航空缩略语词典

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Weapon Engagement 2 _( M) N0 y9 Q3 f3 W+ H5 u1 t% YZone In air defense, airspace of defined dimensions within which the responsibility % P; ~: m# g2 R6 knormally rests with a particular weapon system. Weapons ' s; |7 {+ R7 ZAllocation " @4 N6 F* Y6 Q, n- Y H5 aDesignation of a certain weapon to attack a certain threat after Engagement Authorization is given. Weapons . o- h3 Q5 H" V6 E. `! _( b6 dAssignment ( i8 k: e5 A( YIn air defense, the process by which weapons are assigned to individual air 3 A0 \, t @; G. ~9 H0 J: W6 |weapons controllers for use in accomplishing an assigned mission. Assignment of a particular interceptor to a particular target. + ?( h' @6 Y, k, ^Weapons Commitment ' n o" a7 M. i# P$ p3 aAuthorization to allocate certain weapons to designated targets thus permitting checklist actions to be taken. Weapons Control The varying degree of formal control an area air defense commander exercises 1 t7 L$ d- A. d# Lover all air defense weapons in his area of responsibility. Weapons Enablement c# p& H* G1 l" xAuthorization to place a weapon into its most ready state but prior to release. Weapons Free A weapon control order imposing a status whereby weapons systems may be , W5 M) X+ @2 K6 c9 ofired at any target not positively recognized as friendly. MDA GLOSSARY, VER. 4.0 W 321 Weapons Hold A weapon control order imposing a status whereby weapons systems may be 0 U! H0 W$ | V- I- _fired in self-defense or in response to a formal order. Weapons Initiation ' |1 B# r: p m4 S/ h" jState when a weapon system is to be placed in the highest state of readiness shy of weapon allocation. It is possible to go direct to weapons allocation or release without first initiation or allocation. Weapons of Mass Destruction 2 y+ H8 r. d+ A) p9 @! w(WMD) In arms control usage, weapons that are capable of a high order of destruction 0 j& e# X/ b# ^8 G/ aand/or of being used in such a manner as to destroy large numbers of people. 3 X" z$ r# b7 h% A% k" qWeapons Readiness State 0 s" `2 D1 V1 M: Z. W1 J! SThe degree of readiness of air defense weapons which can become airborne or be launched to carry out an assigned task. Weapons readiness states are 9 @4 S/ d4 H' s) h0 Bexpressed in number of weapons and number of minutes. 0 s0 S* f5 p9 k, x7 UWeapons Release & G& p a4 g, D7 s5 XAuthority (WRA) The order that gives weapon controllers the authority to fire. (USSPACECOM) t X$ ~1 z s# B6 FWeapons System Items that can be used directly by the armed forces to carry out combat missions 3 g b* u; t2 a& ~1 kand that cost more than $100,000 or for which the eventual total procurement cost is more than $10,000,000. That term does not include commercial items sold in substantial quantities to the general public. ) q/ F: Z0 Y" S- u! \/ FWeapon System Control 9 n* L, P8 D% q) _9 o8 n3 HThat set of assessment, decision, and direction functions normally implemented automatically to assure that individual weapons are pointed, fired, and guided as 5 K- A7 l' [: B% X9 t8 l* Wnecessary to intercept the designated attackers. Weapon Target 8 C+ g% i- Q- o8 Y9 ^Assignment (WTA) The assignment of an interceptor to a particular threat object. In Midcourse, a 2 U# }- E; N' u0 J* ?8 kWTA requires in-flight communication between the Battle Manager and an inflight interceptor. To ensure the Battle Manager maintains the ephemeris of the " z) `' m8 r/ A1 _8 e' M- k+ Ninterceptor, the WTA will constraint the interceptor’s flight error. & W1 t* q, F+ n' KWeapons Tight A weapon control order imposing a status whereby weapons systems may be 9 v$ p% ]$ ]# wfired only at targets recognized as hostile. % A, k& m: T: O/ I3 j5 d- \* V' MWeapons System Employment Concept % p8 q! p; y3 Q1 M% ZA description in broad terms, based on established outline characteristics, of the application of a particular equipment or weapon system within the framework of tactical concept and future doctrines. Western Test ) W: I& f4 V& ARange (WTR) $ `' p h, v1 Y* B3 {. h1 J* \Beginning at Vandenberg AFB, CA, this range stretches halfway around the , E- |8 k z1 g2 M' Pglobe where it meets the Eastern Test Range. An array of launch complexes, ; h. ^+ N6 \, J9 I" x, s& {sensors, and tracking sites makes up the Western Test Range. It is operated by ; Y7 _3 o/ N2 gthe Space and Missile Test Organization (SAMTO), a unit of AFSPACECOM as of 1 October 1990. WESTPAC Western Pacific. , f( l. @3 R% Z2 K- hWEU Western European Union WEZ Weapon Engagement Zone. WFF Wallops Flight Facility, Wallops Island, VA. WFOV Wide Field of View. WFX Warfighter Exercise. MDA GLOSSARY, VER. 4.0 W 322 WG Working Group. , t0 z: u, i- D- _WGET Working Group on Encryption and Telecommunications. : Y s; B* [: O: N# |2 xWH White House. WHDEVAL Warhead Evaluation.

