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发表于 2008-12-25 20:15:14 |只看该作者
MDA GLOSSARY, VER. 4.0 O% U; v% v/ q2 \, Z: A 211 : n' I& I4 f- z/ q5 wOperational7 y2 |- [6 ]/ F4 f, T' J k7 U Assessment 2 v* i. a. G' T* X( l2 C+ M; EAn evaluation of operational effectiveness and operational suitability made by an $ |4 C: r5 X6 |independent operational test activity, with user support as required, on other, i8 d; x8 n! Y than production systems. The focus of an operational assessment is on" f3 C2 z2 J, h3 T# v significant trends noted in development efforts, programmatic voids, areas of risk, 7 C: E, ]7 h: u, W4 i: r3 B* Aadequacy of requirements, and the ability of the program to support adequate% x/ [7 q& }, \" O: ] k$ K S operational testing. Operational assessments may be made at any time using 9 ?7 I. R: ]& |$ Htechnology demonstrators, prototypes, mockups, engineering development# P1 ~- t: P. }& A% D- y models, or simulations but will not substitute for the independent operational test# u) [7 q% z* `4 Z; G. Q( T and evaluation necessary to support full production decisions.7 `7 l0 ~9 V) \& q Operational , S7 y8 ]0 }% p9 Z$ n/ U0 J% EAvailability 8 w, g1 K) R3 [* mThe degree, expressed in terms of 1.0 as the highest, to which one can expect8 v3 W$ ?: `- N! L7 C. z N- ] equipment or weapon systems to work properly when required. The equation is1 Y4 ?2 V( b$ c. L5 G uptime over uptime plus downtime, expressed as Ao. It is the quantitative link 3 i$ K) r3 Q9 ^! J' Q: ubetween readiness objectives and supportability.! Q& d* w! k0 {! y Operational! {9 F: Z. w* I" }# a Concept/ s# R0 ?6 f' c B- J9 r+ c An end-to-end stream of activities that defines how force elements, systems, 2 ], `. q8 r+ ?6 vorganizations, and tactics combined to accomplish a military task. , s5 I* q5 Y3 C# |' {7 e$ V L1 GOperational5 a9 Q, t* T( j Control (OPCON)/ f+ M: Y" K. C Transferable command authority that may be exercised by commanders at any + Q( u; L% q3 J- `echelon at or below the level of combatant command. Operational control is& Y8 q* s/ P- G- i% l inherent in Combatant Command (command authority) and is the authority to. q/ F! u$ q5 A' z( ]! ^0 h. f perform those functions of command over subordinate forces involving # m! K' |0 Q2 B* o/ G8 d$ M/ k8 ~( Rorganizing and employing commands and forces, assigning tasks, designating ; a' M- {: _" |objectives, and giving authoritative direction necessary to accomplish missions) G4 y ^0 p+ b- B: }( l2 J6 r assigned to the command. Operational control should be exercised through the# g: O' i8 A2 N' [2 z8 U* C commanders of subordinate organizations; normally this authority is exercised1 Z' V* a7 M, C& F0 _( H, @ through the Service component commanders. Operational control normally $ j, G1 S3 P6 h X% }3 v; o( R8 Pprovides full authority to organize commands and forces and to employ those6 B. T c" f8 k6 y% { forces, as the commander in operational control considers necessary to, y) z8 ~! {- Z$ Y# m+ Y6 c accomplish assigned missions. Operational control does not, in and of itself, 4 T9 P' E. A- E/ t) R% @( u* r0 Ainclude authoritative direction for logistics or matters of administration, discipline,- I( Q, e$ J R3 E+ c; w internal organization, or unit training. 6 s1 T1 V. i: m0 B- zOperational6 B2 c, f$ C' T' k w# ] Effectiveness 9 E/ d9 ~7 R/ M" N+ g5 r2 SThe overall degree of mission accomplishment of a system when used by $ z! E; U G- i/ P; B% vrepresentative personnel in the environment planned or expected (e.g., natural,$ }) `2 Y7 p2 t5 u electronic, threat, etc.) for operational employment of the system considering `9 M! [% F: Z! J# corganization, doctrine, tactics, survivability, vulnerability, and threat (including G' ^* T* W2 p; B0 ^ countermeasures, initial nuclear weapons effects, nuclear, biological, and ' r" @& q9 O+ B# V* j5 Kchemical contamination (NBCC) threats).. z3 o' Z) t7 f/ f4 ~$ p Operational, m, f; x! I4 y& a; } Evaluation/ E1 ?* ?7 l2 w5 u The test and analysis of a specific end item or system, insofar as practicable . U8 s7 i# m' c. z/ w4 Zunder Service operating conditions, in order to determine if quantity production is, c' w6 [6 ^7 |! Z6 n warranted considering: a) the increase in military effectiveness to be gained; 0 D/ J9 Q9 t8 cand b) its effectiveness as compared with currently available items or systems,7 G, L0 V" l" P' A consideration being given to: (1) personnel capabilities to maintain and operate/ S' w7 v5 p! R; x" j' @) @& v5 G the equipment; (2) size, weight, and location considerations; and (3) enemy 1 m) @8 q$ N7 ]8 ~% X& S4 Jcapabilities in the field., s" V$ b. a" A# ~# H, ? Operational' Z. `1 F4 k8 Y Level of War* a. T! p- W+ z1 L) X: X) b& L The level of war at which campaigns and major operations are planned,% v7 m) q6 [' f$ X/ d conducted, and sustained to accomplish strategic objectives within theaters or8 Z; N5 ~+ O/ W$ d+ L$ _2 G areas of operations. Activities at this level link tactics and strategy by + n7 p$ c' O! k2 Vestablishing operational objectives needed to accomplish the strategic0 G+ o0 ]& ^2 q objectives, sequencing events to achieve the operational objectives, initiating 0 s4 _$ J. @6 }actions, and applying resources to bring about and sustain these events. These 0 \/ N3 R) ^# n5 c6 gactivities imply a broader dimension of time or space than do tactics; they ensure4 Q- b4 K2 E' O+ K6 k! [4 h the logistic and administrative support of tactical forces, and provide a means by + A7 e. [$ I2 g, Z& \which tactical successes are exploited to achieve strategic objectives. # c( C- S4 h L& i% ^MDA GLOSSARY, VER. 4.0 O 2 F6 C& p" G i+ C* p1 [212! O/ L7 L: ?2 \/ Y0 U+ x7 \ Operational Mode The configuration of the defense system element or segment. Refers to the& ?9 G8 X( r8 R7 R& q operational environment of system, i.e., test configuration or training1 c- B5 ?* U6 H( e) [. { configuration. - [" ]( b. {( N% d) f% u" bOperational# K) c( a) e: n. I. K+ I Readiness4 i% r. g# Y7 ] n The capability of a unit/formation, ship, weapon system or equipment to perform9 L% x* B3 S0 X the missions or functions for which it is organized or designed. May be used in ' f1 K' f* [' _) H$ Va general sense or to express a level or degree of readiness. }3 X3 `9 p" c7 F$ g" U; Z' R( _7 tOperational- Z% b/ O( D2 D- M d |9 d Reliability0 s5 q1 H }) |! t& ^ The reliability of a system or software subsystem in its actual use environment. ; [' [! l+ f- Y: n- ?: wOperational reliability may differ considerably from reliability in the nonoperational or test environment. 0 q3 W$ v, N: eOperational f d; Z) f$ ~# h& D- v2 ?1 R Requirement! t& N( {- j4 O& [ Navy document, which describes major characteristics of the alternative selected 7 T+ o+ @& e$ @ Q; tby OPNAV. It is submitted as originating document for all Navy new starts (less4 T- B4 p7 N7 R+ V 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
Operational3 _ L% i- q* _ Requirements 3 r$ v4 _% D6 n6 JDocument (ORD) 3 ]8 H2 u0 p0 K0 F3 g8 jDocuments the user’s objectives and minimum acceptable requirements for % c/ v) o. b# ^8 L4 }+ loperational performance of a proposed concept or system. DoDI 5000.1 and # G7 M9 O3 f- c' e" ?DoD 5000.2-M have standardized format across all DoD components.; o# v8 p( z; F. D Operational6 v' r* }7 {: T4 g Suitability . m. K! i) d5 O+ \8 F5 x. P! }The degree to which a system can be placed satisfactorily in field use with 1 ?+ P5 ?' f" z+ {6 V) `6 Xconsideration given to availability, compatibility, transportability, interoperability,/ \% p+ `. ]8 K, t1 L7 D) ~' _: L reliability, wartime usage rates, maintainability, safety, human factors, manpower $ |; W, v: a/ I, g ~; A \supportability, logistics supportability, natural environmental effects and impacts,/ n1 n, y% M( @$ j m4 O8 {7 p documentation, and training requirements.$ F% Z0 h$ U5 o Operational Test5 C% b, ~. F! Y4 e% [$ U and Evaluation1 D" C, G1 U" k. L$ F* n. l (OT&E) 8 h4 X p1 A. g, h( u( b X! u3 ZThat T&E conducted to estimate a system's military utility, operational0 Q+ o0 _6 v. W( x; K: Z effectiveness, and operational suitability, as well as the need for any. j- y/ f9 S: ~, O; J, d) i: S7 F modifications. It is accomplished by operational and support personnel of the 2 a4 Y/ ]0 v, h9 xtypes and qualifications expected to use and maintain the system when : H; J& K1 D$ r# Tdeployed, and is conducted in as realistic an operational environment as & A- ?) z, P' X) c) a- c7 {2 kpossible.9 D2 r0 L% J8 y, O! R+ N Operationally ( _. Z" V. C5 uReady ; f0 M$ W, S9 \$ M. }2 W1. Capable of performing the missions or functions for which organized or4 {8 b7 }# K4 b8 x, [3 @3 c& R8 N designed (as applied to a unit, ship or weapon system). Incorporates both ) S9 Z8 z1 T- `9 ~equipment readiness and personnel readiness. 