost phase.+ P$ W: h) |7 d/ J Preferential / H( m; b+ a0 ?- j- oOffense / k/ h# N( Z. n! g8 yThe concentration of offensive assets on a subset of targets./ ]* V( z$ w- } O8 ~" V Preliminary ( j' g; W2 V J& r# K! |3 bDesign Review/ l& O! |! z( N (PDR)0 ~; s/ `7 i( t- _/ { A review conducted on each configuration item to evaluate the progress, 1 i/ @! P. R" X; F# ]1 c b6 F! etechnical adequacy, and risk resolution of the selected design approach; to2 O/ O: X" }' E9 I1 B! S/ R+ P determine its compatibility with performance and engineering requirements of the 5 B! _; q8 N$ } \9 }2 Ldevelopment specification; and to establish the existence and compatibility of , i. t* j0 B5 ^the physical and functional interfaces among the item and other items of 0 S) H2 y& o. C/ |6 O5 K- b& T1 M# A) Pequipment, facilities, computer programs, and personnel. Conducted during 5 Y3 g0 P1 |7 fPhase I, Demonstration and Validation (for prototypes), and Phase II, $ X$ y, I. W9 r! q' fEngineering and Manufacturing Development. * F4 ?( x; b- C3 sPreplanned K+ o' y# W1 q! Q Product" J$ c, N0 ~) x! n Improvement ( u$ j0 j8 z" }! U/ y(P3 I)3 h5 C4 C4 q- f( X5 h' H( X1 f Planned future evolutionary improvement of developmental systems for which( {% K' T7 a% }+ ~/ x% a design considerations are effected during development to enhance future9 {- n5 ?* p2 d# }8 U6 _; K% i& k application of projected technology. Includes improvements planned for ongoing ' u+ w. b/ c4 Y6 S, x0 L1 F+ O# |systems that go beyond the performance envelope to achieve a needed 1 E B8 T! s) ]2 k& ]operational capability.3 L. g! K) O* a, M( `9 Q: j* ~- F0 N Preplanned- P; a4 ?) `+ W Response, ]% N9 A, I0 e3 [ Options (PRO)6 B& K: L, ~3 N6 H! T9 n5 d Ballistic Missile Defense (BMD) reactions, which have been preplanned," Z/ u" y8 @: i; p+ q6 e+ f analyzed, and pre-approved, for specific ballistic missile threats. The PRO,- i) S7 Z+ }, a, d8 b% C equivalent to an operations plan, consist of a number of Defense Employment. {/ Z/ s# y+ N A Options (DEO) which provide force employment objectives to Component forces( }0 b' S3 ]3 q5 q$ p2 S based upon the world situation, national objectives/guidance, BMD asset status,$ {1 Q3 u/ ]7 l: x1 q ` and the intent of the threat. PRO is automatically processed with real-time2 _% I; g/ |' Z: \, ]2 I* m+ v human oversight and control when USCINCSPACE directs execution. : Y! k( i2 Q' P) A5 a: `' VPreproduction9 f* d7 b& r0 D u. d2 @ h Prototype ! P: z& V$ ^/ S! FAn article in final form employing standard parts, representative of articles to be $ T6 P0 o6 p1 d6 A. I8 nproduced subsequently in a production line. * d$ S4 d# [# GPreproduction & W% h6 D5 J# p' |2 E) l: j% FTest 6 J3 f. \) }: y- P% s. {This is a test of design-qualified hardware that is produced using production ; P) h4 {. K: j& z( S A" Btooling and processes, which will be used to produce the operational hardware. o4 x, F J' m+ S" d3 z0 nNo production hardware should be accepted prior to satisfactory completion of9 r1 T' W; `2 r4 C0 q" b this test. Test objectives include: gaining confidence that production hardware ) d1 i i6 d9 P- P" C( \, Eis going to work; that it will be reliable; that it can be maintained and supported9 ]% K2 I+ r2 ?# Z by the user; and that it is not over designed. : [, l6 J% }/ KMDA GLOSSARY, VER. 4.0 P f9 T# u$ N# p6 @ 230) r3 X) J+ c& [$ S5 ]6 i Preset Guidance A technique of missile control wherein a predetermined flight plan is set into the! K, u! C* Z( L5 d control mechanism and cannot be adjusted after launching. " Z8 b$ I6 v8 APresident's 9 |, t6 _, X% J9 \, C& v9 OBudget (PB)- Y0 i: G6 ?0 a1 B& K( W The Federal Government's budget for a particular fiscal year transmitted in ; `+ D7 v( U1 e, P7 D: D( k& x* UJanuary (first Monday after January 3rd) to the Congress by the President in 8 L8 e1 m6 [+ W8 e( [+ W$ Xaccordance with the Budget and Accounting Act of 1921, as amended. 