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发表于 2008-12-25 20:07:59 |只看该作者
MDA GLOSSARY, VER. 4.0 H8 J Q9 S E7 l/ H! D+ |$ I 130# _ [" Y9 W- Q ?! ~& C Human-in-Control Human-in-Control provides for the positive control of automated system/ u2 S' ?$ _8 M' j3 \" b( b- E processes. This is accomplished by requiring human action to provide essential5 ~" |" m+ m* T3 t5 s1 ?: ^ high-level commands such as initiate, terminate, and interrupt. With regards to ' ]& ^2 Z4 x$ a9 VBMD, 10 USC 2431, Section 224 states that: “No agency of the Federal 4 B- ~; u0 l+ [4 [Government may plan for, fund, or otherwise support the development of % k# R% E0 E3 G% j; `9 Zcommand and control systems for strategic defense in the boost or post-boost6 X |( n4 o: j* {4 I9 J4 ]2 g! I phase against ballistic missile threats that would permit such strategic defenses0 t6 f; }/ z# Z! ^% j( M; O/ ^ to initiate the directing of damaging or lethal fire except by affirmative human : t) R4 i8 f3 _7 N! cdecision at an appropriate level of authority.” (USSPACECOM) # N/ Y: V( q* V6 H- iHuman$ e+ |/ V1 ~1 h" K# D6 a Intelligence1 w% @- ~1 C0 j: `# S4 U (HUMINT) 0 i! u4 i& p) m2 x+ ]/ nA category of intelligence derived from information collected and provided by ! N3 v- X% v) I- d$ @human sources. 9 O% x' |/ u1 a" C3 k, X* v+ JHuman Systems $ Y5 T# \* l: _. d& P' a3 GIntegration 0 O+ ?. s7 ^ J/ E1 }. z. k$ ZThe human considerations (human factors engineering, manpower, personnel, " U! Y0 B" C( i# o5 [training, and safety and health hazards) that are integrated into the design effort2 t5 O" V3 g1 ^" |9 m0 ^ for the defense system to improve total system performance and reduce costs of b; a/ L+ \7 t2 G' I' zownership by focusing attention on the capabilities and limitations of the soldier, 2 ?: |! r0 h) u' O" ^" gsailor, airman, or Marine.; S5 ~- ?: {3 r) U; X8 `6 u HUMINT Human Intelligence.( |& E( E, m8 } ` HVAA High Value Airborne Assets." y& Z. d% d& T+ R. R% R; W/ v HVAC Heating, Ventilation, and Air Conditioning.8 P; {; }3 ~6 r( A HVG Hypervelocity Gun.- ?$ M; i; r" w$ b) _1 |! } HVL Hypervelocity Launcher (Gun).! h( s$ E8 E* m9 x0 l5 J HVM Hypervelocity Missile.+ P2 I% h" ]8 d) U% J3 U+ [; P HVP Hypervelocity Projectile., d8 L! l" i7 u7 A HVT Half-Value Thickness.) P- K8 Z5 |7 f6 W( V& v3 J+ f HW Hardware. ) c7 z: E3 O5 ]* L) c, r' Y# ~; B0 uHW/SW Hardware/Software. ! T, e: X7 k9 D1 vHWCI Hardware Configuration Item. 2 v2 _: M$ |# a; Y0 W* g7 f4 iHWIL See Hardware-in-the-Loop.. c/ o9 _- ?' G, z, b( }1 n HWILT Hardware-in-the-loop Test.6 X2 n; g" P+ q4 g/ ` HYLYE Hypersonic Low Temperature. ' b% T4 B. O" ~Hypervelocity1 h" r$ N* y3 p+ A" g, Q: q Gun (HVG) % q( y1 O. Q8 lA gun that can accelerate projectiles to 5 km per second or more; for example, / R3 w- @% n+ g& F4 @: s w" [- Q0 Yan electromagnetic or rail gun.* a) c8 Q/ O+ I" d) Y) p0 _ Hypervelocity# a- B9 J& b% {$ H' M8 ? Missile (HVM) ; U% ]5 h) {& T' \% BA missile that can operate at a velocity greater than 4 km per second./ g% N ~* @. Y3 J: \" K0 F HYWAYS Hybrids with Advanced Yields for Surveillance., }% v1 M( s! L Hz Hertz (cycles per second). G( g3 E* Z: v MDA GLOSSARY, VER.4 .0 I: o! X, {4 V! v+ g- [) V( j( j/ j1 | 1312 M$ @7 L+ H/ r, w( ^- ~ I&CO Installation and Checkout. 4 i M, s3 B2 X- lI&I Installation and Integration.* ?% a; l/ W/ F* M; _, o5 p1 k I&PA Integration and Performance Analysis.0 w. {0 P' D- U* O5 j; B/ e; L5 \& ~ I&T Integration and Test. Z5 @9 r1 N) e# m/ rI&W Indications and Warning.+ _; `& R1 I* S f) o I-CASE Integrated Computer-Aided Systems Engineering. 6 A1 C, s3 g }2 h4 ^2 OI-HAWK Improved HAWK. " b' R% h3 W7 |$ s1 MI-MOSC Integrated Mission Operations Support Center (USAF term). ) k8 v8 z1 {& l/ i- `: gI/F Interface.; ?* q8 P# F, c# d, }2 H I/O Input/Output. 9 k' l, d4 p) e1 v4 dI/R Interchangeability/Reparability. 8 f% C- X- P( E/ [( a- z0 xI4 International Information Integrity Institute. 3 A7 w4 I' t5 `( P- z" ^: p" lIA Information Architecture. . O. o; N( @* aIA&I Industrial Affairs and Installations.' ^+ X. n0 A+ a7 H IA&T Installation (Integration), assembly, and test.6 ?, }# \0 ]$ A' k5 E% r1 x2 u IAD Integrated Air Defense./ I% m6 d- m& t IADS Integrated Air Defense System. 9 ]. \; z- X J8 D/ n5 A- EIAEA International Atomic Energy Agency.; S7 l: _3 K0 W+ i IAG International Agreement Generator. . M1 Z. A4 ~% X, l z3 TIAI Israel Aircraft Industries. . i& m: ^& W; {" a6 WIAP (1) Integrated Action Plan. (2) Integrated Avionics Package.: G' m% t) S- V IAS Israeli Architecture Study. 1 }* S4 ]7 m. R4 k; ~IAT Integrated Assembly Test.' W7 E5 J, T+ W( Y: \. |9 D IATACS Improved Army Tactical Communications System. : O5 t+ s: m0 a. s( rIATCO Integration, Assembly, Test & Check Out./ m" ]9 s5 k8 H: T! [$ t8 D; ` IAW In Accordance With. . c/ e7 g/ z* v9 W9 T) hIBA Industrial Base Assessment. s) B3 f- R; f0 Q% B& ]2 LIBC Impurity Band Conduction.- o3 N5 q+ d E IBCSi:As Impurity Band Conduction Arsenic Doped Silicon. $ s" L3 A3 g% XMDA GLOSSARY, VER.4 .0 I, l: w+ F& F: L" s j, f 132 % l2 @' ]/ `8 yIBDL Intra-Battery Data Link.7 [( }& W# K6 C5 R) ^ IBID Integrated BMC3 Infrastructure Demonstration 4 L) I3 X. r5 jIBIS Israeli Boost-Phase Intercept System. ( d- w9 f7 g5 qIBM International Business Machines Corporation.& N8 _ e3 p9 h8 G% L IBPA Industrial Base/Producibility Analysis.2 _4 s( I N+ j0 T IBR Integrated Baseline Review (DD 5000 term).; m9 ?7 \5 N2 o1 g+ U) T! }$ S IBS Integrated Bridge System, a part of the Integrated Control System (ICS) for US% T' s l% a# e/ H naval ships. . n7 @. D5 p0 g; J* p: eIBSS Infrared Background Signature Survey.5 t7 ]- E& P6 O8 e% h IC (1) Intelligence Community. (2) Integrated Circuit. 3 E- _1 a0 T' `ICA (1) Independent Cost Analysis. (2) Independent Cost Assessment. 6 ?; o: C( ~( x. }5 F: ?ICADS Integrated Correlation and Display System.- @- }* [# h4 X9 c ICAF Industrial College of the Armed Forces. ' }! m$ F! [+ t0 ]- r4 xICAO International Civil Aviation Organization.9 L" E0 I; j. ]: ^4 C$ q2 v ICAS Integrated Condition Assessment System, a part of the Integrated Control . j) {3 w e6 Q' L' A* rSystem (ICS) for US naval ships. / i' Z( T( D: D- y F: g9 PICASE Integrated Computer Assisted Software Engineering. 7 M/ F$ g4 m7 TICBM See Intercontinental Ballistic Missile. + A3 l, Z2 A* Y1 Y* S- MICC (1) Information and Coordination Central (PATRIOT).3 q- m+ ^' L9 h3 m0 `% x+ }6 V (2) Item Category Code (ILS term).' r& b7 e; v3 v- T* H- h9 Q. S( O2 } ICCIP Inter-Center Council of Information Processing.8 N8 y( X6 h/ n0 x* y ICCITS Inter-Center Council on Information Technology Security., U5 @$ i( m7 A1 @* Q ICCN Inter-Center Council on Networking. . P, M2 T3 t9 V' t! _; o+ e- E% lICD Interface Control Document/Drawing. % w1 o/ ]/ b- b5 ZICE Independent Cost Estimate. - T% d" `9 H1 d2 {9 \% j, o& t/ G$ dICEDEFFOR Iceland Defense Force (NATO).6 y( E. P& R. G1 b: b( ] ICM Improved Conventional Munitions.: F1 B( h+ B! ^ r. v D. Z ICN Installation Completion Notification. w- Z# T$ S% F6 T* VICO Interface Control Officer (JFACC term). ! m- s: ~7 ^$ w# E P8 NICOE Initiations, Commitments, Obligations, Expenditures. 9 Y+ [- E6 C! P" V( a+ ^MDA GLOSSARY, VER.4 .0 I& ~, L5 m4 P* P/ w! v6 U( m 133 & @# x) r2 i% a( q5 DICP (1) Interface Change Proposal. (2) Inventory Control Point (ILS term).6 N8 a% g" y; P% e w& c (3) Interface Change Proposal. (4) Interface Control Process.9 E/ J8 Z! x! C* }4 i2 R1 y1 { ICR Integrated Contracting Report. " @6 k4 ?* g! w6 VICS (1) Integrated Control System, a computerized monitoring, command, and! c2 H4 z) ]: p" W2 y& w* h8 { control system for US naval ships." S0 u- }; _" g/ v1 o (2) Interface Control Specification." P) `) |: q- w' L- g4 r ICU Interface Control Unit. 1 Z l5 _; ]+ x9 B! Z& p; lICWG Interface Control Working Group.5 y0 J2 ^7 c4 ^2 i4 C( C# L ID (1) Interactive Discrimination. (2) Identification. 0 f% R/ V$ V' kIDA Institute for Defense Analysis. 2 F: c4 k* X: k% J$ K9 T, jIDASC Improved Direct Air Support Center (USMC term).9 ^- t: y/ g2 V0 F1 \7 q IDB Integrated Data Base. 6 y1 C$ I: w( E( N/ XIDD Interface Design Document. 0 c4 H% j, y( X4 i. o) R# s5 RIDEA Integrated Dose Environmental Analysis.: |7 I& ?, m1 ]) C IDECM Integrated Defensive Electronics Countermeasures (USN/USAF term). - Q& c0 ?8 d0 T( H% U1 q2 n6 D6 MIdentification 4 \1 K1 J1 [4 NFriend or Foe+ k* ^. [3 n$ i (IFF) " C* V" ~7 C/ v+ X8 A' r, oA system using electromagnetic transmissions to which equipment carried by 1 C" I! c# \4 m6 }3 y% |) vfriendly forces automatically responds, for example by emitting pulses, thereby+ f; Y3 j& ` r1 Y distinguishing themselves from enemy forces.) ]5 f, Y7 K# P+ O9 b# O) V7 | IDG Institute for the Dynamics of Geo-spheres. 8 q, J( z) _* | |+ _+ O, G& `' QIDHS Intelligence Data Handling System. # j. q! D, U: ^) ?IDIP Integrated Development and Initial Production.( p! n/ R8 f( M9 ?0 t- d/ G6 s 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. ?7 Y- i$ V0 d# q8 O @IE (1) Independent Evaluation. (2) Integration Exercise. o$ i" B# ?( Z @$ M ^+ jIED Intrinsic Event Discrimination. 7 T( g# n/ A6 r0 H0 ]& d% m. fIEE Institute of Electrical and Electronics Engineers.: B" y. ~9 n, T( n IEI Integrated Engineering Infrastructure. , S H# ?) W: K) U( U, h7 RIEMP Induced Electromagnetic Pulse. ( R! f+ `; W* [6 n# bIEP Integrated Evaluation Plan.% G7 u8 Y- Y) Z! _ IER Independent Evaluation Report.- _$ s" B a* [9 N4 b0 v IESG Internet Engineering Steering Group.7 G. m9 N; d% a j* T1 ^- g9 X% c MDA GLOSSARY, VER.4 .0 I. }# J; e" Y9 ?! T0 E: P+ p: y 134 |1 V6 v0 @4 R. h7 kIETF Internet Engineering Task Force. 4 M9 H6 g' r+ z. f% mIEV Integrated Experimental Version. 1 U: Z8 ]( }2 @& B, V) M- y4 KIEW Intelligence and Electronic Warfare.% N' v2 Q4 x* K7 T% t% ? X. b IFA Integrated Financial Analysis. . ^4 z$ H+ x! o; L* XIFF Identification, Friend or Foe.2 I5 S1 U0 g9 M% \- d# ` IFHV In-Flight Homing View.1 s( w$ E7 {9 b* _& G IFICS In-Flight Interceptor Communications System. IFICS provides the$ `( @9 ^8 s! m* \ communications link between the ground and the space based NMD assets. 0 d8 ~; m( L9 Z1 K5 u6 UThe generic term IFICS replaces the obsolete design specific communications , q* l; J3 T9 i& |" n! Isystem term GEP. * Z7 a% B b Z1 H$ aIFOG Interferometric Fiber Optic Gyroscope.* q. U, v' h: N' n. M: j IFOV Instantaneous Field of View. 4 L+ z1 }( t: \. PIFSR In-Flight Status Report& E. d2 p' v; N" k0 ^6 | IFT Integrated Flight Test., [9 x7 T- o" C IFTU In-Flight Target Update.3 j/ p/ u; O8 E: |9 l: q9 \+ f IG Inspector General. # U! N' R! D4 A1 K: HIGEMP Internally Generated Electromagnetic Pulse.' s. k% w- t0 y$ B IGES Initial Graphics Exchange Standard. 9 T4 N) k8 v2 r; |; R$ Q3 EIGS Inertial Guidance System. , ~5 J2 \. e( O$ ?IGSM Interim Ground Station Module (JSTARS).0 T9 Z! k; V8 e! T' n. F; E IGT Integrated Ground Test.0 s9 b( s! B1 O% F IGU Inertial Guidance Unit. , Y- r! z3 e' o. j9 |9 H/ e3 _II Impulse Intensity.! O: J9 ?. y0 E" }% w! y2 T IIP Interoperability Improvement Program., g; W; k2 K0 U9 T IIPT Integration Integrated Product (Process) Team. : u% w% P& h6 M4 x0 g8 e1 q; ?4 ^IIR (1) Intelligence Information Report. (2) Imaging Infrared.( ^+ ?9 w9 y# a% q, B, p IIS International Institute for Strategic Studies (UK). : M- v3 T, ^2 j4 T* cIIT Interceptor Integration Test. [! H( `/ y }% w7 TIITF Information Infrastructure Task Force.1 q7 u) U2 z* K8 Y& P IJSOW Improved Joint Stand Off Weapon. 7 a: M9 e `- P$ T# u; jMDA GLOSSARY, VER.4 .0 I2 U) D! v! j Y( d! Y* }8 o 135& Y4 s* L% {$ Y$ T& f" J ILA Inter-Laboratory Authorization (Contracting term).1 a1 f) Y' }/ ]# @9 D. B! s ILC Initial Launch Capability.3 m& @3 x9 x! \) K" ^$ d Ilities The operational and support requirements a program must address (e.g.,8 \. i7 E+ L5 i$ x3 P: h availability, vulnerability, producibility, reliability, maintainability, logistics ) z' O) j c/ s0 Rsupportability, etc.). ' v- j* t6 N+ J2 y3 wIllumination Non-interfering impingement of electromagnetic energy on Red, Blue, or Gray8 y# I2 p! B" x; I5 \3 w satellites and Red ballistic missiles in test. 0 W8 E! }7 w/ j- BILS Integrated Logistics Support. / d& H. h) t$ T( h9 O& g1 l/ ]0 o# n9 jILSM ILS Manager., h* F& Y. w. w" e- `0 D h. @ ILSMT ILS Management Team ' [- b* z8 c$ M- h8 ~ILSO ILS Office.$ ?( X% V' t, N+ i7 t9 P* ^ ILSP Integrated Logistics Support Plan. ' Q% L# p; Y6 \ILSWG ILS Working Group.1 K$ H# k! s, H; F" A" f+ A IM Information Management. 