2. Available and qualified to 3 `3 \! R8 b% o; H3 }perform assigned missions or functions (as applied to personnel). , L; ~7 O6 V- V4 m7 k7 r1 P' R4 XOperations and, L; N+ N8 N, I9 h- P+ i0 { Support (O&S) ! t- i$ M; I0 D3 l& z4 q( \& v/ gCosts ; `( Q- Q, _# ^/ IThose resources required to operate and support a system, subsystem, or a : ^$ i7 W0 j3 G7 d7 \& R$ Umajor component during its useful life in the operational inventory.' [5 c2 t/ ]+ R" _% [- S0 ~7 o0 a Operations " ~2 ?) @; `# Q# oProfile* }" g; S" b5 k: }, ^' t( ]: k An identification of all participants in an operation, their actions, and the time ) ?: a( Y1 p! D% l8 f( c, q6 k6 kthose actions occur in the operation. Includes assessment of operational " w0 F# n- [1 h4 @procedures to ascertain whether stereotyped or predictable patterns are7 u3 F# h8 s8 ~6 [ discernible. ! Z' ~' l3 @! ]8 A! h# |Operations6 d3 M+ k1 H% i9 A Security (OPSEC)* `( a9 S3 U; ~! V K) T/ ` Survey : ^. B! W( ~6 u' O& nThe method of evaluating the protection afforded a given operation. It is u! k) O8 H, b composed of multiple functional outlines that identify possible weaknesses or! V! D9 ^, A9 U& Q) B" k3 A inefficiencies of an operation that could, if exploited, degrade operational, x X8 V( t% c6 D% g5 c F9 x effectiveness.- Y- T. B. J+ c u OPEVAL Operational Evaluation (Navy). $ `9 E' e- Q7 |3 W# l: a, m0 kOPINE Operation in Nuclear Environment. 3 w4 b0 [0 W8 `/ d; XOPINTEL Operational Intelligence Processor.0 v# R# P0 F) S" H MDA GLOSSARY, VER. 4.0 O 3 I( A# H- j: d" ~213( @: |1 q) B& U# t( R& Z8 K OPLAN Operation Plan. - _; E$ s* g0 q% b2 A- fOPM Office of Personnel Management. J! X/ I& V. v1 _' x OPNAV Office of the Chief of Naval Operations.. v! k% d7 {3 N. N) Q2 ? OPNAVINST Chief of Naval Operations Instruction.8 e8 `+ u5 D( \: z W, l# k# \* c OPNS Operations. * @; D+ W6 J* e6 r* IOPO Optical Parametric Oscillation.' m# }! f. U" m6 ]" K OPORD Operation Order.: ]. g1 ]* b: k' S9 V OPP Other Physical Principles. 1 U9 b1 P$ t" }$ |3 `; {0 O; LOPR Office of Primary Responsibility. ( ~- h$ |) o8 D2 d' ?$ {Ops Operations (employment).1 ~1 w5 [3 V; R4 Z) J2 o% k6 F2 } V OPS Operations.- X9 j" t! V$ ~3 O7 Z' L) r OPSDEPS Service Operations Deputies. ( d! u/ I6 q6 i5 Y) COPSEC Operations Security. 1 M# x5 z/ e5 }) o/ mOPSMOD Operations Module.$ I s$ I6 _$ D7 ~6 Z [! y- B OPTEC Operational Test and Evaluation Command, Alexandria, VA. (U.S. Army) & n. J; ~: t5 w+ k- n$ uOPTEMPO Operating Tempo.! Q; k& I- {* l: g OPTEVFOR Operational Test and Evaluation Force. (U.S. Navy)* E# l- @/ i, I) }$ o( l$ L Optic Cobra CENTCOM Joint TMD Warfighter Exercise. # L/ r3 z2 y7 r5 h8 F5 nOptical Airborne$ z9 g; l9 h i6 l' d! O! L; r Measurement ) E+ \9 }8 j9 K4 z+ y3 `Program (OAMP) " [1 Y( ]. w) A) l% \! X9 X1 dA program involving an aircraft-mounted research platform to conduct 0 T0 T6 b8 b: ]" W% `4 fsurveillance experiments that can be used to design future defensive systems. 2 t1 n( @/ C- F" H$ ^(Also known as Cobra Eye.) 3 I: m) E' F/ ?% O, `% k/ nOptical Coating Layers of materials that alter/protect the physical/electronic properties of the0 n1 g; n# f9 |* r& M5 s3 r material to which they are applied. " ]7 O; u3 J! V" B4 w& \Optical 6 |" R9 q0 Q2 C; L, C9 G5 V aProcessing % x, m! K5 P3 p( u& tA type of analog processing, in which the behavior of light beams, passed ( @# N6 A! {/ _. Athrough optical systems, is used in problem solving." [/ e- {6 y( G- }! _! S OR (1) Operations Research. (2) Operational Requirement (Navy). (3) Operational ( B( M9 {2 [0 m8 o5 l4 _Readiness. (4) Operational Reliability. 0 l [& z* f: D* LOR/SA (ORSA) Operations Research/Systems Analysis. 6 Y, e3 @- y0 |* F/ gORACL Overtone Research Advanced Chemical Laser.9 N! [5 S2 b: V ORACL HYLTE Overtone Research Advanced Chemical Laser Hypersonic Low Temperature.! ?6 C- r7 ^( _. E, G% O MDA GLOSSARY, VER. 4.0 O , h9 A" o5 K. m# y. I E214! k- H; E0 P$ o0 |$ ~, A6 H Orbital Elements Any set of several parameters (e.g., semi-major axis, eccentricity, inclination, etc.) * e) n& s: N9 K" Hused to specify the position and motion of a satellite. Six independent orbital 1 r7 i) _: E, c2 y/ T0 e( u$ Belements are required to unambiguously specify the position of a satellite in a " V" r" C& L: G8 s1 NKeplerian orbit at a particular time.+ g/ l D" n8 ~" ~2 ~& P Orbital 1 F1 B9 ?. C2 P3 X" X: w; DManeuvering# G }# F) l* b) N7 X* H Vehicle (OMV)& d9 U E# D, J, @5 Y NASA program to provide capability to perform satellite on-orbit servicing. / m4 `; W" }" c/ ~) m$ pOperates from shuttle and Space Station.6 f; L; Z! \7 [ Orbital Suborbital: c$ t) d3 u5 V; B Program (OSP)" u+ N% P3 V* ?- q; }7 g7 x7 L2 u A strategic target booster system used by the GMD Program that uses the 1 _6 z& { [. U3 ?* w6 NMinuteman 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. & d4 ^1 G6 i" XORC Operational Readiness Condition.- }4 n* \4 Y! a1 Z ORCA Operational Requirements Continuity Assessment. : I9 b, u" k3 i; Y W2 kORD See Operational Requirements Document. 6 w8 I8 L$ I% ^5 n1 F& |ORDALT Ordnance Alteration. " s8 k: `, P) e' G- ^- m7 `Order of Battle The identification, strength, command structure, and disposition of the + d5 E, A$ ^" }0 o Xpersonnel, units, and equipment of any military force.& _" `" N9 L. i+ }( W U: @+ m" Q Order Wire 3 b1 Z, R0 a/ ~9 c3 f/ n( JMessage M. t$ X) h# ~4 nA communications support function for internal control of communications ! O8 f' l$ X1 r: O/ ?elements.4 U t1 |1 D$ f. t) z' k5 s Organic Assigned to and forming an essential part of a military organization. Organic , P( a! _2 ~' X F Qparts of a unit are those listed in its table of organization for the Army, Air Force, * w7 F/ q) @8 P8 `( M2 M1 yand Marine Corps, and are assigned to the administrative organizations of the9 c$ l" p# G! k# N' Q operating forces for the Navy.( t" d2 S9 A) N6 n$ f8 i Ornate Impact USFK Joint TMD Warfighter Exercise.4 R/ G" N2 `7 x# D/ h0 q' y ORNL Oak Ridge National Laboratory, TN.& n' o+ f4 c# C7 z7 Z C2 p ORTA Office of Research and Technology Applications. & A& R7 p# _* \5 A7 N: W, m# }ORU Orbital Replacement Unit., Z# P. Z: E+ v E1 {! h* R" b9 o, u+ n ORWG Operational Requirements Working Group.7 d" I& y4 ?( H2 Q OS (1) Operational Suitability. (2) Operating System.. z* c/ h* p( ` OSA Optical Society of America. % g# [3 z6 f; POSC Optical Signature Code. 2 z* V( L6 v8 w; NOSCE Organization for Cooperation and Security in Europe." n: `) d- }& Z2 L% ^/ W% U OSD Office of the Secretary of Defense.3 g( w1 U4 V1 I0 J8 Q OSE Operational Support Equipment. 5 e' n$ f$ y! L0 f" XOSEIT Operations and Support Engineering Integration Tool. : F* Z; n1 p$ a1 A! qMDA GLOSSARY, VER. 4.0 O / Z) a$ o) m- \4 r215 0 q4 n- G7 b/ ~ B- VOSF Open Systems Foundation.# \( J5 x" T+ h2 x. s OSH Occupational Safety and Health. 6 w/ t. ~' ^" g% mOSHA Occupational Safety and Health Act.& z4 |) D! N, m8 T9 G- u OSI Operator System Interface. * B$ x3 P2 h& G# VOSIA On Site Inspection Agency, Washington, DC. & b0 Q# U( U- Y8 r; E) rOSIM Object Simulation (NMD BMC3 term).1 ?0 {2 H5 R9 i' @( K OSIP Operational System Integration Plan.% B, I3 H6 h1 o OSIWG Operating Systems Interface Working Group./ m$ y' d+ D. ]( ? OSJTF Open Systems Joint Task Force.) d2 b( a. U' }; t, A OSM Object Sighting Message.( }: r3 Z5 ]; [/ ? OSS Operations Support System (Navy C3 program).- ^- D# x3 i# T+ C OSTP Office of Science and Technology Policy. . J+ I4 f. g5 }8 y! q* kOSWR Office of Science and Weapons Research.+ U7 Q8 ~3 x2 ]! Z9 J6 _ OT Operational Test.: v/ `# Z8 w# S, e! d OTA (1) Office of Technology Assessment, Washington, DC.! D/ Z- u4 ~# R1 P" j (2) Operational Test Agency.; j* B9 ~1 l M (3) Office of Technology Applications, MDA. ( k! U; ], ?. a1 t9 G8 E/ LOTCIXS Officer in Tactical Command Information Exchange Subsystem (Navy term)." j5 C: X% w9 ^0 h- a7 \1 J" _: i OT&E See Operational Test and Evaluation.7 v: j4 \1 }" ?' W- Z+ C OTDR Optical Time-Domain Reflectometer. 1 p/ Q6 l6 ?9 I! {OTF Object Track Profile.0 d9 w6 E5 }! k) z3 d9 D OTH Over the Horizon. + `4 ~1 g# ~2 P2 h; g) ?4 FOTH-B Over-The-Horizon. : d* |) [6 S U, z. I6 ^/ aOTH-T Over-The-Horizon Targeting. - x4 n& R7 g. F: U9 `8 XOTO Operational Test Organization. a9 D$ W; I# J! \0 V% r OTP Outline Test Plan. l' z3 \3 [+ ]8 l3 oOTS Off-the-Shelf. 9 q* X6 c- m9 r4 u4 l$ a. A+ yOTSA Off-the-Shelf Analysis. 1 m% w8 E0 d4 eOTV Orbital Transfer Vehicle. * }. `5 p% R- t4 t' tOUSD Office of the Under Secretary of Defense.9 ?3 o! F3 `7 d9 Q/ F1 C0 j" \6 P MDA GLOSSARY, VER. 4.0 O& h! @ ~7 D# L/ r! f 216$ ]6 ?# ?/ P' a( U- h OUSD (A) OBSOLETE. See OUSD (A&T). % ?) d8 ~+ T o( x% z" f r( LOUSD (A&T) Office of the Under Secretary of Defense (Acquisition & Technology). ' E( H( Q: X. l! L, w, g, vOuter Space G6 c" t0 y# J- j6 RTreaty of 1967# y. Q; J0 K3 v* s A multilateral treaty signed and ratified by both the United States and the% P5 b3 \% r4 o5 z# }5 \ (former) Soviet Union. Article IV of the Outer Space Treaty forbids basing ! x4 s+ X) t8 T: b# Snuclear weapons or other weapons of mass destruction in space.