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MDA GLOSSARY, VER. 4.0 U
. S& L" l4 w" S* E- z4 w314
T( C0 r1 Y' c+ y% n0 ~8 ]7 AUSLANTCOM United States Atlantic Command (Now see USACOM).3 C% ~' Z' w, l% N& X( f; W
USLANTFLT U.S. Atlantic Fleet.
& t7 o Z% `" a$ Y# ]1 Z- E8 U; ~USMAR-
0 _1 B, m: H+ y# hFORCENT( F4 |: u6 ~- J( ]
U.S. Marine Component, U.S. Central Command.
( M& Z, ?' H* \2 j5 }; \1 kUSMAR-FORLANT U.S. Marine Component, U.S. Atlantic Command.
{( H! D9 h9 i7 b2 J1 x5 cUSMAR-FORPAC U.S. Marine Component, U.S. Pacific Command.4 |+ |4 M7 A( w% C! @2 H! c
USMC United States Marine Corps.# {4 d, x( H F# L! o3 N& V% h( E; o
USMCR United States Marine Corps Reserve.
& ~5 ?! t& v. `- wUSMILREP U.S. Military Representative.
8 {% H! @/ W7 \% i- e8 u' i! `USN United States Navy.% W4 A- D1 F* ^' w) n9 a* p
USNAVCENT U.S. Naval Forces, U.S. Central Command.
1 P# N# |8 r; ^. I2 M$ @USNAVEUR U.S. Naval Forces, U.S. European Command.: J; j* k- W7 g8 s2 |1 Q% g
USNIP U.S. Naval Institute Proceedings.$ r: O; a; |1 a7 W
USNO U.S. Naval Observatory.4 K/ l) M$ h5 ~) J J
USNPGS U.S. Naval Post-Graduate School.
! S1 l: k% b! w$ Q- y. K1 QUSPACAF U.S. Air Forces, U.S. Pacific Command.' x, Y% g& u% S: o
USPACFLT US Pacific Fleet.! l9 ] f9 M: ]1 {$ _" [3 n; ^! i
USPACOM United States Pacific Command, Pearl Harbor, HI.
+ b$ j8 H2 B. I% n9 s4 }USREPMC U.S. Representative to the Military Committee (NATO).
5 Z0 t9 B2 |) ]USSC United States Space Command.6 [ x9 s, J' b5 M- L
USSOCOM United States Special Operations Command, Tampa, FL.% t2 }3 q7 R4 K" r4 M4 ~ Y8 A
USSOUTHCOM United States Southern Command, Panama Canal Zone, Panama.
* G& G3 C0 P! {5 D7 yUSSPACECOM See United States Space Command.: }- j. |5 u8 `- z4 a
USSS United States Secret Service.
- [# a4 r7 E5 \. G" a) U6 mUSSTRATCOM See United States Strategic Command.3 ~2 t" i& y8 V0 C" n4 m
USTA United States Telephone Association.* v( |, s2 j. B1 [5 U [
USTRANSCOM See United States Transportation Command.
4 @) V. K7 Z' h4 s1 g9 E9 w; HUT Universal Time.
$ `; h) j+ s% U9 Z2 KUTC Unit Type Code.# e1 N% v" f" i& X
MDA GLOSSARY, VER. 4.0 U
/ L3 _- @9 v& e; I315
$ w5 l0 ]$ T) n1 F3 i$ tUTM Universal Transverse Mercator.' F/ ?4 i' x- D1 _/ W9 o
UTTMDS Upper Tier Theater Missile Defense System. See THAAD System.
) m" U# J$ p, b- {UUT Unit Under Test (ILS term).
6 S" P# Z1 Y( c' C: V% pUV Ultraviolet.
) M, p) x! i/ N/ c! F4 dUV Electro-
6 h; E2 D5 _* I/ }; \+ x. GOptics
4 \2 u6 Z- X: I+ N1 _Technologies/techniques employed by optical sensors in the wavelength% a- R; o/ ^+ N& W$ H
spectrum shorter than visible (e.g., less than 4,000 A).2 N4 \+ ?) | F# l, z3 p
UVPI Ultraviolet Plume Instrument.7 I2 g% T; i% F7 k- R# ^& A
UW Unconventional Warfare.
8 G1 e# K) s; X p3 iMDA GLOSSARY, VER. 4.0 V
% }! A6 w( w' O% p t+ T- Z6 L316
9 G+ i6 a; ^2 L: ?1 S/ c& o- oV Volt.
* e0 S# k B4 U' PV&H Vulnerability and Hardening.
4 t3 f+ G" P1 J# @1 j1 @V&V Verification and Validation. (See Verification, Validation, and IV&V.)3 s e! `' {% f+ W
V/STOL Vertical Short Takeoff and Landing [aircraft].1 f# U$ x. ~$ R* K8 b
VAFB Vandenberg Air Force Base, CA.* V# V8 h/ [; E+ ~+ N7 z2 D
Validation Confirmation that the processes and outputs from a test resource parallel real- t; z) d8 k! U! M( `* U) @
world processes and are realistically sensitive to change in the environment,
, D# V. s, ]) F4 n: Vtactical situation, system design, tactics, and threat.
3 \# `" T8 g. u c0 T- WVAMOSC Visibility and Management of O&S Costs.
