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发表于 2008-12-25 20:07:59 |只看该作者
MDA GLOSSARY, VER. 4.0 H * h* h& q {, E ^) q, n130( @% c( {: Q' |+ x% m3 Q' W) T Human-in-Control Human-in-Control provides for the positive control of automated system: S1 u6 j! d7 X0 w5 X! A processes. This is accomplished by requiring human action to provide essential ; W3 _7 d" Z$ ]high-level commands such as initiate, terminate, and interrupt. With regards to2 K$ g9 S) Q) }- n8 Q BMD, 10 USC 2431, Section 224 states that: “No agency of the Federal ' b, M% B1 g7 k$ q/ l) f) y6 nGovernment may plan for, fund, or otherwise support the development of4 f# e* @, q9 W3 e; _! \% }, W _ command and control systems for strategic defense in the boost or post-boost + ~7 X; H; f( cphase against ballistic missile threats that would permit such strategic defenses+ z) s/ `+ s' B7 p. Z2 _. e' T" U to initiate the directing of damaging or lethal fire except by affirmative human; b( _2 p1 U0 @$ W3 S7 j( z7 o decision at an appropriate level of authority.” (USSPACECOM) - [' o! ?/ c2 M. o' A' cHuman( Y; N9 S; b( Q* A+ A% [$ ~ Intelligence 0 ~* v# V/ S/ i+ ~(HUMINT)- @) G! x" p$ S Y- X A category of intelligence derived from information collected and provided by4 R0 I4 e/ }& I, {6 W. U, |' m human sources.( S' p3 t& q9 T* W& {( j7 }0 | f1 d Human Systems& O9 I' m' V" q& ]; \' `' f1 J4 ] Integration+ X: L9 l' e9 ?4 E% c The human considerations (human factors engineering, manpower, personnel, & N1 X9 e4 Q7 I x8 ?% f/ a. v& Gtraining, and safety and health hazards) that are integrated into the design effort 9 m! W q% V8 g2 c1 [; cfor the defense system to improve total system performance and reduce costs of * S% |- b; L( G$ Mownership by focusing attention on the capabilities and limitations of the soldier, } ?8 u3 t( J3 V1 u6 {% f) ^8 e sailor, airman, or Marine.% S, I7 s2 i9 e/ J- I w$ E1 J& C HUMINT Human Intelligence. 2 @) X) g2 d6 C4 _! X0 v8 ^! W8 HHVAA High Value Airborne Assets.1 w; A$ p# G; e: \& x7 ~' ]& ^ HVAC Heating, Ventilation, and Air Conditioning. # o) @ I# g$ T/ m! u: uHVG Hypervelocity Gun. O! o! {- o% _! h# u6 @0 S+ k8 }0 p8 P HVL Hypervelocity Launcher (Gun). 7 s! X8 [. r# X3 C% r, K2 _HVM Hypervelocity Missile.+ a5 m V, w+ D E* h HVP Hypervelocity Projectile. " y8 N0 F* y( \ d, nHVT Half-Value Thickness. 3 W# P9 e$ l5 E# T# s3 mHW Hardware. 5 r) m6 N: y( J% U; eHW/SW Hardware/Software. ) s" _ U! _7 R) }# Y* ~+ UHWCI Hardware Configuration Item.! A9 ?9 f( Q. B C HWIL See Hardware-in-the-Loop. " q2 R8 T. F e) |3 @3 G$ wHWILT Hardware-in-the-loop Test.% `6 \2 ^" U9 g# M" l" Y/ P HYLYE Hypersonic Low Temperature.! S1 b+ ?; O R6 X Hypervelocity% `6 L' [" d1 Z; f Gun (HVG) / S: e8 \% G$ J- ]5 I5 a9 ?+ ZA gun that can accelerate projectiles to 5 km per second or more; for example,( W; z& {8 |$ q) t an electromagnetic or rail gun.* M6 G4 B2 d$ K9 p! c% B! j Hypervelocity3 Z" {6 O9 p. r! f( R Missile (HVM) 7 m3 @( F b/ q" W" iA missile that can operate at a velocity greater than 4 km per second.' y7 \ Y5 t. A% Y1 S; h HYWAYS Hybrids with Advanced Yields for Surveillance.' M7 _3 t$ T0 ^$ u; k6 b Hz Hertz (cycles per second). % c7 v0 e# \1 n6 f7 R, U8 NMDA GLOSSARY, VER.4 .0 I . V* G$ o$ Z+ a1310 r. f* X4 d+ m6 ] I&CO Installation and Checkout.( [1 m9 w6 F7 s I&I Installation and Integration. + H/ \" [2 c3 l: J& Z4 kI&PA Integration and Performance Analysis. / F& Q5 P# ]. O4 x$ S( S7 q2 Q1 j( RI&T Integration and Test. 2 y8 Z4 i8 n2 c8 h& o! TI&W Indications and Warning." o. O n0 ]5 K O: P I-CASE Integrated Computer-Aided Systems Engineering.5 W a! v" {# ]( Q/ p8 N I-HAWK Improved HAWK. . }, N, [3 e; L( D, O) YI-MOSC Integrated Mission Operations Support Center (USAF term).& P6 S4 ?9 _3 y6 _2 x$ d I/F Interface. ' h! Q2 L; {# t$ D* y- M6 GI/O Input/Output.7 M. a' ` b3 R- ^) ^8 e" h I/R Interchangeability/Reparability. 0 G' d2 y, W X% W# YI4 International Information Integrity Institute.1 @9 X% P' x7 r( I. |- \ IA Information Architecture. Y- `& l# R4 w, ]! I9 }IA&I Industrial Affairs and Installations., }* V- c _2 @/ [' C7 H+ p$ p IA&T Installation (Integration), assembly, and test. 2 k) e+ k# B# B( O1 I6 H9 \( LIAD Integrated Air Defense.9 N+ o$ n8 e) k0 h IADS Integrated Air Defense System. & P; k3 @0 h" U" ^) A' `' g7 hIAEA International Atomic Energy Agency. 2 ^; p) C6 N" K9 ?, V* b8 Y" QIAG International Agreement Generator./ I5 v |) @' x' `3 z+ ?$ D% N IAI Israel Aircraft Industries.& Y; N9 Y% \4 E IAP (1) Integrated Action Plan. (2) Integrated Avionics Package. ' I" w" ~/ l% E# c% K: A; OIAS Israeli Architecture Study. - m$ T" q3 ` c6 K+ [/ oIAT Integrated Assembly Test., Y9 h$ U5 R3 n, R IATACS Improved Army Tactical Communications System.2 i) }% V1 j: r IATCO Integration, Assembly, Test & Check Out. 0 I7 T" T% m8 Q `: Z- w8 ZIAW In Accordance With. - k. f/ ~; x8 O( {7 v% yIBA Industrial Base Assessment. 1 { {$ g2 o9 p# `) ]) t& X- R ZIBC Impurity Band Conduction. ! \9 M( O2 o" V+ O) qIBCSi:As Impurity Band Conduction Arsenic Doped Silicon. 5 n5 _: D- u; cMDA GLOSSARY, VER.4 .0 I 8 s- _1 W) p2 E% w% o4 x9 G H132 & V7 m$ s( F% K, ~+ V) pIBDL Intra-Battery Data Link. . c! N9 n& U2 S: }IBID Integrated BMC3 Infrastructure Demonstration 8 o8 c% V7 |$ F* M" ?' P8 }5 I' BIBIS Israeli Boost-Phase Intercept System. % \1 f* b* m6 H, c9 `; |* |IBM International Business Machines Corporation." i7 b6 p* C2 a! G' A IBPA Industrial Base/Producibility Analysis.- T" S. _ Y9 W8 o: ?8 } IBR Integrated Baseline Review (DD 5000 term). - g; l0 v2 Y, F" Z: g- w0 D/ K, eIBS Integrated Bridge System, a part of the Integrated Control System (ICS) for US4 h {# ^& \) n- e" H: I% p! u, w naval ships.7 _; w0 H* j$ O+ [% n! M IBSS Infrared Background Signature Survey. * A. k' Q- v" @" mIC (1) Intelligence Community. (2) Integrated Circuit.0 `/ H i# w- ]5 R ICA (1) Independent Cost Analysis. (2) Independent Cost Assessment.4 m) j, F& ?/ s, N% c& s4 h. m ICADS Integrated Correlation and Display System. ) t7 _4 L& B2 l3 Z* ^ICAF Industrial College of the Armed Forces. & ?- h5 H7 P8 j, @ICAO International Civil Aviation Organization. & \% j Y; n- w1 A) @8 n" u3 P. {0 {ICAS Integrated Condition Assessment System, a part of the Integrated Control 2 W$ t+ g$ m$ ^: aSystem (ICS) for US naval ships. . S* O# Z3 r# l. u* X/ z+ N+ |' iICASE Integrated Computer Assisted Software Engineering. % F# n) z2 G5 u! [, SICBM See Intercontinental Ballistic Missile.' \4 \8 N) T, }6 D9 L" i. D ICC (1) Information and Coordination Central (PATRIOT). B9 o4 Y" b7 S j(2) Item Category Code (ILS term). " G$ E2 U [1 F( Y' @/ L) @ICCIP Inter-Center Council of Information Processing. " }3 B4 a( w& @% KICCITS Inter-Center Council on Information Technology Security. ! q D3 {" r: v0 w* o3 qICCN Inter-Center Council on Networking.2 ~( a. }4 W) ]' ~ ICD Interface Control Document/Drawing. , C' |1 _; a! M! wICE Independent Cost Estimate.: z7 H: [9 U3 B- s, @+ p+ T ICEDEFFOR Iceland Defense Force (NATO).' n: `8 P; g+ q6 |+ `) Y ICM Improved Conventional Munitions. , ~1 y1 h& G+ j- G. ~" `; A: C8 ~ICN Installation Completion Notification. ! K1 V( `1 w4 Z! k) AICO Interface Control Officer (JFACC term). 6 D! [- T- a( i3 m: P( K9 ~. U; xICOE Initiations, Commitments, Obligations, Expenditures. : ^9 X0 l9 p3 b# {* AMDA GLOSSARY, VER.4 .0 I) H1 \: C% C6 B& o9 U 1330 d, h- b9 {7 s ICP (1) Interface Change Proposal. (2) Inventory Control Point (ILS term). % B4 }- z& t) M* [# e) D(3) Interface Change Proposal. (4) Interface Control Process. * }" h5 ^' t! j1 m* [ICR Integrated Contracting Report.$ ?* v- c- ~7 t/ Y8 @ ICS (1) Integrated Control System, a computerized monitoring, command, and, E- e8 B. W7 i8 i8 U8 @7 r8 Z control system for US naval ships.4 I% T6 i, p* l1 t) p X (2) Interface Control Specification.3 H; _4 i' ^$ s | ICU Interface Control Unit.1 _3 x8 D" H2 @" ^ ICWG Interface Control Working Group.6 ]/ p* V, Y" }) D ID (1) Interactive Discrimination. (2) Identification. 4 @6 M' L) Y" g5 v3 f, b- XIDA Institute for Defense Analysis. 6 {8 M, D1 H, D! H. H% N( S$ xIDASC Improved Direct Air Support Center (USMC term). 3 L2 A1 F, r. [0 E' I, k; dIDB Integrated Data Base." i6 g* J; u- h `/ y IDD Interface Design Document. # J4 J" o+ q8 iIDEA Integrated Dose Environmental Analysis.. I p' Z8 |# R; j+ V IDECM Integrated Defensive Electronics Countermeasures (USN/USAF term). . p: V0 U6 y2 G9 bIdentification : r" F& \- f* \' `* YFriend or Foe1 P$ a% b+ V! X/ Y (IFF)' Q9 b) \* M1 f A system using electromagnetic transmissions to which equipment carried by6 A4 Q# W8 Y" S- @1 S! Y- ~ friendly forces automatically responds, for example by emitting pulses, thereby # C, A7 I% K9 h1 }( s$ h$ p, m/ Edistinguishing themselves from enemy forces. 1 @# K+ u8 q1 Q8 f7 wIDG Institute for the Dynamics of Geo-spheres. ( P2 j( W' _! H, u! KIDHS Intelligence Data Handling System.( n! [7 i* i" K: u; N1 ^' P4 h' k7 h, u IDIP Integrated Development and Initial Production./ o/ X3 w, ~( [, J IDR Initial Design Review.