- ~2 Y% I4 ` l) y Outlays Actual expenditures. Checks issued, interest accrued on the public debt, or * ^' [: f% V/ u' Z& K/ v: I& y Rother payments, net of refunds and reimbursements. Total budget outlays5 ?7 ^ F$ e% I consist of the sum of the outlays from appropriations and funds in the budget, 7 E9 t$ J7 P$ T0 Z4 M0 B" Pminus receipts. " w3 [1 c2 R8 x* d+ J( e7 X+ IOut of Band 7 P* ^7 D, Y# H0 d6 ^) vLaser Flux- _+ b% S" U' F0 v (Sensor) Laser energy directed at a sensor that is intended to damage or disrupt6 I. I: x, R$ v1 |2 Y7 c the sensor and is outside the sensor’s bandwidth. ! N1 d! |5 |8 ~% k1 Q9 {- K9 g% L* YOut-Years Normally, six years beyond the year being worked in the upcoming POM/budget. - k% h% B/ [2 F: o* d: O9 UOverlay BMD + E d; }: Y9 z" RSystem" K# L# L6 x6 F An advanced exoatmospheric defense system oriented toward defense of 9 \- p' Y$ O9 p: F1 UICBMs, consisting of missile-borne, passive infrared sensors and non-nuclear 5 U) S+ ]1 r4 |+ \$ u. z! b) thoming interceptors.0 L4 ~+ T$ y" _+ b: U- f OWG Operating Working Group.7 Z ~ }, [+ @ MDA GLOSSARY, VER. 4.0 P* L0 f3 _2 w1 M& c8 p2 ?) b6 e' T 217; w& b e/ b+ v3 d- Q P&D Planning and Design (MILCON term)." A! Y2 T5 w$ q; s' @& C P&M (1) Producibility and Manufacturing. (2) Procure and Manufacture.& x% O0 s/ K- K6 Y* @ P.B. President’s Budget. + S' Y# y r# {0 i/ v' iP2 Pollution Prevention.& |3 a/ c0 @# u% r% D) o p2 NRTA&A Pre-Planned Near-Real-Time Assessment and Adaptation.: H6 K- q& m; i/ C& E P3 Pollution Prevention Program.' H @- W5 s7 F P3 I Preplanned Product Improvement. X' {' b2 a3 B8 m1 P, r PA (1) Product Assurance. (2) Public Affairs. 7 U E3 K/ F% {) L( nPA&E Program Analysis and Evaluation. 6 Q3 A1 w/ ~$ ~4 K3 B5 ]% |1 D' Q( ?PA&ID Program Analysis and Integration Directorate.2 \8 F$ _0 \, h1 L; o( N$ J% t PAC (1) PATRIOT Advanced Capability. (2) Program Assessment Center. (MDA) 9 e8 O, h G! \+ ZPAC-2 PATRIOT Advanced Capability-25 @5 c' G% ^$ J9 b0 A3 G9 X PAC-2/-3 PATRIOT Advanced Capability, Level 2/Level 3. Formerly called ERINT. , P0 B( i8 d9 I; ~! q KPAC-3 PATRIOT Advanced Capability-3 9 m. ~" D$ D3 O( [- {PAC-3 SIM PAC-3 Simulation (PATRIOT), Huntsville, AL. B7 k: W) D4 n+ [% q) F# g PAC-4 PATRIOT Advanced Capability-4. 2 I4 ^* T4 }: \( l/ [8 @PACA Professional Aerospace Contractors Association. 3 H( M ?* A3 t4 PPACAF [United States} Air Forces Pacific.! T, Q) p9 q) _; M/ o) P PACBAR Pacific [Radar] Barrier.+ a) I) C0 w% f PACFLT Pacific Fleet (US).

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发表于 2008-12-25 20:16:15 |只看该作者
Packaging, 1 H( T. x# P g, q) FHandling, 7 z1 O# |5 y7 }( LStorage, and ( n( d- j; _! A. D$ G; x3 oTransportation 2 P8 g' j! S( d" D(PHS&T) , n' Y7 K# X/ Y1 I, P, f0 b6 ~The resources, processes, procedures, design considerations, and methods to d. m! c/ w0 \+ h$ t ensure that all system, equipment, and support items are preserved, packaged,* A. z' U' M7 p! d handled, and transported properly, including environmental considerations,. x5 X1 C5 Q/ l6 O+ a5 a+ n% r equipment preservation requirements for short- and long-term storage, and + O* ?, y4 D; n# atransportability.- B) a- U/ R6 n Packet Switching0 f, P; t5 _, f5 F: b) a (PSW) " M' t& U$ A+ [6 L5 `A data transmission process, utilizing addressed packets, whereby a channel is , k4 D6 X, w7 qoccupied only for the duration of transmission of the packet. In certain data# c% ?+ j( h6 Y communication networks the data may be formatted into a packet or divided and . M( P/ M1 ^! w' s% [then formatted into a number of packets (either by the data terminal equipment4 T, a5 x3 b0 s2 R5 c- u or by equipment within the network) for transmission and multiplexing purposes. & @! a* i: _+ P ~" M; ?2 T' |/ |* FPACOM U.S. Pacific Command. 6 \! y) Q- R! W& V, @+ WPACOSS Passive and Active Controls of Space Structures.! S7 W. s/ H5 b% s: t% ^# ^+ l PADIL Patriot Data & Information Link. " E/ }# P9 l Y0 _1 T6 j1 j4 v/ a3 ^MDA GLOSSARY, VER. 4.0 P2 U1 B$ Z, }( x: |; I 218 - y! P. ^" @# j+ B- APAFB Patterson Air Force Base. 2 N3 H7 V0 G7 ~" V9 N* dPAL Permissive Action Link. 4 `% J' E- A* |% _9 f( b5 JPALS Protection Against Limited Strikes (SDIO term). 9 I: o: f$ V" S3 @8 K7 pPAM Pulse Amplitude Modulation.* O6 u' J2 b- D0 t+ l6 V PAN Polyacrylonatrile [carbon fiber].% I M: z! |9 _: `- E: e Pancake Altitude Altitude at which the trailing edge of a chaff puff/cloud effectively catches up to 1 `+ X; C# j1 athe leading edge because of atmospheric slowdown." G" B" ?: _8 ?* [) |2 [ PAP Predicted Aim Point." v1 G1 Z' Y% J- E, t& A1 \ PAR (1) Phased-Array Radar. . b. {' }, Z2 f4 R(2) Perimeter Acquisition Radar. (See Phased Array.) $ f" U# S3 c, g# K9 c- p4 O% q(3) Preprocessing Analysis Report.$ M( u. g! b1 o2 V4 K. b (4) Program Assessment Report. " D6 Q! I6 q4 m# c(5) Pulse Acquisition Radar.. S$ y9 Y+ N! ~ Parallel% U; f5 b0 f- @% J; Q Processing% k! f) V' ~8 X In parallel processing multiple processors (CPUs) divide up a large task into - W& S- ^1 `/ k. f' S, q# R. asmaller ones and each CPU acts on the subdivided task simultaneously so that 0 b7 R- D# ^2 Z! S- N9 P ?much higher effective processing speeds can be attained. 9 z8 y1 T' n- M [- u7 }Parametric Cost , a0 d# C5 r1 j' S! h+ TEstimate7 K1 `( m% `% \. H1 Q! s) y A cost estimating methodology using statistical relationships between historical% ? j( [$ v9 f3 W. | costs and other program variables such as system physical or performance1 `) q( t: g- V" X8 D* R% A characteristics, contractor output measures, manpower loading, etc. Also" D+ W5 O X6 z3 g# ~ referred to as a top-down approach.0 H. u) ]5 `, Y3 K( [# _ PARCS Perimeter Acquisition Radar and Attack Characterization System. 5 D# A' Q8 j, e; m9 I2 DPARPRO Peacetime Application of Reconnaissance Programs. 7 \8 N, H" }9 r, YPartial Mission, _) X6 m1 ~2 E! { Capable - N6 t- v. ]9 vMaterial condition of an aircraft or training device indicating that it can perform at! s+ N2 l$ I9 h+ z; A' a* d least one, but not all, of its missions. Also called PMC. See also Full Mission 9 R; m+ p5 w% b0 [Capable.# G% d, \2 a6 {, ?+ W6 W; j Participating6 W1 I5 @& W: f& X. i Service2 d3 i/ w) F2 m) n+ t2 B A military Service that supports the lead Service in the development of a joint1 |* ]: G2 X, {3 d4 _8 b) Y; k: @ acquisition program by its contribution of personnel and/or funds. 2 U: C9 t7 B8 p1 KParticle Beam+ t2 E. `+ j7 L& D (PB) - v0 A! w& B- r0 l( ^0 L$ d" n" E+ `High-energy beam made up of atomic/sub-atomic particles (electrons, protons, or: W. U1 C3 w3 } neutrons) accelerated to near the speed of light. @3 l# l K# f0 k3 X W2 ]' C Particle Beam & N3 Y" \7 o9 x; xWeapon (PBW)4 C) }9 g* G- D A weapon that relies on the technology of particle accelerators (atom-smashers) % Q+ E( E( Z) U1 B6 S1 J* |% W+ vto emit beams of charged or neutral particles, which travel near the speed of) h8 R( @; \" U* V' ^ light. Such a beam could theoretically destroy a target by several means, e.g., - i j- t; @3 q% V" Z# C' j% Q8 O' _4 p _electronics upset, electronics damage, softening/melting of materials, sensor 0 X7 ~8 x0 q, D0 t+ Q* r3 _) wdamage, and initiation of high explosives. # `5 r( q/ y8 F% _% \/ I: IPASS POET Advanced Submunition Study. & N* Q0 d+ n8 lPassive In surveillance, an adjective applied to actions or equipment, which emit no' P; Y; ^+ X- N$ a. ~" r$ _! x energy capable of being detected. 6 a% p/ g" V) H* }, [) c: [MDA GLOSSARY, VER. 4.0 P 6 W- R) ^( ~. B219$ m, T4 ]; h4 J2 \8 B( e) { Passive Air ) X! ?0 X9 ~: O' l/ m& oDefense9 I U" g" B+ c/ A: |; t All measures, other than active air defense, taken to minimize the effectiveness @1 E( v$ Y% C. p of hostile air action. These measures include deception, dispersion, and the use) s. k' `7 I- f of protective construction.: ]$ n0 z; q ~* }* }/ t$ J Passive 8 D5 j( p! `, P! h2 Y3 A7 RCommunications ) w/ {* C3 U0 p3 z, d& h* `2 P! C2 ~( BSecurity Threats & S Y- j1 L# kThreats to electronic systems posed by a capability to obtain intelligence through( v6 ^ C# Z9 ?% \: }5 v intercepting and evaluating intentional and inadvertent electromagnetic2 }1 C Q& A) B" V% N& g emanations from electronic components of the system; e.g. communications / N3 f# v& d0 D7 W% K7 \7 ^3 Iinterception and direction finding.: W( `5 u2 W8 F- V5 s Passive Defense (1) Measures taken to reduce the probability of and to minimize the effects1 f2 a8 [% d: m- l. J of damage caused by hostile action without the intention of taking the , ~" I9 X$ s+ w( b7 ?5 ~9 `initiative./ s& e7 C$ G6 }. I, S (2) Passive defense minimizes the probability and effects of theater missile; C' _$ I: F) K attack by reducing an enemy’s ability to target friendly assets, reducing 5 `" P3 b) c$ x Uthe vulnerability of critical forces and infrastructure, and improving the8 C6 y; o$ k' l6 W! @0 A1 {/ S; S: F potential to survive and resume operations after an attack. Passive ' ^/ o: s- v" w% I3 v3 Ameasures might include counter-surveillance, deception, camouflage and / D) c# g& V0 E* X! X, z, fconcealment, hardening, electronic warfare, mobility, dispersal, and % g) ?* z7 F$ ?/ e' }redundancy. Passive defense is considered one of the four pillars of , W; G, u% `2 D3 d4 UTMD capability. (JCS J-38 CONOPS) % D0 }* P! i: y$ ]Passive Sensor A sensor that detects naturally occurring emissions from a target for tracking * p, p/ i' k: i5 `5 _: h- @; aand/or identification purposes.