8 f `! z& T' N* P9 F- p) s1 RIncludes all agencies and activities of the executive, legislative and judicial , h8 y# ]; v0 ] ]branches (For FY 88/89, two-year budget for DoD submitted in January 1987.)3 q l. A" i! j PRF Pulse Repetition Frequency.) p& O. S) f- l$ F/ r. ]0 N PRG Program Review Group.! S8 u1 P8 {8 i) q: y9 v Prime Contractor A contractor having responsibility for design control and delivery of a system or$ u! v3 z; J: h+ B equipment such as aircraft, engines, ships, tanks, vehicles, guns and missiles,, f: t; J- S" a ground communications and electronic systems, ground support equipment, and2 y( Z+ q9 m) A# u. O2 ]" y9 C test equipment.% y5 }- v b6 j, }, k" x Prioritize Targets To identify and rank targets in priority fashion, based upon criteria such as type,3 q, {5 N) p' J predicted impact point, and predicted time of impact.7 g# k+ c, `3 t PRN Pseudo Random Noise. . x6 Y/ D5 ?$ n s+ p: gPRO (1) Preplanned Response Options. (2) Plant Representative Office. 8 a" R- U: |* Z# W' aProbability of, n" G5 k3 f1 \8 b Damage, o' K: y0 x1 R& {6 j The probability that damage will occur to a target expressed as a percentage or& z' D' h+ U0 x as a decimal. , C4 b( p) Y4 `! C' ?Probability of ( O/ h2 v- D3 V9 n4 o TDetection $ K6 [" v& x" H/ T7 @- I(1) The probability that the search object will be detected under given5 W/ ?. n: h* H- } conditions if it is in the area searched.; u/ ]2 P, U* O# @ (2) The probability an object will be detected given all known error and noise ( B# ^8 i' r9 `7 G" o+ F, S0 n$ Wsources.

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发表于 2008-12-25 20:17:22 |只看该作者
Probability of ! s4 N) L) C# {4 C- a$ gDiscrimination& R8 Q: L/ L! o% A) m1 ]; H This is the probability that an object, which is threatening will be correctly ) S, z2 V5 a# a* o" l: Uidentified. The ability to discriminate between a potential target and a decoy is- {) |8 e- A& Q4 \" Z! ` quantified by a “K” factor, in which the higher the numeric the greater the) n9 B+ S8 l" g. R1 O probability of discrimination (thus, a “0” K factor implies that the target is ' C$ x- D& X$ pindistinguishable from the decoy).! @& G$ H O+ R' v5 }; C, O+ x2 W/ R Probability of 1 l/ j* H' s( |$ i& X3 N9 |- S6 hFalse Alarm & N0 f! i6 J. \* n n$ Z: ^(1) For a single sensor this is the probability that an object will be detected) l( A+ k/ i4 H+ X6 K5 Q" \ when no object is present. 9 t/ [7 B0 e1 Z/ p" U6 [(2) For discrimination, this is the probability that an object, which is not a 0 a/ e$ [! ?$ f! Nthreatening object will be identified as one. " `, {( F b, u' m' cProbability of Kill The lethality of a weapon system. Generally refers to armaments (i.e. missiles,8 h! E( u4 ?2 L) ~; @* ^ ordnance, etc.) Usually the statistical probabilities that the weapon will detonate$ i; n' o1 \3 _$ f8 j- B% K p close enough to the target with enough power to disable the target. (Defense ' w5 i6 p1 {' }+ `( rSystems Management College) ! p8 G# }/ q) c/ `7 A2 ]$ AProbe The air vehicle of the GSTS. 9 d1 ?1 Z0 p1 C6 Z% a( PPROC Procurement. * y5 l0 I" j) y G6 Y wProcess Data 8 A1 P3 K+ C3 V. }Sensitivity Label: r( g! g. `0 @/ S9 ]4 o* C (PDSL)7 R L0 B" L0 ]1 v1 `* u The sensitivity label for data contained in a process.2 u' `% l: q$ j MDA GLOSSARY, VER. 4.0 P k- n: ^4 N6 t 231 : q$ z! h i+ C) sPROCMT Procurement. 2 o3 o0 q% I8 J# J. AProcuring ' c6 C0 {1 S l' ~* hContracting1 {3 v0 g, K, I Officer (PCO) , n" m+ \4 V5 L& V8 p+ K- ^8 l- H' d, zThe individual authorized to enter into contracts for supplies and services on * l( H- T8 Q- [/ n2 pbehalf of the government by sealed bids of negotiations that is responsible for 6 m/ g! `% T% u2 D! C. Voverall procurement of the contract. 9 d, E C8 Y/ y) ?% CProd Production.& P& x3 U* i q- C! y Producibility The relative ease of manufacturing an item or system. This relative ease is! \0 h0 D, g# L7 g governed by the characteristics and features of a design that enable economical) j" a2 j' x; H- F: @+ d fabrication, assembly, inspection, and testing using available manufacturing " w# p8 i6 J1 d8 S+ dtechniques.