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发表于 2008-12-25 20:08:15 |只看该作者
IDS (1) Interface Design Standards. (2) Intrusion Detection System.9 D9 y5 Z8 E: A; ^# x7 O: S IE (1) Independent Evaluation. (2) Integration Exercise. . L$ D5 a$ {9 [7 JIED Intrinsic Event Discrimination. / [8 z$ I5 U/ ^- \+ d! tIEE Institute of Electrical and Electronics Engineers. $ P. S" L/ p4 q3 UIEI Integrated Engineering Infrastructure. " g- z c% F; ~IEMP Induced Electromagnetic Pulse." f1 `9 S# n. z, _, U IEP Integrated Evaluation Plan. $ ?0 V/ L* @. N/ |: O" ?& Q& p* [IER Independent Evaluation Report. ) V1 ]* j/ T1 i+ B2 \* d" q# hIESG Internet Engineering Steering Group.! N! u2 {) P& C' F* ~0 A MDA GLOSSARY, VER.4 .0 I: E8 [. P5 e0 S1 x0 r 134 6 C( x9 b- H3 B! eIETF Internet Engineering Task Force.8 C* V. [, k4 e0 ]9 p+ d: v/ p6 @ IEV Integrated Experimental Version.: F' B- d+ g4 T+ o* P IEW Intelligence and Electronic Warfare.5 @" D1 ^7 }2 R( N IFA Integrated Financial Analysis. 6 S/ Z4 F* l2 _ G) }IFF Identification, Friend or Foe.* O" I% N5 P( H# c9 c: N9 g8 [ IFHV In-Flight Homing View. / Q. ?8 `, M2 MIFICS In-Flight Interceptor Communications System. IFICS provides the& n& G" b5 _% m. o communications link between the ground and the space based NMD assets.1 e& K& \2 ~/ y6 m' P The generic term IFICS replaces the obsolete design specific communications / r8 x3 }: B5 q/ gsystem term GEP.3 {# n' T u3 p# v2 w5 {$ Z) H& m IFOG Interferometric Fiber Optic Gyroscope. $ \4 @2 H) I5 ]IFOV Instantaneous Field of View. , T* i6 j+ U! p8 ~$ J. ]IFSR In-Flight Status Report+ p$ ^ e" x9 a7 c, z+ x7 A! f; C IFT Integrated Flight Test.# H! H) k& G; l3 p, J# L IFTU In-Flight Target Update.# y( C1 `4 T d9 u* v IG Inspector General./ Y2 N8 }' s* D% H0 ~ IGEMP Internally Generated Electromagnetic Pulse.0 q X. \# ~3 v3 @7 y IGES Initial Graphics Exchange Standard. % E+ d+ u. k( M% l: a, b$ zIGS Inertial Guidance System. , p; Y7 o5 a4 O- D. y: TIGSM Interim Ground Station Module (JSTARS).- c/ Z R/ W: i2 x( n* a IGT Integrated Ground Test. . b0 O" c) ]. W* HIGU Inertial Guidance Unit. & z7 o! D, C+ R+ WII Impulse Intensity. + }4 u# h( d1 jIIP Interoperability Improvement Program.) Y/ o" P6 ?. p$ p/ _3 z4 U IIPT Integration Integrated Product (Process) Team.* q& b4 v3 n/ ]6 A, k: j2 | IIR (1) Intelligence Information Report. (2) Imaging Infrared.3 o7 s0 x4 j2 c3 D; Q IIS International Institute for Strategic Studies (UK).2 T7 x+ l/ }" z# ` IIT Interceptor Integration Test.$ Z# m" P8 Y! z$ ~, ~; z IITF Information Infrastructure Task Force. - N: |2 I1 `. }IJSOW Improved Joint Stand Off Weapon. 1 ]8 R' b* F& g3 N4 n- W. jMDA GLOSSARY, VER.4 .0 I , k. c& U4 N( E4 P) R" M135. b) c. }7 }' E* y4 v U ILA Inter-Laboratory Authorization (Contracting term). & X- p2 a [" s) J" b# |( V% m* p4 jILC Initial Launch Capability.; M" }1 V8 [/ f0 G) _$ ?! m# s Ilities The operational and support requirements a program must address (e.g.,3 H/ r- T2 U) \2 R/ O+ O availability, vulnerability, producibility, reliability, maintainability, logistics6 S5 j4 ~* q0 ] supportability, etc.).9 }5 u/ J) [9 p4 I) O Illumination Non-interfering impingement of electromagnetic energy on Red, Blue, or Gray( |! E4 \( n, K& ]* @ satellites and Red ballistic missiles in test. A& z6 L8 V3 K% d1 K7 K7 a6 N& Q( OILS Integrated Logistics Support.' ~1 v6 H- p/ o1 t ILSM ILS Manager. * L! ]: X2 W4 I0 a* VILSMT ILS Management Team. b( T. u: T6 g: j) Q ILSO ILS Office.6 ?1 d' N7 B* b3 [* `. g ILSP Integrated Logistics Support Plan.$ y5 V0 a1 o' M ILSWG ILS Working Group.% `% D* g+ y* S1 q; p IM Information Management. * c% K6 {3 g+ L* qImagery Collectively, the representations or objects reproduced electronically or by optical , S: ~, W c) ? O+ h1 f- Z1 o# ]means on film, electronic display devices, or other media.' k/ W; _2 H; F( [2 }. m6 s3 W* C Imagery 0 @: o4 O8 B8 C: J7 MIntelligence & A* C: H( y2 `- a(IMINT) . \7 ~& v, C9 |, kIntelligence derived from the exploitation of collection by visual photography, 3 `1 a8 B: F, n8 R9 h: _infrared sensors, lasers, electro-optics, and radar sensors (such as synthetic ! q+ r+ @: O+ S" Y. |: ]aperture radar) wherein images of objects are reproduced optically or + I9 L# E# d6 ?. c6 x3 I# selectronically on film, electronic display devices, or other media.4 R! O9 N+ B8 e$ T; {4 w Imagery - Y$ W5 X( D6 ~+ ?5 T: c& t: NCorrelation4 X: \( d. a/ O7 E/ t$ n J The mutual relationship between the different signatures on imagery from' X% ?0 E( M X/ a different types of sensors in terms of position and the physical characteristics3 O# e' J. N5 V5 s4 {- C signified.+ K4 y" ?7 Z+ t f \' q Imaging The process of obtaining a high quality image of an object. ' `0 o- k( c+ N, NIMC (1) Interagency Management Council (GSA term).+ i% |7 d5 z) a& {" V: _ (2) Internal Management Control.$ ^9 m0 x3 ?0 B/ J6 V/ S3 u IMDB Imagery Management. ! X9 o$ W, K' N+ E) t' M; Y0 ^IMDO Israeli Missile Defense Organization. MDA counterpart in the Israeli Ministry of % ]. b. p$ K- q9 E; ?; w4 `1 {Defense. # u2 R) {% k# f7 I* n, | H7 BIMINT Imagery Intelligence.' ~4 m( L* O8 t8 s4 J IMIP Industrial Modernization Incentives Program.2 E$ C8 H4 n: `9 l; E Immediate Kill& C' Y! @( D# A8 D9 X4 `/ X v Mode / `, d1 ?+ Y8 C" FA kill mode in which the target is immediately catastrophically destroyed by : e0 Z0 ~/ A$ R3 timpact with the KV or KED. 2 {/ r# b" ~. {# Y. G. i8 TImpact Point$ u2 `3 C0 q- c9 c Prediction (IPP)0 u$ }+ b) ~ u/ L* G$ { Prediction of the point on the earth’s surface where a specific RV will impact,( ^7 Y$ o& F4 J( U- o) R usually specified in terms of the circular error probable. The estimate includes & i$ E, Z2 R( `" \5 `the perturbing effects of the atmosphere and resultant uncertainties. + Q) B, ^# g5 k+ P! U8 H+ }MDA GLOSSARY, VER.4 .0 I & k" J1 y4 K4 n: A0 N( h136 ) C3 |& O, o. c D, o4 M6 |# xImplicit' L4 l& N$ t% i7 s Coordination 6 S3 m. [& s$ r- d5 f8 c! WMany independent battle managers (computers) use the same algorithms to- H; v- h+ Z9 x# B$ i derive a common calculated result. Decisions resulting from these calculations, f) s; N) x/ C5 ]/ B+ V' Y will be identical even though the calculated results may not be identical. # @' I |; a) F9 tDecisions or results are not communicated between Battle Managers.9 i7 I' F0 P/ |5 }6 T( K Impulse A mechanical jolt delivered to an object. Physically, impulse is a force applied for 5 M# p$ ~& o2 g1 a6 g Ra period of time, and the System Internationale Unit of impulse is the Newtonsecond (abbreviated N-s). (See Impulse Intensity.)- s; `4 W7 i7 [; f9 h- ? Impulse8 H9 q! F) d1 j" L+ } Intensity (II) ) j( u9 }9 [) T! d9 RMechanical impulse per unit area. The System Internationale unit of impulse / K+ X9 r' h3 V" |9 c$ O7 {intensity is the Pascal-second (abbreviated Pa-s). A conventionally used unit of3 ?3 }* A, ]2 ^' t" Z# K- b impulse intensity is the “tap”, which is one dyne-second per square centimeter;; @1 x# Z$ O9 e, ] u3 O hence, 1 tap = 0.1 Pa-s. . J: L, u% I: Q1 VImpulse Kill The destruction of a target, using directed energy, by ablative shock. The# x) {3 ?3 ] D0 A6 F# R; ^; A, S2 T intensity of directed energy may be so great that the surface of the target 6 ^) y1 T+ _+ x& N" I2 bviolently and rapidly boils off delivering a mechanical shock wave to the rest of" Y" I7 b+ h" D \2 f the target and causing structural failure." Y. w* C5 z. Q6 l IMPWG Information Policy Working Group./ L3 m/ t* k9 W; K IMS Integrated Master Schedule. E" U# \2 k! ?7 t4 xIMU Inertial Measurement Unit.+ U K+ K" F$ }$ ~2 I& O* V; L IN (1) Air Force component intelligence officer (staff). (2) Instructor. (3) Impulse ! _1 X0 w; T' k. }Noise.& ] p0 |1 \; S5 t5 r In Inch.- {6 L [7 T7 o) \8 p9 O& Q IN LINAC Induction Linear Accelerator. $ A& W8 c) C9 G- wIn-Flight Target7 L% X# F) e' `5 b9 }$ ?9 R Update (FTU) 4 r5 ]6 V4 j) B3 DA report to in-flight interceptor weapons. The IFTU provides updated, predictahead target position, time, and velocity for use within the interceptor’s control$ W3 Z [1 a p% s6 Z suite to make midcourse corrections to intercept the target. 7 r5 g- p. a- Y# F0 i/ K- ]/ YInclination The inclination of an orbit is the (dihedral) angle between the plane containing* S: |# |) i9 S1 g% } the orbit and the plane containing the earth’s equator. An equatorial orbit has, l4 g, f* z) a$ J( Y$ t& G an inclination of 0° for a satellite traveling eastward or 180° for a satellite9 j1 m; L6 e" D6 `3 u! k traveling westward. An orbit having an inclination between 0° and 90° and in" T$ M& ~9 _5 Z8 I( o* H$ |4 { which a satellite is traveling generally eastward is called a prograde orbit. An . Q& [1 B+ k+ [( e& y9 a( Uorbit having an inclination of 90° passes above the north and south poles and is ; {+ H0 v, o8 S- R0 Ucalled a polar orbit. An orbit having an inclination of more than 90° is called a4 g4 k4 n. n. z- M retrograde orbit.; a. g$ ^* W3 ^0 Z; m2 I# k9 } Incremental- ?: e* s& U- O Funding , Q8 y Y* H g7 V6 A4 e) aThe provision (or recording) of budgetary resources for a program or project : D: e9 l9 K$ Y/ w4 T C, V5 Y9 _3 Mbased on obligations estimated to be incurred within a fiscal year when such6 k7 i7 U5 ]3 p0 V* ~ budgetary resources will cover only a portion of the obligations to be incurred in 7 W6 q" F8 L& \$ t- K( Ccompleting the program or project as programmed. This differs from full funding,1 {( N- {; g. @+ i) l; | where budgetary resources are provided or recorded for the total estimated , |. r0 i: L- T5 Kobligations for a program or a project in the initial year of funding.

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Identification % S+ d9 y) \; k% x1 T- t7 iFriend or Foe# t. h1 ~7 c5 g! I6 A! m+ X) M (IFF) & ]; f2 x% c3 @1 \A system using electromagnetic transmissions to which equipment carried by + ]' ^* t- ] gfriendly forces automatically responds, fro example by emitting pulses, thereby* S k }) G; x- o distinguishing themselves from enemy forces.8 C% i! m3 N. u" r% \/ r MDA GLOSSARY, VER.4 .0 I- t$ Y/ ~3 G3 J 137( M4 }- ^1 Y# H0 q, R+ \/ x8 X Imagery , [7 K {- l) Q/ ]Correlation- m# e9 A9 c2 c( F$ V The mutual relationship between the different signatures on imagery from4 Z+ x2 a7 T% x5 o different types of sensors in terms of position and the physical characteristics - a+ }- W1 k" F1 L% f+ c) {' O% V2 _! fsignified. . s9 J/ e& G: n/ F! iIndependent & m+ v6 b+ _+ I tCost Analysis v. {1 p d* a7 r! lAn analysis of program cost estimates conducted by an impartial body 1 H, o9 C* \4 A$ Q9 a6 y) Fdisassociated from the management of the program. (See Title 10, United- |& h5 W4 b) t* g States Code, Section 2434, “Independent Cost Estimates; Operational / g- ?* n9 ^! W6 GManpower Requirements.”)! T( w8 K3 J8 j8 y8 @* z6 D/ T Independent Cost3 Z6 i6 U" I2 o7 i7 r Estimate (ICE)+ b2 m) ?6 W; V7 Y* ?# B" F A cost estimate prepared by an impartial body outside the chain of authority6 r: I" u. G! f9 _' L* u responsible for acquiring or using the goods or services.2 ?# g% | I \. K8 } Independent 5 N* i- b. B# ?) q+ S9 h+ JEvaluation+ f) G+ S7 @8 X# `& k! }! d0 X. V Report (IER) ) ~: U2 v0 D, t4 ^* z( o' Z6 RDocuments the independent evaluation of the system and is based on test data,! l! t0 T! X# T9 O5 A reports, studies, and simulations. The IER contains the independent evaluator’s * c1 l \7 ~) N1 V0 o1 N/ x- yassessment of key issues, supporting analyses, major findings, and a position on : ~+ J- r) a" e: \1 ]# C5 t5 R4 O$ }the future capability of the system to fulfill approved requirements. The IER is) |( x& n7 k; h3 q a f* U provided to the DAB to support the MS III decision production decision. An IER3 T% r2 T4 ^& E) F may also be used to support LRIP decisions. (U.S. Army) ; J2 [* V- C* SIndependent # y8 W% K; s6 XResearch and 5 d: H" [9 ?/ u3 D6 o( n* b9 hDevelopment 1 f4 g0 A N, `+ I(IR&D)) ~. d0 \5 G' L: P1 O Effort by industry that is not sponsored by, or required in performance of, a 0 Y- Y. F+ a1 Z. Y U6 tcontract and which consists of projects falling within the areas of basic and # G9 g K& s" ^3 ~applied research, development, and systems and other concept formulation# Y: s) u; P- i/ P& A studies. Also, discretionary funds which industry can allocate to projects. (See9 Y" L/ c9 Y& w# x FAR 31.001.)/ k- q1 v& E. V7 |2 W# s2 y0 u Independent8 H; G' |, ]& ?8 x Verification and 8 V/ A) b; `4 R1 Z* ?* _3 f+ k# ~3 nValidation (IV&V)8 A# k5 |8 z, d8 K/ I5 ^ Verification and validation performed by a contractor or Government agency that & Z& X/ C! M6 h3 W6 Dis not responsible for developing the product or performing the activity being 5 h" N X9 a1 m$ sevaluated. IV&V is an activity that is conducted separately from the software 6 {9 T1 f4 M9 q$ y# K9 A Xdevelopment activities.: ]/ r: o% w8 x" _- I" [7 [ Indium . @; V9 J4 Q5 E+ IAntimonide) x% Y- D: g3 y b) Y6 h Infrared sensing material.- n9 n+ l$ ~, a9 M% I Individual1 e! }/ u2 X7 X: c# d Acceptance Test 5 |- O/ B1 `6 t7 d+ g# d/ AA test of predetermined critical items to verify their operational characteristics 1 S9 [. `$ n( Z8 t9 J* Z; tprior to assembly into subsystems. Waivers to this requirement, such as using $ H7 c6 \+ L% w: C$ @* P1 V3 v) t3 ~# \the end item acceptance tests, are not recommended as production expediency. $ ?$ `$ [8 ?5 j) DInduced 4 O* ^$ M* j6 \% F( [7 YEnvironments / h6 x$ s+ [1 OInduced environments are defined at the system level as the disturbances in the . T, W# {/ ?, U# ~; Znatural environments caused by BMD system influences on other BMD assets + G; s: G# {/ L(Self-Induced, e.g., GBR radar energy impacting and effecting a GBI in flight) or6 X9 [- U+ @- i: g: P* u i! o the influence of other systems external to BMD on BMD assets (Externally-( {8 Z% R5 m' G& L7 _( H1 e# _' f Induced, e.g., high power electric line electromagnetic field effects on C2E; N; N- ?# J! x) s' \9 [0 O electronic equipment).- j9 k. X& s7 ?! x% m- w Induced2 n* f8 q) ]8 S Radioactivity* t8 O7 W8 @1 A0 H Radioactivity produced in certain materials as a result of nuclear reactions,# L" @7 X2 N" l- H6 r4 }' c particularly the capture of neutrons, which are accompanied by the formation of 6 l$ u# L1 H7 R& Gunstable (radioactive) nuclei. In a nuclear explosion, neutrons can induce & v+ L8 @: T. qradioactivity in the weapon materials, as well as in the surroundings (e.g., by. ?. N6 T% R* X9 w& |" ? interaction with nitrogen in the air and with sodium, manganese, aluminum, and $ w/ X5 o/ N* \2 Xsilicon in soil and sea water). ( o8 x7 J+ a6 ?