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PAT Process Action Team.+ D3 i9 u# ?& l$ `4 S& s& W PAT&E Production Acceptance Test and Evaluation. P: _5 m9 }- d) E. ?4 F) f PATHS Precursor Above-the-Horizon Sensor. 7 r, o7 r3 z0 _: aPATRIOT See Phased Array Tracking Radar Intercept On Target (missile). 0 P% p6 }8 W0 T8 W q. S" K+ NPAVE PAWS Position And Velocity Extraction Phased Array Warning System. 2 o7 h$ C8 D8 {9 ^) g# ]Phased array SLBM warning system. Four sites:) p& x+ H1 F7 q# ~ a. East Otis ANG Base, MA& d) R3 x% I1 Y5 H% } b. West Beale AFB, CA, ^! }4 q' P, Z# } c. Southeast Robins AFB, GA - _7 V; E* _9 i$ |# ]d. Southwest Goodfellow AFB, TX ( {1 t1 Q% f5 Z. u& BPAWS Phased-Array Warning System (USAF term).; B; |6 P4 S: k w& f Payload (Missile) (1) The warhead, its container, and activating devices in a military missile. / T" o. N0 b+ |9 M" x* R |4 }/ [(2) The satellite or research vehicle of a space probe or research missile. $ Q) S( L: i) D& N(3) Any part of a ballistic missile above the booster stack. Includes reentry) e: I) M' p3 b7 g3 B1 P vehicle, guidance-control system, countermeasures and countercountermeasures, decoys and chaff. (MDA Lexicon) 3 A. o- B+ @6 W! k) iPayload Build-up ) _4 e! b+ V; q& ?(Missile and 6 x9 v% F$ L- D8 l( @+ `8 RSpace) , J& \+ j& _6 t) LThe process by which the scientific instrumentation (sensors, detectors, etc.) and 4 P( V8 G) R4 s0 H: p" Z9 tnecessary mechanical and electronic subassemblies are assembled into a9 T3 i& K) q2 k, k# ]+ F, I complete operational package capable of achieving the scientific objectives of8 t* m! C( O. s+ t( ? the mission.( {2 N9 R4 v! L1 ~& P1 C Payload7 A# L& t% z# \& }6 \ Integration ; M" d3 L& G0 f(Missile and * f3 i& N1 ~, H$ u/ eSpace) ' I) [1 V1 ~$ t7 nThe compatible installation of a complete payload package into the spacecraft2 m) V# p- u1 E3 \$ \3 P and space vehicle.; s' X$ d; @) ]$ K: C# a6 r) \ MDA GLOSSARY, VER. 4.0 P' }6 b% F1 v' a0 g6 }' }- o 2205 \: s# \8 f2 t2 i4 B PB (1) Particle Beam. (2) Post-Boost. (3) President’s Budget.& M: k- M7 r# ?, Z (4) Program Baseline.- S9 z. _/ Z$ ~: a& w1 P PB/MT/D ATD Post-Boost/Midcourse Tracking/Discrimination ATD.2 p% T. [ {& |; S+ B PBCRAW Post-Boost Control Reaction Altitude Wafer. o* ^$ ?, l6 L0 cPBCS Post-Boost Control System.) V0 X# [- U* u/ H3 s: Z PBD Program Budget Decision.( @4 U. O% D3 r0 [ PBI Post-Boost Intercept. : t* I/ s/ S3 d) `: ?! s' YPBP Post-Boost Phase.$ i! F7 A: k" ~( I2 g2 u6 @ PBS President’s Budget Submission.+ q6 J* R, M# {: u PBV Post-Boost Vehicle. 7 y8 o+ q, h: e$ j# Z5 v6 CPBW Particle Beam Weapon.+ h) z5 _9 T1 s' w PC (1) Printed Circuit. (2) Personal Computer. (3) Principals Committee.+ V, w- n& @5 R) E, p8 ~# @ PC-PC Personal Computer to Personal Computer (JFACC term). 1 v. K" C2 h' K4 f7 ^, S2 F6 YPCA Physical Configuration Audit.; W& m5 i6 R r' |* E# k$ g5 w' O PCAST President’s Committee of Advisors on Science and Technology.: W Z" B9 u- | PCB Printed Circuit Board. ! _; r2 _0 r) m3 }) `/ TPCC Pilot Command Center (C2E term). : G% c; P% t- g, s% T. y# {0 B# Z! hPCD Program Connectivity Diagram (MDA/POC term).) ~* m' K. H8 l. R+ Q; ? PCE PLRS Communications Enhancement.. k: h1 a! f6 N. z9 F; ~. D/ e PCERT Pursue Computer Emergency Response Team. 0 }- Y0 B0 q% }: D+ t) W- PPCF Packet Control Facility (TelComm term).6 g* p+ q& s% b1 F: b u, C PCI Peripheral Component Interface.; k6 }7 @# o" l8 g9 I4 I PCL (1) Pulsed Chemical Laser. (2) Printer Control Language. # @+ \0 _& J9 x# q2 oPCM (1) Pulse Code Modulation.3 v( E$ b4 f/ h7 G0 c5 V9 q" O PCMCIA Personal Computer Miniature Connector Interface Adapter.; R6 \9 A0 g' g1 g. N PCO Procurement Contracting Officer (FAR term).+ z; b) m, Z' g4 C3 {- j PCR (1) Program Change Request. (2) Program Center Representative." ^8 K$ K) r7 L" |8 S0 ], e7 W PCS (1) Permanent Change of Station (ILS term). (2) Planning and Control System." [) S( a) \2 q# ~6 L6 ` PCWBS Preliminary Control Work Breakdown Structure.- ^$ H' a( @2 X7 j1 V MDA GLOSSARY, VER. 4.0 P1 j& M5 B8 S7 v: ~ 2212 ^; J( _& [ J! @ {1 Q( o PD (1) Presidential Directive. & R. k5 Y% t$ b/ u2 D$ w(2) Procedures Description.' D1 b1 |: ^+ @8 q5 `% B (3) Probability of Damage., r6 t9 v0 I9 M) L& m1 A. G% x (4) Probability of Detection. - J; O7 m$ U' M2 L6 K) f(5) Preconditions for Defense. " ?6 [5 R1 q$ ]; o(6) Program Director (AF). / T0 i& w/ a+ C+ G5 q1 ~& U(7) Production/Deployment. 4 K4 A7 e# n" B+ ~(8) Phenomenology Document.: K1 U' e1 Q+ ^4 S, [. t- V9 q9 z (9) Passive Defense.* _& N4 m; Y+ o( L/ v9 l8 U PD&V Projection Definition and Validation (MEADS Program term). , t8 h- y8 S% U+ C; d8 hPD-V Program Definition-Validation [Phase] (Acquisition Phase term).9 k0 H. Y5 s% N* D$ z/ E( [5 f PD/RR Program Design and Risk Reduction (Acquisition Phase term).; o+ H: T1 Q5 d. i/ K0 A PDB Post Deployment Build (PATRIOT). L6 |& ]: R: b) G PDC Plume Data Center, AEDC, TN.: X7 c/ v* S, u6 r" M4 p; p PDD (1) Point Defense Demonstration (USN term). (2) Presidential Decision Directive. ; v) R0 J, m6 EPDM Program Decision Memorandum (DD 5000 term). ) M- U$ k6 l8 E7 \PDM (I or II) See Program Decision Memorandum (First or Second). 7 h5 S7 o. k6 q% IPDP Pulse Doppler Processor. ; L" y$ j2 [ G9 N. M; HPDR Preliminary Design Review.* W% W- M$ y2 q PDRR (1) Program Description, Requirements Review [phase] (DD 5000.1/2). / `7 v$ `/ C6 N2 A& l(2) Program Definition (Development) and Risk Reduction.; ^ J/ y! s: W; s" s: N PDSL Process Data Sensitivity Label.6 ?. O0 F( Q) ?& Q PDSS Post-Development Software Support (ILS term). ' a' q/ u" }; k" S, KPDUSD Principal Deputy Under Secretary of Defense.! `" a, b4 B* |5 d8 S5 i6 T PDUSD (A&T) Principal Deputy Under Secretary of Defense (Acquisition and Technology).; i& t' s) Q* {) L' ~0 C8 Z4 _3 Q- O3 c PDV Program Definition and Validation.2 ?" D9 f5 P8 c2 h+ H PE Program Element.

