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MDA GLOSSARY, VER. 4.0 U
& Y0 O% [+ Y. J314" }. a) J( i" g4 j
USLANTCOM United States Atlantic Command (Now see USACOM).; o6 Y+ |% x8 E
USLANTFLT U.S. Atlantic Fleet.. U: H5 T/ [* h
USMAR-, [# U. a# x9 p; W8 p
FORCENT
) {) f0 x ], I5 a- Y D- \0 u) PU.S. Marine Component, U.S. Central Command.
4 i1 ^+ X0 E2 d$ w7 ^5 R" ]. K9 oUSMAR-FORLANT U.S. Marine Component, U.S. Atlantic Command., j7 G& p, C- N& Z' d6 ~
USMAR-FORPAC U.S. Marine Component, U.S. Pacific Command.
+ S8 n( }+ S* w% n! j5 eUSMC United States Marine Corps.
" e) Q: ^" C/ W$ z) K! n7 D; RUSMCR United States Marine Corps Reserve.; n* o0 V. q1 Q$ r1 e" }
USMILREP U.S. Military Representative.
# }: F/ [! u% q) j+ |+ gUSN United States Navy.5 w6 L# v% i, k* |# Q( `
USNAVCENT U.S. Naval Forces, U.S. Central Command.
! q7 [+ p' G9 C8 h" s! ?2 RUSNAVEUR U.S. Naval Forces, U.S. European Command.
# Y3 [5 d: S7 b9 j n" qUSNIP U.S. Naval Institute Proceedings.4 k# [3 z* ~+ o9 y
USNO U.S. Naval Observatory.
% l0 {, D* ?. M# \: c4 tUSNPGS U.S. Naval Post-Graduate School.: D3 S K3 Q) ?8 z: ]
USPACAF U.S. Air Forces, U.S. Pacific Command. ^) l; x1 V+ ]
USPACFLT US Pacific Fleet.
r% O7 w* J3 d4 OUSPACOM United States Pacific Command, Pearl Harbor, HI.5 \- L: a7 {& |9 r& |
USREPMC U.S. Representative to the Military Committee (NATO).
! E2 n: s/ _1 E. Z0 v7 hUSSC United States Space Command.5 z, k" M% Y8 j" v5 U3 M/ y
USSOCOM United States Special Operations Command, Tampa, FL.- K; h+ j$ i" w4 Y
USSOUTHCOM United States Southern Command, Panama Canal Zone, Panama.8 i1 P$ w- U1 r8 ^
USSPACECOM See United States Space Command.8 l4 n& v4 U" c' J% U
USSS United States Secret Service.
/ E' U3 o7 G/ B. Z/ oUSSTRATCOM See United States Strategic Command.
4 z# j( H$ m- l% t4 N- O% M- XUSTA United States Telephone Association.) m1 l$ Y I8 ~$ w5 Z
USTRANSCOM See United States Transportation Command.
, |- X6 L1 D2 k: }, l) l8 IUT Universal Time.# M/ n8 j2 n8 L: v6 G6 r) _
UTC Unit Type Code.$ W; x1 N8 d& A* h; l* k
MDA GLOSSARY, VER. 4.0 U
$ i4 q& h& J; c" ?5 j& y3 g) U2 x0 n315
, |/ B& }3 j9 n! }- m/ BUTM Universal Transverse Mercator.
8 ~4 s( I4 i# O- z/ Q7 o+ lUTTMDS Upper Tier Theater Missile Defense System. See THAAD System. [! f/ ?% ^! @) r0 b3 V+ a
UUT Unit Under Test (ILS term).! ] R# ]6 `; x1 z; s/ D4 B/ R
UV Ultraviolet.
# _; X" v5 a% i+ @9 k* p% YUV Electro-
. N$ D8 m; K vOptics
9 ~, i2 u0 _; I9 Z; P' jTechnologies/techniques employed by optical sensors in the wavelength6 T, L# a- X: Y$ P3 z
spectrum shorter than visible (e.g., less than 4,000 A)./ j. O, w$ C9 a+ n, G
UVPI Ultraviolet Plume Instrument.
( ~/ l- d+ p4 Y# a8 d. ^UW Unconventional Warfare.
" ~: A9 U; b6 l8 q- Q4 T! z c: rMDA GLOSSARY, VER. 4.0 V5 q5 \5 P+ l$ y+ u4 J( J. i
316
- a, \4 d z! dV Volt." |1 t' d7 b" y4 }; E
V&H Vulnerability and Hardening.
% [" G. C0 J+ O$ U# QV&V Verification and Validation. (See Verification, Validation, and IV&V.). F7 o4 |/ l1 d
V/STOL Vertical Short Takeoff and Landing [aircraft].
- R% T4 @: D2 o' KVAFB Vandenberg Air Force Base, CA." Q* `6 i w& c; X0 c7 G
Validation Confirmation that the processes and outputs from a test resource parallel real( l# U @( x7 e8 [
world processes and are realistically sensitive to change in the environment,, Q# `, n8 K; P& J
tactical situation, system design, tactics, and threat.4 c/ P9 b1 p0 H7 ~1 y$ l5 i+ @8 O
VAMOSC Visibility and Management of O&S Costs.