% s, Y" VMDA GLOSSARY, VER.4 .0 I( r* e4 U* g- q2 ~5 W( E0 h" v 138% H- w( O" O( Z' B1 ]' _' H4 k Industrial' {" g3 V. J6 Y2 K Resource' _/ S$ A, L+ q$ m/ b1 f Analysis (IRA) 1 f# \5 L) u6 _5 ~/ P5 o" DA quick-turnaround or a detailed analysis of industrial and/or specific factory - S0 Y$ X8 `' B) y& Tcapabilities to determine the availability of production resources required to # d B$ k3 V5 p, i1 [8 L& bsupport SDS. These resources include capital (including machine tools and7 k! \ f2 R1 j+ R( E; Q# e. X special tooling/test equipment), materiel, and manpower needed to meet the ( f/ K' U8 ?$ q% Y' ~6 [ e7 xrange of SDS requirements. IRA includes the results of feasibility studies, 9 _4 t+ W3 F/ H7 M: R$ xproducibility analyses, and technology assessments. Shortfalls discovered in% ]7 V$ K* [ z5 z1 H$ I0 P IRAs are assessed for risk levels, based on the reasons for the risks, and ! N9 T3 N/ D! |: ~; Nbecome issues listed in the MDA Producibility Programming and Issues ! d0 R/ K1 D* oResolution Strategies (PPIRS) document. 6 N1 ~3 j% g" T$ iInertial ) u8 y3 y* h$ x' W3 V! i9 C, iGuidance6 i. x; o: ^6 [* @' e" e A guidance system designed to project a missile over a predetermined path,$ [1 e& q$ B# {; s* i: y: R wherein the path of the missile is adjusted after launching by devices wholly " K$ e1 o/ d, ]within the missile and independent of outside information. The system measures 2 ?' z) x- U7 O9 {( Zand converts accelerations experienced to distance traveled in a certain 5 z" h* ?2 \- w" n: J2 k- Cdirection., m6 o: b8 {* w Inertial & o7 F- {' F3 d& T/ \* a$ Y" B' KMeasurement & h' i) {& d; q0 h& OUnit (IMU)( r. C$ ~' |' P" u- T$ p4 J A guidance mechanism designed to project a missile over a predetermined path,3 j n: ~2 `- \" { wherein the path of the missile is adjusted after launching by devices wholly0 s- J0 P7 K" L3 F- X- F within the missile and independent of outside information. The unit measures1 P) B( y6 V+ y# e! n( ? W and converts accelerations experienced to distance traveled in a certain7 Z. {# M8 `- N# v8 B( E8 r direction. " e0 q8 z Z/ \4 Z/ R9 zINETS Integrated Effects Tests for Survivability.) C- H: H# U# ~6 C/ }- d+ L INEWS Integrated Electronic Warfare System (Navy term).7 x% r$ R) y9 t1 d% A3 n4 | INF Intermediate-range Nuclear Force (Treaty term). Also the name of U.S./USSR, R k: T V! K5 X4 ]4 |6 c2 B Treaty.) o8 [, M+ w* W" H% `) ] In-Flight Target 8 E$ u# M, q- r5 hUpdate % ?) j) ^9 p) z% J2 f+ ?A data report, which contains updated, predict- ahead target position, time, and 5 I+ x" y, r& v$ m# Svelocity for interceptor weapons to use in making midcourse correction.! Y3 s1 Y9 v k5 a2 R (USSPACECOM) & q4 z4 k+ k0 H8 x" vInformation% T3 G& e. Q! n7 t. H- n+ r j Architecture (IA) % P) K/ B( o; v4 Y, L6 P8 s& q- WA description of the information that is needed to support command and control0 O( N. `, B0 ] decision making and battle management, where it comes from, the processing + |$ h, Q, u# V- d& Ythat must be performed to provide it, and the resulting behavior. The description, i* d+ R8 X* c* A' f5 A provides the invariant framework for interoperability, operational and design * o, c6 s7 p$ P6 H/ F: ?flexibility, coping with the unexpected, extensibility, and reusability.: B& O! \8 V. n8 Y: U; N" V8 c Information, C* s$ K& w* t Resources1 j2 f" g2 H8 e. Z- F- d8 ]: M Management% z" ^' v$ L( _- }; V$ T8 y! T o. g The planning, budgeting, organizing, directing, training, promoting, controlling,3 H7 |* m* a- L+ V6 a& d4 G and management activities associated with the burden, collection, creation, use, 2 D. j, j! I6 A v8 kand dissemination of information by agencies and includes the management of , V( ~' a5 N, [5 U8 _' Yinformation and related resources, such as FIP resources.

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Information - K# |' |1 Y2 ]4 c8 o2 t, h8 HSecurity& F: y* c# M) E6 H/ y$ R" Q/ g (INFOSEC), h1 m8 a; a+ N% L$ i0 z( G Those measures and administrative procedures for identifying, controlling, and2 }( v% N# y) Y# f1 ~5 L6 _ protecting against unauthorized disclosure of classified information or) d7 ~( @0 R* ? unclassified controlled information, which includes export-controlled technical" U! {* b2 L; ^5 F1 z. S% L' A; k data and sensitive information. Such measures and procedures are concerned+ L) J( f! w6 }3 D9 F with security education and training, assignment of proper classifications, C) G+ h% k0 ]downgrading and declassification, safeguarding, and monitoring.9 }! z9 S7 d+ D( ] Infrared (IR) Electromagnetic radiations of wavelength between the longest visible red (7,000 4 V. p8 D/ g1 R* m' n& X# S3 rAngstroms or 7 x 10E4 millimeter) and about 1 millimeter. (See Electromagnetic 8 z' G' V: x& SRadiation.) ! u6 H) H, R2 fInfrared (IR)0 v2 c) p2 k* p3 ]/ e( Z Electro-Optics: o5 Y7 Y$ U, D+ |: l3 V Technologies/techniques employed by optical sensors in the wavelength - W, u7 `: C5 ^0 Wspectrum slightly longer than visible but shorter than radio. * D7 E4 s N/ U3 pMDA GLOSSARY, VER.4 .0 I7 p5 W/ H; [# \ 1398 o7 c- @9 [, ~8 s4 A3 H+ S& p* p$ I Infrared Imagery That imagery produced as a result of sensing electromagnetic radiations emitted 7 G$ J" x1 z' L) c: vor reflected from a given target surface in the infrared position of the * Z" [. u) C {. o* a; Jelectromagnetic spectrum., D' h1 B4 Q* Z! x Infrared Sensor A sensor designed to detect the electromagnetic radiation in the wavelength' G$ P0 U6 w( |# d; o! o region of 1 to 40 microns. $ P0 u' f+ f& v% P. f, EInitial 7 f8 A9 R7 O+ cOperational& r$ s+ ~' s8 ] g! `, A Capability (IOC) 1 W# O8 R% {5 }8 d% u4 dThe first attainment of the capability to employ effectively a weapon, item of & O( h* Y' Z8 i; K9 ^* M& `equipment, or system of approved specific characteristics, and which is manned 0 A* k2 ^1 [3 f0 x, vor operated by a trained, equipped, and supported military unit or force.0 i" R( ]+ h# Q! r Initial 1 [0 b' \( C4 lOperational Test 6 N2 B. _9 v4 xand Evaluation/ O$ g L$ c% h (IOT&E) ! T7 n, n0 ^5 q( R) jAll operational test and evaluation conducted on production or production/ i1 |- Q- }! ]) B- e1 S9 \ representative articles, to support the decision to proceed beyond low-rate initial ( q( r" B( j/ e+ J# rproduction. It is conducted to provide a valid estimate of expected system $ J2 m: j o6 g' z1 D) koperational effectiveness and operational suitability. 8 l$ U% i$ J/ B& l9 FINMARAT International Maritime Satellite (a UHF communications satellite). # @) T K0 v9 u1 V. U3 X5 TINS (1) Internal Navigation System. (2) Insert code.0 F! h. X2 ]4 P; E InSb Indium Antimonide. 1 y' u" [. R, v; B% U& Y3 O: A, F6 fINSCOM U.S. Army Intelligence and Security Command. - [% q# |0 t! `) w: AINSICOM Integrated Survivability Experiments.. _1 P& y: z+ T" |4 L Integ Integrated. $ `. J$ l' e+ D% ?Integrated k# g4 F$ O2 }6 k' B( I$ K) R Contracting+ l: g* g O. p& J0 a1 W7 Z Report (ICR)* Y! @/ u3 D1 |% A; O A quarterly report of BMD contracts, which define the roles, relationships, and % l, T2 s* j6 E: G! t! U% ginterfaces among contracts, contractors, and programs, and provides a$ |" |# ^/ D5 f5 Z8 h' A5 x4 B( E% @ mechanism for strengthening MDA contracting oversight (formerly known as/ [& s3 _6 e0 _( K7 [5 k$ o Integrated Contracting Plan or ICP). 6 h9 Z+ B6 e- n9 XIntegrated Fire9 T0 \; u4 E1 \7 D0 Q# k Control System - @! C' M$ M7 g; y( M+ L# | CA system, which performs the functions of target acquisition, tracking, data/ s O U! C3 o, S3 ` computation, and engagement control, primarily using electronic means assisted" N* y: r, V8 r I( B7 _5 \6 r: R; V/ E by electromechanical devices. 1 q9 o6 a$ J" V" yIntegrated ( h3 c, ^$ B2 }7 ?$ M: @9 ^/ f" ^Logistics Support ' x! h5 S! [& C2 n7 q2 f(ILS)2 `* n+ q' K. y0 L7 ^$ O (1) A disciplined, unified, and iterative approach to the management and6 C+ m0 x% P' l/ ]) n technical activities necessary to integrate support considerations into% O, ~- i# X$ h system and equipment design; develop support requirements that are4 a7 h7 y0 w2 D related consistently to readiness objectives, to design, and to each # u& y% a6 P3 s' h6 Dother; acquire the required support; and provide the required support 0 v5 _4 z; I' J; i, q0 Z$ Cduring the operational phase at minimum cost. . L/ b" w1 V% H' e(2) A composite of all the support considerations necessary to assure the # ^4 n3 }0 J' ~. I, P" O; a$ Ueffective and economical support of a system for its life cycle. It is an8 B- N2 i& V# Z1 q8 s integral part of all other aspects of system acquisition and operation.* t; ~% f- L* m* R c Integrated % V4 i& b# \! ?Logistics Support 5 l/ i7 x0 v! N2 e9 B$ [: T& o/ A(ILS) Elements $ ^! c0 Z9 l4 u- d& I/ {# ~Maintenance Planning. The process conducted to evolve and establish! d1 o- E0 x- D; e7 J maintenance concepts and requirements for the lifetime of a materiel system., {& k. P6 f9 ~7 p Manpower and Personnel. The identification and acquisition of military and 4 X2 s0 z( `3 t' u( kcivilian personnel with the skills and grades required operating and supporting a " G2 g0 U. P8 smateriel system over its lifetime at peacetime and wartime rates.# v( V8 b* d. ~9 @8 l" f Supply Support. All management actions, procedures, and techniques used to+ t; k" {& p. w determine requirements to acquire, catalog, receive, store, transfer, issue, and 1 T G8 h3 Z* i( bdispose of secondary items. This includes provisioning for initial support as well $ ?' Z+ g/ G; G m, g% ~as replenishment supplies support.& ^. {+ e7 G; \9 D MDA GLOSSARY, VER.4 .0 I % r! z4 j4 o. ^1 z5 H$ z140 & w& i5 z* k, Q' b8 ySupport Equipment. All equipment (mobile or fixed) required to support the7 h) ^* o( n! \# `# \2 Z operation and maintenance of a materiel system. This includes associated multiuse end items, ground-handling and maintenance equipment, tools, meteorology8 [9 d0 Y- w, ], I and calibration equipment, test equipment, and automatic test equipment. It 7 o1 D/ ^- \' z7 W5 zincludes the acquisition of logistics support for the support and test equipment2 M: M. {: C: Q. c* d0 V itself. 0 i" E' P1 q# n- ? |Technical Data. Recorded information regardless of form or character (such as8 z/ W" W" _ f manuals and drawings) of a scientific or technical nature. Computer programs ' Z/ _$ d( l1 Iand related software are not technical data; documentation of computer ; a- m- d; D% l2 N; O4 E4 i7 n( Cprograms and related software are. Also excluded are financial data or other * m8 A1 n: D- O: ninformation related to contract administration. . Y6 L8 D2 f3 k" w8 {. mTraining and Training Support. The processes, procedures, techniques, training 2 T0 p9 P3 w" A! Sdevices, and equipment used to train civilian and active duty and reserve military ! v. w, @3 ^6 |9 t( Qpersonnel to operate and support a materiel system. This includes individual( Z7 S' F2 z$ q, D and crew training; new equipment training; initial, formal, and on-the-job training;) @/ S% y0 T) o) H/ b: s and logistic support planning for training equipment and training device. ~1 K2 J" Y3 M* f. m( }+ o acquisitions and installations. 1 B$ @1 v2 N4 H" _3 CComputer Resources Support. The facilities, hardware, software, ) v0 A8 K! o1 ~8 i- g" Pdocumentation, manpower, and personnel needed to operate and support 0 K. }, m# Q- K' |6 c" y3 @embedded computer systems. & q( o4 u v, W1 k. o* O, ~# ~Facilities. The permanent, or semi-permanent, or temporary real property assets( R& i/ Y" h4 t6 ]4 x: j required to support the materiel system, including conducting studies to define9 X$ q" O6 R* J) w& ~ types of facilities or facility improvements, locations, space needs, utilities,; K( P" O/ s6 R8 j# s; Y, L/ x environmental requirements, real estate requirements, and equipment. 7 V1 e3 O8 @& a$ X# T5 H LPackaging, Handling, Storage, and Transportation. The resources, processes, 9 H6 I7 T3 H1 l5 g [% N, dprocedures, design considerations, and methods to ensure that all system, 5 u3 O1 Z. }, Requipment, and support items are preserved, packaged, handled, and 3 i, F. Z, i& M/ Ctransported properly, including environmental considerations, equipment 3 w9 s; k, ]; S5 T1 {0 Mpreservation requirements for short- and long-term storage, and transportability.5 A) E# e' U! H1 M* p N( l/ v u e Design Interface. The relationship of logistics-related design parameters, such as , [" k) t( J; I4 @3 \reliability and maintainability, to readiness and support resource requirements.1 H! t8 t; y2 X4 z These logistics-related design parameters are expressed in operational terms- Z/ B4 u) g4 L+ |5 j rather than inherent values and specifically related to system readiness+ f3 I* ?+ M G1 {. G$ _ objectives and support costs of the materiel system./ E7 |+ q4 y/ u Integrated ; N; w4 k8 i; v* r. PLogistics ' Z( Q! L! ~' t5 j7 |8 YSupport Plan% P; h* e z5 i/ L" E5 B: ]0 ~& r (ILSP) : g" J2 G0 P2 I0 x, s6 B8 vThe formal planning document for logistics support. It is kept current through the/ a& v& `! D2 b1 T program life and sets forth the plan for operational support, provides a detailed8 a9 t" f/ z. h: E ILS program to fit with the overall program, provides decision-making bodies with1 z: _- J, X2 s necessary ILS information to make sound decisions in system development and " C" p# I& ]! e" R5 u8 s9 Mproduction, and provides the basis for ILS procurement packages/specifications6 }, ^, w+ A2 L, f3 Q RFPs, SOWs, source selection evaluation, terms and conditions, and CDRLs.8 h* F2 m6 }! {2 L0 S# u Integrated # d) s0 H; L' R* D3 cPriority List . L* [6 i0 Q+ {" Z. V# H B/ uA list of a combatant commander’s highest priority requirements, prioritized ! A0 P+ }; C7 O- Racross Service and functional lines. The list defines shortfalls in key programs 8 O& U4 K* t t2 A" dthat, in the judgment of the combatant commander, adversely affect the+ ]4 q7 w/ ]' [+ [ capability of the forces to accomplish their assigned mission. The integrated% l& a U+ I: K2 n5 z+ e priority list provides the combatant commander’s recommendations for M% m2 i8 y/ z* |* h3 r) {programming funds in the Planning, Programming, and Budgeting System2 U2 S |: L9 F7 j2 y2 | process. Also called IPL.