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Peacekeeper US MX Missile. " _. l: k+ N+ Z- [* S, _Peak Gamma * z. J+ k, S) K$ d( l9 ~8 Q/ lDose Rate ' {1 c; B( R9 G+ {* J7 |The maximum rate (per second) of gamma radiation that the system could; W. V& o3 J$ k7 c' r$ v L+ g survive and continue functioning./ @$ [, p! h& y0 b PEC (1) Program Element Code. (2) Pre-authorized Engagement Criteria. " G1 J# `3 o. r. P# m, NPEELS Parametric Endo-Exo Lethality Simulation.; @; O" s H, i7 ]3 N PEIP Programmable Embedded INFOSEC Product (ex-MSD). ! D4 u+ ?4 p" o g; K6 {* bPEIS Programmatic Environmental Impact Statement.+ @' z6 H& _- G; n9 \3 F MDA GLOSSARY, VER. 4.0 P0 t& l. p, s3 e# V" y6 { 222 ! H. D7 x5 w5 A: qPEM Program Element Monitor (AF).0 T4 S& v! ^2 S$ Q2 f' E4 w1 h1 \9 ? PENAID Penetration Aid. - d4 P- O& T, w6 {2 L$ APenaid . T9 f) Q1 ~# j3 [+ I# ~! R(Penetration Aid)6 e- k, y( U; u8 ] (Formerly an acronym for Penetration Aid.) Techniques or devices employed by" b1 S9 R# S5 o$ c4 F# ~9 h offensive aerospace weapon systems to increase the probability of penetrating; b& ]9 V2 T: P enemy defenses. 3 F# {. ], @$ }+ j8 l- H" I5 pPenetration 9 O% B% ^- l$ D7 C* ITesting 1 M' G3 o; ~$ q8 P& wThe portion of security testing in which the penetrators attempt to circumvent the; \0 t# M; j9 o: H+ S security features of the system. The penetrators may be assumed to use all ; w$ W1 L9 F" ?, h: r) S: Wsystem design and implementation documentation, which may include listings of 9 Z7 {$ w# I# w8 ~% C1 qsystem source code, manuals, and circuit diagrams. The penetrators work under- h- {+ @' F7 ~ no constraints other than those that would be applied to ordinary users. & x' K& M2 T: c: m% C- j* X) ZPEO Program Executive Officer.. j0 N4 N7 k' l' s& L% |* n2 y PEO-AMD Program Executive Officer, Air and Missile Defense. (U.S. Army) $ v; a( r& s8 i) n& J% w$ }PEO (SC/AP) Program Executive Officer, Surface Combatants/AEGIS Program. 8 w% `2 I, _5 i6 ]! @0 }PEO (TAD) Program Executive Officer, Theater Air Defense. (U.S. Navy) 1 @# H* u, [. S- `" XPEO (TAD)-B Program Executive Officer, U.S. Navy Theater Ballistic Missile Defense Program " p; E3 v4 ^* y; `Office.6 f% \% V1 j J# _5 x PEP Producibility Engineering and Planning.) b# v# [! p* C: K( X8 S7 _1 a PEPP Producibility Engineering and Production Planning. 1 n3 w/ R0 P9 Q0 y6 ^Peregrine An Air Force boost-phase interceptor concept under development at USAF/SMC.) C E- s5 a5 o' `5 |, Q Performance Those operational and support characteristics of the system that allow it to, [: Y7 c7 L/ W1 Z1 _ effectively and efficiently perform its assigned mission over time. The support% o% U9 Y6 f$ u/ G2 p0 | characteristics of the system include both supportability aspects of the design3 }2 {( l+ }' o, Q& G! v4 e6 ^: N and the support elements necessary for system operation. 2 `" }. H- [9 u; V; G1 e IPerformance7 z% W2 g% s( r3 U- C i9 c% F Requirement& D) a" z' s! ?8 T% Q A requirement that specifies a performance characteristic that a system or system; S' A* U4 i0 }: w or system component must possess; for example, speed, accuracy, frequency./ T% k! {8 ^) k2 _- [# v3 g, ^ Performance & X2 A% U4 X+ S3 DSpecification! s8 F* k6 l% [% n; G- ~, H( m# u (1) A specification that sets forth the performance requirements for a system, q0 {% O% f2 c$ } or system component. 0 B/ G# q) O6 A1 _/ |: u(2) Synonymous with requirements specification., i5 G; N& \, X, M Perimeter * i* o# e$ ^. K& l3 P# y: t! hAcquisition . E/ M0 N6 K% H' {Radar and Attack2 S E8 Y) N# ~ _( s. X' d, J Characterization* {! L4 R, d2 y7 X5 B5 V System (PARCS) 5 @5 ]4 S: z" \% B+ j, G( f) qAN/FPQ-16 phased array radar at Cavalier AFS, ND, used for early warning and & }. i" C" c# [. M3 V4 Aattack assessment.+ ?( M5 |; D* [; Z% k) _- W Period (nodal) Time for a satellite to travel once around its orbit.# G6 ~; A) }2 a* f Permeability Having the ability to diffuse through or penetrate something. 4 x9 w/ x/ G6 ~& p8 S! cPershing II OBSOLETE. US intermediate-range missile deployed in Europe. 8 k. d% N$ B+ T2 M( g3 G& |" @( zPERT Program Evaluation and Review Technique." l5 v5 s' C3 F. ^4 x MDA GLOSSARY, VER. 4.0 P ; |; |; o S d, ~$ m: i* E k223; c, r: F0 B% }% n PERT Chart A graphic portrayal of milestones, activities, and their dependency upon other + y- x- l: q6 c3 j; ^activities for completion, and depiction of the critical path. Y1 c O9 A! s& q7 P PESHE Programmatic Environmental Safety and Health Evaluation.: W6 R& q; n/ x* H. x5 G" x PET (1) Pilot-Line Experiment Technology. (2) Production Environmental Test. 4 m" h" k6 S, s7 o. dPFC Prototype Flight Cryocooler. $ b- A6 h) x. i3 _7 o# uPFD Preconditions for Defense. 6 f$ E3 U" }" T4 Y/ k5 _+ m; HPFIAB President’s Foreign Intelligence Advisory Board. ) c2 {& B9 S. M' ^$ SPFS Pre-Feasibility Study (UKMOD). - T F+ y+ G) I6 }" aPGG Patrol Gunboat, Guided missile (Naval term)." U& ?. z7 F# s' q0 ~ PGGH Patrol Gunboat Guided Missile Hydro-foil (Naval term). " [3 z8 V9 ? tPGM Precision Guided Munition.* G& `9 d1 d0 G PGU Power Generation Unit. # U/ D5 K% D+ X8 e) \* VPH&S Packaging, Handling and Storage (see PHST) (ILS term).% I, O( [5 w9 M7 d" ~ Phased Array The arranging of radiating or receiving elements that, although physically * E- @2 L' D G rstationary, is electronically steer-able and can switch rapidly from one target to ; B7 w7 u8 A' O% ~, A+ W4 ranother (e.g., phased array radar).1 [7 r1 R3 y7 M6 _/ v Phased Array1 `8 Z9 I% Q, Y& H v Tracking Radar ; o" `8 M( A: n- S: N- I7 H4 D' `) RIntercept On ( I1 r0 ?) G1 O5 [! BTarget (missile)8 M' z; l5 A2 F. |7 W; w" b: S5 l (PATRIOT) . B m% P4 O3 D6 p; ^4 mA point or limited area defense system originally built to intercept aircraft. PAC-39 Z2 h; A4 u- r, R6 z7 D' e6 m improvements, which will give it greater capability against theater ballistic missiles,0 o0 B/ g( ~* U0 x- j! H# E) h5 M, S include upgrades to the radar and selection of an improved missile, either% x7 h5 Q, m7 A+ i- ^8 Z! c7 h A" @' s PATRIOT Multimode Missile or ERINT.6 U( x. d R$ ^/ E( k Phased1 b% \2 g- d, w6 b# j O, x Deployment i: `- Y# c) _% P2 F! r1 EThe sequential steps of element deployments leading to a designated system 4 ?2 O8 W& y+ w. f8 `/ B& Mcapability that is realizable with fiscal and technological constraints.1 Z- E0 V' {' {) V Phase One " K( T# O7 R, y7 X: X1 ~Engineering l! [4 C3 q/ @: z$ ` Team (POET) 2 x N- I- e; E- oOBSOLETE. An FFRDC providing technical support to the Phase I Program' _0 [" E$ _- I+ I/ y Office. Now referred to as POET." Y3 S: g3 q- U6 [3 v: X2 J Phenomenology The topological classification of a class of phenomena. Phenomenology efforts ( B3 Y2 r/ ^8 M4 j4 a2 Wcollect and analyze optical and radar signature data, and model phenomena ) ]( F, u# \; k( Grequired by systems developers to design and evaluate SDS elements. 3 R9 T+ }8 ]9 D! O% WPHI Photonic Hit Indicator. : k) ?; x1 X9 r9 X1 RPHIGS Programmer’s Hierarchical Interactive Graphics System. - e+ ~+ r- d( o4 s7 E) pPHOTINT Photographic Intelligence.1 z9 B$ _ G+ S1 B4 L% ~ Photochemical A chemical reaction resulting from exposure to radiant energy or light. 2 n$ I6 v! }$ {MDA GLOSSARY, VER. 4.0 P : R* e* l& I1 J$ s' H224( U8 I# N6 Y& f Photoelectric r* E$ a# x4 G8 S. VEffect& f( r4 [; c% `: n The process whereby a gamma ray (or x-ray photon) with energy somewhat" p7 v& ]4 }5 T8 [ greater than that of the binding energy of an electron in an atom, transfers all its : |# M7 H g* s7 |( s4 `$ }energy to the electron which is consequently removed from the atom. Since it/ m3 M3 _; F; E# [- E; ~ has lost all its energy, the photon ceases to exist. (See Photon.)9 m8 V: z# Y: Q( R5 t4 Z O5 O Photon A unit or "particle" of electromagnetic radiation, carrying a quantum of energy,( ^7 }: w$ _" n: D- t which is characteristic of the particular radiation.: D' B. F: I! f& W PHS&T Packaging, Handling, Storage, and Transportation.% r3 \4 i& k. e; Q4 ]/ } Physical Agents Descriptive term that includes non-ionizing EMR, static electric and magnetic# W. G% Q# K7 M: I t fields, ionization radiation, energy beams, noise, explosions, de-orbiting debris, 1 H$ l- x) \2 o8 q y5 |/ rand extreme cold.