6 d& [% k- ^4 J+ s7 Q4 a! PImagery Collectively, the representations or objects reproduced electronically or by optical ' `% m1 M; N3 Z- Z( q0 g% dmeans on film, electronic display devices, or other media. / A3 R& O( S' ]7 s+ @3 f5 s8 c; }Imagery 3 I+ Q7 ^! W, O; s; JIntelligence + _7 r# S0 l6 w) Y(IMINT), X& O+ {# a+ A1 } Intelligence derived from the exploitation of collection by visual photography, % n# S3 Q: Q* w! g) ninfrared sensors, lasers, electro-optics, and radar sensors (such as synthetic 7 U5 ?5 q1 z& M3 ~4 ?5 W4 ?! uaperture radar) wherein images of objects are reproduced optically or $ u/ }; {& D, i7 yelectronically on film, electronic display devices, or other media. " g4 M( M8 k( y8 K0 bImagery7 k! W% R4 v, {- M3 Q Correlation 0 J; w/ g% l- e b; m9 |$ eThe mutual relationship between the different signatures on imagery from. C' m5 R" X9 I8 j! p7 }' s/ W different types of sensors in terms of position and the physical characteristics$ m, H! p1 @, p! F* v signified.* d! ^# C, s" T: B5 [, ^4 \ Imaging The process of obtaining a high quality image of an object. + w% f5 k! k9 {IMC (1) Interagency Management Council (GSA term).7 Y+ w& }) ^6 S2 H, h (2) Internal Management Control.3 I5 ^4 {0 m9 T5 ~- A4 h IMDB Imagery Management.4 ]: @. v3 Y$ g b3 h( `! F IMDO Israeli Missile Defense Organization. MDA counterpart in the Israeli Ministry of " |" G; D! y' V b. `. MDefense.) z- W" H# R, [ x& {! \ IMINT Imagery Intelligence.2 s/ _% G. ]$ }" J: C: i IMIP Industrial Modernization Incentives Program. ( a$ L9 V& L! kImmediate Kill- \& a; O2 b4 w2 x- ^' c Mode$ }3 ~: W% @' f/ F* @4 [ A kill mode in which the target is immediately catastrophically destroyed by & R0 Z6 @( l1 q$ \impact with the KV or KED.5 I0 m' u; k1 X' Q) g Impact Point# d; \$ u- D9 Z Prediction (IPP)" q# z6 n9 J8 ]6 J5 w1 c Prediction of the point on the earth’s surface where a specific RV will impact, 6 v0 U: c4 C9 j$ H ]usually specified in terms of the circular error probable. The estimate includes , \& z* W7 E1 B% ], e: G9 B1 xthe perturbing effects of the atmosphere and resultant uncertainties.% N5 z6 R8 D* N3 b/ l. R+ [ MDA GLOSSARY, VER.4 .0 I2 t- I) F/ J: H, L3 [ 136 " f$ ~, [4 ^0 H1 ?+ AImplicit / R6 H* K/ C; UCoordination! S# T* C1 `! l' \; b- C. c Many independent battle managers (computers) use the same algorithms to. O! e" n1 h f7 c* T) A derive a common calculated result. Decisions resulting from these calculations 1 \. l+ P; p! J) A8 {2 s$ B8 owill be identical even though the calculated results may not be identical. + o; `7 M( K1 U$ h; f, GDecisions or results are not communicated between Battle Managers. * M9 d3 s# F8 G- D4 l1 M, p* [Impulse A mechanical jolt delivered to an object. Physically, impulse is a force applied for . d& [3 t d( m ~, qa period of time, and the System Internationale Unit of impulse is the Newtonsecond (abbreviated N-s). (See Impulse Intensity.) ) R+ [* z- _$ l# wImpulse * I. `/ D% m# g- AIntensity (II), x- J3 Y" ]3 h1 N/ e Mechanical impulse per unit area. The System Internationale unit of impulse 4 I1 s2 B, d6 R ^5 c1 Gintensity is the Pascal-second (abbreviated Pa-s). A conventionally used unit of . ]6 i: K, x# l) l1 `impulse intensity is the “tap”, which is one dyne-second per square centimeter; , X& O$ c( V ^2 H/ Z I( d4 Yhence, 1 tap = 0.1 Pa-s.- S3 r3 W, Q, k! s; O& L Impulse Kill The destruction of a target, using directed energy, by ablative shock. The 5 q" E7 ?( ]7 Q! L( Tintensity of directed energy may be so great that the surface of the target. ~ f1 x6 T% Z6 @- x violently and rapidly boils off delivering a mechanical shock wave to the rest of 8 l7 X+ H) i7 A6 p8 ]. nthe target and causing structural failure. , ^" O) `# H" Y7 |! oIMPWG Information Policy Working Group.7 N" o+ Q/ Q3 r4 q IMS Integrated Master Schedule.3 v; u, N! M# V IMU Inertial Measurement Unit. 3 G3 i" B( E, [1 Z3 ?$ ]6 vIN (1) Air Force component intelligence officer (staff). (2) Instructor. (3) Impulse0 b# l# L5 N, \ Noise. % I4 n( p4 u/ C9 v/ y% ~/ LIn Inch.0 y. Q3 N; \1 r3 W; k2 Z- r3 @ IN LINAC Induction Linear Accelerator.' v6 M; ~" {0 S9 g* p! ^/ L In-Flight Target t* q3 K5 _4 `/ g Update (FTU) f) h% ?" s& v5 | A report to in-flight interceptor weapons. The IFTU provides updated, predictahead target position, time, and velocity for use within the interceptor’s control 0 V' I6 B$ W/ y3 w, N2 x# Lsuite to make midcourse corrections to intercept the target. 7 q- z" X: V _; mInclination The inclination of an orbit is the (dihedral) angle between the plane containing 9 |0 B# k2 A7 \2 O: Qthe orbit and the plane containing the earth’s equator. An equatorial orbit has# |* S4 M5 ?/ E+ i0 w" f$ O& o# y& P an inclination of 0° for a satellite traveling eastward or 180° for a satellite' b/ F% V* @0 Z y traveling westward. An orbit having an inclination between 0° and 90° and in + O8 D( Q/ ]; c# J3 wwhich a satellite is traveling generally eastward is called a prograde orbit. An . h' E- r+ b" a" G! T. u1 ~orbit having an inclination of 90° passes above the north and south poles and is5 n% c7 d& c3 r6 z called a polar orbit. An orbit having an inclination of more than 90° is called a 5 s& Z7 b. F: f4 {6 lretrograde orbit.3 O0 J4 j# n' ], ~/ G/ F+ N Incremental# s }1 V7 \! O4 R% k Funding 8 g+ S+ v$ p; M% W0 z; [ y. `& \& ZThe provision (or recording) of budgetary resources for a program or project7 a+ ~" |' @: g. k) r, [ based on obligations estimated to be incurred within a fiscal year when such # Q) p0 b( W+ j9 \: P% g* Q4 {budgetary resources will cover only a portion of the obligations to be incurred in' ?# @3 K$ ^: y" S3 _2 ` completing the program or project as programmed. This differs from full funding,0 @+ ?- T6 G8 D: x) a6 ] where budgetary resources are provided or recorded for the total estimated8 W& T8 B8 C6 K8 _% a) Q obligations for a program or a project in the initial year of funding.

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Identification j& K$ p7 ^5 |# q6 l Friend or Foe& g W, D u* [+ n% p5 } (IFF) 9 z' b% ~ p4 LA system using electromagnetic transmissions to which equipment carried by' x% r5 C$ g6 E) a friendly forces automatically responds, fro example by emitting pulses, thereby5 o+ l$ K+ D( l1 N8 w+ _' M distinguishing themselves from enemy forces. R# E) b6 B X7 o L9 mMDA GLOSSARY, VER.4 .0 I - m: H. }% F; P# a( ^% L1376 p( T ~* d" C w; _ Imagery- `( Q6 q3 K5 p% b Correlation 5 E5 K" \+ W2 L5 S2 NThe mutual relationship between the different signatures on imagery from 4 ^% B7 J# j1 T4 z0 Wdifferent types of sensors in terms of position and the physical characteristics& N$ L% F* s @) W, q% d signified.$ Z! J6 L$ F) p" T- W Independent 0 ?( |% C2 b9 aCost Analysis 7 |2 ?+ y: T' z! U8 ?An analysis of program cost estimates conducted by an impartial body( G {4 }" j6 u* I, K o# Y) W8 h9 I disassociated from the management of the program. (See Title 10, United 7 q8 x! q: z) W$ ]# QStates Code, Section 2434, “Independent Cost Estimates; Operational 3 v8 ^# K5 E7 Z& y( j, UManpower Requirements.”)" r- m2 y1 Y% j+ x S Independent Cost9 x. \9 ~: B/ D+ e8 P0 F Estimate (ICE) 1 Z6 }: a2 Y" |. y- c3 {+ J4 d7 C! N6 dA cost estimate prepared by an impartial body outside the chain of authority ) _2 Q( p" X; U$ o hresponsible for acquiring or using the goods or services. - O7 D* D( t+ J- b3 tIndependent& T$ o1 c0 H* m; b8 L- m Evaluation" r/ @4 X9 }( ]" w1 x7 _; k Report (IER) W6 M* O% n: c# m* ?' q Documents the independent evaluation of the system and is based on test data, ( e8 @& x2 q6 S4 o; ^$ Creports, studies, and simulations. The IER contains the independent evaluator’s( b& @6 N4 j' S0 Q" |% Q assessment of key issues, supporting analyses, major findings, and a position on* v( G" H' O t4 ^+ ` the future capability of the system to fulfill approved requirements. The IER is ! D5 J9 T) Y# V# [2 P+ }" @0 B/ Lprovided to the DAB to support the MS III decision production decision. An IER8 n# z( h5 w- I; s! ~1 R7 y may also be used to support LRIP decisions. (U.S. Army) I/ U! t: q9 L# g; O: N Independent' I) @) C9 P: ]. @+ z Research and! h- E; P. ^: U6 t& p5 k1 X0 D7 X Development : [5 p! L* G- T Y! Y7 L6 ?(IR&D)* N( Y5 |+ T c; i5 Y Effort by industry that is not sponsored by, or required in performance of, a& X Y+ ]5 g* N# Z1 \: g contract and which consists of projects falling within the areas of basic and9 E1 M9 g! E$ g+ Q applied research, development, and systems and other concept formulation2 T+ s* H. {5 K. {: `8 Q H' K studies. Also, discretionary funds which industry can allocate to projects. (See 5 x! i* P7 |: B1 p6 P: H5 MFAR 31.001.) 5 B; U9 j; k; j* T, v, CIndependent+ F1 |! B C8 @" @5 U, ? Verification and ' S0 {% u- y6 ^* r. lValidation (IV&V)3 k7 H. E6 h; o; {1 c2 m2 H. ]9 y Verification and validation performed by a contractor or Government agency that . ]* F; d: l1 S% m0 x* J6 eis not responsible for developing the product or performing the activity being : v: J1 a, c! ?6 J% a8 S; |evaluated. IV&V is an activity that is conducted separately from the software 5 W b1 `) w. u, Kdevelopment activities.. c/ d7 n$ f. N+ u3 X Indium" D; O4 Z1 h% X, Q4 C, p# Y& o Antimonide0 v5 L2 h2 m% a; n- R Infrared sensing material. f; i* G) t# a5 x6 p" mIndividual4 ~- t/ c/ u) {/ m- G Acceptance Test# Z' H/ e/ @: r& m5 j/ I A test of predetermined critical items to verify their operational characteristics 8 }$ e; D5 u9 C) i. Wprior to assembly into subsystems. Waivers to this requirement, such as using 3 ^- P" j( o e1 D8 z- nthe end item acceptance tests, are not recommended as production expediency.1 j$ C' V9 ?7 f- X9 W) V! S Induced 1 N3 m. W) H* P8 YEnvironments ! }4 h. L% {. J0 l( U! Q$ XInduced environments are defined at the system level as the disturbances in the & {+ A$ ~6 K% Y' J @, Z; {5 [natural environments caused by BMD system influences on other BMD assets3 {, j3 z/ y& p0 d6 J (Self-Induced, e.g., GBR radar energy impacting and effecting a GBI in flight) or " ^5 ^: C/ \( q: b7 E7 c4 g6 Mthe influence of other systems external to BMD on BMD assets (Externally- : T" I" }2 C( a8 Z, UInduced, e.g., high power electric line electromagnetic field effects on C2E+ B& t$ ^; k1 e! F' b: m electronic equipment).& q+ P2 G* g# O; ^( W Induced ) R# t; p' [; A6 V0 ?' }0 n: ~Radioactivity 3 I5 k2 a- I' N; L% h. C$ vRadioactivity produced in certain materials as a result of nuclear reactions, $ u; R6 D/ \# E. v* i3 yparticularly the capture of neutrons, which are accompanied by the formation of ' T) H) @8 ?0 A9 C) ]5 T' Lunstable (radioactive) nuclei. In a nuclear explosion, neutrons can induce / `8 ]7 o E5 I; @6 L& pradioactivity in the weapon materials, as well as in the surroundings (e.g., by, a! q2 O9 G! u" _ h7 k" g, Y1 p interaction with nitrogen in the air and with sodium, manganese, aluminum, and % E0 p4 A& e$ x$ ~( Zsilicon in soil and sea water).* |$ O- t1 h: ?8 X. X- [ MDA GLOSSARY, VER.4 .0 I 2 _2 u7 p/ H" X138 8 F G5 R U' g# N5 y0 S8 ?Industrial/ i- r5 K. h- X2 j; \9 ]8 V Resource2 E6 \0 J8 |2 f% [# g1 y Analysis (IRA), X5 ^2 D3 w/ R X% A A quick-turnaround or a detailed analysis of industrial and/or specific factory $ b$ W) f& q, e; ]4 Gcapabilities to determine the availability of production resources required to) P( L5 Q# v6 [ T; C) q, q. k" f support SDS. These resources include capital (including machine tools and3 O" L" t( i' D0 R6 a3 k) a special tooling/test equipment), materiel, and manpower needed to meet the 8 B. }) V4 @9 s+ M3 [! B7 {5 ?5 l/ w( srange of SDS requirements. IRA includes the results of feasibility studies,; J4 W `1 D2 z; a% E producibility analyses, and technology assessments. Shortfalls discovered in ! J2 g! A; R3 K2 LIRAs are assessed for risk levels, based on the reasons for the risks, and + N% A3 [( V3 b% r. R! k5 N9 jbecome issues listed in the MDA Producibility Programming and Issues : o+ ]2 O7 `8 p0 D* c5 TResolution Strategies (PPIRS) document. & V6 q R o2 r' s. n, q. qInertial 3 }9 `3 g! j( }, dGuidance 3 Q/ e3 e3 X2 U! K/ n2 @: u5 dA guidance system designed to project a missile over a predetermined path, # v4 o" v6 [% |4 j$ P; Uwherein the path of the missile is adjusted after launching by devices wholly) Q4 z' \) E" W" H. u$ L within the missile and independent of outside information. The system measures' T" |2 W# H6 h and converts accelerations experienced to distance traveled in a certain # B1 J$ J7 A, edirection. 