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WILTEL Williams Telecommunications Group Incorporated. % v, R0 D7 ?. g$ cWing Control Center (WCC) 1 c, A3 ]8 l4 dA second Space Wing center that logistically/administratively controls operational satellite systems operated by them at worldwide locations. WIPT Working-level Integrated Product (Process) Team. ! B% n4 Y) V+ x! {" _4 J- `* X0 R/ z* fWIS WWMCCS Information System. # m2 R0 Z- n! t* A6 gWithhold 1. A term used in a pre-planned response option (PRO) to identify the withholding of part of the space or ground weapon inventory against detected threat launches, in anticipation of follow-on attacks. 2. (Nuclear) The limiting of R! a4 b2 [9 g# Kauthority to employ nuclear weapons by denying their use within specified geographical areas of certain countries. 0 r3 x& N; j! P) mWL Wright Laboratory, Wright-Patterson AFB, OH. : O8 p0 U' [% h3 n2 s& M+ U8 {) ZWLR Weapons Launch Report. WMD Weapons of Mass Destruction. WMF Windows Metafile. 3 ^; ?- Q* }9 H. d% A dWMP War and Mobilization Plan. WNINTEL Warning Notice - Intelligence Sources or Methods Involved. + o: l4 y" D# }WOC Wing Operations Center. / ?% R0 G5 E9 _. m2 _ JWON Work Order Number. Work Breakdown Structure (WBS) 5 B! h/ L/ I3 X3 k(1) A product-oriented family tree division of hardware, software, services, and other work tasks which organizes, defines, and graphically displays + m% q2 U% v( f8 U7 C% I- p2 x" othe product to be produced, as well as the work to be accomplished to achieve the specified product. 8 V3 s6 o; W! x" _( S(2) A hierarchical diagram used to depict the tasks, capital, and resources required during the development of a product. ; \+ g1 {/ z3 q- `Work Packages Detailed short-span jobs, or material items, identified by the contractor for accomplishing work required to complete the contract. ! p( b: j4 Y( d5 `Worldwide Indications d9 v5 u* q. X& m2 @+ O& AMonitoring System (WWIMS) + X6 `( a( c( D$ G" W W6 h! c- aA confederation of national, unified, and specified command and other intelligence centers and facilities. The primary mission of the WWIMS system is to monitor, maintain, and report on Indications and Warning (I&W) activity. ) C" e# u0 p6 S. Q+ _& w, T' fMDA GLOSSARY, VER. 4.0 W 0 A5 u% k v" w S) E) ~7 w \323 ( s. P" m# m5 w& _' AWorld-Wide Military . A( c4 ~( L8 l" {/ }Command and 5 P* C9 z/ w% z% i4 ^Control System (WWMCCS) The system that provides the means for operational direction and technical 0 {6 c- i" @' M) Uadministrative support involved in the function of command and control of U.S. military forces. The system comprises: The NMCS - The command and control / I/ a7 u3 |/ b( t9 Q, osystems of the unified and specified commands - The WWMCCS-related management/information systems of the headquarters of the Military Departments - The command and control systems of the headquarters of the & a# O" t6 r! ~service component commands - The command and control support systems of DoD agencies. The system furnishes a multi-path channel of secure communications to transmit information from primary sources to those who must make decisions (including the President) and to transmit their decisions (in the * i& `/ U% Q8 Z4 @$ {5 P7 }form of military orders) to subordinates. 5 J6 ?4 G: |. i, y. A& Z) UWP (Former) Warsaw Pact Countries. 8 x; Y3 V5 d Y) |! w4 JWPAFB Wright-Patterson AFB, Dayton OH. WPC Warsaw Pact Countries. & W; D/ ?; Q; ]+ v7 }+ GWPD Work Package Directive. WPN Weapon Procurement Navy. 5 i4 J; I" L2 @; |# z+ k! A0 ~WR Western Range. 1 N/ _/ S% v, \9 d% @$ u7 KWR/VAFB Western Range/Vandenburg Air Force Base. WRA See Weapons Release Authority. " u' a; @) G4 N- ~: y/ PWRM War Reserve Materiel. WRSK War Reserve Spares Kit. ' K6 Q+ g8 n3 g a' ^6 PWRTTM Warhead Replacement Tactical Telemetry Module (USAF term). + g* v4 N+ V6 c5 T% C* vWS Warning System. WSE Weapon Support Equipment. WSEM Weapons System Evaluation Program. ; t1 R9 k& Y8 J4 [# U( gWSESRB Weapons System Explosive Safety Review Board. j0 R& n6 a2 F( l7 G# C3 e) WWSI Wafer-Scale Integration. WSM Waterspace Management (USN term). WSMC Western Space and Missile Center, Vandenberg AFB, CA. WSMR (1) White Sands Missile Range, NM (2) Western Space and Missile Range. 3 R8 ~' A# K/ A: L, O3 GWTA Weapon Target Assignment. WTO Warsaw Treaty Organization. WTP Weapon Test Plan. 5 j, C ~3 A- V& a0 t/ `9 _WTR Western Test Range. MDA GLOSSARY, VER. 4.0 W 324 1 a7 O! R1 g( I: O4 C, uWUC Work Unit Code (ILS term). WWABNCP Worldwide Airborne Command Post.