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发表于 2008-12-25 20:16:48 |只看该作者
Physical# g0 W8 c; A: n f7 c) ~. x5 Y Configuration( Q0 _ y+ I; P) `8 s Audit (PCA) * I9 B- P0 H4 u" d. uPhysical examination to verify that the configuration item(s) “as built” conforms to. S, Z5 @# h- q& `: y" f the technical documentation that defines the item. Approval by the government9 h7 n8 p0 B! |$ A: q) u7 t% ` program office of the CI product specification and satisfactory completion of this: b) o' G+ V# V( o. q9 B audit established the product baseline. May be conducted on first full production: O3 X/ w/ B" T or first LRIP team. 3 m# s) @7 v& [1 F' m% k! F! ]) OPI Program Integrator. 0 W5 n. X: ^7 Y5 f2 `% IPIA Personnel Identification/Authorization System (USA term).9 U2 A2 x/ @3 z PIC (1) PLRS Interface Controller (US Army term).. @" X9 I0 y; x d z3 E (2) Policy Integration Committee.$ }5 i: t, E6 y! @' Z. U5 G; r (3) Program Information Center (Computer programmer term). ( t3 q4 g: Q( i2 b/ [" _Picture Element, A7 P/ |6 y5 {' o- A: P (PIXEL) ! |! |. E8 O: V4 MThe smallest element of a display space that can be independently assigned ! q R) z; a" Ucolor and intensity; the finest detail that can be effectively reproduced on a; X& m3 S* _6 T recording medium.9 o, \% b2 U" @2 G0 z# _ PIDS Prime Item Development Specification./ p0 G7 M% @$ ~8 y, D Pilot Production Production line normally established during EMD to test new manufacturing : z- d! F- q: A# mmethods and procedures. Normally funded by RDT&E until the line is proven. 8 `1 S3 a3 L6 R4 XNot the same as long range initial production." f N" J8 C& g, s6 X# u PIM Position of Intended Movement (USN term). 6 e& O( c! A# B5 k, bPIMS Programmable Implantable Medication System. ! E7 z% S1 z- |) Z2 @PIP (1) Predicted Impact Point. (2) Predicted Intercept Point. * _+ d3 Y1 _6 Z1 y3 K4 z; C(3) Product Improvement Proposal/Program. ^/ i' l& N5 ?. J# i) m8 X1 {- GPIPT Program Integrated Product (Process) Team. # Q2 M0 R# Y- p+ t2 r6 N8 H0 lPIR Program Information Report. 2 Z! t2 U1 G1 i6 C Q9 i3 rPIXEL Picture Element.2 G) t9 f. }. _: r. l# z Pk Probability of Kill. ( v) {* u( Q# h+ T5 C- [; YPKCS Public Key Cryptography Standard. 0 n( w6 Q1 g' Z* e/ M& `. C4 ePKH Probability of Kill, given a hit. ' }+ D3 ~, ]8 k9 QMDA GLOSSARY, VER. 4.0 P* v0 H' K5 E* G9 K7 R 225 ; L- O) `6 U7 M( r9 i2 y; b- J( {PKO Peacekeeping Operations.* v7 l: l5 f3 z4 U+ G9 k Pkss Probability of kill -- single shot. D; Y# I+ g; Y) M- \7 C PL (1) Probability of Leakage. (2) Phillips Laboratory, Kirtland AFB, NM. (3) Public + D0 g% x6 v0 ^( i6 m5 jLaw. " \ H: ?! l" C+ m% BPLA (1) People’s Liberation Army (China’s army). (2) Patent License Agreement." j7 n5 ?, F2 H- a$ ?1 V+ o$ ] PLAN People’s Liberation Army/Navy (China’s military).$ K5 K4 B+ i8 p7 l; R7 h Planning," ^$ J. a& m1 k' N6 j4 B Programming, 3 }9 } ]" B2 sBudgeting , {; a9 {+ R3 F/ L: A3 q7 M/ I1 \System (PPBS) + `! ], M* Z0 E' mThe primary resource allocation process of DoD. One of three major decisionmaking support systems for defense acquisition. It is a formal, systematic 8 ?# K- b3 J ~- p+ kstructure for making decisions on policy, strategy, and the development of forces' w0 q/ h: v4 A% W and capabilities to accomplish anticipated missions. PPBS is a cyclic process3 \+ Q- C4 E7 b9 A6 r containing three distinct, but interrelated phases: planning, which produces the 8 d$ m2 M J* V+ qProgram Objectives Memorandum (POM) for the Military Departments and- z* `1 X1 d% u8 j8 ~6 [ Defense Agencies; and budgeting, which produces the DoD portion of the 9 I F0 Z* h5 l+ u2 H. r; n3 q& qPresident’ s Budget. DoD PPBS is a biennial process starting in January of each * ` b& x$ z5 j' R- bodd numbered year with national security guidance to initiate the planning" ^1 L) z* R0 J3 v3 G phase, and ending in January of the next odd numbered year with the! [$ a9 z# f5 Z! C' z President’s budget submission to Congress. (Defense Systems Management 1 O2 |. \& z- ^% ^: V9 G3 RCollege)( R% k7 k* \( A' G" X9 m" e PLCCE Program Manager’s Life Cycle Cost Estimate. @2 K! q, _/ }3 K7 xPLISN Provisioning List Item Sequence Number (ILS term). 8 V* |) T. r- D3 `6 K/ MPLRS Position Location Reporting System. E6 ]: ^# i9 t' p2 u5 M# TPlume Data + }% q. t9 {4 o* ^' m8 x; t7 {, O) uCenter( E# h' C3 V; g. j2 u& }- D AEDC, Arnold AFB, TN. 5 e; b1 a! O5 ]" ^2 e6 m) NPLV Payload Launch Vehicle. ! [: E6 U& S& [8 @PM See Program Manager. + V2 ~4 {" p" v6 ], U nPMA (1) See Program Management Agreement. - a# M3 K+ T0 Y(2) Post-Mission Analysis.4 |6 A$ Q P3 P5 k (3) Pressurized Mating Adapter (NASA term related to the space station). 0 r: P# I3 j4 |3 C. f2 v6 J- k1 o4 yPMASIT PMA Software Input Tool MDA/DPI S/W tool). ( W9 m6 M: p2 `+ JPMC PCI Mezzanine Card (computer H/W term). 2 F7 e6 `6 D( Q' MPMD (1) Program Management Document. (2) Program Management Directive (AF).# n7 J& }4 y4 x. D PMEL Precision Measurement Equipment Laboratory. ( m+ N r) d+ u% X; BPMI Preventive Maintenance Inspection. * B: l6 ^' M5 n# MPMIT PATRIOT Missile Integration Team (PAC-3 Program term). 0 a+ p( p: s" R9 BPMJEG Performance Measurement Joint Evaluation Group.4 w7 c, b4 x: l: q) V7 X, b& B( d PMO Program Management Office.6 M7 P7 Z* q+ p MDA GLOSSARY, VER. 4.0 P 1 C' L P* D- z( i9 Y* `226 6 M( K+ s4 v- _5 n. t$ LPMP (1) Parts, Materiel and Processes (US Army term) (See also MPP). 9 K G# b2 }) T& s& X8 e(2) Program Master Plan. 7 f m, v3 n0 x(3) Prime Mission Product.! J+ C- @- Z' U/ [, m* x9 r$ V (4) Program Management Plan. $ K' E. s. o* f1 w: ?PMR (1) Program Management Review. 2 l, l5 R& \% A4 h0 J" t(2) Pacific Missile Range. 3 A" h" @, G6 g8 w(3) Program Manager’s Review (PAC-3 term). 7 B. W8 P. u' F1 O7 JPMRF/KTF Pacific Missile Range Facility/Kauai Test Facility, Barking Sands, Kauai, HI.# Z4 v! \. A3 u' G2 ? PMS (1) Planned Maintenance System (ILS term).7 ~# m- ]) h" ^3 ]' D) k8 K- u( p1 R (2) Performance Measurement System.8 N2 T6 i, ~+ R( i P8 \1 B PMTC Pacific Missile Test Center, Pt. Mugu, CA.' l9 `; J) d% ^! D3 t PMWG Producibility and Manufacturing Working Group.2 ]4 L7 U: I, H1 C) U PN Probability of Negotiation.( p, i# a# p& t8 L" |3 g+ b. Z PNE Peaceful Nuclear Explosion.7 Q% _! q1 c u& n* N. b PNET Peaceful Nuclear Explosion Treaty. 2 j# q; Q' U% C- O4 rPO (1) [Acquisition] Program Office. , c5 N8 v& g* S/ p0 m- B6 a( n. b(2) Purchase Order.6 C4 K" f2 o$ e+ ~" x$ W POA&M Plan of Actions and Milestones.3 A. e2 D. R3 Z/ c+ I POC (1) Point of Contact. (2) Proof of Concept.$ g8 }2 m: x# D POC/ET Proof of Concept/Experimental Test (e.g., modular USSTRATCOM ground mobile ; h9 P' g! T C" ~0 b5 q* Vcommand post).; ~4 l* v* J; i9 w POCT Passive Optical Component Technology.! I% }4 H* q+ m6 }* A* v. N' L) t POD (1) Plan of the Day. (2) Probability of Detection. (3) Port of Debarkation. 7 S3 C6 B% X4 B' m+ Z! IPODIUM Project Origination Design, Implementation and Maintenance. / s4 [' b" W! a MPOE (1) Program Office Estimate. (2) Projected Operating Environment. 4 l' k9 A- b- F7 f( MPOET A consortium of scientist and engineers from FFRDCs providing technical support & l, B, x. H$ r$ X% q# Wto the MDA. (Formerly referred to as the Phase One Engineering Team.) ; N& K e- D# h/ G3 G( K/ N! CPoint Defense The defense or protection of special vital elements and installations; e.g.,7 l9 L. Z/ w- |4 }: O/ @ command and control facilities, air bases, etc. ; b# \6 L# u( j. g$ p8 s4 U. HPoint Defense / }8 E( j M+ j; Z* tSystem 0 r4 k" a9 x- _A terminal defense system using radars and large numbers of guided projectiles0 x6 ~/ Q/ X# n3 f$ q5 t to defend ICBMs. This concept was considered in the early 1980s. $ K2 |2 m' A( D8 `/ wPointing The aiming of sensors or defense weapons at a target with sufficient accuracy " ~: k5 r8 P5 seither to track the target or to aim with sufficient accuracy to destroy it. Pointing g: Z. U% E3 R% [2 t: p$ A and tracking are frequently integrated operations. . j& s5 E2 [3 L* z, u5 k R3 ~POL Petroleum, Oil, and Lubrication. ( {% }( j2 R& B" p& dMDA GLOSSARY, VER. 4.0 P , y+ x3 c+ p% H2 m8 a227% ]( q1 |) T4 I$ l6 S( Y, ^ 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. ' S$ a- |$ r6 D3 TPOMCUS Pre-positioning Of Materiel Configured to Unit Sets.! Q+ ]2 Q+ ?" w0 w$ v) M: A POP Proof of Principle.& |: n- y% `$ S/ t Port Covers Mechanism for thrust termination of solid-propellant systems. 5 g8 i7 j" |0 J" B. fPortability (Software) The extent to which a software component originally developed on ' @; e) v3 {) ]5 v# eone computer or operating system can be used on another computer or% _6 M" U3 b) X0 n' O4 ? operating system.2 C5 d6 l( E( N- C POS (1) Primary Operating Stocks. (2) Probability Of Success. (3) Position. : V, @4 s* `5 h9 X- f0 E& CPoseidon Class of US nuclear ballistic submarines (USN term).4 X" B& b# O3 Z1 O6 a4 b POSIX Portable Operating System Interface.+ a$ i- t# h/ P& a3 | U POST Portable Optical Sensor Tester.0 k! l1 G7 p$ v7 S9 M0 x( A- N Post-Attack The period following the attack, prior to the next wave.0 t, Y, }3 A) I" [% S6 q% w Post-Attack + u5 m/ k \* v3 c- cPeriod - J( r% M+ i, U4 @3 S# h# D+ `6 JIn nuclear warfare, that period which extends from the termination of the final2 Z% d! c$ y( B; |; o0 A$ o: I# M% U! l- E attack until political authorities agree to terminate hostilities. ' Q' h8 p; X! W. I3 y+ x& mPost-Boost $ b) b4 Q: c) P6 _; q, X; DPhase (PBP) [, c) Y$ h) n2 S, A1 T& iThat portion of the trajectory of a ballistic missile between the end of powered) d- B- u2 U L5 V2 O. A$ \ t flight and release of the last RV. Applies only to multiple-warhead ballistic! m' c0 @0 N n8 T4 _6 K1 o, Y missiles. (USSPACECOM) + ?& a* K+ Z x m- I0 [8 d0 iPost-Boost" i* i& T$ X* S Vehicle (PBV) # G5 y* T" L- l; U9 cThe portion of a rocket payload that carries multiple warheads and which has the 2 D1 ?& E9 C4 F* d) Pmaneuvering capability to independently target each warhead on a final $ b' \4 M+ t" v' C" r. d# C V: Rtrajectory toward a target. Also referred to as a "bus." + s+ c7 i) s6 nPOSTPROD Post-Production.+ ^/ c: y. A9 c# j( U0 G POTS OBSOLETE. Phase One Threat Specification.: W4 o& d5 R7 M& l# ?# P) ?8 a PP (1) Parallel Processing. 4 n3 l! {4 r- ]% Z(2) Principal Polarization. ' A+ T. _& v; @, Q(3) Post Processing. " D7 \3 J9 Z# V; L3 [. q6 q(4) Program Plan. 8 }3 q& p' `" a' [5 V8 vPPBES (1) Planning, Programming, Budgeting, and Execution System.4 } `, `) t1 c (2) Program Planning and Budgeting System.3 E7 D' ]7 d3 x) ] PPBS Planning, Programming, Budgeting System. ' m/ E) w! ?