5 K x3 ? u* M: n! X% nInertial; c9 y1 K& }! i) E# H2 Z) i Measurement 6 j8 W% A) d0 u; T: T* l2 MUnit (IMU) . f) S$ f" F0 ?' m/ X ^# L8 ?A guidance mechanism designed to project a missile over a predetermined path, : F' _1 {' v& }4 v- {wherein the path of the missile is adjusted after launching by devices wholly : n! Z! |1 u3 B: \) \* \1 mwithin the missile and independent of outside information. The unit measures ' c; \. H; e$ i' g L1 vand converts accelerations experienced to distance traveled in a certain' D: h. s9 E% P direction.9 D" x/ @8 k: k3 W* X3 a INETS Integrated Effects Tests for Survivability. 5 C g" D: X8 s1 z, RINEWS Integrated Electronic Warfare System (Navy term). 4 k/ M8 ~* |3 wINF Intermediate-range Nuclear Force (Treaty term). Also the name of U.S./USSR 1 g# O" `. ^: dTreaty. * q( P6 n2 F2 r- H: V9 H$ T3 dIn-Flight Target0 y1 w! T' F; g2 O Update 5 S( |$ L7 i' W* ?, J4 aA data report, which contains updated, predict- ahead target position, time, and" F5 U6 W- p Z velocity for interceptor weapons to use in making midcourse correction.: S( t4 f8 ?3 F: ^8 f (USSPACECOM)! g# x, ]+ I: {5 x+ _ Information + @/ M; l. }" `1 nArchitecture (IA) : m+ W5 ^* M% {A description of the information that is needed to support command and control 0 ~7 c' o& X3 u, kdecision making and battle management, where it comes from, the processing # h0 D) ^3 i4 I# ~& H* t5 D8 g* U( rthat must be performed to provide it, and the resulting behavior. The description 8 [1 w8 _8 U- c$ l$ n# L1 dprovides the invariant framework for interoperability, operational and design' t6 J ^3 Q: C u1 K( H6 y flexibility, coping with the unexpected, extensibility, and reusability. ( Z2 |1 w; o; P7 VInformation 1 Q" s+ Z. f( n3 N; YResources % {+ Z0 b$ T. p+ qManagement, f$ S( ?6 e. `2 w- j0 n The planning, budgeting, organizing, directing, training, promoting, controlling, $ D, E8 d, w' x2 \% Qand management activities associated with the burden, collection, creation, use, . [; m1 \- p9 E, Tand dissemination of information by agencies and includes the management of 9 S% N6 p ]4 e8 ]information and related resources, such as FIP resources.

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Information) N& z8 [9 q1 s Security" j; h4 Y2 b& ] (INFOSEC)8 A1 B0 S2 t' l% ]4 g* V' N" p1 R, O Those measures and administrative procedures for identifying, controlling, and& M' m* Q S# Z6 s7 ]$ ^ protecting against unauthorized disclosure of classified information or 7 n6 \7 J; y4 \8 \7 X8 Hunclassified controlled information, which includes export-controlled technical* h+ z4 F1 M: C. B) g( i7 ~1 d data and sensitive information. Such measures and procedures are concerned 8 Y" X4 U, H( G8 S' _# Pwith security education and training, assignment of proper classifications,5 J" ^7 O! y7 i) `8 |1 f6 t+ @ downgrading and declassification, safeguarding, and monitoring. 3 c& [+ r) g( Y3 kInfrared (IR) Electromagnetic radiations of wavelength between the longest visible red (7,000, {9 H1 z1 E! i0 J# }( T8 e3 ^ Angstroms or 7 x 10E4 millimeter) and about 1 millimeter. (See Electromagnetic- i! ?1 C3 P9 T- t* U/ ?- B3 L Radiation.)4 `+ |+ \" p6 |) D Infrared (IR) * Q* _* I; h% {( V. ~3 |Electro-Optics ' T, c& P, ^: a6 k& FTechnologies/techniques employed by optical sensors in the wavelength" V g! |7 N$ }) q spectrum slightly longer than visible but shorter than radio.5 T' V4 q! o' E0 V, {+ Z' ] MDA GLOSSARY, VER.4 .0 I 9 H& _3 R. Y n8 c139( G/ W9 h/ J* b9 B+ y Infrared Imagery That imagery produced as a result of sensing electromagnetic radiations emitted/ y/ z) h+ ]* Q2 a+ l, [2 T, \% x2 g or reflected from a given target surface in the infrared position of the$ \( u' @$ f% r9 V, U4 Y1 p electromagnetic spectrum.3 x) a7 G9 i4 W5 `# F4 Q Infrared Sensor A sensor designed to detect the electromagnetic radiation in the wavelength4 @3 m8 x; w( h' }' u region of 1 to 40 microns.1 J$ `2 O: D# Q# Z; G Initial # d' r2 _. L# e& fOperational( r5 P2 N8 R/ N. ~# W0 Z Capability (IOC) 0 \+ |% }5 s, y8 F; UThe first attainment of the capability to employ effectively a weapon, item of # G0 U) f# }8 [/ y. dequipment, or system of approved specific characteristics, and which is manned! e! o5 _$ J$ i or operated by a trained, equipped, and supported military unit or force. 1 Z4 `! L2 G2 t# _! `4 @Initial D* {) J7 d+ K" o6 Q5 T1 d Operational Test2 b' D+ o! B2 C and Evaluation ! l d7 G$ \. g9 o# }, x4 \% w(IOT&E)7 F' F( q4 F' t2 g. n# \( c All operational test and evaluation conducted on production or production/ g1 I4 j! a. j6 p2 ~ representative articles, to support the decision to proceed beyond low-rate initial / X+ t5 L& E: C& E( H3 Eproduction. It is conducted to provide a valid estimate of expected system& c! D' h" w% ^ R operational effectiveness and operational suitability. 5 i0 _( J* [8 u+ a1 r8 Q% dINMARAT International Maritime Satellite (a UHF communications satellite)., [% ?0 r, i) B1 u# N$ ~ INS (1) Internal Navigation System. (2) Insert code.! O8 e/ u+ f! L InSb Indium Antimonide.! s. f" d+ o! j r6 T9 {) I& P& r4 @ INSCOM U.S. Army Intelligence and Security Command. $ [. B) q6 z, l M- }INSICOM Integrated Survivability Experiments.* O1 Q5 C, J% q; T* d" ~ Integ Integrated.3 c' T+ I" B, {# {/ ~6 _ Integrated- a; L6 H9 N3 P- w/ ~" M8 T Contracting8 G5 w9 K- p# R9 {/ i, ` Report (ICR) ' l7 G8 r2 B* G2 H) qA quarterly report of BMD contracts, which define the roles, relationships, and6 z6 I2 C" d6 B" ?5 d' | interfaces among contracts, contractors, and programs, and provides a ) J" `1 j; j4 l! h* amechanism for strengthening MDA contracting oversight (formerly known as( Q2 D9 p2 t3 c8 \# k* M7 q- R Integrated Contracting Plan or ICP). , Z0 M" O" P. f. w$ b+ u8 ~2 ^0 I7 M5 XIntegrated Fire 0 x6 _. Y( ]: s: w2 ^+ RControl System$ I+ q7 L% |! H/ \ A system, which performs the functions of target acquisition, tracking, data4 D1 |% ~+ u! B; l! u; C" q computation, and engagement control, primarily using electronic means assisted, H2 E* D' G# x by electromechanical devices. " P" V' v0 `% h9 {& o+ N; nIntegrated1 p- r# T% w" Y1 t Logistics Support2 T9 [& ]# i# G/ j+ u (ILS) ' K& ]$ L- a! x, U8 w(1) A disciplined, unified, and iterative approach to the management and 8 H# H4 k) V, w& l8 g" Ttechnical activities necessary to integrate support considerations into) m* U7 v$ q( a+ J0 F; v: X system and equipment design; develop support requirements that are# n9 K$ g8 q, D: r" ]2 ^* A8 f related consistently to readiness objectives, to design, and to each; z [/ W; S9 H2 f( b4 n other; acquire the required support; and provide the required support ! z3 D7 O0 M( {. Gduring the operational phase at minimum cost.) w& Q$ a. T r7 y& b/ }4 W" B (2) A composite of all the support considerations necessary to assure the& a# e+ `3 n1 \+ ]% x8 E effective and economical support of a system for its life cycle. It is an 8 w+ Q' E2 K; Kintegral part of all other aspects of system acquisition and operation. ( |6 d" Q2 K4 v! R0 ]5 q9 R7 ]Integrated1 Y; h3 u/ _6 l V. M Logistics Support $ M6 b0 M9 N! z9 D6 `( P K(ILS) Elements ) k+ \5 J8 w- a' E$ iMaintenance Planning. The process conducted to evolve and establish ( h; g+ N' V- F) D7 umaintenance concepts and requirements for the lifetime of a materiel system. 6 H9 G% p! b# [. R* k' T+ ]/ DManpower and Personnel. The identification and acquisition of military and# m6 l) N2 G& a; u3 R/ o* F" ` civilian personnel with the skills and grades required operating and supporting a / U; Q, t5 Q* w8 qmateriel system over its lifetime at peacetime and wartime rates. 4 v+ z0 o5 E5 s+ H$ r2 z% C/ ~/ cSupply Support. All management actions, procedures, and techniques used to0 t( L+ v# Z7 C$ D+ k6 j determine requirements to acquire, catalog, receive, store, transfer, issue, and! J) y& y0 {% d- h, L: ^; J8 z dispose of secondary items. This includes provisioning for initial support as well 9 J* U' n! x' l. Uas replenishment supplies support.9 D* ]2 D. J% H% J8 } MDA GLOSSARY, VER.4 .0 I2 m- B; K% w' M# a' L# ~ 140 ; ]' V. M y& b7 ] hSupport Equipment. All equipment (mobile or fixed) required to support the& P w6 I/ q* `/ m4 T2 Q. U operation and maintenance of a materiel system. This includes associated multiuse end items, ground-handling and maintenance equipment, tools, meteorology( W3 \1 ^- _! l0 ^% V7 o and calibration equipment, test equipment, and automatic test equipment. It $ o$ i9 f7 V1 _! Zincludes the acquisition of logistics support for the support and test equipment: d6 p8 `2 U+ r( k/ R# Q itself. + q8 d9 ~% f* H% xTechnical Data. Recorded information regardless of form or character (such as ' V. x% W# G9 |- y7 rmanuals and drawings) of a scientific or technical nature. Computer programs, U( ^5 d+ @9 q; O b and related software are not technical data; documentation of computer ! z4 O* i# D9 b- I8 s; sprograms and related software are. Also excluded are financial data or other- k% K7 l5 n4 g: \; z# }; _6 d& k information related to contract administration. , d9 P! ]& e1 a# l: T. T3 |6 NTraining and Training Support. The processes, procedures, techniques, training ' O, S& e' A/ k& i5 {- f4 rdevices, and equipment used to train civilian and active duty and reserve military5 j% P' i# ^. X- z# B personnel to operate and support a materiel system. This includes individual% L, N$ C, v5 T E and crew training; new equipment training; initial, formal, and on-the-job training; , P6 e3 i# k: D# Gand logistic support planning for training equipment and training device! `: @- w* `, \0 u2 G& m acquisitions and installations. ) x2 X1 Z# Y y0 Z* LComputer Resources Support. The facilities, hardware, software, # _$ S( A s) M0 T. mdocumentation, manpower, and personnel needed to operate and support# p6 W% ?% N0 _3 o( K$ F; b1 |* }; S0 \ embedded computer systems.4 G( v1 e8 a( J, v9 `, l9 i) Y& C Facilities. The permanent, or semi-permanent, or temporary real property assets. V! A! C6 {" h2 a9 ?8 v) W# s% T" n, W required to support the materiel system, including conducting studies to define+ ]' [7 v) O+ q y) U6 E types of facilities or facility improvements, locations, space needs, utilities,: _! \1 _5 W; z0 I8 O; p environmental requirements, real estate requirements, and equipment.! h8 q6 ~ l5 D0 A Packaging, Handling, Storage, and Transportation. The resources, processes,- D, a1 O+ G9 y. } procedures, design considerations, and methods to ensure that all system, . Y7 y" M ~/ b2 m- |9 tequipment, and support items are preserved, packaged, handled, and - l6 f5 a8 W/ i8 Y1 Etransported properly, including environmental considerations, equipment' t; X8 _( E# D: y' c4 J+ t preservation requirements for short- and long-term storage, and transportability. , _( b- L0 j4 d- n7 SDesign Interface. The relationship of logistics-related design parameters, such as , _' O1 f8 V, Yreliability and maintainability, to readiness and support resource requirements.$ l0 f: W& X2 ? These logistics-related design parameters are expressed in operational terms, M' r5 t# g2 C4 M2 @) ^( C) ? rather than inherent values and specifically related to system readiness2 y# ?$ a2 j! X! U# R: d0 g; \ objectives and support costs of the materiel system.1 @8 Z+ D0 x# b! o Integrated $ A" c, e8 Z& P) [Logistics & a/ x5 {8 }* L0 p; z+ n0 _Support Plan6 f& \/ J4 H1 V/ s (ILSP) + j9 l6 E3 t, T9 IThe formal planning document for logistics support. It is kept current through the2 z5 }' d' K) x& a- Z2 O program life and sets forth the plan for operational support, provides a detailed2 {/ P* I. p3 e5 i+ w7 o |% v ILS program to fit with the overall program, provides decision-making bodies with ; S" E) ?! u- xnecessary ILS information to make sound decisions in system development and7 m1 P5 z/ X w; R* U! ], B$ Z% y+ @ production, and provides the basis for ILS procurement packages/specifications - J. L: y2 o: R8 R+ Y5 \' n) R& l1 _2 sRFPs, SOWs, source selection evaluation, terms and conditions, and CDRLs. 4 c1 c Y% o& O4 A @+ h$ j3 e, cIntegrated8 X7 K5 K/ x: \( Q Priority List & R0 Z0 x t# b7 o; a& c* eA list of a combatant commander’s highest priority requirements, prioritized; E" d) O* `' \: N3 l across Service and functional lines. The list defines shortfalls in key programs ; ~( P/ h6 H& [% _, Zthat, in the judgment of the combatant commander, adversely affect the ! c; u7 x- \' o! }1 xcapability of the forces to accomplish their assigned mission. The integrated* x8 A+ q( K2 D1 v) C priority list provides the combatant commander’s recommendations for9 X! h0 ~6 v6 u8 U) P9 W8 y programming funds in the Planning, Programming, and Budgeting System6 @) g+ ^& |3 ~6 ^6 b process. Also called IPL.