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Integrated , S `# h. }: ~- l+ v& J/ T# [* E3 RProgram2 L9 w- R% H m5 H, w- M Assessment* T, w2 e9 J( C% X# V! o' ^5 e (IPA)% j; E- C. A# q N! ^ A document prepared by the supporting staff or review forum of the milestone ; p2 Z0 E/ D' u$ I$ O O3 udecision authority to support Milestone I, II, III, and IV reviews. It provides an ) P3 O# g8 G$ n, p! G. j* {# V9 c- Hindependent assessment of a program’s status and readiness to proceed into( D! h7 k, u6 d* N: R, d1 r the next phase of the acquisition cycle. 1 _$ i* f# M8 P- t X. VMDA GLOSSARY, VER.4 .0 I : u0 L% z6 R: F$ }141 ]0 r( n6 C5 n$ U5 f% x% G+ ^ y2 iIntegrated, B' R. }0 r& @) m Program ; f2 ]' w& A( g& j' C" aSummary (IPS)2 c6 v# Y8 x! R# W% t g A DoD Component document prepared and submitted to the milestone decision 9 }+ a) Y% T7 b' c# ?: r$ M% _authority in support of Milestone I, II, III, and IV reviews. It succinctly highlights ) |9 O3 |" m, r' W+ v! C" X: Rthe status of a program and its readiness to proceed into the next phase of the 7 G/ S8 c1 u v+ n% n# n! Gacquisition cycle. 4 q8 q4 g5 G- B. I4 R) V- S2 [Integrated O/ B2 M3 u9 Z, P Tactical Warning : |! J2 o4 `( U" Uand Attack 6 e3 o j R9 b' M; C# l5 \# bAssessment 6 y( }0 {: Q5 c- H(ITW/AA)$ C3 m6 \. z/ g6 z7 D' N. S. d" F ITW/AA is the integration of ballistic missile warning, space warning, and 5 @2 D8 d& d5 O; m! x( l* f7 zatmospheric warning with intelligence information for synthesis of all attack7 z5 x1 h8 C+ i+ N0 t t& p$ { warning information, strategic and tactical. 4 h8 C- i% o- I! G6 a3 ?& sIntegrated 7 y% e! ]8 a2 JWarfare ; S5 R6 B% u# |$ qThe conduct of a military operation in any combat environment wherein opposing, K( r9 j$ n( W$ G: Y6 V0 }# d! ` forces employ non-conventional weapons in combination with conventional 2 j9 \. _. A* r& nweapons. 6 Y- h' N4 D" k" X) B8 nIntegration (1) The combination of separate systems, capabilities, functions, etc. in such- f, B% W: r5 n a way those individual elements can operate singly or in concert without4 [ O. m0 O* K0 j adversely affecting other elements. (USSPACECOM) " k& {, M/ R9 h5 _/ i(2) Act of putting together as the final end item various components of a+ I6 X! n# a+ Y; N8 c* a system. 2 I2 M7 r$ h" e* ?; a8 kINTEL Intelligence.' o( y7 o! ?6 b) p4 e9 H Intelligence (1) The product, resulting from the collection, evaluation, analysis, 2 O; g! W% d* j& D3 D% S& lintegration and interpretation of all available information concerning 4 C) Y% f* \* X5 D7 z$ k* ~+ mforeign countries or areas. 6 `# l# I9 ~/ ?# l& s(2) Information and knowledge about an adversary obtained through9 _% n) p" U- U. T6 [) \0 h" t, F observation, investigation, analysis, or understanding. " i0 k) }7 C& N h) ^+ zIntelligence* D! N) p4 }8 G7 | Indicators x& X# _% }, D% q Classified or unclassified actions or information obtainable by an adversary that, 6 D& p$ V. V& T ]& Xwhen properly interpreted, can provide information about friendly capabilities and % T( m3 k9 w! q; Z% S; F [4 Vintentions.& o5 _& L1 d( n+ \# ]! y Intelligence , _9 N& I* S1 x( J: \, cOperations : K0 a3 r6 o1 H0 fCenter (IOC) - n7 P* B# D8 A: `+ ]# {1 WAn organization term for all intelligence activities in Cheyenne Mountain AFB.+ g# j* l O, L" m: R( ~ The IOC includes the Consolidated Intelligence Watch (CIW), Operational2 Z4 X$ z, H+ j7 k7 T+ O Intelligence Elements, and the Joint SPACECOM Intelligence Center (JSIC) * ~( S: e- y5 Y( N, rCheyenne Mountain Node (JCN).4 e }, e# ?" G! t% H" c Intelligence- L) ?1 E1 l8 \' g [: a Preparation of3 H5 u5 w3 j0 e+ C the Battlespace ' q$ e8 ?& o# k' TAn analytical methodology employed to reduce uncertainties concerning the 2 r0 \* J c1 n+ `enemy, environment, and terrain for all types of operations. Intelligence - q* k$ f5 u( ?2 g+ mpreparation of the battle space builds an extensive database for each potential 6 ~+ F$ }$ h2 ^$ ^area in which a unit may be required to operate. The database is then analyzed- u6 Y- [% Z2 v3 C X0 a& U* ~2 ^ in detail to determine the impact of the enemy, environment, and terrain on 4 o2 H9 n$ V7 Q6 koperations and presents it in graphic form. Intelligence preparation of the battle+ a @* l7 \4 ]+ E7 R2 H+ O4 o! O space is a continuing process. Also called IPB.+ Q6 l2 o: Q6 B8 w* s; T* u. C, h Intelligence3 n( `- l, A- h8 {2 G- F2 J' X Report (INTREP) - \$ T h$ Y' jA specific report of information usually on a single item made at any level of* G/ d! |0 M- x1 C5 d& L command in tactical operations and disseminated as rapidly as possible in + J& ?- A, P0 H j( n) lkeeping with the timeliness of the information. : u/ W3 ?) r/ v# Z. z; N0 HIntelligence " y4 [3 ?1 E. L7 h9 s, @: L. mThreat( `( _( ~ r1 M' Z5 g+ t; _ An identification of known and potential adversary capabilities to collect and: k* a, C' _/ S exploit information from a given or similar operation. 1 t! ]6 }% U9 D! \5 Z/ U v: OMDA GLOSSARY, VER.4 .0 I . t: h$ u9 D. a# N142 ; e% n; u; a0 ]4 ZIntensity The amount of energy of any radiation incident upon (or flowing through) unit& ~% A3 [+ Y4 w, ?- @ area, perpendicular to the radiation beam, in unit time. The intensity of thermal / I: B! [( u. H8 [' |radiation is generally expressed in calories per square centimeter per second 7 X" V$ O1 S+ S& n. o% p# ]falling on a given surface at any specific instant. As applied to nuclear radiation,+ D z x: [' Q8 K1 g5 w the term intensity is sometimes used, rather loosely, to express the exposure (or5 d @: I8 W; m/ B6 s% d dose) rate at a given location.* D& U% C. W5 P; P `4 t! c Interactive* D o2 v4 c+ Y* Z* w Responses ( Y5 D7 K: @+ e, Z6 |0 sInteractive response data on tracked objects to assist in their classification. / O$ A) q: w7 \0 ~Interceptor5 y T6 D1 y- P5 i" j! r Cluster ( q N% g3 U; FA group of objects, which are within divert capability of a deployed interceptor. 3 A) f# h( ?9 I, f- jInterceptor Track A function or ability of a sensor to accurately detail an interceptor’s position and8 m- L7 L- F& M* Y; X: m velocity in three dimensions. ! {1 x. y/ p+ p4 B2 W9 t. HInterceptor Track. z) W; [1 X U/ x- |- w+ Q Range (Max)/ o. A D) L% C$ i9 ] _ The maximum range at which a sensor can perform the interceptor track function+ `7 Q8 V2 X1 B L on a single interceptor in a normal (non-man-made) environment.