& N7 R& c1 G/ @/ S9 O& ZPPG (1) Parallel Programming Group. (2) Program Planning Guidance. t7 B. s- G4 Y# v* dPPI POM Preparation Instructions.9 R K( ^ f% v8 X# B. ?9 { PPIP Program Protection and Implementation Plan.) \: u" Z# q# b3 }0 s PPIRS Producibility Programming and Issues Resolution Strategies. - N3 S9 F3 \2 m0 `8 _7 p+ lMDA GLOSSARY, VER. 4.0 P $ B, K$ H3 G+ s7 k0 ], h228 : ~: R" S& {2 [; q( E) E) Z* iPPL Provisioning Parts List (ILS term).5 Y& F b. d- r) q( r PPLI Provisioning Parts List Index (ILS term). `4 B9 I# x; L8 n4 ZPPP Program Protection Plan. . Z) `9 h4 @- E; {) H- @PPQT Pre-Production Qualification Test.) g. d% I0 }7 Q3 w PPS Precision Positioning System. ; \5 y$ Z* v$ o! HPPU Prime Power Unit (THAAD). # z5 A [1 G- \8 o: ^+ h& s, XPR Procurement Request. ( M3 C. [9 i$ `PRB (1) Planning and Resources Board. (2) Program Review Board.' ~ a, a. w4 c8 @9 W PRC Program Review Committee.4 v+ ~# s! o/ N; Y t+ w2 g) j PRD Presidential Review Decision.' v& O6 [. ]- j w6 w" U PRDA Program Research and Development Announcement.& p& f! J' v; U8 U PRDR Pre-production Reliability Design Review.; ~' V, O- P$ N( }" P5 C7 |. \ Pre-Allocated : U, s1 H1 m: L- ?. o! WDefense 6 ?9 r2 B8 }+ z5 D) EA preplanned decision to designate a specific number of defensive assets to be9 [% g5 X8 y1 y$ S* n; N% Q( m6 }" } used against a specific target or set of targets or to defend a specified asset or ) G8 [0 I# W0 S; p+ k) N- l, Gset of assets. The defense will select the best tactic to use based on the/ A1 C% V: C2 o, i5 g) q" c# N number of interceptors available, their probability to kill, the number of targets + }; q8 P! w3 L0 vunder attack to be defended, and the scope of the attack.3 b2 o% ~8 m! ~ Pre-Attack A period of time immediately prior to an attack, usually hours to minutes to tip-off.: S3 l2 h2 P4 ?3 U# X Pre-Authorized % t' U4 b' @( B2 E. pEngagement8 b4 y# g( Y. L+ _/ ] Criteria (PEC) f4 q0 q% \6 u" W0 o0 W Pre-specified quantitative operational parameter thresholds which when+ y: A) G' U1 Z- W7 l, H( m* r surpassed cause automated engagements to be enabled. ) A6 t, s' }: x( R$ p; ~6 s3 A( s! OPre-Commit : Q# q u( p* L8 p/ C5 I; GStrategy # g4 C( _: Q( W0 o9 IA tactic in which defense weapons are fired without being individually committed+ Z% c0 P' ?+ A$ Y" i to specific targets. Target commitment would occur relatively late in the6 L; S# ?( ^/ u( O0 a/ o4 L h defensive weapon’s trajectory. : x) U' X/ [5 KPre Launch) [! q3 E7 D, @. |4 Y5 k Survivability9 A4 }9 W {9 V The probability that a delivery and/or launch vehicle will survive an enemy attack % j: \6 d, C7 ^) Dunder an established condition of warning.0 ~* ~7 E+ F5 g+ F* m0 \ Precedence 1. A designator, which indicates the order in which a number of messages shall D" l- y5 i4 [+ ]8 a be served. Four precedence levels are provided for SDS, with one being the . J, a) S J: V! S" f2 l7 @& \highest and four the lowest. Messages with precedence level one are served0 h3 U# ~9 B) t first and those with level four last. These correspond to the four precedence# s! s$ {( P: G' h levels, Flash, Immediate, Priority, and Routine respectively. 2. (Reconnaissance)7 ]- ]. C' F9 {) z* W/ Y& X A letter designation, assigned by a unit requesting several reconnaissance# q8 g5 s: G! W$ N8 {$ b missions, to indicate the relative order of importance, within an established: w# K7 m" C9 b% N. m9 I# V1 A priority, of the mission requested.

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Precision ; t' U$ @% g& x8 U. BDecoys' ^8 h: w4 q( K9 u0 g) @ Decoys that precisely match RV characteristics either exoatmospherically or ( w# R4 d# d# I: x r8 A5 cendoatmospherically, or both, and seek to deceive the defense into intercepting % W6 R6 Y$ c1 A. w" B8 U) lthem.9 m2 a0 E- H, i* i3 O' F4 y9 C MDA GLOSSARY, VER. 4.0 P ! B! M3 I- _- L+ V3 r229 3 s; f7 y8 D- T0 |8 QPreconditions for1 v+ ^7 [3 \( V$ U Defense (PD); T' {% i w7 g$ i8 g" a PDs are NCA pre-approved criteria, authorities, and procedures that delineate ' q- {7 Z% U5 m1 ^( X* K5 _circumstances under which USCINCSPACE BMD forces will initiate or continue ' B0 K" T+ W' T% H& W ^combat engagements and operations against hostile ballistic missile attacks+ n4 s C9 X6 Y9 M directed at the United States, its Allies, or U.S. interests during peace, crisis, and6 w" d$ a5 {& g! } war. E& J" H. f3 w' L7 \1 E1 P Predicted ! R2 v" p; r/ o$ r/ J KIntercept Point' T+ B" r. p( r \ (PIP)0 Q: M5 D4 S, R( N7 f4 ]' |, W2 `# n The calculated position in space where the target and interceptor coincide.7 U0 ? o% ^! G+ U Preferential: Q$ ]% g" q! ^3 A: G/ Y: F3 @ Defense8 Z% T3 B4 P% s% j! A Preferential defense is the a-priori assignment of defensive assets to protect6 B) B' x! _4 t# Z& o given facilities or capabilities. ' i. a# N' ^3 j% M! m+ J, nPreferential " F9 W# Z' B# O8 G( @; X0 ~Defense Strategy 5 Q1 O! _- j% u! P1 Q1 t2 _/ EA tactic used as part of the SDS strategy to optimize the use of weapons and; j7 @4 S7 C/ p! T, p5 l( v sensors by selecting high value targets for engagement by the defense while $ e U6 H( z. T9 M- y4 Z, O. vtemporarily allowing less important targets to pass. This strategy forces the 0 z4 M _. N8 G' B& F4 d8 h0 O% Zoffense to attack with several times as many RVs as the defense has/ L- E) L2 X2 c0 Y* D interceptors. Since preferential defense demands precise impact point prediction,* S0 v# G- L; E7 H% J' M0 a the strategy is placed at a disadvantage if targets are closely spaced, if RVs can* X6 t2 @ F% I maneuver or if the defense intercepts ICBMs in the boost phase. & A- ]2 B/ f L6 e: A* {: uPreferential 8 O+ f1 I0 ?- `: J# h+ mOffense $ Y4 @8 w0 Y( }5 _) A0 S5 FThe concentration of offensive assets on a subset of targets.$ r1 B, i4 F8 ~% i/ p- m1 F Preliminary 7 D# h0 _& y! S( }- CDesign Review 2 H3 p; R6 m6 ?4 L(PDR) ! Q+ w8 g. E. \; }2 _8 Y( lA review conducted on each configuration item to evaluate the progress,3 r2 |6 N% T% t technical adequacy, and risk resolution of the selected design approach; to / i4 Y4 `2 S0 w. K, s2 gdetermine its compatibility with performance and engineering requirements of the 8 T! L; }5 W% d+ k5 y- [development specification; and to establish the existence and compatibility of " r/ H& a! p9 k7 Ythe physical and functional interfaces among the item and other items of . j; S- E# Z+ O" E0 x6 k" i& K% ~equipment, facilities, computer programs, and personnel. Conducted during @" ~. Y2 _* Y/ F3 _Phase I, Demonstration and Validation (for prototypes), and Phase II, & r, F% |& |, r# r3 t* N) VEngineering and Manufacturing Development. 1 N+ |, |* x! J8 L: ]# m6 gPreplanned 4 U# a! d+ t5 NProduct4 n5 l7 p9 ^+ u- O) M. K4 M! @+ Y, m Improvement 4 v% r7 M7 G; x! G$ @" ^: ?(P3 I)! M- U r: P8 Q6 @: S, E Planned future evolutionary improvement of developmental systems for which. x7 ?: z& t/ n4 v, L; p design considerations are effected during development to enhance future @, j7 d; M) x: ~* D1 p/ _application of projected technology. Includes improvements planned for ongoing' p5 L) S1 R3 O g+ y) s6 A systems that go beyond the performance envelope to achieve a needed & A+ p0 q3 |; v' p6 s+ foperational capability. + h' S2 A! i; i6 z! cPreplanned0 ~* K7 l' A: k- L! `- q Response6 ^0 n$ X) E8 A( l+ U% {8 B7 l Options (PRO) * K" K, D$ I8 l& X" V; x3 l; E3 XBallistic Missile Defense (BMD) reactions, which have been preplanned,7 @& @+ h9 O( Z- } analyzed, and pre-approved, for specific ballistic missile threats. The PRO, ' Q4 s1 \% {0 [# L3 q% e' Zequivalent to an operations plan, consist of a number of Defense Employment 1 r: h* t- Q5 `, p, ?, J; `$ B, sOptions (DEO) which provide force employment objectives to Component forces9 y4 U5 f; k1 w+ V g based upon the world situation, national objectives/guidance, BMD asset status, + w3 }2 u# M2 Jand the intent of the threat. PRO is automatically processed with real-time( [" W, B4 g* ]# `1 S# i& L& L human oversight and control when USCINCSPACE directs execution. 6 p0 M9 {, l2 e; ?" F' W0 bPreproduction o5 q( \5 v* K" w5 r Prototype, q$ N3 f3 b' U0 n8 f0 f An article in final form employing standard parts, representative of articles to be 9 {+ p( W. ?% ~. Z2 Y! r. j& i* l; ~/ xproduced subsequently in a production line. * O/ ?* y9 L3 l, y) K1 ZPreproduction 6 S% k/ ?5 @: e, v7 pTest 7 O, ]* U" D; O$ M1 h9 tThis is a test of design-qualified hardware that is produced using production 3 f! O& V, }) N z S$ ztooling and processes, which will be used to produce the operational hardware.. M. h5 }- \1 q No production hardware should be accepted prior to satisfactory completion of - C6 X. B5 q' C( {9 Bthis test. Test objectives include: gaining confidence that production hardware ) N$ m% D, b8 Fis going to work; that it will be reliable; that it can be maintained and supported ( J5 G& M4 a4 ?/ V5 B$ E; nby the user; and that it is not over designed. . {& o: U2 ?7 n3 E7 u. F' D& hMDA GLOSSARY, VER. 4.0 P 2 l0 o: Z3 I, A. _3 L230- E9 V. g! U1 \7 @ Preset Guidance A technique of missile control wherein a predetermined flight plan is set into the 8 E. Q2 V. s" n! [7 s& Lcontrol mechanism and cannot be adjusted after launching. m% [- m1 d9 P8 c. [ President's" d7 b W' u3 C/ e Budget (PB) 7 V/ E7 O$ e8 Z) t+ WThe Federal Government's budget for a particular fiscal year transmitted in ) d0 s5 @$ V+ j: c7 ]5 k9 MJanuary (first Monday after January 3rd) to the Congress by the President in 3 L: ]7 m/ Z1 ]2 laccordance with the Budget and Accounting Act of 1921, as amended. . ~, l8 M1 v8 i- T+ y* X b3 m6 iIncludes all agencies and activities of the executive, legislative and judicial / k, H) Y7 M4 f5 a9 ~9 U0 `branches (For FY 88/89, two-year budget for DoD submitted in January 1987.) " J3 m, j: u3 oPRF Pulse Repetition Frequency.- b% S$ Q' H% E% S; b4 k PRG Program Review Group.1 V, r; ? p1 A Prime Contractor A contractor having responsibility for design control and delivery of a system or, C" ^5 V- t0 M. c equipment such as aircraft, engines, ships, tanks, vehicles, guns and missiles,' {) [% M# h. |- W ground communications and electronic systems, ground support equipment, and % P7 g0 d. |5 M& s' c" Stest equipment. - P+ T) q. a. n( T O2 A1 ]Prioritize Targets To identify and rank targets in priority fashion, based upon criteria such as type, 5 |3 i! H+ N. q, F8 L* M9 Rpredicted impact point, and predicted time of impact. % ^2 _& w3 ~2 Y2 P6 j1 d# N) ^PRN Pseudo Random Noise. 7 Q1 J* z# `& n" U" R) R2 V+ KPRO (1) Preplanned Response Options. (2) Plant Representative Office. 2 @8 T; e/ |/ X& NProbability of 0 N6 v! L3 l3 D, j6 |Damage# H/ z3 I% p# Z: D& s5 y8 t+ O The probability that damage will occur to a target expressed as a percentage or2 l) P Z/ A- y8 z as a decimal.: E! J+ ~6 ]5 \ Probability of % e8 v7 l% V0 S& E( [4 F$ w: Y! _Detection. a; @, G- b6 H1 z% c4 _, ^# D4 \ (1) The probability that the search object will be detected under given0 }' G' c! }" v! M# V conditions if it is in the area searched. + z& M5 b% ` L {* S# p(2) The probability an object will be detected given all known error and noise 4 }: `3 J, l; X+ ~4 dsources.