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Integrated 2 s9 e3 Q: V. N5 I" BProgram 3 E! n n: `9 Z* Z8 \Assessment) E9 Y& }3 l1 N [+ } h: z1 y (IPA), [: W x. R! @9 W. w3 j8 N+ `) n A document prepared by the supporting staff or review forum of the milestone y, Y8 v* {( }8 F1 R& P* g2 O+ ~7 ~9 l. d decision authority to support Milestone I, II, III, and IV reviews. It provides an 3 U1 ^; {8 g: \# windependent assessment of a program’s status and readiness to proceed into, I" O+ k7 X5 w+ E) ?; [4 \* [ the next phase of the acquisition cycle. 3 e- l" A7 A; k& C L. o; x9 J+ eMDA GLOSSARY, VER.4 .0 I * H. @9 T5 f, `1419 M6 S, ^) c/ Z Integrated 2 v( T. O. {# j. u: k+ pProgram : M2 R m) S3 i' nSummary (IPS) ; @3 |0 |- k, n! e! v4 J9 WA DoD Component document prepared and submitted to the milestone decision0 h6 k4 d+ m+ | authority in support of Milestone I, II, III, and IV reviews. It succinctly highlights $ r. k, w) c9 hthe status of a program and its readiness to proceed into the next phase of the8 j/ d) i9 a' Y* p acquisition cycle." r. d* E/ h+ u Integrated1 y( `( C% I" M4 [ Tactical Warning 7 }5 R* A$ c; P% G3 H* j/ f$ }and Attack1 U. k2 a D2 G6 H. t5 m- X Assessment6 N# q9 v) M6 r: ]1 p4 U& l (ITW/AA) ; N' C4 y ]0 l3 HITW/AA is the integration of ballistic missile warning, space warning, and ' @) }; q; X+ z5 b4 {atmospheric warning with intelligence information for synthesis of all attack0 }# n& Z# }$ L& B warning information, strategic and tactical. + H' C% [6 {1 d% x% M( x* o# QIntegrated * g/ y4 J8 i1 b7 j8 {" s2 RWarfare 7 F7 ~1 g! ^% {# M' W$ {The conduct of a military operation in any combat environment wherein opposing* m: W1 ?4 A3 ]7 F" \+ P4 V7 u forces employ non-conventional weapons in combination with conventional 7 t1 z8 E: r+ p: t6 Sweapons.# _" T7 |. x" Y B5 X' u( ^' _1 X Integration (1) The combination of separate systems, capabilities, functions, etc. in such4 A3 w# I8 s9 f' o a way those individual elements can operate singly or in concert without: X1 ^. d; [5 Q- I adversely affecting other elements. (USSPACECOM) 2 q) V5 X% O. r) u' z3 a(2) Act of putting together as the final end item various components of a 5 _; v/ I0 ~* [3 tsystem. , f+ _$ ~% x* J+ CINTEL Intelligence.- y: w. d, E. F6 n Intelligence (1) The product, resulting from the collection, evaluation, analysis, ' V- \0 h/ D; i" I" G7 dintegration and interpretation of all available information concerning# U/ c/ t/ x3 |9 J$ h0 R9 P% e foreign countries or areas. " n% L; e+ C, g( Q0 m(2) Information and knowledge about an adversary obtained through ' b# ]2 _5 f8 D9 ` T/ wobservation, investigation, analysis, or understanding. " p+ u4 F# B1 A% rIntelligence ( o& {( u* O" |; A0 eIndicators/ W) A$ I- t$ y4 | Classified or unclassified actions or information obtainable by an adversary that, 9 Z" v6 d: N+ Z. Y( w# b: Rwhen properly interpreted, can provide information about friendly capabilities and3 @: J, G0 n+ u% `4 H4 G6 x intentions. + w# Z! O! g, [& P( ]Intelligence , ^8 V+ `- W" z1 u6 oOperations1 l4 w2 v! n0 q1 b6 L! t Center (IOC) # L6 p' \) G; C+ f; L' g U: l# FAn organization term for all intelligence activities in Cheyenne Mountain AFB. 1 B' A, Z1 @, `The IOC includes the Consolidated Intelligence Watch (CIW), Operational 8 K! q/ I/ P' v2 @# [, \0 SIntelligence Elements, and the Joint SPACECOM Intelligence Center (JSIC) 5 F6 j0 G: M# UCheyenne Mountain Node (JCN). , @$ b y' f/ j+ I g+ B' J+ ~Intelligence + b% s7 K; ^/ G' z9 ZPreparation of6 S* R/ E; w* W1 Z4 L3 A the Battlespace - ?( B( k, B& ?' NAn analytical methodology employed to reduce uncertainties concerning the ) j2 B; ]& k2 d2 o! qenemy, environment, and terrain for all types of operations. Intelligence 9 f, E8 C A9 B5 l5 K7 Apreparation of the battle space builds an extensive database for each potential # u0 J( E7 a# [# Q, @ varea in which a unit may be required to operate. The database is then analyzed4 L9 \+ F0 I. \+ C0 l% R in detail to determine the impact of the enemy, environment, and terrain on2 ? o1 c: @8 U0 l) e( i0 H( ^ operations and presents it in graphic form. Intelligence preparation of the battle 9 c5 M! k* B7 N6 i. }8 i$ Ispace is a continuing process. Also called IPB.( X; w% e0 W( E0 Z Intelligence* X7 M5 |. C) m2 F: | Report (INTREP) 2 G1 I- _) q A: }# O6 W k q; qA specific report of information usually on a single item made at any level of 9 t5 X* Z F5 g1 S5 f5 Xcommand in tactical operations and disseminated as rapidly as possible in7 }" r6 B& n% k2 e: Y a keeping with the timeliness of the information.6 h- S/ B) Q0 i, P5 f$ B Intelligence/ w. |6 M& ]/ r/ \( c( ~ Threat 5 R' k, w. G+ z0 j! OAn identification of known and potential adversary capabilities to collect and! j3 G" u) e, k X }, R exploit information from a given or similar operation. 2 ?6 W; o: y1 z; k, fMDA GLOSSARY, VER.4 .0 I- O- O6 G/ W! I: n5 [ 142% T6 D8 n4 V1 }3 j0 w Intensity The amount of energy of any radiation incident upon (or flowing through) unit 3 p: Q' e2 j2 s, n4 yarea, perpendicular to the radiation beam, in unit time. The intensity of thermal0 r }, D- n0 c" f+ R" W2 s5 n radiation is generally expressed in calories per square centimeter per second * z/ j3 r' ?' b- f$ _* t+ Tfalling on a given surface at any specific instant. As applied to nuclear radiation, 1 P) m8 f1 ?% C, ^the term intensity is sometimes used, rather loosely, to express the exposure (or$ E2 x; X! t9 B+ S% r% T. C dose) rate at a given location. $ N1 ?' |" O E: K' z; r; {Interactive 9 s& `0 O; p! w4 x' [& yResponses 1 Q2 r/ P# Z# ^& A0 HInteractive response data on tracked objects to assist in their classification. , a* e" G9 v* O5 SInterceptor 0 v- U5 d. U# ?$ ]' V& O1 TCluster $ r! p1 m# S# ]- uA group of objects, which are within divert capability of a deployed interceptor.3 r' p0 g, t! p) r5 P+ Z2 e% f+ u Interceptor Track A function or ability of a sensor to accurately detail an interceptor’s position and & v% N, C: D( t Wvelocity in three dimensions.( u- b0 v+ F4 z Interceptor Track+ s4 R: i3 ?5 E8 |- {% S Range (Max)1 }1 h5 c4 `7 S) n The maximum range at which a sensor can perform the interceptor track function. w/ k* n; `" D: i& s# f/ A on a single interceptor in a normal (non-man-made) environment.