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Interchangeabilit ( J( B u/ Q. L0 ~5 Wy ; c6 P t. S0 ^A condition which exists when two or more items possess such functional and g8 G- x5 R3 n physical characteristics as to be equivalent in performance and durability, and( [0 Y- q$ Q7 ?) u& \) I are capable of being exchanged one for the other without alteration of the items6 W M. e+ ?, R themselves or of adjoining items, except for adjustment, and without selection for " O" H" D. ^3 L- w) hfit and performance." \2 m* F; \1 C, v, A% V; ^ Interconnection The linking together of interoperable systems.0 v0 |" M; A. E# O# F9 p' x4 Y Intercontinental& S* z; G4 ]6 S Ballistic Missile: ~( U' ~ j0 N' W' [ l (ICBM): f8 l, M7 s% m# R3 F+ @+ ^0 v A ballistic missile with a range from about 3,000 to 8,000 nautical miles. The6 V% k6 d9 f5 _5 e) P* p. c/ y term ICBM is used only for land-based systems to differentiate them from 2 y8 x' Z' X4 R5 m! X; X, _submarine-launched ballistic missiles. (See SLBM.): ~* F+ R' h \; r Interface (1) A shared boundary defined by common physical interconnection j7 ^. b! G( | characteristics, signal characteristics, and meanings of interchanged ! S8 M: k6 b% a2 _, X0 wsignals.2 [# o1 `% y" ^" G, \ (2) A device or equipment making possible interoperation between two # ~" `$ {% Y' k0 }7 nsystems, e.g., a hardware component or a common storage register.9 u1 b8 T5 l# w( p; F0 B; y: w (3) A shared logical boundary between two software components.! _4 N0 u2 d2 L3 l (4) A common boundary or connection between persons, or between ( O) Y% |. ?- B7 A3 esystems, or between persons and systems.! `; O) F- A$ T Interface Control 4 z; ~9 e9 v3 B, q6 qDocument (ICD) ; U f! o7 E0 u" q& Y(1) A document that describes the requirements of the characteristics that must & w6 c x+ Z* r$ ]3 U- A# fexist at a common boundary between two or more equipment or computer 2 M4 D! \; T# V+ P, S! |software products. An ICD for a BMDS element or component consists of an2 B5 H* Z T- H/ O5 c Interface Control Specification (ICS) and an Interface Design Document (IDD). 8 M& J/ J/ ?9 X(MDA Lexicon) ( j/ |# M$ g5 R; I7 S+ ?(2) The technical documentation, generated by each party to an interface control 8 }. N) V: p+ W0 o) W# m. v9 xagreement, that presents that party’s interface and interfacing requirements. ( Q7 u% o8 |4 U7 mThe ICD may be in the form of a drawing or a specification./ p, B9 K- J0 X: h1 A C8 F Interface 1 J! `$ r4 @1 c: d3 o3 G1 bRequirements8 h j" m; c8 A) y Document (IRD)+ A' u+ m E, v6 Z A document that sets forth the interface requirements for a system or system7 f2 y- Q+ f; X6 [8 {9 K* j- i component.0 V3 c8 \+ n7 w MDA GLOSSARY, VER.4 .0 I 9 j* Z- S. ]( x" h" d. [8 k2 t, J" {143 ( u5 {! J) s( MInterference The phenomenon of two or more waves of the same frequency combining to 3 U( r+ ~2 P* Iform a wave in which the disturbance at any point is the algebraic or vector sum' ~) Q0 Y; C* \2 t, j/ q6 V9 T7 E of the disturbances due to the interfering waves at that point. ) C a2 j8 W& C5 x/ N4 l6 B) I. B" \Intermediate8 I v& ?0 S3 Q: z4 B# a7 g Range Ballistic3 v7 p p# p; E. W9 s/ t* e, v Missile (IRBM)' u* ?; |' e6 |, z8 J/ n* x& J A ballistic missile having a range capability of 1,500 to 3,000 nautical miles.: P; O$ s# z; B0 ?) @+ a5 y2 O International + X* d+ ^' ~; k; K# I5 bAgreement( U- x, \( A; V0 z# s- X Generator (IAG) * Q# f0 V$ a( C6 j, q/ e' oSoftware system, managed by OSD, which must be used to author DoD, l( l# n* J5 g; J& W- j; ]+ z" z international Agreements.% X7 F+ ]; m5 z1 Y International5 ]( e& m! ?. ~3 i' L/ K9 C Cooperative ( G. e9 N; d- G& K$ C; C5 XLogistics2 v9 R t) b, o" V. g Cooperation and mutual support in the field of logistics through the coordination / L1 ]% u2 V& V z: ]of policies, plans, procedures, development activities, and the common supply: l' ?7 }% g7 u' T0 @' j and exchange of goods and services arranged on the basis of bilateral and ( _1 f* S+ |0 q3 }& b( amultilateral agreements with appropriate cost reimbursement provisions.% s# W7 n' V- M. v6 Q. l: S3 C( C International" E/ a$ R+ N* T; |3 x) w% P( z/ A% p Logistics ' r( b7 h5 u3 ^: qThe negotiating, planning, and implementation of supporting logistics" j& u. c0 l) m/ A1 r4 k. y2 { arrangements between nations, their forces, and agencies. It includes furnishing 3 c* I' t, O( _3 E1 ~2 ologistic support to, or receiving logistic support from, one or more friendly foreign3 u/ G. d2 }9 t% i6 c7 r governments, international organizations, or military forces, with or without9 Y0 M/ S' N5 ?% p `% s* X reimbursement. It also includes planning and actions related to the intermeshing 2 R) d$ z6 ~' q# D+ J! Eof a significant element, activity, or component of the military logistics systems or # A# r; l- J! R( E; Sprocedures of the United States with those of one or more foreign governments,* V& g2 S, q* O& G& _0 M7 q international organizations, or military forces on a temporary or permanent basis. 3 D6 A& J: s, N) |4 Q$ iIt includes planning and actions related to the utilization of United States7 Y' o! {$ k7 x" M1 k0 M logistics policies, systems, and/or procedures to meet requirements of one or+ T# C- u' S* O( B7 r more foreign governments, international organizations, or forces. ' b1 q2 f! k' w8 P; ]International5 N4 c7 [8 d& j8 \! S Logistic Support 0 H+ P3 R% ]' d! c4 EThe provision of military logistic support by one participating nation to one or0 @3 v- R E* H2 G more participating nations, either with or without reimbursement. 4 Z; K- B9 G; tInteroperability The ability of systems, units, or forces to provide services to or accept services9 j, j, l1 D+ h" h: | from other systems, units, or forces and to use the services so exchanged to; a/ q/ v* n* P* g& w3 g5 o operate effectively together. 5 v' q- B/ K( y VINTERPOL International Criminal Police Organization.& |8 y$ m* h* s1 U% A! j/ s* p! K. ?. K INTLCT Integrated Electronics." X ^, h" g2 p' _, u Intruder $ N/ y6 l; l2 H. c zOperation6 q- g1 K, u. O' k4 e7 U) h An offensive operation by day or night over enemy territory with the primary % u. v" B8 I. x! y4 w- s" ^object of destroying enemy aircraft in the vicinity of their bases.7 {- Y% z# k% d6 D. T4 s INU Inertial Navigation Unit. 9 l1 d- F/ } W3 RInventory Control + M/ ?* N8 O4 ^7 [- APoint8 ~8 K1 y0 h! k* r. t7 m1 _ An organizational unit or activity within a DoD supply system that is assigned the% f6 k m1 y& [2 a: @ primary responsibility for the materiel management of a group or items either for a 8 L" A, U- D9 v2 g4 R! jparticular Service or for the DoD as a whole. Materiel inventory management" i+ m \/ q' y. l* l6 q includes cataloging direction, requirements computation, procurement direction,, W0 v3 o) ?. r' f) Q distribution management, disposal direction, and, generally, rebuild direction. ! V- l2 ]- q& H) N3 D# uInverse Square 3 p; x% B" U3 ILaw 6 F! Y# u; R" WThe law that states when thermal or nuclear radiation is uniformly emitted from a 7 Q% l9 U5 W: Y! ~4 x* apoint source, the amount received per unit area at any given distance from the9 x" j6 M2 i1 C2 V9 N source, assuming no absorption, is inversely proportional to the square of that$ T; I- |) N! X* U0 f- g @) [ distance.; J; M0 |+ f( O- l: X MDA GLOSSARY, VER.4 .0 I( U# d8 O$ f4 R1 s4 m: T" H8 B# O 1445 e0 W# o R! }/ v Inverse Synthetic * p R; m+ g8 h7 [( jAperture Radar 0 u( B1 D) V4 g z) @: m1 Q7 M(ISAR). `* j. d+ d8 ^ A type of radar similar to synthetic aperture radar, which uses information from 2 m) ~7 X% G" V0 { gthe motion of targets to provide high resolution.6 h7 @( [. k) r: W IO (1) Information Operations. (2) Integrated Optic. & a' b! B4 D* \. y8 {IOC (1) Initial Operational Capability. - W2 Z. @8 F" p$ t$ J* Y2 j(2) Intelligence Operations Center. 0 i# y' P+ e5 {" |8 m* o) Y5 i% Y. ]9 M(3) Integrated Optics Chip.( F+ `0 x+ d/ r% c5 a4 b. } IOM Inert Operational Missile.9 G! s$ S p) b) N5 e" L, O- C2 q) j IONDS Integrated Operational Nuclear Detonation Detection System (US). ! O! w! i! ^( ~6 ~4 v' l! _Ionization The process of producing ions by the removal of electrons from, or the addition7 _2 g, b: ~& C, r# ?% Q of electrons to atoms or molecules.$ M9 ^! W8 H- [8 d3 _ Ionizing ! J; |; B" P5 e& I$ ]/ sRadiation) J7 X" u0 C4 A+ S4 f. E$ d Electromagnetic radiation (gamma rays, x-rays, extreme ultraviolet (EUV)) or , z: F$ o9 ?- \0 r; R4 K5 G9 {+ Y0 Tparticulate radiation (alpha particles, beta particles, neutrons, etc.) capable of & d0 y9 R, [; e' zproducing ions, e.g., electrically charged particles, directly or indirectly, in its: b) r- ~- U5 \: W passage through matter. (Nuclear Radiation.) $ {7 S" ^1 K0 m+ }' S: OIonosphere The region of the atmosphere, extending from roughly 70 to 500 kilometers ( G6 g0 M, Y: S3 Y; ^* I$ Aaltitude, in which ions and free electrons exist in sufficient quantities to reflect 4 R* w8 E5 y8 {electromagnetic waves.* }# Z( A" H: d [ IOSS Interagency OPSEC Support Staff.3 H& k8 T5 i' G4 U* z& W IOT&E Initial Operational Test and Evaluation.6 ?2 z& K! K0 q, y& q1 d IOU Input/Output Unit. ) \+ k& u, @( lIP (1) Instructor Pilot. (2) Initial Point. (3) Initial Position. (4) Internet Protocol. 1 U+ C/ Z. v5 ^8 e$ }% a(5) Interconnect Protocol.4 [3 y& h5 J; B: P: k( e, j) V- M IPA Integrated Program Assessment. 4 Y" \! ~* R: t6 O ?$ f" G% U0 }IPB Intelligence Preparation of the Battlefield or Battlespace. 2 ^/ J8 q! S, V: j3 Y- CIPC Information Policy Committee.9 }/ Y- V ]& ^0 v+ _; q IPD Integrated Product (Process) Development.9 R. p& D; n9 E IPE Industrial Plant Equipment.. f* H" O9 y% i( M6 A( J$ _ u IPL Integrated Priority List." ~% o g, l6 t5 C1 ` IPM Integration Program Manager. ! `5 E! r! U% d) F" i: kIPMI Integration Program Management Initiative. " v H6 e6 H& E3 ^" n- @IPP (1) Impact Point Prediction. (2) Industrial Preparedness Program.$ q1 f4 ]8 E% Z5 k/ I2 F! H$ ~ IPPD Integrated Process and Product Development.. R/ Y: { Z' f. V' Q6 D/ E IPR See In-Progress Review. (Also called Interim Program Review).+ J& |2 T8 L3 @+ ?7 d$ T0 u9 t' u0 E MDA GLOSSARY, VER.4 .0 I * b( Y5 k3 P+ i145# x5 }8 u+ N8 v0 N, S IPRR Initial Production Readiness Review. ( j/ ~; s. [/ j- ZIPRWG Intellectual Property Rights Working Group.2 w Y: m. |6 `' `! A( W4 s9 o IPS Integrated Program Summary. 1 T6 r0 e ?, `" R' k j6 X+ GIPSRU Inertial Pseudo-Star Reference Unit. & M" }" b8 T2 q3 y7 n& I- |IPT (1) Integrated Product Team. (2) Integrated Process Team. (3) Integrated' ?3 c8 ? x" o/ G( [, q n Planning Team./ U0 m( E2 ?8 C+ b IQT Initial Qualification Training (ILS term). % ~6 N9 B& u' l6 P; l' Q' `IR (1) Infrared. (2) Information Requirement. (3) Incident Report. (4)! v" v, L2 ]& Z* |4 U6 p Information Rate. (5) Initial Review (NMD BMC2 term). (6) Isotope4 W! G% v3 _1 m, O! U, [8 H1 t Radar. 6 C$ M G2 @$ l. B' Y/ L# w- ?IR Electro-Optics Technologies/techniques employed by optical sensors in the wavelength & i( h! K2 [3 Y2 Z+ F. g) P! Aspectrum slightly longer than visible but shorter than radio.+ g/ G& k# k' o+ V3 v, O% s IR&D Independent Research and Development. (Also called IRAD).0 K, [" n8 w3 e1 J9 Z8 H IR/Vies Infrared Visual. 0 \" u$ A) s y6 I6 c/ mIRA Industrial Resource Analysis. ! X& k9 _* M! p; ~: ^' zIRAD Independent Research and Development.1 L, Z4 x, u! x! e" ?6 H IRAS Infrared Astronomical Satellite.4 O7 c2 p. {$ w) G7 n IRBM Intermediate Range Ballistic Missile.$ K ?1 A$ x9 [6 J, @4 A: F8 E* c5 x IRBS (1) Infrared Background Sensor. (2) Intermediate-Range Booster System.- J8 N( @1 r& h IRCM Infrared Countermeasures. & x& e/ }% w. MIRD Interface Requirements Document.) a+ `, M f6 V1 c IRFP International Request for Proposals (Contracting term). 4 Z, b" t5 r% l6 `- d$ r. fIRFPA Infrared Focal Plane Array. & F$ s u3 r" M/ A# ~& |$ y$ Z0 v4 ]IRG Independent Review Group. # |# c) G6 [ v) O& qIRIA Infrared Information Analysis Center.) z3 q$ _9 }( e* Q% {6 P) d j IRIG Inter-Range Instrumentation Group.% _. \( c/ N1 F! y0 m9 F IRINT Infrared Intelligence.- K7 w% j! g3 n- H2 ~ IRIS Infrared Instrumentation System.- \+ }2 z1 s: b2 d8 F IRLA Item Repair Level Analysis ILS term). / z2 _5 |2 {1 Z Z+ q, m: y; s2 AIRM Information Resources Management. 8 B0 y( c( ^9 W( t: o4 H+ t1 xIRMAC Information Resource Management Advisory Committee.