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WWG Wideband Waveform Generator. ( g# A; f+ `, xWWIMS See Worldwide Indications Monitoring System. WWMCCS See World-Wide Military Command and Control System. WWW World Wide Web. ( o* u" ^; S7 X3 Z4 N0 Z* \$ RWX Weather. j. D: Z9 F0 }% E& w, r3 NMDA GLOSSARY, VER. 4.0 X,Y,Z 3 k/ h& [& Y0 L" M( b325 X-ON/X-OFF Transmitter On/Transmitter Off (Telecomm/Computer term). X-Ray Laser (XRL) A laser that generates a beam or beams of x-rays. Also called an "X-raser." X-Rays Electromagnetic radiation of high energy, which results from either the release of ! m; x9 a J5 ~9 v/ @1 D; n- Yenergy from electrons changing orbits about the nucleus (discrete) or the inelastic collision of charged particles with the electromagnetic field of the nucleus. , J/ e) T1 r3 D- u; ~5 y& OX-rays have wavelengths shorter than those in the ultraviolet region, e.g., less 0 ?7 F4 Q- p4 q8 {than 10E-6 cm or 100 Angstroms. Materials at very high temperatures (millions 9 C! s$ `6 ^2 V5 T `6 p# Y# Eof degrees) emit such radiations; they are then called thermal x-rays. As generally produced by x-ray machines, they are "bremsstrahlung" resulting from # I5 m$ _& t5 R8 r: u2 bthe interaction of electron of 1 kilo electron-volt or more energy with a metallic - ]# z$ \& @- ^target. (See Electromagnetic Radiation and Thermal X-Rays.) ( \, M: d4 \) l7 b$ @4 f6 J2 JXBR X-Band Radar. 8 Q3 W9 R; y7 Z8 N4 QXCVR Transceiver. 1 N# D% E3 B- l9 ~( {. q8 SXDS Exoatmospheric Defense System. XGA Extended Graphics Array. 8 K( J+ G/ E$ D# F2 mXIWT Cross Industry Working Team. XMTR/CVR Transmitter/Receiver. XO Executive Officer. XoDis Exoatmospheric Discrimination. 4 U( P$ t% H) z: d: fXOX Assistant Deputy Chief of Staff for Operations (Office Code). * z* X& c5 s) ^XRL See X-Ray Laser. XRS USAF/ESC Staff Symbol. XTB Exoatmospheric Test Bed. 6 M8 M4 z9 n8 |3 HXTV Experimental Test Vehicle. Xwindows Unix graphics interface. Yield (or Energy 0 _! b$ F) {5 M& x$ J/ ^Yield) 1 B" _) P& A5 N* b& ~$ y! AThe total effective energy released in a nuclear (or atomic) explosion. It is 2 u3 q) _3 c: b* a% j6 Vusually expressed in terms of the equivalent tonnage of TNT required to produce / C/ r! K/ g: S8 s: {the same energy release in an explosion. The total energy yield is manifested as nuclear radiation, thermal radiation, and shock (and blast) energy, the actual distribution being primarily dependent upon the medium in which the explosion " Y8 S! }) o. v, joccurs, as well as the type of weapon and the time after detonation. 9 D5 q! @) D& ^1 ^" cZero Point The location of the center of a burst of a nuclear weapon at the instant of ( C3 E5 H% g3 ~detonation. The zero point may be in the air or on or beneath the surface of land or water, dependent upon the type of burst; it is thus to be distinguished from ground zero. : B: z/ i; \9 s, | fZIF Zero Insertion Force. 2 C" ~0 Y( ^7 u& Y) A8 d( W* LZULU Time Zone Indicator for Universal Time. 6 m3 F1 h$ e8 `# q+ y2 iMDA GLOSSARY, VER. 4.0 326 Units of Measurement ) `3 ~, z8 n- HKeyword/Symbol Unit Name Aspect Measured 8 T; G7 n7 d2 h" s1 n[ a ] ampere electric current 8 @% V, c/ _( @4 S' H[ angstrom ] angstrom length & k. t+ a; `: O) k$ I! U5 W2 K[ b ] bit binary digit 0 or 1 2 z$ }2 e: }4 R8 @" M7 k[ bps ] bit per second bit transfer rate [ C ] coulomb electric charge ! @# b8 w! y; ~4 q+ @: m, R[ c; Ci ] curie radioactivity 7 [" X. h/ G& x4 b7 C. G! }[ cal ] calorie energy 6 n" S! e, j* t0 ^ [[ cal/sq cm ] calorie per square energy per area * ]8 {5 X. F) l+ H J! d% D. ycentimeter [ chan ] channel frequency path 5 `. T& M7 {' g' w% ^$ i# Y0 T+ V[ cm ] centimeter length