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Interchangeabilit V& s5 m/ B2 X; R: ?y ; [' ]& T/ n8 V6 WA condition which exists when two or more items possess such functional and+ w7 T2 q& J/ X* p; r! {. T physical characteristics as to be equivalent in performance and durability, and" {; m i) }# D7 \0 c! X. X are capable of being exchanged one for the other without alteration of the items ! l3 p; u: C7 N. r& r: ]themselves or of adjoining items, except for adjustment, and without selection for# o! [# H# u- C! O" z fit and performance.3 A6 \1 n0 o- I4 Q Interconnection The linking together of interoperable systems. , K, @/ \% Q. p3 K7 v: @. s0 \ eIntercontinental 7 ^5 h D7 n; q8 mBallistic Missile S$ D$ D4 m- e) u& \4 Z3 O0 X(ICBM)6 ^0 U) p9 X- {( W# T" i A ballistic missile with a range from about 3,000 to 8,000 nautical miles. The # ], G, X! I$ c% \) Q! gterm ICBM is used only for land-based systems to differentiate them from % q8 R( q! A9 ^. v2 ^7 l7 l: L5 Ssubmarine-launched ballistic missiles. (See SLBM.)4 ~; g# R# B- B1 N* p4 v. }: x Interface (1) A shared boundary defined by common physical interconnection! W5 i/ m4 M: i8 t% `& \6 r characteristics, signal characteristics, and meanings of interchanged X6 t, c, G" e* Z- g0 T signals. ; Q$ A w: W( [) @$ O(2) A device or equipment making possible interoperation between two . u- l& _& G! msystems, e.g., a hardware component or a common storage register. : P/ p$ A3 J" d0 ?, t- Y% c(3) A shared logical boundary between two software components.+ e( @6 q L, f! T* P (4) A common boundary or connection between persons, or between% r/ U- J7 d3 l systems, or between persons and systems.5 D0 n. f7 b) S' x9 h2 P Interface Control8 ~" `' U# {2 w6 e) g Document (ICD) 6 ~7 n9 T# O! Y: \(1) A document that describes the requirements of the characteristics that must 3 p0 r4 j9 f; a& mexist at a common boundary between two or more equipment or computer6 g k8 G( p$ X* b" V software products. An ICD for a BMDS element or component consists of an : P3 ]9 i# G3 ~( lInterface Control Specification (ICS) and an Interface Design Document (IDD).( C/ B' O( m! a# [3 x& i$ a (MDA Lexicon)$ |+ o( C% K# L6 q0 t, A! ^" n (2) The technical documentation, generated by each party to an interface control : y. l# R" [9 b5 i0 p) w3 Q2 qagreement, that presents that party’s interface and interfacing requirements. 6 Q3 M+ J% [: j# f/ wThe ICD may be in the form of a drawing or a specification. + C+ [ S* M: b1 u5 eInterface& n2 D9 F0 B) }" b3 x4 i* r* Q& @ Requirements, d) F7 R( l. R/ C7 r Document (IRD) + Q8 }% ]2 }1 L" W- _* YA document that sets forth the interface requirements for a system or system4 `0 p: S# w, Y/ e component. i9 Q3 r, m3 J9 W- E MDA GLOSSARY, VER.4 .0 I / z" n% q) ~3 l/ w8 P143 1 n' v' ~& x* @, \Interference The phenomenon of two or more waves of the same frequency combining to9 R6 p6 u; ]$ j' y. | form a wave in which the disturbance at any point is the algebraic or vector sum: J" m8 L, S: c; C" i# Q9 f of the disturbances due to the interfering waves at that point.9 g( e" \4 u" o. p Intermediate5 z% q! l1 N( b& j1 n, \ Range Ballistic . G8 @* F$ e5 s( l G$ kMissile (IRBM) $ m( ^: h8 y6 L/ k% {" C* v% Z) AA ballistic missile having a range capability of 1,500 to 3,000 nautical miles. / t# Q4 ~* ^7 Z1 B7 N$ a a2 j) C! V' OInternational s3 t) @- x% H Agreement 9 T7 z& g- s2 g3 x* jGenerator (IAG)& {" l- C: n3 I- K Software system, managed by OSD, which must be used to author DoD ! Y, n' ~! {- b6 W% M. E: k8 einternational Agreements.7 g5 a9 {, B ^( U5 d" E3 F: v International 1 M1 P0 V3 P$ }, K! r5 P' Q TCooperative* x Z- N( V" Z- A Logistics% e3 b+ X7 P0 G f% p% a3 e3 q Cooperation and mutual support in the field of logistics through the coordination $ G4 Z! h" x% u; ?7 A& Jof policies, plans, procedures, development activities, and the common supply 9 S+ H# c7 R" m$ ^! ~% {and exchange of goods and services arranged on the basis of bilateral and 2 \( B9 ]% r3 V1 qmultilateral agreements with appropriate cost reimbursement provisions. : }7 b/ C" c2 KInternational 2 u, C8 C. M" f! R9 c9 ?) l& xLogistics5 w* Z- H. @4 M; n" Z# F6 v The negotiating, planning, and implementation of supporting logistics 5 s5 x9 D/ }4 A7 ~7 C/ Jarrangements between nations, their forces, and agencies. It includes furnishing/ I# k& E2 y$ ^. u' K logistic support to, or receiving logistic support from, one or more friendly foreign , q! e- a& E! C0 `) _3 s9 bgovernments, international organizations, or military forces, with or without; b. M& x1 r- U reimbursement. It also includes planning and actions related to the intermeshing ) v) H- ?, {5 o( P. E3 ]5 i& vof a significant element, activity, or component of the military logistics systems or 6 |& P Q+ }3 O7 Cprocedures of the United States with those of one or more foreign governments, 6 a e3 B9 B9 h: l' q3 u: g# Winternational organizations, or military forces on a temporary or permanent basis. 6 [1 p6 @( d+ r" FIt includes planning and actions related to the utilization of United States6 m w% l! @: W7 c/ E. D logistics policies, systems, and/or procedures to meet requirements of one or; U/ g$ N1 D; v" V9 V$ m! Z more foreign governments, international organizations, or forces. 0 m' w* j% F* }: n% WInternational & Y; a" r' S3 B& s5 k9 [Logistic Support, i. q( v( P! C. S& ?8 ~ The provision of military logistic support by one participating nation to one or* I1 k5 p4 c6 } more participating nations, either with or without reimbursement. $ \ C$ m# g5 \/ R# A- gInteroperability The ability of systems, units, or forces to provide services to or accept services8 Z% P3 w. E+ Z X, M$ |. C from other systems, units, or forces and to use the services so exchanged to+ g9 x+ v# t/ u7 b0 i operate effectively together. 0 \1 u V2 B: }: G+ }% LINTERPOL International Criminal Police Organization.9 J' o+ p, G0 G; p8 D* C( T INTLCT Integrated Electronics.. ?8 N# L6 D0 ^- P/ ? Intruder# W; V! ^3 z1 T# a. p& |9 y7 G Operation 5 L x Q8 [/ m6 `+ LAn offensive operation by day or night over enemy territory with the primary / q; N- J8 J5 n2 P/ k# h6 \ F) Uobject of destroying enemy aircraft in the vicinity of their bases.# r) [/ {4 }5 L9 N- I INU Inertial Navigation Unit.8 e3 y$ w9 g3 G7 w K Inventory Control ~) M4 N0 j1 b8 bPoint$ \7 p _, c' l- g" e' h2 z An organizational unit or activity within a DoD supply system that is assigned the # g$ G& N+ x7 G; V. E& U% \primary responsibility for the materiel management of a group or items either for a 5 A6 J' l& f9 i" J" W1 {0 r; lparticular Service or for the DoD as a whole. Materiel inventory management 4 S/ p) L4 M3 w5 Qincludes cataloging direction, requirements computation, procurement direction,* U9 O# E; Q3 t' C distribution management, disposal direction, and, generally, rebuild direction. 9 z2 z8 @* h- r! |" VInverse Square ; r% q4 @7 O6 u) |7 R9 u2 d+ ALaw; y: U, b: D1 d+ Q The law that states when thermal or nuclear radiation is uniformly emitted from a8 |2 K% v; G9 Y* d; Y# Z( @- H point source, the amount received per unit area at any given distance from the 9 U' c2 O) R7 c" ?& u! G7 T# }) w" Jsource, assuming no absorption, is inversely proportional to the square of that& V7 ~' s3 P y9 o distance.2 l. w% X% v% S) o+ V% S% E/ J MDA GLOSSARY, VER.4 .0 I: {: E L' Y- c: I 1448 M \" C, i- P/ V+ n) {9 X. S Inverse Synthetic * s' i: Y! R* e }! y, p7 v* iAperture Radar0 V/ Q. E. p$ F( f& h (ISAR) ; o) w) I2 V2 q" X7 P. C0 ]0 ZA type of radar similar to synthetic aperture radar, which uses information from & A0 z& s" K" Jthe motion of targets to provide high resolution. # {0 o: z$ p4 ?* \, F9 T6 ^# z5 EIO (1) Information Operations. (2) Integrated Optic. 4 o+ ]" _/ t4 U( E: B2 l8 l) U% DIOC (1) Initial Operational Capability.4 V: j; M' p+ F5 \6 B' X% n1 ] (2) Intelligence Operations Center. 1 B5 H7 U" B/ x: c/ G* |8 r(3) Integrated Optics Chip. ' `9 n6 A! `7 p5 k, r/ p8 s c- wIOM Inert Operational Missile.. G" j% [: ^1 j! W- G% c; F IONDS Integrated Operational Nuclear Detonation Detection System (US).$ R0 D; J7 j9 ]+ z3 t Ionization The process of producing ions by the removal of electrons from, or the addition- a/ d" N1 [0 j$ B% @- l" Z4 K of electrons to atoms or molecules.: Y- ^# L$ v( z9 l" g Ionizing: ?! N% U0 `& Y2 B8 `6 X Radiation + z" z c5 _+ m) cElectromagnetic radiation (gamma rays, x-rays, extreme ultraviolet (EUV)) or0 d7 Z/ a7 P4 s4 V particulate radiation (alpha particles, beta particles, neutrons, etc.) capable of6 B6 A9 A7 ]: h% l) \ producing ions, e.g., electrically charged particles, directly or indirectly, in its ! C# N" L5 {& k. K- H8 D) d/ \( G# _passage through matter. (Nuclear Radiation.)1 C X! B# D2 j) |) I Ionosphere The region of the atmosphere, extending from roughly 70 to 500 kilometers- w, N5 M5 O* T& \) s) i altitude, in which ions and free electrons exist in sufficient quantities to reflect 8 Z* e; N' q$ [, Z. n# { pelectromagnetic waves.+ W3 n& {" M6 b* y+ q IOSS Interagency OPSEC Support Staff. 7 G# Z* A R: \ ], ^IOT&E Initial Operational Test and Evaluation.) F3 G0 a) p7 _' g p, k0 \) H IOU Input/Output Unit. : o! U7 U( c) IIP (1) Instructor Pilot. (2) Initial Point. (3) Initial Position. (4) Internet Protocol. 8 V: K2 s/ X" h% m- L* y* X(5) Interconnect Protocol.' u- O# w0 O0 k, ?/ P2 s7 c IPA Integrated Program Assessment.1 k# P( ~4 @) o" \ IPB Intelligence Preparation of the Battlefield or Battlespace. $ ^+ U9 T* t8 UIPC Information Policy Committee.# J# h; @, A$ u& Z2 p P IPD Integrated Product (Process) Development. 2 }6 M: ^: f# IIPE Industrial Plant Equipment.& s" e; ?: `- o/ y6 G: P IPL Integrated Priority List.* {6 P2 d6 V9 [2 D" ? IPM Integration Program Manager. . w' n0 G$ {7 k3 j2 a* @) I# kIPMI Integration Program Management Initiative. : N( }5 P: u; p! }! aIPP (1) Impact Point Prediction. (2) Industrial Preparedness Program. + o. Z0 A9 Q) W9 @' g. YIPPD Integrated Process and Product Development. t3 S# x' d/ F Q IPR See In-Progress Review. (Also called Interim Program Review).0 }& l- m& K' Q( Y) s v f( G MDA GLOSSARY, VER.4 .0 I/ l' j+ I% s# H9 U, m6 v 145 ) `- s3 f) ^% n6 q+ F. ~. |, w5 t+ [IPRR Initial Production Readiness Review. - P9 p, ?( {8 s/ n+ W/ J6 k. g' PIPRWG Intellectual Property Rights Working Group. 5 C/ H ]9 `* CIPS Integrated Program Summary.# m$ b8 J# a/ A IPSRU Inertial Pseudo-Star Reference Unit. v* W- M& s/ Z5 }# k3 M IPT (1) Integrated Product Team. (2) Integrated Process Team. (3) Integrated 2 j2 L6 L3 E" Y' v& @0 TPlanning Team.9 `1 ~3 m/ p1 U. e IQT Initial Qualification Training (ILS term).& @) r- O1 w6 {, g, E* o IR (1) Infrared. (2) Information Requirement. (3) Incident Report. (4) ) z5 s7 \7 m; n+ h" ]Information Rate. (5) Initial Review (NMD BMC2 term). (6) Isotope ; d$ o I h$ G& ?" pRadar." h6 `' p: [+ a' |1 I IR Electro-Optics Technologies/techniques employed by optical sensors in the wavelength. O6 y q4 ?! C6 D: M5 L! Z spectrum slightly longer than visible but shorter than radio.( g/ n4 i$ F/ G; R8 L IR&D Independent Research and Development. (Also called IRAD). 0 A! I2 j# g/ G- ]! d2 nIR/Vies Infrared Visual." c. U8 \ W7 v) i IRA Industrial Resource Analysis. ) y; P+ g) e3 e- C' w8 l+ c7 jIRAD Independent Research and Development.0 f- h4 t4 j7 G) W- j1 x IRAS Infrared Astronomical Satellite.; S, V" q5 E G IRBM Intermediate Range Ballistic Missile., L' @: g( y+ f* B g' I) U IRBS (1) Infrared Background Sensor. (2) Intermediate-Range Booster System.5 x% F2 N6 A) U b IRCM Infrared Countermeasures.: _3 |7 d5 i0 a5 e& N- _" _: P IRD Interface Requirements Document.& J( |- W% r) i3 L1 B IRFP International Request for Proposals (Contracting term).0 F$ g9 D4 t. S: S8 H3 I8 ] IRFPA Infrared Focal Plane Array.9 d( Z8 a3 V4 t; I+ M IRG Independent Review Group. $ O6 j3 m! D$ qIRIA Infrared Information Analysis Center.2 ~+ j; w+ C2 Y! c IRIG Inter-Range Instrumentation Group.1 b7 R7 X u1 N+ ?$ A1 ~ IRINT Infrared Intelligence.- B! m, h& j' o( x* M; b IRIS Infrared Instrumentation System.. y% m4 c/ G- W; u3 P IRLA Item Repair Level Analysis ILS term).7 F8 q3 Q0 B# Q7 t0 a IRM Information Resources Management.4 j9 g5 r* X# Q' i$ V% ~0 X IRMAC Information Resource Management Advisory Committee.