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MDA GLOSSARY, VER.4 .0 I9 |* `6 J4 t) K* s$ E% v' |. x. w 146 0 i- q; H& a; z- F# D1 b% F: QIRMC Information Resource Management College. 8 T! U; k6 u1 C& G, Y; M1 WIRR Internal Requirements Review.4 m0 J& R$ p7 @& e* t; B9 g* u IRRAS Integrated Reliability and Risk Analysis System. : m. U# r- e# r8 i# rIRRS Information Resources Requirements Study.+ e; `& U( j2 U q IRS Interface Requirements Review. - T1 p# N0 u" |5 M/ w0 [IRSS Infrared Sensor System (EAGLE). ; x* L2 Q: U( W4 lIRST Infrared Search and Track.+ f, d' D4 |- ? IRTF Internet Research Task Force. ; K1 A( j2 C) M1 K; n, XIS Information System. ! d5 l7 Y% w4 U& e& }9 f1 t) XIS&T (1) Invite, Show and Test.1 @- l4 ^7 _1 V8 H (2) Innovative Science and Technology. ; ?5 b7 ^! \! Y* i0 d X- E(3) Integrated Science & Technology.1 {5 V, I4 f! n ISA Inter-service Agreement. + m- H, a+ E7 Z$ VIS&T (1) Invite, Show and Test. Z1 ~( {- i5 e: [# _(2) Innovative Science and Technology. , u! h8 F& K4 b4 k* W/ Y* F- _9 ~ISAR Inverse Synthetic Aperture Radar.: z; \! b; M5 p) S" g- H ISAS Institute of Space and Astronautical Science (Japan).( W) o) K: P! `3 K$ t& ]5 P ISC (1) Information Systems Command.$ f: S0 ]0 D4 J G* Y (2) Irvine Sensors Corporation.4 m; _2 \& e/ |. d/ q2 z2 [" r1 | ISDN Integrated Services Digital Network.9 L$ P9 ?( C* \( A1 J ISE (1) Integrated SATKA Experiments. (2) Integrated Space Experiment. ' N" L" F8 @, X: [8 l- [ISE&I Israeli System Engineering and Integration. ; T. X2 s* ^6 @ \- HISG Industry Support Group.2 B9 `0 k0 T- }0 ^( N ISM (1) Industrial Security Manual. (2) Integrated Structure Model.2 F6 l6 w, n4 z3 E7 f$ I ISMG International Simulation & Modeling Group. " F) ^* I% `0 \7 j) ]ISMO Information Security Management Office.0 W x2 G) A8 T v/ S ISO International Standards Organization. " V( R% V9 a2 Q+ j, W. ^7 W1 nISOO Information Security Oversight Office. - o b- Y, c; [8 yIsotropic Independent of direction; referring to the radiation of energy, it means “with ) l& @+ }- c4 a3 _8 M; B' Cequal intensity in all directions” (e.g., omni directional). % q% Q0 n5 K" r/ M& a- Q- LMDA GLOSSARY, VER.4 .0 I " B1 Q4 e; `6 V" Y147 4 x( V; M1 @( B# e! n" xIsotropic4 m# x; m* o( d! P% g! T/ @' L Nuclear Weapon & g9 O4 u4 b. P( Z+ p, oA nuclear explosive, which radiates x-rays and other forms of radiation with& y- s/ r, ]2 k approximately equal intensity in all directions. The term “isotropic” is used to) p: H* s, p6 q( T distinguish them from nuclear directed energy weapons. $ `* W0 `: D" ?& {ISP Integrated Support Plan. 3 a7 |6 V" y8 y% ]/ ~. v/ H+ aISR Intelligence, Surveillance, and Reconnaissance. / b0 T+ W: H9 \/ |9 C0 aISS (1) Information System Security. (2) Infrared Surveillance System. ; O& |' t" O/ y& p3 vISSA Information System Security Association. & M1 J. V4 n) H( HISSAA Information Systems and Software Acquisition Agency. / k- ^ N* O2 gISSC Information Systems Security Committee.. }4 X6 t1 \" }5 b. Z ISSM Information System Security Manager./ j+ L2 ^3 S( u3 U4 X- E ISSO Information System Security Officer.# `$ a L1 }( L4 ?% v ISSTA International Symposium on Spread Spectrum Techniques and Applications. G" _- n3 U$ L- K# v2 U Issue Cycle A process followed during OSD review of the POM. It begins in early June and 3 ~4 B/ [1 C9 V1 f, p/ z* J5 _( Zextends into July.5 G! Z! T# `) k( z9 ~9 A2 n Issue Papers OSD documents defining issues raised during review of the POM.; q4 ?( I" a5 w2 C8 S- t) `( ~ IST (1) Innovative Science and Technology. (2) Integrated System Test.# I5 q+ {/ z' ?/ D5 @( P ISTC Integrated System Test Capability. ! c5 ^. M9 _; R: F5 t4 DISTEF Innovative Science and Technology Experiment Facility. - U9 y; H& h3 p4 [8 s6 LISTF Installed System Test Facility. ; {2 c# M4 H( f5 t8 E* rISV Interceptor Sensor Vehicle. 5 o) h, r6 g2 t. c; LISWG Integration Support Working Group./ ?* ^8 P; t9 U3 q/ G! _' M. D IT Information Technology.0 J: R- x7 D0 ~; y% @ ITAC Intelligence Threat Analysis Center. 5 Z8 E) n( X4 m3 r0 sITAR International Traffic in Arms Regulations.: c3 F3 O" u0 t/ W ITB (1) Integrated Test Bed. (2) Israeli Test Bed. & k& c4 I& {' ^; M% }ITCE International Traffic in Arms Regulations. 3 y1 u( `4 l. g( K) p/ L2 {ITD Integration Technology Demonstration. 6 h" a8 U& N& x6 h% r7 \ITDAP (1) Integrated Test Data Analysis Plan.# m( ]* M4 P( ^6 } (2) Integrated Test Design and Assessment Plan.- h3 i' g1 ?; J2 x6 \7 x( [ Item Manager An individual within the organization of an inventory control point or other such ( t/ w$ R7 d( S* N N4 aorganization assigned management responsibilities for one or more specific items$ k0 O- G+ m+ a; ]+ a of materiel. 3 x$ b$ U3 H' mMDA GLOSSARY, VER.4 .0 I 3 [5 V/ `; \) |: z. N* E, @2 N1 H148 l8 V3 B: E! ?; j' VITERS Improved Tactical Events Reporting System. @3 n5 H0 A7 V; |- BITL Integrate, Transfer, Launch, b( Y3 n6 l) v7 r& V ITMSC Information Technology Management Systems Council. 6 P. V L- @4 C2 d/ zITMT Integrated Technical Management Team. , \) U2 P1 }; J8 V) f, y: jITO Instructions-to-Offerers (FAR term). 9 z9 Q& Q; ^ {ITP Integrated Test Plan. % e- Z/ J- Y/ ~) @: b8 W g/ v3 RITPB Information Technology Policy Board.1 V" C; j8 ~! ^1 }- B ITR Information Technology Resources. ; v& j1 e" }8 V2 C$ s# TITS Information Technology Service.6 F: e3 C+ l( P1 n% B ITSD Information Technology Services Directorate. 8 v' X. U. }( a, c5 LITT ITT Corporation. : V4 z5 L8 _! KITV (1) Integrated Technology Validation. (2) Instrumented Test Vehicle9 r. C0 F! }. x; p. `+ {6 B ITW Integrated Tactical Warning.7 R/ m- I1 Z5 C' \% M- G3 v) G" @1 n ITW/AA Integrated Tactical Warning and Attack Assessment.& _) g! D, o4 x, x& X. u8 B1 O! G IUI Integrated User Interface.6 d; V! Y" ` X4 F# Z3 N+ F& E IV Interceptor Vehicle.4 ^9 F& d% y2 }4 l IV&V Independent Verification and Validation. j$ X) E; x- `, [0 d IVHS Intelligent Vehicle Highway System.' `2 Z! F# a$ I+ e r4 h" E+ ]) [' h( @ IVIS Inter-Vehicular Information System (USA term). ! ` w0 x) x. B0 lIW Information Warfare.) ^7 m& ^% [: y! }' ]/ I* o IWCD Integrated Wavefront Control Demonstration.6 A' [; ?. ]: D) D; b; O7 ]% ~& I- c IWEB Information Warfare Executive Board./ n& c$ l8 J- Y' v/ f5 V/ n2 h, y IWG Interagency Working Group.4 k- J8 g. L8 s6 A IWS Indications and Warning System. 5 i v6 e! @# K6 cIWSM Integrated weapons system management. " A! t) r8 T2 i/ \2 ^6 a1 jIXS Information Exchange System.; a: X: ?: V- q" a7 k. r MDA GLOSSARY, VER. 4.0 J 3 ?' P; Q6 |: \# E149; B+ v$ d! j; j J&A Justification and Approval.4 `; I2 P9 x3 L1 n& H J-SEAD Joint Suppression of Enemy Air Defenses.* u6 a; L. \, U& j4 e JAAT Joint Air Attack Team. 5 _+ m ^$ L' s/ v4 z1 s e" uJADO Joint Air Defense Operations.& e( w, M9 W9 S# h: z$ } JAE Joint Acquisition Executive.$ H) ?6 {6 m& ] [' ^ JAIC Joint Air Intelligence Center (JFACC term). L& C3 r* a! h3 T: m' ?0 ?2 ^6 \ JAMES Joint Automated Message Editing System (USN term). 3 g8 t4 Q/ r$ n0 J* M# [7 ~Jammers Radio transmitters accompanying attacking RVs and tuned to broadcast at the 8 K( S6 H- `9 A8 d* i# Vsame frequency as defensive radar. The broadcasts add “noise” to the signals& ]; N% j L3 B8 B ~ reflected from the RVs and received by the radar. Susceptibility to jamming$ J- v/ Z% ?/ h8 [/ X; R generally decreases with increasing radar frequency, with decreasing altitude, 9 O, N: s) V J( q6 }" K3 Land with increasing radar power.( F. r5 U, f' i5 ? JAO Joint Area of Operations. * t; r1 X6 r) A( \5 z( GJAOC Joint Air Operations Center (JFACC term).* v6 l5 f* `6 j9 g: Z- M7 ` JASSAM Joint Air-to-Surface Standoff Missile (USAF term).% J* I+ h. V( \' g JAST Joint Advanced Strike Aircraft (USAF/USN program)./ E; ~' B8 Z; [ C3 r$ @/ H/ T% k9 o JBS Joint Broadcast Service (ASD(C3I) term)./ o+ {5 U, i# O- a JCAE Joint Committee on Atomic Energy (US).' A# v7 Z. C, i* r5 e. K JCEOI Joint Communications-Electronic Operation Instructions./ L2 e, K7 E: C I$ h+ B JCM Joint Conflict Model.

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发表于 2008-12-25 20:09:47 |只看该作者
JCS Joint Chiefs of Staff (US. ) B# v) D$ L7 h3 o. W, {JCSM Joint Chiefs of Staff Memorandum.# _( \6 n# D7 f JCTN Joint Composite Tracking Network. 5 Y' g6 y7 N0 Y) e4 l. {JDA Japan Defense Agency. 5 {6 Q) x; b8 S5 u2 P: s* YJDAM Joint Direct Attack Munitions (USAF B1-B weapon). Z5 z" }, B8 M$ ^# F! h! A JDC (1) Joint Doctrine Center. (2) Joint Deployment Community.+ ?( M6 s5 ]! v JDISS Joint Deployable Intelligence Support System.* S" Y+ l" h+ z3 J% _, u0 d JDN Joint Data Net.( W$ R5 K) [3 P1 a JEA Joint Effectiveness Analysis (formerly COEA). / @& P3 ?$ _1 ^/ O9 e9 b; ~5 I2 ]( nJEC Joint Economic Committee (US).3 c% X; T4 |0 M, s3 g* ^/ U( a JEIO Joint Engineering and Integration Office. ) ~/ R7 e- T% rMDA GLOSSARY, VER. 4.0 J ( k1 e, [( k. t2 p2 h" z3 A150 ' B2 X" f0 I/ g3 AJEM Joint Exercise Manual." c4 }0 M; z- j JETTA Joint Environment for Testing, Training, and Analysis.. L" |1 D% N1 b. I% s JEWC Joint Electronic Warfare Center.: Q0 I5 \1 q3 f* X JEZ Joint Engagement Zone.8 p- ^- s0 S. W. I JFCC Joint Forces Command Center.! ?7 [, c' j; T! b JFET Junction Field Effect Transistor.; g, g) `8 {& t* H0 F* l JFFC Joint Forces [Weapons] Fire Coordinator (JFACC term). # s' D; x! I5 |8 i. oJFLC Joint Force Land Component.0 V3 \) N/ Q# K& B0 e0 | JFMC Joint Forces Maritime Component./ U: {" G3 ~) k JFSC Joint Forces Staff College, Norfolk, VA.: v ~* }7 V- N* @+ ? JFSOC Joint Forces Special Operations Component. ' Z/ i1 A. S" g# Y/ l0 C7 _& wJG-APP Joint Group on Acquisition Pollution Prevention. $ B( C0 }4 Y7 Y. g0 ]6 H9 F* [JHU Johns Hopkins University, Baltimore, MD 5 o9 E) l' N3 Q* ]/ wJHU/APL Johns Hopkins University/Applied Physics Laboratory, Laurel, MD. 3 s) M/ z& R. A' N/ TJIC (1) Joint Intelligence Center. (2) Jet Interaction Controls. ) s. ^* Y8 z9 o! E) q" ]JICPAC Joint Intelligence Center, Pacific (JFACC term).8 f' o& j+ {5 h0 f3 \; ^ U* n JIEO Joint Interoperability and Engineering Organization.) S" O4 w$ }1 K- V0 N JINTACCS Joint Interoperability of Tactical Command and Control Systems. 0 U9 C- A) a9 `. M# @; I3 U1 rJIOP Joint Interface Operational Procedures. # T& x3 l& }3 f+ iJIOP-MTF Joint Interface Operational Procedures – Message Text Forms.7 L3 n/ k. q! j& l4 O3 Y JIOPTL Joint Integrated Prioritized Target List (JFACC term). / N+ |& t1 P9 Q+ `3 E5 [6 VJITC Joint Interoperability Test Center./ E: V! s# G/ q JLC Joint Logistics Commanders.: ^7 x% C+ f8 W2 O% y5 ] JLOTS Joint Logistics Over-The-Shore. " S: x9 A' ~" y! F- `. ?& H7 @JM&S Joint Modeling and Simulation. * R9 |- k9 j J2 u9 W% i/ R& B8 Z5 bJMC (1) Joint Movement Center. (2) Joint Military Command. % e. T: ^$ O$ h8 L1 lJMCCOC Joint MILSTAR Communications Control and Operations Concept. 7 B F5 \3 B/ I1 K6 b; OJMCIS Joint Maritime Command Information System. " X5 i* {" M% O- b( F/ J* r. YMDA GLOSSARY, VER. 4.0 J , ` n' F0 Z9 \) ?151 , F# V# n2 e/ i# R! wJMDN Joint Missile Defense Network. Encompasses all mission-oriented Information+ F7 g& U5 F1 _4 `& y7 r6 ?- d Technology Resources (ITR) networks, facilities and systems operated or funded, p+ y4 Q6 N9 e# Q5 V X1 a2 W by MDA in support of missile defense programs and operations. A major + l8 F' _3 ?* }% n6 ~5 Jcomponent of the JMDN is the Ballistic Missile Defense Network (BMDN),( o+ r' |6 E& P7 w+ i8 ~8 i operated by the JNTF. ! _' ?' ?2 \: Z' g2 d* Y6 PJMEM Joint Munitions Effectiveness Manual. 2 |5 F ~. l9 u0 Z# S( I, d" BJMENS Joint Mission Element Needs Statement. % B% I$ U& J, n" u2 VJMNS Joint Mission Needs Statement. ! M& `9 J; E( l' O; \# m" D- RJMO Joint Maritime Operations. & M: }: b+ M5 I3 {6 O' t' i* tJMSNS Justification for Major Systems New Start. # M" a! I9 H8 h( r( [) M, }" R( `JMSWG (1) Joint Multi-TADIL Standards Working Group.3 L# E* L0 F, f& u0 N. ^4 p (2) Joint Interoperability Message Standards Working Group. 5 k* y$ {# e; F; uJNAAS JNIF Advisory and Assistance Service./ q2 o/ o# G/ _* M- Q5 U; W% O JNESSY JNIC Joint National Integration Center Electronic Security System.3 ^7 T7 k c+ H% n) x JNTF OBSOLETE. See JNIC.7 e0 ^4 ]9 L( k' h+ M JNICOMC Joint National Integration Center Operations and Maintenance Contractor.5 }8 v ?& q$ M) ]9 `2 Q JNICRDC Joint National Integration Center Research and Development Contractor. 6 \$ p: Z! n2 QJNICUSLA Joint National Integration Center Unclassified Standalone and Laptop Access. ( K* ~2 g, g: ^JOB Joint Operations Board. # O2 U8 m, j; b$ h* JJOC Joint Oversight Council. + o6 J; m$ Z) F% R$ \6 k8 uJOCAS Job Order Cost Accounting System.2 y$ R' V& s0 C, P. H Joint Activities, operations, organizations, etc., in which elements of more than one 6 A! c- s% T+ B3 E8 N7 ?7 `! nService of the same nation participate. When all services are not involved, the& m5 ]) K) y( R) ^) w+ G: ] participating Services shall be identified, e.g., Joint Army-Navy).# }/ `9 b8 Y7 h2 n5 U M Joint Doctrine Fundamental principles that guide the employment of forces of two or more ) d0 X w5 X F7 hServices in coordinated action toward a common objective. It will be: ~8 o2 w/ X# C9 Y9 z promulgated by the Chairman of the Joint Chiefs of Staff, in coordination with the1 T: C8 r: s9 q r" f combatant commands, Services, and Joint Staff. See also Chairman, Joint g+ D% g/ G! C* G+ m! YChiefs of Staff. 