; P. R0 w' I$ ]. FVAR Visitor Access Request.
2 a) q) G9 O% K& H. ^ X+ |3 X& LVariability The manner in which the probability of damage to a specific target decreases
) t- \3 g, J2 C# Swith the distance from ground zero; or, in damage assessment, a mathematical# g7 G3 w4 Y* c! m0 ^, N
factor introduced to average the effects of orientation, minor shielding, and
" N( r7 v7 [( F) `& G0 Xuncertainty of target response to the effects considered.
9 K- Z) N5 b; J. u+ \( S* pVBO Vertical Burn-Out (velocity).4 B# E/ G6 [; c; h7 f2 m
VCC Voice Communications Circuit.
9 j' c- F! Z8 rVCRM Verification Cross Reference Matrix.
2 B8 Y9 ?/ F4 [% GVCS Voice Communications System.
; r& J* C5 \0 |. _) A7 |VDC Volts Direct Current.
1 m* L' P" H8 y# E$ PVDD Version Description Document.
6 h6 Z) x7 R `6 X5 |0 H0 ]5 RVDU Visual Display Unit.5 F/ P7 v3 y2 e$ n3 d3 S* e {, }6 d
VE Value Engineering.
% a. E0 R2 G2 O1 s2 S2 NVECP Value Engineering Change Proposal.
) @5 `1 y7 ], V/ l! U/ K& @Verification (1) Confirmation that all data inputs, logic, calculations and engineering: ^/ T* w8 P$ l5 j; o
representations of a T&E resource accurately portray the characteristics,+ e/ h! K5 ?. `3 H+ E: N* y; U
calculations, logic, and interactions of the system under evaluation./ w. ~$ W. l: n c, p7 R
(2) The process of evaluating a system or component during or at the end
! n) F1 F; O3 h# v0 {of the development process to determine whether it satisfies specified. r, v( w+ n( y( y, U) K
requirements. t% Z. ~% t8 n- |/ y
VESA Video Electronics Standards Association.
, n& {4 U: U- Y) I/ z$ wVFR Visual Flight Rules.
- U% M) m; j q. x( j% bVGA Video Graphics Array (Telecomm/Computer term).- O; p6 o9 R. b3 Q, R
VHF Very High Frequency.5 l2 [8 ]7 { s' Q9 H& C& F
VHSIC Very High Speed Integrated Circuit.
7 x- [4 t* n4 Z! n) ~MDA GLOSSARY, VER. 4.0 V2 R& Q, m8 C. J9 `+ e
3178 l) G" d) @, @ i9 B& R# E) ~) \0 ^; d
VIDS Vehicle Integrated Defense Software (USA term).+ _0 z9 } m8 e* H( {9 X) L, @
VIGILANTE Viewing Image/Gimbaled Instrumentation Lab-Analog Neural Three-D7 h- D7 I4 R9 o. P1 f7 o( a
Experiment. VIGILANTE involves building a small computer (ANTE) offering 1/12& T/ T5 `* u K
Operation Per Second (OPS), using a mixture of experimental three-dimensional# l4 j7 l+ ]$ g
circuitry and commercial components. Project also demonstrates VIRGIL, a1 M# p$ G3 A$ ]$ o5 N- B/ o
gimbaled airborne sensor with visible, experimental UV and quantum-well IR
" q; Y7 V" k& G; k% r5 _cameras capable of tracking targets that can be detected, identified, and6 S% [2 A. R# w; E$ R5 E. A
precision-tracked with the ANTE processor.2 s6 Z$ U% r! L$ e9 f- k+ U
VIM Vibration Isolation Module.
( T7 {' E$ n9 @; V0 X9 G( bVINSON Encrypted Ultra High Frequency Communications System.9 \: g* O1 ^6 j# q! a. C! o
VIS Visible.9 M4 b* S1 ?( B5 ~# `
VIS/UV Visible/Ultraviolet.
! G; h! m) Z) rVisibility Range
9 }% F* S+ b9 `5 N1 ~/ q9 `' g( Z(or Visibility)
) m+ w' [3 ~4 p% KThe horizontal distance (in kilometers or miles) at which a large dark object can
% Y) q( J1 R+ p* w, q- O) q: Gjust be seen against the horizon’s sky in daylight. The visibility is related to the
2 B b, e- E$ {! K# k) l( U+ Mclarity of the atmosphere ranging from 170 miles (280 kilometers) for an
7 f" _0 f* U: p9 t; X" Uexceptionally clear atmosphere to 0.6 mile (1.0 kilometer) or less for dense haze
* Z; \; d# f; ~or fog. The visibility on an average clear day is taken to be 12 miles (19
* I" M8 n# v; rkilometers).5 \0 X P: Q% S$ D Q/ `
Visible Electro-( S( o$ C `# E7 d3 C
Optics
/ M/ q, @/ R, Y2 n! o, C9 Q8 gTechnologies/techniques employed by optical sensors in the visible portion of
! h) G4 n) J8 F) I# P/ {/ s, \the wavelength spectrum.
5 r+ m$ D% a9 X) UVLAR Vertical Launch and Recovery (UAV JPO term).# V( [, B+ D# }% n. X u
VLF Very Low Frequency.) Y: L* k7 m$ A H
VLOS Vertical Line of Sight. |
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