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MDA GLOSSARY, VER.4 .0 I ; ^0 ]- N/ {% E4 Z* J, K1465 |& ?: ~& {" k- F IRMC Information Resource Management College.8 F) l3 G+ A- ?- {0 F IRR Internal Requirements Review.6 I8 g4 j% c# c8 m6 X2 A IRRAS Integrated Reliability and Risk Analysis System. % [& a5 y6 v7 ]0 l3 i$ JIRRS Information Resources Requirements Study.1 |# m8 o. ]' J" ~ IRS Interface Requirements Review./ F5 }; _. W8 B6 T* z8 p; x3 C6 w IRSS Infrared Sensor System (EAGLE). * a1 @& n0 o' K4 rIRST Infrared Search and Track. ( _" F* [* z) D+ J( _/ y' GIRTF Internet Research Task Force. 9 N/ R: j5 Y$ n6 N) Q- kIS Information System. 3 r8 e' M' r/ d2 mIS&T (1) Invite, Show and Test. , d) K) z1 o1 B- x(2) Innovative Science and Technology.: x# @& H* I( q. [ (3) Integrated Science & Technology. ' B& v2 e+ e4 H% [& H# k: tISA Inter-service Agreement.7 C8 C& J) }) `! L, n5 M IS&T (1) Invite, Show and Test.' j0 [6 d: K+ e# K5 X' S+ b E4 [ (2) Innovative Science and Technology. 9 D% [0 {$ g% l' TISAR Inverse Synthetic Aperture Radar.0 z- `, R4 D6 }2 q& o ISAS Institute of Space and Astronautical Science (Japan). $ ]% ?8 ]' v2 W6 {% Y+ Y# @ISC (1) Information Systems Command.2 i j# w7 ]5 E# ?# }! ^$ K/ V (2) Irvine Sensors Corporation. % d, V! W R( i- cISDN Integrated Services Digital Network. * f" O M. G( R2 c% }ISE (1) Integrated SATKA Experiments. (2) Integrated Space Experiment. ; Q8 r% p+ p3 X; x) Q8 w5 m$ b. sISE&I Israeli System Engineering and Integration.) h+ V5 A( p t, W8 d* O3 p/ } ISG Industry Support Group.' o% M# K4 [8 m+ r, c) h ISM (1) Industrial Security Manual. (2) Integrated Structure Model. 4 {- i7 J# e- d6 y; S# z z% _ISMG International Simulation & Modeling Group. 4 o+ Z: b1 J, i; p `ISMO Information Security Management Office.) r/ k- {4 J7 d8 _& ^+ |! |# G ISO International Standards Organization. 2 k/ K: `3 `7 j Y* sISOO Information Security Oversight Office. 4 ~; \) s8 _4 N! I2 u vIsotropic Independent of direction; referring to the radiation of energy, it means “with + w- Q0 R& `8 R( T. ]0 d# Zequal intensity in all directions” (e.g., omni directional). 5 Y# k# V, z5 ?; L& p# d/ t) hMDA GLOSSARY, VER.4 .0 I7 n* a& C4 E& i 147 6 }( ~% `$ r4 f( i( GIsotropic, }; P# H; N H, M* y1 m Nuclear Weapon " y+ ~2 N. F/ U1 r) N, dA nuclear explosive, which radiates x-rays and other forms of radiation with 3 u/ x$ {9 S/ K& v7 Qapproximately equal intensity in all directions. The term “isotropic” is used to - A6 u4 Q: l, a& o2 e5 G% p2 F7 a% Odistinguish them from nuclear directed energy weapons. ( b& }3 J9 f$ Z" w0 `9 s" FISP Integrated Support Plan.6 P# u+ g( @9 M) y% i ISR Intelligence, Surveillance, and Reconnaissance. 4 N3 o0 u$ E$ T( zISS (1) Information System Security. (2) Infrared Surveillance System. & h* ?; Y( C% ~! x2 X) jISSA Information System Security Association.: X0 n7 c7 Y& D1 P% x" F$ N) e ISSAA Information Systems and Software Acquisition Agency.9 A) L* ^ H( }; z' @ r& C g6 q ISSC Information Systems Security Committee. ! m9 a) I R- y$ G0 uISSM Information System Security Manager.' q8 _9 s$ r, \% g, T ISSO Information System Security Officer. 9 {5 ~' c; i/ I. F0 EISSTA International Symposium on Spread Spectrum Techniques and Applications.$ Y% Q' p0 r/ a$ C3 H1 N Issue Cycle A process followed during OSD review of the POM. It begins in early June and ' x9 T# s5 ^. Y; Z8 Uextends into July. 4 c& S: }+ q Q2 @. b& pIssue Papers OSD documents defining issues raised during review of the POM. , x7 ~# U- A qIST (1) Innovative Science and Technology. (2) Integrated System Test. 7 A5 D: }) P3 V. o- h2 k. PISTC Integrated System Test Capability.$ p2 X5 }/ p, e% ]% T2 U ISTEF Innovative Science and Technology Experiment Facility.1 H% G! o6 ], L* K% H; v ISTF Installed System Test Facility.* o9 T2 s+ S. @# R ISV Interceptor Sensor Vehicle. $ j: J; |5 N- d- j S" UISWG Integration Support Working Group. ! o+ N8 C: q( p1 {, C$ _) v0 eIT Information Technology. l6 H F0 \1 f0 x ITAC Intelligence Threat Analysis Center. : z" j8 Q$ c/ O/ i; H4 n6 B6 f; |ITAR International Traffic in Arms Regulations. e* ` u1 Z0 _2 @+ d6 P, p5 V' {ITB (1) Integrated Test Bed. (2) Israeli Test Bed. , G6 J. [3 }0 Q, s( F9 b# K- jITCE International Traffic in Arms Regulations.9 y& O2 W/ D; l$ A. o ITD Integration Technology Demonstration.; Y8 \ z1 k. Y2 G; d2 ^- {; T ITDAP (1) Integrated Test Data Analysis Plan.6 B2 ^1 Q4 o: V' F9 T# C/ E' ] (2) Integrated Test Design and Assessment Plan. e* G. u: o$ }5 I9 RItem Manager An individual within the organization of an inventory control point or other such+ d1 x y* K/ Q organization assigned management responsibilities for one or more specific items- P2 L1 I' ^9 V) L' X of materiel. b' H2 F$ J* Q# m; tMDA GLOSSARY, VER.4 .0 I 9 d7 E. R" \- Y5 B" O4 w2 o: C148/ l. j' \- N/ h/ r2 l: ^ ITERS Improved Tactical Events Reporting System. ( P1 R7 e9 O8 }2 ?3 [5 KITL Integrate, Transfer, Launch' ?7 c6 q& x* Q4 |& ^ ITMSC Information Technology Management Systems Council.1 H$ c, v: `, ^7 {! Y/ N ITMT Integrated Technical Management Team. 4 S: y5 B/ E: |5 ^ITO Instructions-to-Offerers (FAR term). , \. r0 x9 A4 r; f+ ]/ h% KITP Integrated Test Plan. 5 ?$ E' c6 X! N' |ITPB Information Technology Policy Board. ) h! P0 X m1 \/ ~- yITR Information Technology Resources. 4 h* G k, `1 u) S& y, ^ITS Information Technology Service.; Y h4 \, B! r+ `7 n( f" H% k) \ ITSD Information Technology Services Directorate. 3 M1 F) o% `8 x) h2 H( h" c7 VITT ITT Corporation. ) @$ `7 f+ `8 l4 p% ~- ?ITV (1) Integrated Technology Validation. (2) Instrumented Test Vehicle1 M0 ]8 g% k S9 k( s8 n1 ^' z ITW Integrated Tactical Warning. 8 ]* `3 d5 e/ f2 r% dITW/AA Integrated Tactical Warning and Attack Assessment.8 ]' x5 A7 D: h& E: n, X IUI Integrated User Interface.. M* Z6 S; X7 g3 ~ IV Interceptor Vehicle. & w% m7 B! T @, e! v3 p7 bIV&V Independent Verification and Validation., y0 T' W4 S# f' @ h; H IVHS Intelligent Vehicle Highway System. ' V* [4 q& U$ g& e- ?& {0 A, eIVIS Inter-Vehicular Information System (USA term).) ]4 o/ l; z0 s$ k* | IW Information Warfare.* T. G4 |" H9 X' m# \! P IWCD Integrated Wavefront Control Demonstration.6 C+ a q1 C$ j" _0 Y( f: Q IWEB Information Warfare Executive Board.7 n9 P$ ^! ?% G. { IWG Interagency Working Group.6 B2 Y$ p- v1 {4 C( t IWS Indications and Warning System. $ w$ H8 `# H) H$ q; BIWSM Integrated weapons system management. 2 G2 v0 s( x2 J, _% ~$ u9 aIXS Information Exchange System.6 U, W4 c( @$ w5 V: ^ A MDA GLOSSARY, VER. 4.0 J6 ?$ o0 l, v" @9 b, d% P* T 149: e$ X+ D) l6 |+ J$ s J&A Justification and Approval.' R6 E5 Y, A; k& R. E J-SEAD Joint Suppression of Enemy Air Defenses. 5 t( V6 a) [- N5 nJAAT Joint Air Attack Team.; g1 _0 w: a P& f6 z2 R" | JADO Joint Air Defense Operations.4 Q) ^0 d$ H! E7 ^% b2 c JAE Joint Acquisition Executive. 2 a' k ~5 V+ s+ e5 {+ x8 hJAIC Joint Air Intelligence Center (JFACC term). / `7 Z* U3 y# X9 x2 |$ P( uJAMES Joint Automated Message Editing System (USN term). 2 o! V5 i" ]( L- gJammers Radio transmitters accompanying attacking RVs and tuned to broadcast at the / T% s- {* ~, o8 Nsame frequency as defensive radar. The broadcasts add “noise” to the signals! I! i3 j1 m2 |7 i% Z y8 [3 }9 D reflected from the RVs and received by the radar. Susceptibility to jamming 5 q/ W9 x6 z- l& k) V4 ]' Dgenerally decreases with increasing radar frequency, with decreasing altitude, 7 s, A5 f& w2 ~and with increasing radar power.$ T5 S! P/ H* v JAO Joint Area of Operations.8 y, ?- }, x. |0 O$ H; s9 b JAOC Joint Air Operations Center (JFACC term).$ w$ q; q& w4 B5 G$ K5 J* c JASSAM Joint Air-to-Surface Standoff Missile (USAF term).5 i( [6 h! K8 S) N JAST Joint Advanced Strike Aircraft (USAF/USN program). 8 d7 x, s) d: X4 Y# D6 p1 L# QJBS Joint Broadcast Service (ASD(C3I) term). " _/ D4 c& _ C* Z# @. \JCAE Joint Committee on Atomic Energy (US). ' l0 E) |9 Q1 y5 yJCEOI Joint Communications-Electronic Operation Instructions. & M" T* u: ]1 s8 ~( h& H8 mJCM 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. 4 M) D$ m/ j; e$ vJCSM Joint Chiefs of Staff Memorandum.% g3 T' X6 q" n; K. L7 u+ m JCTN Joint Composite Tracking Network.9 A2 M+ V4 S6 l/ j* R! z JDA Japan Defense Agency.% {* D6 o+ v. b' ?& e ]" j3 M9 w JDAM Joint Direct Attack Munitions (USAF B1-B weapon).% Q3 C$ r2 h# g JDC (1) Joint Doctrine Center. (2) Joint Deployment Community.1 k0 }+ {4 v. q4 ` JDISS Joint Deployable Intelligence Support System.& P2 J* s) f' b( L: a JDN Joint Data Net.0 i* V8 F/ T! O) E/ N JEA Joint Effectiveness Analysis (formerly COEA). 5 }6 ^' K( G3 x& n) b6 `8 bJEC Joint Economic Committee (US). ( n2 s; V% ?, P' k3 L' |JEIO Joint Engineering and Integration Office. # h7 a5 F' y' BMDA GLOSSARY, VER. 4.0 J ' t2 R2 V5 _2 r: {( J, d- [1504 L' c1 U* L3 U* S/ |: p JEM Joint Exercise Manual. 6 ?+ J3 I1 U8 f+ v- WJETTA Joint Environment for Testing, Training, and Analysis. 9 I. F, a. o. v1 sJEWC Joint Electronic Warfare Center. 7 a" a2 e q, K. t8 I' gJEZ Joint Engagement Zone. - M! w! z& f% M( {0 N6 {JFCC Joint Forces Command Center.5 d( Q5 c% i" g. H& o3 d JFET Junction Field Effect Transistor. 1 z7 y2 y# b: S) w1 `1 UJFFC Joint Forces [Weapons] Fire Coordinator (JFACC term).2 F6 S% j+ L1 S. y- k" S JFLC Joint Force Land Component. $ }2 }1 _$ t( G# v# RJFMC Joint Forces Maritime Component. ; M _' d0 k2 ]/ U% f1 t2 X4 LJFSC Joint Forces Staff College, Norfolk, VA." Z: s% d: ?/ m; P. B JFSOC Joint Forces Special Operations Component. : N# ?7 p( B- Y) nJG-APP Joint Group on Acquisition Pollution Prevention.6 M K" Y8 b: }, N JHU Johns Hopkins University, Baltimore, MD M9 j0 _7 f l* @JHU/APL Johns Hopkins University/Applied Physics Laboratory, Laurel, MD.. f. M" \6 k" c& K) v JIC (1) Joint Intelligence Center. (2) Jet Interaction Controls. 7 R, ~3 ^! b- K O1 dJICPAC Joint Intelligence Center, Pacific (JFACC term)." U) Y7 w! ^9 n1 j9 N, Y JIEO Joint Interoperability and Engineering Organization. : }8 ]8 X9 Z1 WJINTACCS Joint Interoperability of Tactical Command and Control Systems. ) z6 e# p$ K6 FJIOP Joint Interface Operational Procedures.% T# @0 T6 A4 Z( ^ JIOP-MTF Joint Interface Operational Procedures – Message Text Forms. ( y2 K9 `. O/ X0 x: rJIOPTL Joint Integrated Prioritized Target List (JFACC term). & L9 [$ } \, q8 C" W! VJITC Joint Interoperability Test Center." u! B0 k; I1 D JLC Joint Logistics Commanders.0 i% {4 H' C5 O2 S+ N JLOTS Joint Logistics Over-The-Shore. 7 G& t: z; }. [6 r! a* h I( k- lJM&S Joint Modeling and Simulation. 3 A; R2 X4 z# {4 X/ I; DJMC (1) Joint Movement Center. (2) Joint Military Command. ; _. D4 x% H7 I, |+ s0 n. mJMCCOC Joint MILSTAR Communications Control and Operations Concept. 7 I! s- G- V; Z- a% T2 f6 wJMCIS Joint Maritime Command Information System.( V4 m `: c4 R, O, F( D" A7 D MDA GLOSSARY, VER. 4.0 J 9 M" }' G' t& w/ Y* M" C7 L4 z1513 v! N1 ~) N; O" v JMDN Joint Missile Defense Network. Encompasses all mission-oriented Information $ r( B2 V3 N& d" ]Technology Resources (ITR) networks, facilities and systems operated or funded 1 X5 A4 r5 A; ?by MDA in support of missile defense programs and operations. A major2 U$ |, z. ?/ J component of the JMDN is the Ballistic Missile Defense Network (BMDN),; t; z; F% p* a4 C; {- u/ S1 a operated by the JNTF., O6 C% c, a- ~ JMEM Joint Munitions Effectiveness Manual. ) x& H( t7 K: {! UJMENS Joint Mission Element Needs Statement. " O& T% n. {. j4 u4 g+ g7 Z3 l1 SJMNS Joint Mission Needs Statement.& Y9 a& @ c7 [% F4 F# a* M6 Z JMO Joint Maritime Operations. & ]! g4 C8 {6 W8 N8 GJMSNS Justification for Major Systems New Start.% E3 B7 ^- t; @2 W( X: \ JMSWG (1) Joint Multi-TADIL Standards Working Group. 