4 a5 N- D* }2 M" }3 h7 K5 IJoint Doctrine * M3 H; L0 _+ K) W. X3 [3 ^Working Party $ r, j7 l: V! i- ^6 g9 dA forum to include representatives of the Services and combatant commands: P% V% w/ L6 L2 L/ r9 A* y: L with the purpose of systematic address of joint doctrine and joint tactics,/ x1 ~- U9 f7 @ techniques, and procedures (JTTP) issues such as project proposal examination,$ T ~# V! g3 r l4 t1 K J project scope development, project validation, and lead agent recommendation.% r) }: F5 X1 F7 u- w/ K9 B The Joint Doctrine Working Party meets under the sponsorship of the Director,0 L; d4 u! I8 N# B Operations Plans and Interoperability.$ V* g# ?1 l, I( Y/ u4 g5 i0 }! X Joint Electronic2 q2 q `% R, r5 X Warfare Center, \0 r' ]: ^7 s( H; i. q! C (JEWC) . F& X% t5 q2 lElectronic Security Command (ESC) team at Kelly AFB, TX, responsible for9 Q# K' P" b, {7 \ investigating and locating the cause of MIJI either against satellites or ground" a- _. L) T2 n, { systems. 8 Q, L0 m: }- \7 g( c4 n5 @' y( Q) f. lMDA GLOSSARY, VER. 4.0 J7 L; [+ O. F7 |! v% T" j0 V 152 [* l$ h# m* v3 d6 [$ J Joint Force A general term applied to a force composed of significant elements, assigned or 3 W: G4 ^- a( }: X& n# Q6 E2 K! x* Battached, of the Army, the Navy or Marine Corps, and the Air Force, or two or) Y' O' \; Z3 M9 r" W more of these Services, operating under a single commander authorized to 3 v* s( c9 H7 ^) g! _" Y' aexercise operational control. See also Joint Force Commander. + }( {' R4 G/ f2 J- j& \9 |2 HJoint Force Air: d" N% w6 H# d3 D Component# N" x& _/ K1 Q Commander W+ k6 s- v2 M% X% w(JFACC) 9 O5 h3 L7 j, R/ q6 ~. WThe commander within a unified command, subordinate unified command, or & V7 g1 F. ] t/ t1 w8 ^& Fjoint task force responsible to the establishing commander for making! p. Z) N; U6 C/ t recommendations on the proper employment of air forces, planning and 3 O- i4 [' y# S4 j. Ccoordinating air operations, or accomplishing such operational missions as may 3 |8 ], k9 W# O, k( q8 mbe assigned. The joint force air component commander is given the authority; l8 T! S# E1 [( I8 B necessary to accomplish missions and tasks assigned by the establishing2 y1 o' }, h2 b' @ commander. The JFACC will normally be the commander with the+ x, t8 G2 D) r& K preponderance of air forces and the requisite command and control capabilities.# i( g" [3 e3 U9 B5 | Joint Force& m5 b3 _# l5 }- r) x) o Commander' l% O7 v7 E# ]. Y3 v. ] f6 n (JFC) ( c* @; A6 D" Z: ]7 F) W; _0 xA general term applied to a commander authorized to exercise combatant1 B5 |) g! N0 d: ~: ?0 y command (command authority) or operational control over a joint force. Also# h5 c. X- y0 _ B called JFC. % F/ h. i; j) A5 o5 G- `Joint Force Land 9 x$ \6 x! V3 z; u0 K! J+ rComponent r; z2 Y5 h4 h, }8 _9 B! _7 ]Commander 2 o5 J n: E9 h d(JFLCC)8 ^: ^5 V0 J! ?7 a4 i& e The commander within a unified command, subordinate unified command, or % A$ N+ X! u* I2 j' p0 i& p: Wjoint task force responsible to the establishing commander for making+ [: A/ D% _0 B recommendations on the proper employment of land forces, planning and4 j; w7 O; {, H- {4 H# U& a' V A coordinating land operations, or accomplishing such operational missions as may . h* ?; z# Y3 q' Bbe assigned. The joint force land component commander is given the authority8 @! z+ ?& e: \9 q0 ~1 x) u+ U% V necessary to accomplish missions and tasks assigned by the establishing, E) }; h( W/ |2 x commander. The JFLCC will normally be the commander with the# _4 W3 `. Y3 B& _! \+ E- i preponderance of land forces and the requisite command and control . Q3 I1 o4 x# X; N( ]. M6 u! gcapabilities. ; X9 h& H9 m! n" vJoint Force$ m+ ~9 V; _; P; I0 V- K' c2 c8 _ Special 8 T' y/ ^1 Q+ @4 L; IOperations, I4 g+ \* I3 F3 q7 y2 T Component, ?; F$ r2 Y. l* |! d! b' g Commander' Z: |+ h$ M {- g& e# D (JFSOCC) e5 d! [2 C7 r* r1 l6 d' m rThe commander within a unified command, subordinate unified command, or 8 M$ F: W2 H) o p/ W* {joint task force responsible to the establishing commander for making : C/ m$ Y4 M* k" O) m4 {recommendations on the proper employment of special operations forces and + e" n9 X/ T# Z, dassets, planning and coordinating maritime operations, or accomplishing such T9 P$ F( c G: I1 ] operational missions as may be assigned. The JFSOCC is given the authority& h: t3 a: D& N9 D6 K! U4 D necessary to accomplish missions and tasks assigned by the establishing7 O$ W% S5 U8 V9 Y& |7 V commander. The JFSOCC will normally be the commander with the, H( s: [6 O5 L. T: `5 u- C+ C( d preponderance of special operations forces and the requisite command and 3 C9 U) t* P* m! ~* ^6 Rcontrol capabilities. / t! t! v1 p: y- U! FJoint National 9 N% D, ?" o& xTest Facility 3 N6 X: C2 J9 y/ S* k(JNTF) 8 ?1 i. q- ?# F" l' u" @2 N# jA large, modeling, simulation and test facility located on Falcon AFB in Colorado _# D' X3 J7 p1 @" ~" @" o _+ \which serves as the central control, coordinating, and computing center for the- x3 W3 }* K1 U2 D- ]% J* I NTB and as the primary integration and test facility of the BMD SE&I contractor.

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发表于 2008-12-25 20:09:59 |只看该作者
(Former NTF) 7 U6 Q9 a" j% W2 e' [; tJoint Operational ! P% ?# P+ Q' g: yPlanning and* C; ~2 |% `8 h% A4 m Execution2 s# x4 B X+ n% p9 W. Y& G System (JOPES). T5 L, _6 C3 S1 O# `: l$ i) z2 }$ b$ C A continuously evolving system that is being developed through the integration # x/ a: S" V* E X6 y& Uand enhancement of earlier planning and execution systems: Joint Operation, L$ \. [6 C. ]! P- D3 b Planning System and Joint Deployment System. It provides the foundation for # F0 Z4 S* g4 f @: C, Zconventional command and control by national and theater level commanders/ Y5 U5 ?% E3 t7 a. H' H and their staffs. It is designed to satisfy their informational needs in the conduct% U' R/ o; n! A of joint planning and operations. JOPES includes joint operation planning! M+ O* ~. `2 H3 U9 ? policies, procedures, and reporting structures supported by communications and. ~4 \$ z* o$ C automated data processing systems. JOPES is used to monitor, plan, and ' _! h6 h8 N# Q* b4 h, \4 rexecute mobilization, deployment, employment, and sustainment activities: n2 Z. ?/ z2 ? associated with joint operations. / O3 z6 |3 p# j0 t6 q ZMDA GLOSSARY, VER. 4.0 J 2 ], R i: g: _; r153 4 K; U; N* X6 {Joint Operating , K* ~; P7 p! OProcedures # B# q# X4 l2 ~: a& n(JOPs) ) l8 ^. H" o- {0 u0 zThese documents identify and describe detailed procedures and interactions 1 M. d4 q% L- s0 K8 Y2 e! dnecessary to carry out significant aspects of a joint program. Subjects for JOPs 8 e4 x, Z" Y" Kmay include Systems Engineering, Personnel Staffing, Reliability, Survivability,, `6 @" W: T; }) D# e: Z1 C Vulnerability, Maintainability, Production, Management Controls and Reporting,1 x+ i- e9 c# U0 r Financial Control, Test and Evaluation, Training, Logistics Support, Procurement + r& I+ g: q. J3 {# v. rand Deployment. The JOPs are developed and negotiated by the Program& W3 K/ N6 y" Y- l( h9 U( d Manger and the participating Services.0 t3 L. o2 p3 w | q9 O Joint Operations3 w$ k4 m Z5 L" k( F Area % u! q9 O+ A% V2 KThat area of conflict in which a joint force commander conducts military, j9 e1 A, n! o; s4 C9 j operations pursuant to an assigned mission and the administration incident to& v9 D6 c8 S& F6 X such military operations. Also called JOA. p- E' C/ M2 R9 T* q Joint Program Any defense acquisition system, subsystem, component, or technology program0 X3 `- U1 C* A9 E7 n/ O: r that involves formal management or funding by more than one DoD Component 1 P3 O: R) V" Jduring any phase of a system’s life-cycle.: Z/ r9 B/ k6 [# W" Q* c Joint/ w; p* R, a8 }& F0 P( ` Requirements ( m( R* u& Y8 M+ J$ @6 S/ ~8 tOversight & ], K! }( t7 e8 FCouncil (JROC) 9 X* k" S4 w8 qA council, chaired by the Vice Chairman, Joint Chiefs of Staff, that conducts/ f; _6 R2 ?2 V% Y$ O$ i' s& o) i8 | requirements analyses, determines the validity of mission needs and develops 9 z* |4 J5 S9 J* F! Lrecommended joint priorities for those needs it approves, and validates; K4 X0 k8 B" A; T' c9 W3 a; E: S8 Y performance objectives and thresholds in support of the Defense Acquisition- |+ V# P6 q) c- y( i' L7 c Board. Council members include the Vice Chiefs of the Army, Navy, and Air0 a4 r8 e# _9 ^. r Force, and the Assistant Commandant of the Marine Corps.6 V& U6 _% T4 }, t! S8 k' g! `5 f Joint SPACECOM 1 x- e$ b {, {4 B' lIntelligence 0 W1 a% d7 x' l6 |Center (JSIC)4 D" X2 D( g0 _' { A USSPACECOM Intelligence Center responsible for producing operational 7 p3 O9 M/ Z0 R* j' K/ O* V; w6 ]intelligence for USSPACECOM missions and for space intelligence production for# H8 M* s# B5 v# X) w t the DoD and intelligence community. Delegated Space Intelligence production 1 H7 {/ @% @, Rincludes: Space Order of Battle (OB), Space Object Identification (SOI), and 2 @* A% X* A% r. O# hSatellite Reconnaissance Advance Notices (SATRAN). Located at CMAFB. ! V' X K! n4 m: FJoint Strategic1 B% j" ^: ^( ]5 t1 F Defense Planning 5 e) A. S8 @7 [' {* r9 Q, [Staff (JOSDEPS)2 j6 t0 \7 U# ?- c A special staff located at USSPACECOM Headquarters responsible for# C3 _( I5 f! O integrated strategic defense planning and for integration of strategic defensive: @0 @/ s/ l4 n: w and strategic offensive operations. The USCINCSPACE serves as Director, Joint0 S) u( y6 B" U" M Strategic Defense Planning Staff.4 s2 Y8 h4 f3 ?! H Joint Strategic 1 ?) t# }! S5 c+ kTarget Planning3 j( t* C _' R1 D2 o Staff (JSTPS)" U9 u7 E H2 P% `, w& u A JCS organization located at Offutt AFB responsible for planning, developing, 9 c- x1 k/ A; n% g3 ]coordinating, and producing the Single Integrated Operations Plans (SIOP).# A, M& ~! u/ @4 @3 N" _ Also responsible for producing the National Strategic Target List (NSTL). The: l/ h8 ] ~+ i& U' L c4 t Commander in Chief, USSTRATCOM is also the Director, Joint Strategic Target $ I6 H! n8 T9 f% E6 }: J3 XPlanning Staff. ) k( O0 u4 f. x* a( c/ o% v. {. MJoint; Q) l& _8 q6 Q Suppression of* l+ |) g( R+ y* q Enemy Air " f. I5 }' R. RDefense" O" b- Q4 t4 [: j A broad term that includes all suppression of enemy air defenses activities ; s1 t) a* {5 Y# Mprovided by one component of the joint force in support of another. Also called- \: {/ `" W4 ~# ~& L9 o J-SNEAD. " v- i( }- N" e% W+ y, }" o3 kJoint Tactical! a/ y6 U* g; ^4 U" w Information6 P. G# U& Z) v" X% C& |3 r3 ` Distribution" |8 X. \! C: C' V System (JTIDS) # p) [# V* Q- g1 B' {- E3 CA joint service, jam-resistant, secure communications system that permits the* E! D0 }/ a% z1 h! R8 R interchange of essential tactical information between aircraft, surface vessels,! \3 A3 ?* C7 S! O4 |# T and mobile or fixed-base land stations. $ ]! Y" b2 `( iJoint Tactics,( y! H4 @4 Z6 N: V L, _ Techniques, and , l! ~) ? E" rProcedures A9 n# |4 w7 _# N+ }! Y& ?! ]) ~(JTTP)) e' U. x' [1 M0 } The actions and methods, which implement joint doctrine and describe how2 D/ n. n2 |2 W0 M' i! X3 ?- d forces will be employed in joint operations. The Chairman, Joint Chiefs of Staff, # F* _$ F% ]# `. Y& V$ Bpromulgates them in coordination with the combatant commands, Services and) W9 ?1 f9 y- e$ ?5 u5 A. t: h Joint Staff. Also called JTTP. 3 k0 f. V3 k& }' N! I+ t+ b* j/ _MDA GLOSSARY, VER. 4.0 J $ I3 }* U4 p; r3 d1540 H# j( v, y4 F% o$ u6 _ Joint Test and 7 B! F/ k7 u$ pEvaluation q4 z% Y; \4 ^5 i" p T&E conducted jointly by two or more DoD components for systems to be5 R5 r) { B# { acquired by more than one component or for a component's systems which have! ^8 F2 I) h8 B3 C E interfaces with equipment of another component. - l$ c/ Y8 N1 O, }Joint Test and 0 x7 e8 q& c5 {Evaluation! Q4 l# u D! T& M. D Program) g( _4 n7 e* z An OSD program for Joint T&E, structured to evaluate or provide information on+ U7 C# I3 Q7 y, q- l+ T* {$ | system performance, technical concepts, system requirements or improvements, + [# l/ `' V. V* C' Wsystems interoperability, improving or developing testing methodologies, or for / W6 D1 F# r- C: R9 tforce structure planning, doctrine, or procedures. 6 ? f Y& Y% R! a, CJON Job Order Number. / p' C( O+ U: r# u% NJOP Joint Operating Procedures. / s1 L/ A1 O& ~% j" D6 mJOPES Joint Operational Planning and Execution System.4 ^9 B& \+ Y& X4 y* V" Q& Y5 ~ JOPS Joint Operations Planning System.) B3 Q$ v& s4 D* a2 B, O' p JOR Joint Operational Requirements. 8 S, R0 X2 G" p, s p7 P% }, tJORD Joint Operational Requirements Document. 8 j: P* w% y3 E$ @+ I8 R7 O _" iJOSDEPS Joint Strategic Defense Planning Staff. " U( y% t, K, ZJOSS JTF Operational Support System (JIEO term).& F, X' F* @* C8 s* P7 Y6 \ JOTS Joint Operational Tactical System (USN term). H2 I; Y' b- P, b# x JP Joint Publication.+ t# \1 O$ f) j8 w1 S JPL Jet Propulsion Laboratory, Pasadena, CA.! Y* g8 D0 d9 ^# {/ [$ B1 h JPM Joint Program Manager.2 C, a7 X: L# W/ _ JPN Joint Planning Net.& N+ q' h+ `- _: C2 o4 V# B( p, y JPO Joint Program Office.+ s% P( Q# V9 Q( r; w- \ JPOC Joint Program Optic Cobra.3 x$ `. `* y& Q( S JPOI Joint Project -- Ornate Impact * J, ]2 @' s9 R( f5 d3 l. N5 hJPON Joint Project -- Optic Needle. 5 y F4 g8 |* [1 GJPRN Joint Precision Reporting Net.7 [* N0 t* }( ]6 V" I3 B JPSD Joint Precision Strike Demonstration.( `2 I0 e- L* f6 B. | JPT Joint Planning Tool. 5 ~# ?6 \- }6 a" E! |1 hJRB Joint Review Board (JROC term).1 N3 [2 q' I1 @# s* m% L' \ JRC Joint Reconnaissance Coordinator (JFACC term). & M' v, N3 k+ L0 |JRCC Joint Rescue Coordination Center (JFTF term).$ A6 Y* L- o2 j- A" v8 t2 m9 W) E JRMB Joint Resources Management Board.