& W7 E! T9 H0 H2 BVAR Visitor Access Request.
/ O, r" U9 ]# z6 k0 @Variability The manner in which the probability of damage to a specific target decreases. f. `9 W: u3 t
with the distance from ground zero; or, in damage assessment, a mathematical
+ C0 t# j, Y- N1 i+ rfactor introduced to average the effects of orientation, minor shielding, and
3 n- S' @7 b- f, luncertainty of target response to the effects considered.
9 \' |$ Q: b1 e! i1 vVBO Vertical Burn-Out (velocity)." u g& ^4 b! m9 X7 z0 U
VCC Voice Communications Circuit.
6 D. b6 }) r! `& U- @ rVCRM Verification Cross Reference Matrix.
3 m& h/ K) B( B9 bVCS Voice Communications System.& J. {* u; b3 I* X% O
VDC Volts Direct Current.
) ]) r8 c9 h! NVDD Version Description Document.( a+ e9 i- x6 }. r
VDU Visual Display Unit.
" {- H" c( Q% y! V0 \& fVE Value Engineering.
2 O. |: i# C4 l* \1 f) BVECP Value Engineering Change Proposal.
E) d$ L$ _: K9 R! w% ~Verification (1) Confirmation that all data inputs, logic, calculations and engineering# O: J* Z, ?, z& l& T
representations of a T&E resource accurately portray the characteristics,! c2 M! }( q7 }
calculations, logic, and interactions of the system under evaluation.
% P0 [5 S; l& ?0 C- \(2) The process of evaluating a system or component during or at the end
8 N& A, [7 n. o9 Gof the development process to determine whether it satisfies specified
9 t, V1 a1 U6 ]) i8 Z$ q, [requirements.) @5 g B" z! u' ~% d
VESA Video Electronics Standards Association.& h* g' y& ?$ X9 L) _. h! y+ D) ], n
VFR Visual Flight Rules.0 t2 \) | U1 @, v
VGA Video Graphics Array (Telecomm/Computer term)./ a8 U7 q2 Y; u; r* d |6 d
VHF Very High Frequency.$ O# n* I7 G. r( l2 q
VHSIC Very High Speed Integrated Circuit.5 f' @+ t8 r& d
MDA GLOSSARY, VER. 4.0 V
7 U2 [4 I' `6 r2 {% ~) N/ @8 o- q317
8 x: x/ {4 E1 R- {VIDS Vehicle Integrated Defense Software (USA term).
8 ]$ i+ g& F5 N1 M& v- B8 d1 E3 }VIGILANTE Viewing Image/Gimbaled Instrumentation Lab-Analog Neural Three-D- i, T+ l$ D4 L0 t$ ~' k0 o
Experiment. VIGILANTE involves building a small computer (ANTE) offering 1/12
, }% ^: Y( _' r& D" k. POperation Per Second (OPS), using a mixture of experimental three-dimensional
: d! n" [: K5 [circuitry and commercial components. Project also demonstrates VIRGIL, a
0 `! A& _' I' f4 xgimbaled airborne sensor with visible, experimental UV and quantum-well IR
! X7 t5 e; P, l9 u, h7 n6 [) ycameras capable of tracking targets that can be detected, identified, and( U+ x6 P1 |( Z$ C
precision-tracked with the ANTE processor.* O2 _/ K& w8 S# ]5 O
VIM Vibration Isolation Module.. d! V% u1 m; n' y! T; H
VINSON Encrypted Ultra High Frequency Communications System.+ y" i- Y* v( e# o) P
VIS Visible.
4 z0 C% n* i/ o2 M- fVIS/UV Visible/Ultraviolet.+ o/ @. B% C. t5 H
Visibility Range6 h4 V$ f& _2 z- r' Q! C# v
(or Visibility); V0 f4 V- k7 [/ _2 C( Q+ Y$ |
The horizontal distance (in kilometers or miles) at which a large dark object can: c* ]8 F# E) H, J A( n4 z W: B
just be seen against the horizon’s sky in daylight. The visibility is related to the$ b4 z5 K% _! i; {5 U* A
clarity of the atmosphere ranging from 170 miles (280 kilometers) for an
& ?. R6 w& S6 R+ x/ k" H2 eexceptionally clear atmosphere to 0.6 mile (1.0 kilometer) or less for dense haze* m { U$ M/ ^" ]: P2 W. n; b* j
or fog. The visibility on an average clear day is taken to be 12 miles (198 w3 Y0 j) j- Z
kilometers).9 `9 M, ]; v5 q, M, ~
Visible Electro-$ R, E0 V) F7 f x; C
Optics
+ o6 \/ Y) N- P& h" wTechnologies/techniques employed by optical sensors in the visible portion of
9 Y' ^! ^/ |7 d9 Uthe wavelength spectrum.3 o. G! I- S. o2 }
VLAR Vertical Launch and Recovery (UAV JPO term).$ [ u$ ^8 B6 @0 O
VLF Very Low Frequency.0 O) f9 R$ F* L1 w5 m3 B; K7 ^
VLOS Vertical Line of Sight. |
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