9 \& V8 R2 `7 b9 F4 J0 q(2) Joint Interoperability Message Standards Working Group.$ y- Q- @" ^' ]$ r1 p; z3 ? JNAAS JNIF Advisory and Assistance Service. ! m, X& C9 I2 Y. R: cJNESSY JNIC Joint National Integration Center Electronic Security System.. W4 A3 \; C1 j/ C JNTF OBSOLETE. See JNIC. 7 R, D& N* ^9 S/ Q) M. P! {JNICOMC Joint National Integration Center Operations and Maintenance Contractor. 0 f' [9 n, a) h C& oJNICRDC Joint National Integration Center Research and Development Contractor. & E* q2 n H3 g) c. K, t0 PJNICUSLA Joint National Integration Center Unclassified Standalone and Laptop Access.& d2 D1 y& B) k* i JOB Joint Operations Board. 7 @$ S4 Q2 g( L, Z0 OJOC Joint Oversight Council. 1 l' g5 T, O8 k; S( `8 S7 |JOCAS Job Order Cost Accounting System. / W+ [$ O8 z$ G- N+ AJoint Activities, operations, organizations, etc., in which elements of more than one# o5 g" |2 K& O; C Service of the same nation participate. When all services are not involved, the 3 K- X* d) u, vparticipating Services shall be identified, e.g., Joint Army-Navy)." v7 Z$ v4 i" V6 D# u- b9 Z: S Joint Doctrine Fundamental principles that guide the employment of forces of two or more1 M7 Q1 [. O T1 T$ |: |% i Services in coordinated action toward a common objective. It will be 8 E% s c, i. X; fpromulgated by the Chairman of the Joint Chiefs of Staff, in coordination with the 9 H, E: k p: N0 G1 Ucombatant commands, Services, and Joint Staff. See also Chairman, Joint * u* a) O4 l% q* \Chiefs of Staff. 0 p: y- l0 B3 }: wJoint Doctrine + y+ U7 \+ e5 F; K! R YWorking Party 8 b$ \( T- a9 X. j( q0 q$ x0 IA forum to include representatives of the Services and combatant commands; ^6 z: ?9 ~5 C2 j7 D; L% } with the purpose of systematic address of joint doctrine and joint tactics,# d; i6 M# F- t# e$ E" _' [0 c* f techniques, and procedures (JTTP) issues such as project proposal examination,4 ?5 h& ^* I8 p" q( E$ {8 P project scope development, project validation, and lead agent recommendation.5 ]3 l* K/ x! a5 o( ` The Joint Doctrine Working Party meets under the sponsorship of the Director,' F, d5 c3 v+ g$ O9 D4 G6 G Operations Plans and Interoperability. 2 L5 H6 t% m0 M4 s5 k9 F TJoint Electronic/ P1 h' x/ [1 B/ w* _5 d7 A Warfare Center # C. l- o! Q+ Q(JEWC) + F' H9 d$ ?6 h) rElectronic Security Command (ESC) team at Kelly AFB, TX, responsible for8 ?) r, c: ~- w" b; d9 X investigating and locating the cause of MIJI either against satellites or ground9 {. [* f) _# v9 A systems./ @6 n4 R# L" K U% K8 j MDA GLOSSARY, VER. 4.0 J & N) }4 w: D& B( R152 Q4 Q' ^9 o2 ZJoint Force A general term applied to a force composed of significant elements, assigned or 9 R# e ~( q6 D. c. wattached, of the Army, the Navy or Marine Corps, and the Air Force, or two or ( ^; R4 ]7 e3 Qmore of these Services, operating under a single commander authorized to 7 d, x( q5 w9 L" Rexercise operational control. See also Joint Force Commander.# i+ `( U( C0 s; }7 r; [( o' f Joint Force Air2 M g/ v/ Q( R! K6 G9 B( K3 P) f Component! S, k. F" v/ V, s Commander , e$ v$ p$ I( `1 r. B4 C(JFACC) 5 b& h: y1 x& V$ ~, [3 l. C5 q7 sThe commander within a unified command, subordinate unified command, or ! y" b" D0 J3 Y* U8 }1 S: B yjoint task force responsible to the establishing commander for making+ D3 T. U; \/ ~+ J/ O0 u recommendations on the proper employment of air forces, planning and 7 t) ~9 |, j' D) Ucoordinating air operations, or accomplishing such operational missions as may - [2 ?6 D: C4 o0 c# Hbe assigned. The joint force air component commander is given the authority % J1 Y l# k* W+ ^ lnecessary to accomplish missions and tasks assigned by the establishing, u( z5 `% I9 i* q# S commander. The JFACC will normally be the commander with the 0 i( R6 a: U; V, v# Kpreponderance of air forces and the requisite command and control capabilities./ R9 r# F# ^) ^; }/ C; M5 C Joint Force , E- B9 d4 z9 t- hCommander . @- x. H( C X4 b/ [8 k(JFC); r/ r: A5 w4 A h/ ~7 m. o. B A general term applied to a commander authorized to exercise combatant! X `. l R& B* P/ n# Y) { command (command authority) or operational control over a joint force. Also 3 W- z2 x1 w9 ^$ o* V. Mcalled JFC.* n2 ]/ Y: ^+ @6 Y$ Z Joint Force Land3 x; l. h& d- N* k- [ Component) d( T7 L' I! e, \6 H' W! r! C Commander ( i4 R3 A- Z0 ?6 I$ q. K(JFLCC) ! ^% l7 f7 P4 P( f# Q' R) O5 E; {The commander within a unified command, subordinate unified command, or ( k3 h* t* i: p) t2 C6 mjoint task force responsible to the establishing commander for making ) f! G. O% u* l8 u( a3 i/ S2 w5 Hrecommendations on the proper employment of land forces, planning and . G6 v* s3 M+ [) b4 h& V v& S0 _coordinating land operations, or accomplishing such operational missions as may' w+ w$ @$ R7 [ ?& Q* | be assigned. The joint force land component commander is given the authority" q; V7 y3 C3 w7 N( C" J! K necessary to accomplish missions and tasks assigned by the establishing7 Z2 @$ I+ R+ f" L/ q) p commander. The JFLCC will normally be the commander with the ' s' _2 ^: v0 Z+ l; Fpreponderance of land forces and the requisite command and control6 z6 y4 y& ^) A. B5 N, m- E capabilities." O& a7 Y- Z' e: n Joint Force# G' x; @. h) b7 H0 v0 b4 d1 c Special) d8 m7 a! `/ R: @' [, S Operations 5 g. T/ N8 \4 eComponent+ P. A( M1 t: ?, \ Commander - W/ x0 X$ Y6 z8 z% s4 }2 H' ^+ q(JFSOCC)! J* m$ Y) K5 f0 h The commander within a unified command, subordinate unified command, or" d$ c$ g1 S6 M# B6 ? joint task force responsible to the establishing commander for making ! F2 s0 w/ Y8 @, frecommendations on the proper employment of special operations forces and : D! S. m3 O% o( \3 Bassets, planning and coordinating maritime operations, or accomplishing such & f: [5 i; q, d/ b( X( Xoperational missions as may be assigned. The JFSOCC is given the authority - |" }* L. S* A& J- O6 ]/ Lnecessary to accomplish missions and tasks assigned by the establishing7 @$ Q1 t7 ?" U8 ]+ Q3 U* M commander. The JFSOCC will normally be the commander with the3 }. E% r( l' ?7 V. C9 g4 w. S preponderance of special operations forces and the requisite command and & H) _/ T9 s' t& a. _control capabilities.- q* t$ @- S% _: B7 L2 U Joint National$ t6 O3 T7 X: _4 ] Test Facility * k) w" }: K) J6 l- h) w(JNTF) * i6 n9 p! ]+ JA large, modeling, simulation and test facility located on Falcon AFB in Colorado7 D/ p; k5 p; R& k2 g' c) {0 w which serves as the central control, coordinating, and computing center for the4 |2 u5 N% w7 n$ J# p NTB and as the primary integration and test facility of the BMD SE&I contractor.

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59#
发表于 2008-12-25 20:09:59 |只看该作者
(Former NTF)4 V4 [3 ]0 B9 t8 `4 d/ d! Z: F Joint Operational 5 R) ~0 o w& d3 IPlanning and 6 r+ E* J2 R: K( A( {0 ]Execution q. |$ \" t6 O4 z1 Z8 d6 q6 s" Q System (JOPES) ) Z+ u- s( C8 S/ f' W& GA continuously evolving system that is being developed through the integration . m: b: a$ Q2 D5 i: Z/ l D( t9 Tand enhancement of earlier planning and execution systems: Joint Operation1 z" T$ n: m9 [ Planning System and Joint Deployment System. It provides the foundation for ' O A8 ^$ n0 \& r. p2 _, t4 O4 xconventional command and control by national and theater level commanders* x3 N% {4 b) B& n$ ~/ Y& n and their staffs. It is designed to satisfy their informational needs in the conduct3 q: m+ D6 Q" ~5 Z of joint planning and operations. JOPES includes joint operation planning " A8 S7 P$ H5 G K9 zpolicies, procedures, and reporting structures supported by communications and ( S2 g% e9 F% I' Y c) z4 Xautomated data processing systems. JOPES is used to monitor, plan, and ; D+ p0 V& D# J' O9 Mexecute mobilization, deployment, employment, and sustainment activities ) W( P, J7 d8 g4 k1 ~associated with joint operations. ( w3 p, \7 e, Q7 N5 ?( QMDA GLOSSARY, VER. 4.0 J/ J( ]# O% r9 [4 t! b5 K/ I 1536 G3 {9 V( r9 \# p# G Joint Operating4 i1 m7 D* S# Q8 @* J! |- _: w Procedures 4 m$ C" ~) X( m1 ]9 f(JOPs): l4 t( k! w2 K! K& i8 p These documents identify and describe detailed procedures and interactions( r2 h, h8 v+ v3 o+ z9 W- n necessary to carry out significant aspects of a joint program. Subjects for JOPs 5 |4 D, e( G4 O* B" L! Nmay include Systems Engineering, Personnel Staffing, Reliability, Survivability, ' ?* ^* n5 k& d* ?, r/ h5 f4 \Vulnerability, Maintainability, Production, Management Controls and Reporting, 7 m% M# L6 H+ V$ u+ _. X5 eFinancial Control, Test and Evaluation, Training, Logistics Support, Procurement 0 G2 ]) V# {: J0 ?3 n, [ A {and Deployment. The JOPs are developed and negotiated by the Program 8 ]9 s N! O% W; ]5 w8 f5 Z" g& T0 dManger and the participating Services. ( Y0 Y& p/ E9 C$ zJoint Operations& _" {7 h9 F; K4 | Area W3 }5 E8 V3 x8 c0 f5 ^% V4 B" I: Z That area of conflict in which a joint force commander conducts military ' c, ^4 n% e2 [$ @6 W) {' ~operations pursuant to an assigned mission and the administration incident to ; r: y/ C, b3 z4 L {* o4 ~such military operations. Also called JOA.% h+ v0 S# y# h" d3 N% L b Joint Program Any defense acquisition system, subsystem, component, or technology program . K/ P ^. F f$ j; o, {that involves formal management or funding by more than one DoD Component! Z9 l: J* T H% A9 n+ Q' {8 } during any phase of a system’s life-cycle.' k. }6 s3 ^6 N5 s Joint % n. H- s* s1 I9 [% JRequirements7 O/ p+ D$ b5 q- ]/ Z. t0 \ Oversight ) r+ L6 ?& P) q0 j# a( C" PCouncil (JROC) " J* x+ J" q/ x; `7 hA council, chaired by the Vice Chairman, Joint Chiefs of Staff, that conducts - e0 X& B' K& Zrequirements analyses, determines the validity of mission needs and develops 3 a5 m/ R/ v% [) ? b1 T6 i- Vrecommended joint priorities for those needs it approves, and validates7 }0 l a: ]5 a% ]4 a2 f O) r performance objectives and thresholds in support of the Defense Acquisition - i5 N, ^. W: A p! ?Board. Council members include the Vice Chiefs of the Army, Navy, and Air 4 |3 D) h( C; y' \4 uForce, and the Assistant Commandant of the Marine Corps. : `, H7 F. I; HJoint SPACECOM . Y- }+ I9 I. O! t2 OIntelligence 7 p' p, c5 G$ W4 KCenter (JSIC), p1 a+ ]0 m4 E% F% N% H* T" `. l A USSPACECOM Intelligence Center responsible for producing operational- ]: C9 i+ n, Q intelligence for USSPACECOM missions and for space intelligence production for: _- O$ r* a; V+ R( i8 R the DoD and intelligence community. Delegated Space Intelligence production . h! @* }7 x! N, T. Z9 ]! S3 T$ ~includes: Space Order of Battle (OB), Space Object Identification (SOI), and \) e3 l' A; f) o7 f# g Satellite Reconnaissance Advance Notices (SATRAN). Located at CMAFB. L2 s5 \0 ]7 u% n5 n, ?- \Joint Strategic 1 w" p: s* u9 _) a% {, oDefense Planning ( [, O% N$ _% \3 C9 B# GStaff (JOSDEPS)% }9 w+ U- A, a; A1 J A special staff located at USSPACECOM Headquarters responsible for6 n, `: |1 G+ ] c! S4 w w integrated strategic defense planning and for integration of strategic defensive 4 |' S+ p9 B$ D+ {1 u/ Oand strategic offensive operations. The USCINCSPACE serves as Director, Joint " t" x% r) q0 b% OStrategic Defense Planning Staff. 8 W& x! Q& g; l: _* s/ c1 T9 W' HJoint Strategic! L5 l! h1 b D Target Planning/ s3 M6 P/ r$ t! ~) q ^5 h Staff (JSTPS)0 F* R5 C% K) c6 z9 G" C$ B A JCS organization located at Offutt AFB responsible for planning, developing,2 P3 I/ O2 `6 ^ b9 \" V' a/ b coordinating, and producing the Single Integrated Operations Plans (SIOP).0 z- S" z0 x2 P1 f; z Also responsible for producing the National Strategic Target List (NSTL). The/ a7 ], y- `# S6 [! L0 x. ?1 u0 W" C Commander in Chief, USSTRATCOM is also the Director, Joint Strategic Target ' D: T( d& B# d N6 cPlanning Staff.6 A3 q8 s: ~1 v5 h0 a; w. K( q% L Joint N) x, U# E- c7 n2 d+ ~) bSuppression of 5 K. C, _# ^8 Z8 `/ k4 YEnemy Air # w, N7 A( m8 rDefense3 \% V* F0 s% V" {3 h A broad term that includes all suppression of enemy air defenses activities + d/ k4 w2 ?5 L0 J- _. wprovided by one component of the joint force in support of another. Also called9 h6 S- @) j) |3 [ J-SNEAD.