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[ cu cm ] cubic centimeter volume " X- s. D5 m. h% K. } u[ dB ] decibel signal strength [ deg ] degree plane angle [ deg K ] degree, Kelvin temperature [ deg/s ] degree per second plane angle change rate % B" F5 @4 U! T s[ deg/s/s ] degree per second slew acceleration : c% N& z' c1 E- i+ jper second ' L6 K7 w6 ^$ P3 q a[ diam ] diameter length [ dyn ] dyne force [ eV ] electron-volt energy [ G ] gauss magnetic flux density ) J9 M7 R, i5 \ W; h. N1 v[ g ] 1) 9.808 meters per sec- 1) gravitational acceleraond per second; 2) gram tion constant; 2) mass . L3 a% }; {2 _6 T3 W& d7 \9 |( ~[ GHz ] gigahertz frequency [ Gy ] gray absorbed dose ) _* W7 F6 ]! U# s Q5 ^' [0 B[ h ] hour time [ Hz ] hertz frequency [ J ] joule energy 2 _/ H4 g; Z, `[ J-T ] Joule -Thomson temperature change [ K ] Kelvin temperature & h5 w( C9 \4 q. e7 m, A[ kA ] kiloampere electric current ?% U2 `; w6 Z6 I% J[ kb ] kilobit binary digit " V( k& y7 j6 q& g[ kb/s ] kilobit per second velocity (binary digit) [ KeV ] kiloelectron-volt energy " }3 n0 f4 n9 n3 }; U0 ?$ Z. S$ B }[ kg/sq m ] kilogram per square pressure / H7 y# |( d* w0 {# Vmeter 5 U7 e, ~: _# D( W4 K+ w[ KHz ] kilohertz frequency [ kJ ] kilojoule energy % d7 w; [' d1 I, w* O4 h9 a[ kJ/kg ] kilojoule per kilo- specific energy , X. M( a: H( ~$ `gram [ kJ/sq cm ] kilojoule per square laser lethality centimeter # K" q& y0 V; r7 C% S4 _& n[ km ] kilometer length [ km/s ] kilometer per second velocity X( i1 e7 w9 {" Y6 ^( N* B( }3 ~[ KT ] kiloton yield [ kV ] kilovolt electromotive force 3 C- r6 D3 Q$ K8 x1 B[ kW ] kilowatt power # h+ {9 h* f2 e9 v* v8 O$ s[ kW/kg ] kilowatt per kilogram specific power Keyword/Symbol Unit Name Aspect Measured L* F' O6 s. D2 t" V2 R0 MMDA GLOSSARY, VER. 4.0 327 [ kW/m ] kilowatt per meter thermal transport 2 T, o+ D0 B. ~3 N8 O[ kW/sq cm ] kilowatt per square energy flux centimeter 3 l+ ?1 b8 @3 P3 c$ D[ m ] meter length [ Mbps ] megabit per second bit transfer rate 1 V; J) a3 J% ]' R N! e) N[ MeV ] megaelectron-volt energy Q3 u9 O0 E4 N: l/ ~; ]6 v[ MFLOPS ] million