# o& @! L4 F1 b Producibility, : |! V2 P2 H" P2 F# cEngineering, and ! K9 Y! S5 \% J OPlanning (PEP)" k: e2 z3 [- X0 v. a1 Q Applies to production engineering tasks to ensure a smooth engineering- h2 X* W' e6 _4 t3 x( Z transition from development into production. PEP, a systems and planning: o2 M# o% R: F6 H% g5 y engineering approach, assures that an item can be produced in the required& l2 C! d) z$ I3 \2 d) d quantities and in the specified time frame, efficiently and economically, and will % x. m0 d, C/ g' u# Hmeet necessary performance objectives within its design and specification ' Y% A% T0 y) Jconstraints. As an essential part of all engineering design, it is intended to2 }/ X. r( z! R: x8 B2 v identify potential manufacturing problems and suggest design and production% n7 z! l" C0 E! x! D changes or schedule trade-offs, which would facilitate the production process. / ]6 W3 J% Q C! sProducibility, , H$ U6 H' x. BProgramming,* O1 K1 P9 s1 z2 b t: H4 s and Issues * }/ N5 j9 W9 T8 ]! Z- GResolution + `1 M$ i2 u2 k ]" t7 zStrategies , D- i9 q2 J, N6 z(PPIRS) " T- X# u. h3 Y* k. r! X' E: V& NA semi-annual document put out by the MDA P&M community listing all medium8 j3 \6 P; r6 r and higher P&M risk issues as prioritized and coordinated by the MDA P&M 3 T6 l& t+ p. [. ]' {Working Group.) m; V/ f; |) A6 I8 d. { Producibility 2 Z- B3 p, e* D }( u% u: kReview( L) M- a/ y3 z9 s A feasibility review of the design of a specific hardware item or system to & C2 G' Q8 u& m' J) ?) |determine the relative ease of producing it using available production technology4 P) d) H4 j0 C7 p; L* X# `1 P6 U considering the elements of fabrication, assembly, inspection, and test. This is a 3 R m! s- |- n3 ~generic term for the concurrent engineering portions of MIL-STD 1521 system3 W8 b; N7 P# V design reviews.8 `$ w9 _6 w# l! H Product Baseline (1) Established by the detailed design documentation for each configuration 5 Z0 ?5 q& G9 i, o8 [item. Normally includes Process baseline (type D spec), Material baseline" o) [, e: X% t9 ]4 Q (type E spec), type C spec, and drawings. - q6 R0 i' J; u9 R* w2 a1 r(2) In configuration management, the initial approved technical7 \/ d" V& B, ^, n' G, }4 D I5 e documentation (including, for software, the source code listing) defining a 3 R# c) N. ]. m( jconfiguration item during the production, operation, maintenance, and( L' E# F( }# |+ N& W6 h9 U3 l logistic support of its life cycle.2 u: C2 U! Q* U0 b Product2 a% ]9 O+ x' j9 u6 D' J H Configuration / U' ^7 ?) I; y7 H+ qIdentification 5 v W. L* ?; N5 B4 xThe current approved technical documentation which defines the configuration( X5 f' n5 x" H+ W( I7 H& I4 f of a configuration item during the production, operation, maintenance, and * [( h& N9 M9 W# E0 Rlogistics support phases of its life cycle and which prescribes that necessary for: 0 ]$ q. B+ r; s7 d% y: Z: pfit and function characteristics of a CI (Configuration Item); the selected & [- j- \% O, x- [functional characteristics for production acceptance; and the production . D% H& g# y, f# Y, D+ P3 B& _+ Pacceptance test. 6 M. l ?' |! _% h* A3 `Product" Y/ |, m) o* c7 T5 X, s/ c& B Improvement 7 S- L/ b1 r5 b- s9 v! S4 Y8 fEffort to incorporate a configuration change involving engineering and testing on3 g& W8 q ?. f8 \/ f end items and depot repairable components, or changes on other than 9 h+ v& t' o/ K+ y# q" I1 ?3 wdevelopmental items to increase system or combat effectiveness or extend4 v( e' u8 j- R* ^ useful military life. Usually results from user feedback. $ I& ?5 m4 ^+ d& z; b, z4 }MDA GLOSSARY, VER. 4.0 P4 v( \) ~; ]3 L* u: @ 232 * h6 Q5 S" d+ dProduct Manager The individual, designated by a materiel developer, who is delegated authority 6 p; z& a7 L8 M' y9 i2 X( ?+ ~2 p. }% Mand assigned responsibility for centralized management of a7 v" A7 _! M% B% l/ X4 f- k development/acquisition program that does not qualify for3 q$ ]# _; p1 J: S system/program/project management. ~% D' G+ ]& v8 s" D+ tProduct Security * l2 j9 T6 {3 U6 ]% t3 f# K(PRODSEC)* M: X0 v0 S6 R3 e4 s+ c* a, J That physical security provided for selected DoD products (major, high cost, 9 C/ N0 K, _- x9 e6 ~politically sensitive systems with significant military value) at Department of / M" Q1 b# u9 F5 s' Z$ VDefense contractor facilities to mitigate the risk of the government as a selfinsurer. Defining and instituting product security during production are essential2 [$ _3 K% ~" ^ r to the delivery of uncompromised systems.

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