# S; X1 Q" d! f* E9 e( @ Joint Tactical: s8 }6 Y- P& I Information / [6 O" s% x3 v* j* \Distribution + {4 x) s1 c( Y( ^/ I+ e( I; ySystem (JTIDS) 7 M: \( e" K! cA joint service, jam-resistant, secure communications system that permits the1 K- R! I+ V. n% ` | interchange of essential tactical information between aircraft, surface vessels, 6 M# m+ e" V( w& tand mobile or fixed-base land stations. : B& n [( C4 N5 rJoint Tactics,/ H; @. k* I- Y- V' v( w5 y Techniques, and 0 `; h( x( y, j& F- |Procedures; [8 S& Y$ R1 x9 g: ^ W3 d9 c (JTTP) 7 m+ i1 K9 W, v5 IThe actions and methods, which implement joint doctrine and describe how% z6 {) D1 O5 _; h forces will be employed in joint operations. The Chairman, Joint Chiefs of Staff,: n/ y, }: X, Y& @ promulgates them in coordination with the combatant commands, Services and8 P V( c( ^5 r; |) C* E8 o Joint Staff. Also called JTTP.3 m b9 K I; T3 V/ @" S) g MDA GLOSSARY, VER. 4.0 J ( S9 W- e! f$ v$ k154/ {) S- N! R8 | Joint Test and % Z" M. `. I8 R/ D, T- T& SEvaluation* t1 e3 z7 U" R T&E conducted jointly by two or more DoD components for systems to be8 [: I( o6 D1 w6 S1 b' E( H' N acquired by more than one component or for a component's systems which have % s& f+ G. L; i [7 u$ C' {interfaces with equipment of another component. 0 C2 N3 h$ o( b/ cJoint Test and 6 T3 f5 A8 v! UEvaluation: Y2 ~; [6 ^* m( f Program/ E4 h$ A$ c$ v An OSD program for Joint T&E, structured to evaluate or provide information on, J; s/ u# N3 e/ m4 H: y( |8 u system performance, technical concepts, system requirements or improvements,& t& r! E7 V* b: r/ \" [ systems interoperability, improving or developing testing methodologies, or for 6 t+ [* k% Z. o, J+ G) e7 D6 hforce structure planning, doctrine, or procedures.. Y/ H6 F* v( c+ q0 [ JON Job Order Number.) ]' e" A% U2 ]8 t% B JOP Joint Operating Procedures.! B; E l) D6 g. w JOPES Joint Operational Planning and Execution System. : t$ b% W% ?( f( T* j& WJOPS Joint Operations Planning System.& r" L: N. a+ g+ T9 _( b JOR Joint Operational Requirements. : H* d: A [) S7 x A# `# N0 oJORD Joint Operational Requirements Document. ( f/ y( q" a& E+ O& s8 ]JOSDEPS Joint Strategic Defense Planning Staff. 1 z" w5 T! y1 Z6 qJOSS JTF Operational Support System (JIEO term).) J* t5 ?5 Z- A( [: t$ D JOTS Joint Operational Tactical System (USN term).; M4 G: m# T, w0 N2 i JP Joint Publication. . d8 E1 |0 l; Y! GJPL Jet Propulsion Laboratory, Pasadena, CA.. y* J" d/ j; Q2 F1 D/ ^& H JPM Joint Program Manager.' D# M* a1 O- G C# l3 j. M JPN Joint Planning Net. 0 q& S# x3 C( U0 Y4 R6 BJPO Joint Program Office. . C m9 H* H3 m* o R" k* lJPOC Joint Program Optic Cobra. " a! e2 b# q. m7 w0 nJPOI Joint Project -- Ornate Impact ' `! y. J( }' fJPON Joint Project -- Optic Needle. ; S: R+ R3 e1 `1 {6 a3 k) [' gJPRN Joint Precision Reporting Net. 2 q2 S+ R- u$ V% c6 t7 |3 J$ G! Y" ^& BJPSD Joint Precision Strike Demonstration.+ C7 C6 R0 @1 U; v; z. A. `. J JPT Joint Planning Tool.) k: c: ~* @) ]; y6 G& ~ JRB Joint Review Board (JROC term). ' v5 f# Q" g& \7 JJRC Joint Reconnaissance Coordinator (JFACC term).& d( B5 ] P, p1 ] JRCC Joint Rescue Coordination Center (JFTF term). z7 v' r; M+ h% j- t( M* K 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 L3 x n1 @9 Q' U; b& \ 155 * e2 t8 ~# d4 m% oJROC Joint Requirements Oversight Council." h8 t+ ]4 O. o JROC SSG JROC Strategic Systems Group.. f9 z& v+ X. z8 s5 ` JRSC Jam Resistant Secure Communications. 1 m' _! ^- u. A* ]# P9 R* rJRTC Joint Readiness Training Center.9 a. Z) D: D+ y+ W! H: J JS Joint Staff. 3 j( ~+ B* Z+ G& m+ q0 f% AJS&MDWC Joint Space and Missile Defense Warfare Center. + C( H9 e( o$ `& [% @, `( ZJSC (1) Joint Security Commission. (2) Joint Steering Committee (French/US term).# ^( u/ Q0 {. A% `) C- k JSCP Joint Strategic Capabilities Plan.& n( E$ H% J: M- q( y1 _9 |( L JSEAD Joint Suppression of Enemy Air Defense (Joint Forces term). 9 C6 F- W2 d6 wJSET (1) Joint System Engineering Team (MDA/USN term).0 J! Y& r. G, T C8 z% h8 b (2) Joint Service Evaluation Team. + d [( o9 e$ T9 kJSF Joint Strike Fighter (USAF, USN, USMC, UK RAF project).( w2 v. D% p( Z JSIC Joint SPACECOM Intelligence Center. 3 f" w# H' T. N9 ZJSIPS Joint Service Imagery Processing System (TelComms/Computer term).: y% g( D" \9 o, g: L! s JSMB Joint Space Management Board.2 `; I* i( o$ ~. j' A- z* r' E. X5 u& d JSOC Joint Special Operations Command.& d- v( J3 i+ J4 \0 h0 Q JSOR Joint Services Operating Requirement. . z5 r `" D$ n. ?; u2 AJSPD Joint Strategic Planning Document.- y; ?# x: B% L JSPS Joint Strategic Planning System. 6 q5 A! H5 w; xJSS Joint Surveillance System./ M9 _3 G7 d" n% F) \. r8 M JSST Joint Space Support Team.# S( V9 Y; v5 y/ q- M2 P" T JSTARS Joint Surveillance and Target Attack Radar System.% k9 Q) [: l/ f; a2 n; B JSTPS Joint Strategic Target Planning Staff.1 y; I" M2 R# h5 K) b' _+ |) R2 w0 m+ P JT (1) Joint Test (2) Joint Targeting8 W0 [2 j; Z$ S5 T- n0 x" u3 T9 S) a JT&E Joint Test and Evaluation. 5 X- U7 A0 o( X7 h D- k7 p5 T9 IJTA Joint Technical Architecture (JCS term). 8 _2 n1 }1 l; Y! g6 \5 A. zJTAGS Joint Tactical Ground Station. # u# d5 O" l9 @' L7 nJTAMDO Joint Theater Air and Missile Defense Organization. 1 D2 h1 W0 d( {! H1 GJTASC Joint Training Analysis and Simulations Center. 0 c9 e! g. a/ g+ A9 q8 IMDA GLOSSARY, VER. 4.0 J # G6 @7 |# i( a+ B! q/ p9 i1566 x! J+ E- H t N JTB JFACC (Afloat) Targeting Board (JFACC term). . M1 E# ?! N3 G: d6 eJTBP Joint Theater Battle Picture. . M9 S; f, `, _JTCB Joint Targeting Coordination Board (JFACC term). % ~3 h4 d1 l8 z9 O8 cJTE Joint Targeting Element (JFACC term). - u. j9 {- F+ HJTF Joint Task Force. 0 I. P$ G8 L" ~+ `+ uJTFEX Joint Task Force Exercise. 9 _8 }0 [5 Q- _6 p8 UJTIDS Joint Tactical Information Distribution System. " t" u J: M5 R" {7 Y! DJTL Joint Target List." c. m3 @$ l) `5 O8 k1 Z; ?, ~: p JTMD Joint Theater Missile Defense.# C* p4 w G) o' n( H4 } JTMDP Joint Theater Missile Defense Plan. : W8 V: }% p7 r: n% B) kJTPO Joint Terminal Project Office [of MILSTAR Comms Sys]. 4 Z* r/ l0 y+ k' b6 aJTOC Joint Targets Oversight Council.' F( {, J. b/ V0 j+ x p3 Q. a JTR Joint Travel Regulations. + F+ S) A) H& U5 l8 Z) B% NJTRP Joint Telecommunication Resources Board. " L4 ^4 N [. J- @- [JTSG Joint Targeting Steering Group (JFACC term).7 y( G3 L$ `7 e( B1 ]1 }; { JTT Joint Tactical Terminal. ; J9 A1 @( e2 N b* d3 eJTTP Joint Tactics, Techniques, and Procedures.+ {. M& C+ v' s& S% ~$ ]; ] JVX Joint Services Advanced Vertical Lift Aircraft. & Q" B! Z: |3 U" E) oJWAN Joint Wide Area Net. . _) S7 g' J0 C$ UJWARS Joint Warfighting System 9 computer model). 7 d* @7 g$ m0 ^3 oJWC Joint Warfare Center.4 O5 W# J& S! l0 v u- o5 y6 P' T JWG Joint Working Group. / W F& N* K: SJWICS Joint Worldwide Intelligence Communications Network. / v9 ^5 L- h% K0 k; N3 {JWID Joint Warrior Interoperability Demonstration 5 f" d* `: G! b, d9 Z6 UJWSTP Joint Warfighting Science and Technology Plan. 9 N( b5 ^7 X6 o4 o o. L; {MDA GLOSSARY, VER. 4.0 K5 j( i9 Z0 ]6 K0 _6 t% F' |! O2 Q" | 157 ! T# [& _' q# ^. l. WK (1) Kelvin. (2) Kilo." m9 N* u, F# {3 q5 W+ ? K Factor The relative measure of a sensor’s ability to distinguish one object from another. ) s& ~" h }1 `/ }% lTheoretically (but not in practice) it is the distance between the mean locations of( B8 ~1 H' |# p) ^/ b two observed objects given normal distributions and standard deviations for both/ g7 I3 _/ ?- V5 k0 h2 Y/ O objects. & J$ w8 m8 C- k. r( sKA Kill Assessment.& S0 S* k3 G1 P2 c KAPP Key Asset Protection Program.0 R: G! A$ F. q' V8 C5 y+ [, t KB Kilobyte." O* K9 Z1 R8 }, N f: W Kbps Kilobyte per second.) q+ G$ @) [, b$ [6 x KBS Knowledge Based System (UKMOD). 0 \9 u6 h! V' a! \! u% h$ _- \1 h2 FKBSF Knowledge Based Sensor Fusion. ! Q0 i$ O$ U L6 KKDEC Kinetic Energy Weapon Digital Emulation Center, Huntsville, AL.8 X- Y# a0 d$ P, _ KDS Kwajalein Discrimination System.- }1 i1 D) d/ M; K7 Z4 p2 q KE See Kinetic Energy. ) }+ _# [$ k$ A2 `- ?. h* R8 KKE ASAT Kinetic Energy Anti-Satellite Weapon. . [8 \) F8 z. N A) iKED Kill Enhancement Device.8 F( Z$ M& `3 u Keep-Out Zone A volume around a space asset, which is off limits to parties not owners of the, D! K# u! B+ V asset. Keep-out zones could be negotiated or unilaterally declared. The right to. j" X2 Z* K9 ]8 }, D9 S" \$ Z defend such a zone by force and the legality of unilaterally declared zones( K' F* U3 c$ Q3 G8 y# d1 P under the Outer Space Treaty remain to be determined. * T0 }0 ^$ O" m2 V/ y+ z: GKEI Kinetic Energy Intercept. , v9 Z7 z1 @- K6 J3 Q2 X! q, fKENN Statistical pattern recognition tool.2 N8 y* m8 u) X' R! h L KEV Kinetic Energy Vehicle. - e9 P' `; n- { r$ X9 mKEW Kinetic Energy Weapon./ _2 j6 R# R6 `& e4 _8 q7 n KEWC Kinetic Energy Weapon, Chemical (propulsion). ]. j0 G6 L; q8 z$ \( dKEWE Kinetic Energy Weapon, Electromagnetic (propulsion).8 J- l! N) c9 Y- [, S# J+ m6 A KEWG Kinetic Energy Weapon, Ground.7 T% F/ c- \- D& \5 S" P KEWO Kinetic Energy Weapon, Orbital. ( H* V" m6 r o ~- P& sKey A type of dataset used for encryption or decryption. In cryptography, a. }2 k! G% m* [: T1 o sequence of symbols that controls the operations of encryption and decryption. - z6 j F" X/ {8 PKg Kilogram. $ S3 H* {7 w% P8 ~KHILS Kinetic Kill Vehicle Hardware in-the-Loop Simulator, Eglin AFB, FL.- O" ?+ o" a. U2 n MDA GLOSSARY, VER. 4.0 K 0 l# |# X9 W% F4 \& P$ U1584 }) w) X3 q5 Z& R KHIT Kinetic Kill Vehicle Hardware Integrated Test.( ^0 z6 Y' M1 \4 o* x KIDD Kinetic Impact Debris Distribution. 4 v5 ^, w" [* s" b& {( \2 }' Q7 kKill Assessment( q! ?8 N; P1 S" W; K2 \ (KA)3 ^2 f$ I" a+ H An evaluation of information to determine the result of a ballistic missile/RV% B' [$ n1 o3 ?7 H# D z' j; l intercept for the purpose of providing information for defense effectiveness and7 {! `: q$ ?; u re-engagements. (USSPACECOM)+ I2 y8 I' N; I: j7 y9 Y1 Y Kill Enhancement 5 U$ w* s U& R6 K4 H% N$ nDevice! a. K3 j6 q1 Q- K A device that improves an interceptor’s lethality. . S+ q' f* |! N# `Kinematic 3 o V5 n# p+ n& r) VBattlespace $ y, }% N* W* y3 u+ hThe planned engagement region in space of an interceptor given the sensor h( X6 g% D7 g5 C0 s' | timeline, kinematic capabilities of the interceptor, engagement timeline, and 3 O& ~6 V2 m4 h$ } M& boperational constraints.' _4 y- U9 t3 `% S; b( i7 { Kinetic Energy 9 ^% R, h* c" ]* w) q* i; G(KE)) @ O0 a) o1 i. s7 S- b The energy from the momentum of an object, i.e., an object in motion.5 ^0 X6 \* X) W% u G8 ? Kinetic Energy1 O8 S( k. X9 y5 z Weapon (KEW)0 W2 x) p8 W2 G' \4 z7 G A weapon that uses kinetic energy, or energy of motion to kill an object. - u h2 ^. P5 Y+ J$ PExamples of weapons, which use kinetic energy, are a rock, a bullet, a nonexplosively armed rocket, and an electromagnetic rail gun.( C; [5 C+ }3 k$ N5 F- ^8 m( N- c Kinetic Kill 6 n& t9 Y1 G+ b+ @+ R2 A$ i& IVehicle (KKV)8 W, s$ h6 `3 n2 A$ C$ Q5 O A weapon using a non-explosive projectile moving at very high speed to destroy " x+ @# d6 x, u4 k+ N% wa target on impact. The projectile may include homing sensors and on-board* i# n8 r% r- M# W rockets to improve its accuracy, or it may follow a preset trajectory (as with a shell5 b, h* E: K! M& {8 a& ^) b* H launched from a gun).

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