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发表于 2008-12-25 20:17:22 |只看该作者
Probability of6 r- r7 A+ f8 y' G# ^' P# ? Discrimination - |5 T! S; E8 v* A* L# f: B) _& k# VThis is the probability that an object, which is threatening will be correctly! z9 D* D1 a8 [+ p8 }# y) i identified. The ability to discriminate between a potential target and a decoy is 2 E. x, n3 T% O3 gquantified by a “K” factor, in which the higher the numeric the greater the1 \% R3 g: `4 [' N3 q probability of discrimination (thus, a “0” K factor implies that the target is ( M( q* r) ?: {7 ` Y8 K' s& cindistinguishable from the decoy).! T% K# Q# T3 t& A1 {) l+ R Probability of 3 }# K2 p1 L0 a7 U' M iFalse Alarm- k4 `# `9 D& q% w4 `8 s0 Y (1) For a single sensor this is the probability that an object will be detected/ A+ s# s2 k3 {$ f6 }. k when no object is present.% q$ P3 E7 _5 V' N) p! C (2) For discrimination, this is the probability that an object, which is not a" n. |7 H3 |! Q* j: J' o' U8 h threatening object will be identified as one.5 [3 g" R0 f; @1 Q2 H" I Probability of Kill The lethality of a weapon system. Generally refers to armaments (i.e. missiles, * G/ ? Z' O& z. Uordnance, etc.) Usually the statistical probabilities that the weapon will detonate : X) C) [: U; [! A7 p- xclose enough to the target with enough power to disable the target. (Defense $ w. ]& K- n& ~& H- q3 B1 @Systems Management College): ?4 ~" l$ J: ~3 _/ t5 T | Probe The air vehicle of the GSTS. # K/ g% a; F* d# \0 ^! j" f( EPROC Procurement.- i9 n2 E1 C0 U Process Data $ Z8 O( Z# R. v! u! r7 c+ bSensitivity Label O, M# E2 E4 D; T, z, p X(PDSL) 7 _9 ]1 c o, d2 y8 }+ oThe sensitivity label for data contained in a process., ~3 w) Z' ]7 t; C' } MDA GLOSSARY, VER. 4.0 P) j& _: W$ p( n. ^3 ` 231- j7 u3 G3 |9 }% p PROCMT Procurement. : u. o0 q/ C) u) p; XProcuring! w9 {8 l+ @6 F6 w9 ^1 e k7 c Contracting $ e9 f' G- w; C$ B! X3 rOfficer (PCO)3 `, y y# i+ U# _! q The individual authorized to enter into contracts for supplies and services on' x, ]0 n" I* Q behalf of the government by sealed bids of negotiations that is responsible for+ V# n+ ~1 s7 S j( f: | overall procurement of the contract. 3 H% r n2 E" L7 p1 oProd Production. ( o6 a4 w" N6 N5 L9 N+ ^Producibility The relative ease of manufacturing an item or system. This relative ease is 2 F6 d/ Z+ l, J. p% H& `$ Xgoverned by the characteristics and features of a design that enable economical3 a- a4 q" Q# @6 G/ @5 M fabrication, assembly, inspection, and testing using available manufacturing " @6 X5 z% O8 Q7 Xtechniques. - R1 H0 v2 x: k6 _6 X/ F. h3 CProducibility,4 p& Q7 Q6 {% k" C' q: @. q Engineering, and : `4 r) Z H7 t. s; z3 R YPlanning (PEP): B8 K/ E2 O g4 y Applies to production engineering tasks to ensure a smooth engineering . C2 E1 {$ d" gtransition from development into production. PEP, a systems and planning 4 F- r* a0 n& R7 _4 e) A# `engineering approach, assures that an item can be produced in the required ; ]: M2 O! P5 m6 M! @% z* s4 ]quantities and in the specified time frame, efficiently and economically, and will8 o8 i; M. g' m1 B, S1 q6 g meet necessary performance objectives within its design and specification : v; S) U# X! Z4 c% Y8 ~6 a6 P' rconstraints. As an essential part of all engineering design, it is intended to. I6 l8 z; E8 v# Y q identify potential manufacturing problems and suggest design and production ^+ w3 |. L& M' F! l changes or schedule trade-offs, which would facilitate the production process. ' B6 s( t7 \/ M. a: BProducibility, ' m+ H5 w9 N# [1 a$ x6 \Programming, ' }' J. g% o/ Z3 j4 Eand Issues' h6 E/ I' m- x& p. \* G Resolution 9 a; |: x* t/ Y! s% \" E, LStrategies 8 n6 v/ E& B _$ r- W(PPIRS)8 u7 o% J: Z) p A semi-annual document put out by the MDA P&M community listing all medium A; D" u2 b& L* ^8 f and higher P&M risk issues as prioritized and coordinated by the MDA P&M + F- m3 h5 O5 i( b u* b( uWorking Group.( N6 X+ V3 G1 K2 O2 q Producibility# r$ v. @ A$ {. w8 j Review3 d. t+ Y1 @$ h+ s2 J- `9 U5 { J& R8 g A feasibility review of the design of a specific hardware item or system to. w1 S! o* ~2 V4 b% ]2 X9 C determine the relative ease of producing it using available production technology 7 M1 R; ~& k6 v6 g3 r, Zconsidering the elements of fabrication, assembly, inspection, and test. This is a ; p. u# Z: T& ~generic term for the concurrent engineering portions of MIL-STD 1521 system% S' u. i' N3 i( P# s- _9 g; R8 y design reviews. 0 |% `; J) q6 E& C6 u4 a$ PProduct Baseline (1) Established by the detailed design documentation for each configuration/ z4 _) |* A1 A4 U item. Normally includes Process baseline (type D spec), Material baseline 4 k7 K, ^, X0 S. t- [8 }(type E spec), type C spec, and drawings.. z( c1 [ d" { (2) In configuration management, the initial approved technical9 R4 M! @5 l I1 B8 e documentation (including, for software, the source code listing) defining a " y9 h, P- B" _1 X, m& t, lconfiguration item during the production, operation, maintenance, and* f: Y/ l0 w& l4 B logistic support of its life cycle. , ~% o, I' x* e0 o" @. i& h* ]Product& R. M& ~; {; b# k9 h Configuration ' |0 o5 I* A6 ]$ k7 z# a1 a$ n$ qIdentification 3 b9 h& z" Q+ U9 a( f3 [The current approved technical documentation which defines the configuration 0 H B# Q% A7 x3 Jof a configuration item during the production, operation, maintenance, and, ]# [7 i1 ~8 c2 _ y) G, g3 h logistics support phases of its life cycle and which prescribes that necessary for:# q* X% w5 @$ @$ d8 a7 r9 J fit and function characteristics of a CI (Configuration Item); the selected ; c0 c, b; m$ m: Nfunctional characteristics for production acceptance; and the production* P. H6 O6 v5 J* V$ n& i- K: _% d acceptance test. ; c4 i0 {% U1 f" uProduct P3 | l1 r5 B) e0 o5 B- B( h Improvement# Q$ W: C7 ]: K7 [7 Z. Z' B q Effort to incorporate a configuration change involving engineering and testing on ! k" m# Y4 z5 D3 |end items and depot repairable components, or changes on other than 7 n2 E, W$ C; _0 T. B6 V- ydevelopmental items to increase system or combat effectiveness or extend , C: E) Y& P$ m* {& H# k" Y" y+ {useful military life. Usually results from user feedback. & I1 ?" D1 p2 J/ Y6 ]MDA GLOSSARY, VER. 4.0 P - V( x; A* {# B: i( ~9 s232 ( m+ t: k) c. a4 n: m3 QProduct Manager The individual, designated by a materiel developer, who is delegated authority- W4 y* o. b) t; G and assigned responsibility for centralized management of a: H- u' p$ b2 a# {( J0 U development/acquisition program that does not qualify for 8 g! }6 A3 X. Asystem/program/project management. : _& k' u' m* _2 H. C0 `Product Security & S0 r4 @. r0 J& V9 X4 O5 h(PRODSEC) 5 U+ t7 b# ?( K2 T$ oThat physical security provided for selected DoD products (major, high cost,6 A! A; r$ m* ~% g) ~9 [2 \% k; R politically sensitive systems with significant military value) at Department of/ t2 U$ z4 ]% j, R. p; n( d Defense contractor facilities to mitigate the risk of the government as a selfinsurer. Defining and instituting product security during production are essential 5 Q9 V1 Z+ Y/ f! mto the delivery of uncompromised systems.

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