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发表于 2008-12-25 20:10:12 |只看该作者
MDA GLOSSARY, VER. 4.0 J 9 J) y3 H3 X3 b# d155 # H c# i. j5 p5 d7 r. ]JROC Joint Requirements Oversight Council.6 [! r$ M% [5 o" ^" F JROC SSG JROC Strategic Systems Group.' j/ e+ r" F5 A/ g) ]0 Y! Q JRSC Jam Resistant Secure Communications./ w, f; h' ? t9 Z! H2 m% Z JRTC Joint Readiness Training Center. $ @0 v0 k z' A% OJS Joint Staff. - Z, x$ i# H- A. l1 z A t. gJS&MDWC Joint Space and Missile Defense Warfare Center. ) O: A8 @3 x$ R# J4 R/ UJSC (1) Joint Security Commission. (2) Joint Steering Committee (French/US term).: ~5 W& J! \+ P5 {. d JSCP Joint Strategic Capabilities Plan.5 n0 H% v# y; k; X JSEAD Joint Suppression of Enemy Air Defense (Joint Forces term). $ d. O8 u5 C' @7 y* kJSET (1) Joint System Engineering Team (MDA/USN term). 3 T% ~6 }. h/ j# p) I. ?(2) Joint Service Evaluation Team.9 y$ B: w( p2 v; N3 L JSF Joint Strike Fighter (USAF, USN, USMC, UK RAF project).0 ^0 T8 w I! Q/ Z JSIC Joint SPACECOM Intelligence Center.* u9 d! }$ p2 f0 @. R JSIPS Joint Service Imagery Processing System (TelComms/Computer term).; w0 w+ ^/ Q, h! J( q) C( p" Z JSMB Joint Space Management Board.4 s& U9 Z/ [) L JSOC Joint Special Operations Command.5 d- t# R) X* _, | JSOR Joint Services Operating Requirement. I8 m5 p' d4 e JSPD Joint Strategic Planning Document.2 j: M0 t; S5 S& c8 S$ M7 @ _% n JSPS Joint Strategic Planning System.1 X% b% X3 f3 Z+ A JSS Joint Surveillance System. / C% P2 ` g: A4 `* W4 \JSST Joint Space Support Team.: W# Y) q" {- l JSTARS Joint Surveillance and Target Attack Radar System. r$ W4 M% q$ s# W( _8 s' O/ ` JSTPS Joint Strategic Target Planning Staff.) I, z9 m, r7 ?- J8 w' H4 n JT (1) Joint Test (2) Joint Targeting ) k# d* {, ?- e; h# ]JT&E Joint Test and Evaluation. 8 ?9 a- X v: `5 kJTA Joint Technical Architecture (JCS term).% L/ g% K/ I. { JTAGS Joint Tactical Ground Station.) {. g6 f8 x$ C/ H# J+ d% o+ y JTAMDO Joint Theater Air and Missile Defense Organization.5 @9 H K [+ |% ]9 l5 Y) l JTASC Joint Training Analysis and Simulations Center.) |* a: L4 N( J1 `1 m MDA GLOSSARY, VER. 4.0 J9 b8 X' A6 U: B S! @+ ?! _1 w( t, B 156" J/ _# T+ ^) h9 w JTB JFACC (Afloat) Targeting Board (JFACC term).: ~2 x: [3 z! k. v$ T6 R$ b: ^ JTBP Joint Theater Battle Picture. 0 Z4 t: V# j% h! f, ]. vJTCB Joint Targeting Coordination Board (JFACC term).: D- H3 p( l6 ?' S0 l* }3 T1 [6 R JTE Joint Targeting Element (JFACC term). $ ?: |0 I$ R3 `+ N9 DJTF Joint Task Force.( j, l2 K# s2 |: P' T JTFEX Joint Task Force Exercise. 1 u- P9 e% C! p/ r# I6 pJTIDS Joint Tactical Information Distribution System.) j; _6 s0 C' A% @$ U2 V JTL Joint Target List.# A- l J$ H; b2 s4 M' T JTMD Joint Theater Missile Defense.. C2 S6 O) f' N1 `! z) Y JTMDP Joint Theater Missile Defense Plan. / x: `, V. T9 f% L0 ZJTPO Joint Terminal Project Office [of MILSTAR Comms Sys].! f6 i; o; `2 ^ JTOC Joint Targets Oversight Council. ! ~- l1 s' ]9 o, X3 zJTR Joint Travel Regulations.7 Z; h2 p% O$ H# X" l! n JTRP Joint Telecommunication Resources Board. ( K- S! G% S8 L( {( E. s) pJTSG Joint Targeting Steering Group (JFACC term). % w t8 T' a8 l" S- DJTT Joint Tactical Terminal.- X% m! e5 E& D, ]2 @ JTTP Joint Tactics, Techniques, and Procedures.' f# v+ C9 M3 v$ [! ]- t3 d JVX Joint Services Advanced Vertical Lift Aircraft.. x6 [' p2 P; V2 f# m* D; U9 ]' ^ JWAN Joint Wide Area Net.7 C. G. R3 t, ^7 f% I% Z( ` JWARS Joint Warfighting System 9 computer model)., \6 ~ Y2 v9 O! A JWC Joint Warfare Center. 4 n5 S9 S* m8 B" m% IJWG Joint Working Group.# L5 M& ~) E- f' Q6 R JWICS Joint Worldwide Intelligence Communications Network. 3 H" i9 C! d. L( lJWID Joint Warrior Interoperability Demonstration 6 H8 r- Z- j3 A3 O5 _9 EJWSTP Joint Warfighting Science and Technology Plan.7 ~/ ?9 [% C8 r$ w3 t& C2 `' @ MDA GLOSSARY, VER. 4.0 K # A# ^3 a) n3 |" i3 x L2 Z3 d157% w, C$ i" V; S0 i K (1) Kelvin. (2) Kilo.- U. q# [: j" [( t7 }; u K Factor The relative measure of a sensor’s ability to distinguish one object from another. 6 f0 q2 M" K X( W HTheoretically (but not in practice) it is the distance between the mean locations of ( q/ w; {+ {7 ztwo observed objects given normal distributions and standard deviations for both, _6 k/ d! I& ]1 s5 x0 J objects.! u; a/ \ t+ \0 M7 H' J KA Kill Assessment.. S1 u* d- J/ z7 C7 z KAPP Key Asset Protection Program., h3 S9 O! L* {+ ? KB Kilobyte.$ B5 q" Y' a6 d2 | Kbps Kilobyte per second.% e: p' b$ o: @) X# Q KBS Knowledge Based System (UKMOD)., x. l, r; _+ O8 ^# M: K8 i KBSF Knowledge Based Sensor Fusion. ; L7 i0 }. [& V. n1 HKDEC Kinetic Energy Weapon Digital Emulation Center, Huntsville, AL.* W9 _- j) r/ ^& ^& B0 i KDS Kwajalein Discrimination System. ; y, p! K: K: N& p5 AKE See Kinetic Energy.. B, \" ]$ Z ]5 _$ W1 I* I KE ASAT Kinetic Energy Anti-Satellite Weapon. ' L$ U* Q. R" l; ` q" P! q" s* VKED Kill Enhancement Device. ; O- L8 X5 j. X3 u6 J: ?1 QKeep-Out Zone A volume around a space asset, which is off limits to parties not owners of the # z1 {1 {* l" |* B# Z X* \' H, yasset. Keep-out zones could be negotiated or unilaterally declared. The right to$ {+ ~: y2 b* j* a6 d: I defend such a zone by force and the legality of unilaterally declared zones $ D5 ?0 U1 _( H" Q" Z4 Xunder the Outer Space Treaty remain to be determined. 2 C& \6 y, N9 B1 e7 p) o jKEI Kinetic Energy Intercept. 9 x' W! I6 k2 S. C2 @KENN Statistical pattern recognition tool. * t, y( i7 {* n. oKEV Kinetic Energy Vehicle. 8 [: V7 c# a% T. [KEW Kinetic Energy Weapon. & N1 Y7 I& l% {9 B+ w* y3 b$ ]# ~KEWC Kinetic Energy Weapon, Chemical (propulsion).9 D; t( @- ~4 {. ? KEWE Kinetic Energy Weapon, Electromagnetic (propulsion)., Z7 \6 b7 m3 L. Y4 x. Q0 [( G% y KEWG Kinetic Energy Weapon, Ground.: I$ Y3 \( T7 C7 B8 a8 ^: z KEWO Kinetic Energy Weapon, Orbital.$ K# k! r. p7 ?- b& R; p Key A type of dataset used for encryption or decryption. In cryptography, a ; I! F% s3 C; o8 }% ~2 g0 E8 {sequence of symbols that controls the operations of encryption and decryption.1 P m: n9 F$ G Kg Kilogram.3 D: c- y; ^9 u8 G0 V KHILS Kinetic Kill Vehicle Hardware in-the-Loop Simulator, Eglin AFB, FL. 1 ^5 e9 `2 i$ w! p3 G: A% pMDA GLOSSARY, VER. 4.0 K 1 T' Q3 B# B9 E- d) K$ m/ }" V158& b! B) K- I4 J$ _5 |' D& S. s KHIT Kinetic Kill Vehicle Hardware Integrated Test. 9 c, k5 j. K: `KIDD Kinetic Impact Debris Distribution. ! F* A' d( Y2 H9 i6 T$ k* JKill Assessment: I& I1 Y0 g2 I$ N( `3 w! H1 R& W (KA)# u& X4 t7 Z! j4 E( ~/ u0 n An evaluation of information to determine the result of a ballistic missile/RV 5 `; x- L1 U ?intercept for the purpose of providing information for defense effectiveness and ( t2 k( G/ R$ x: o0 Y/ j7 O+ Are-engagements. (USSPACECOM)+ L2 Z" V J, C2 Y, P; Q7 s Kill Enhancement 7 Q; }3 L9 l, t7 ?8 ~7 z6 O H5 b, s* ]Device # G# ], G# i& c; [; @A device that improves an interceptor’s lethality.; Q7 p/ N1 L* u( R Kinematic9 m" J# {& C6 E( v Battlespace9 F w1 }, B9 J0 o3 o) }8 Y The planned engagement region in space of an interceptor given the sensor ' R6 `) c. d) g! h2 Vtimeline, kinematic capabilities of the interceptor, engagement timeline, and( i: U8 |3 V* h1 u C7 y operational constraints. 3 g, M) c$ Q4 s1 DKinetic Energy % M8 [+ p/ d: o8 y7 e$ O(KE) - V/ l' Q/ g4 z' D8 YThe energy from the momentum of an object, i.e., an object in motion. ! B$ C, V1 F, hKinetic Energy 9 ]' O5 S( h" c8 V5 l1 U z# M) K' jWeapon (KEW) 8 ~; I- J ^9 _0 e- T3 v" ZA weapon that uses kinetic energy, or energy of motion to kill an object.; H! m1 c7 C+ h6 h& \6 R; L& A; K Examples of weapons, which use kinetic energy, are a rock, a bullet, a nonexplosively armed rocket, and an electromagnetic rail gun., h2 W3 J2 m* U& L% m' }& H: { Kinetic Kill' K1 a4 v: j% q" a Vehicle (KKV)! ^. E, |6 a6 c' a A weapon using a non-explosive projectile moving at very high speed to destroy% t s2 _! [% d# N0 ]7 X3 L a target on impact. The projectile may include homing sensors and on-board 1 Z- y' l4 C0 } f3 n% }; Vrockets to improve its accuracy, or it may follow a preset trajectory (as with a shell 7 r0 k: H7 R6 @. R2 v3 Klaunched from a gun).

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