floating point processing performance operations per second [ MHz ] megahertz frequency [ micro ] micro a one-millionth part $ K9 P1 ~7 r/ u! p: w[ micron ] micrometer length 9 w3 [6 O+ x4 e5 U[ milli ] milli a one-thousandth part + L z* V+ C& ^( xmJ millijoule [ min ] minute time [ mips ] million instructions processing speed per second [ MJ ] megajoule energy ( t8 K5 r, C) g* O[ mm ] millimeter length . q/ E* a5 y' `5 b% ?. G[ mops ] million operations processing performance per second [ mrad ] milliradian plane angle # t5 K( h3 S7 S9 ]! q/ {8 X; l[ m/s ] meter per second velocity 6 k( t5 w) J e- m* Z2 X[ ms ] millisecond time [ MT ] megaton yield [ MV/m ] megavolt per meter electric field strength [ MW ] megawatt power [ MW/sr ] megawatt per steradian laser brightness [ N-s ] newton-second force [ ns ] nanosecond frequency [ parsec ] parsec astronomical distance ( B/ d P& V1 {8 T% u4 i5 O[ Pa-s ] pascal-second pressure [ R ] roentgen radiation dose ; t! J3 b% y! }/ T[ RAD ] rad absorbed dose [ radian ] radian plane angle - P& P% p+ q5 h$ @6 S% O$ B7 @+ H[ rad/s ] radian per second angular drift $ u6 Z) b2 X+ m[ ratio ] percentage efficiency [ rem ] rem ionizing radiation [ s ] second time + u9 `9 H8 l% }8 [0 i* }[ sq m ] square meter area ' v L3 z B5 U4 d! V4 }[ sq m/yr ] square meter per year area per time 8 O, a: {+ q$ x: \/ U' L[ sr ] steradian absorbed radiation dose [ mrad ] microradian plane angle 7 E& Z# L+ n O, K$ Y: x! v$ C: M[ V ] volt electromotive force * Z3 W" Y, @! g) m, T[ W ] watt power s0 W. _- E+ _+ S3 w; m% q& u[ W/kg ] watt per kilogram specific power # S/ D7 D2 V) O5 S[ W/sq cm ] watt per square heat flux ! h: y& y1 t7 v M& W+ ?centimeter ) e1 ?2 Q. ~, `6 P) {[ W/sq m ] watt per square meter energy flux ( y. h! o! T+ a# j[ W/sr ] watt per steradian radiant intensity 9 n9 O. s* j' h5 L[ W/sr sq m ] watt per steradian radiance + q/ Y4 Z+ A( T2 \# w% psquare meter [ yr ] year time

mariner

Looking for it.

championking

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conanyhm

是可以输入查找那种吗？

xiaohao

ddddddddddd

brashman

i want see it!

美的瞬间

谢谢分享了啊！