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MDA GLOSSARY, VER. 4.0 U
9 @7 y8 o" N% U' ?& H3 I314$ D6 Y5 }6 l% U: u7 {" ]# }
USLANTCOM United States Atlantic Command (Now see USACOM).
7 P! I7 f# Y+ F% n$ }8 l6 EUSLANTFLT U.S. Atlantic Fleet., B, w5 S% k6 x3 V& P3 { c: D0 f, v
USMAR-2 Y$ m" H0 V5 Q; L/ `. g4 Q* w3 f
FORCENT% D8 y/ H& J# u
U.S. Marine Component, U.S. Central Command./ [ R* o U" P: z" x2 E8 _
USMAR-FORLANT U.S. Marine Component, U.S. Atlantic Command.
5 k% c* }9 i& s' O+ JUSMAR-FORPAC U.S. Marine Component, U.S. Pacific Command.
f8 Y- G- M* S/ Y# |" Q5 TUSMC United States Marine Corps.
$ H5 b, u3 F& b SUSMCR United States Marine Corps Reserve.
6 Z8 E9 Q$ a( ^2 v" [USMILREP U.S. Military Representative.
" u$ k3 m& d) a: Y9 y4 ?. r3 HUSN United States Navy.6 q' R/ Y1 A9 n2 X: _
USNAVCENT U.S. Naval Forces, U.S. Central Command.
; D x" j) G' H8 A' S; C# gUSNAVEUR U.S. Naval Forces, U.S. European Command.3 O6 ]- l/ g4 C1 J$ l' x* i
USNIP U.S. Naval Institute Proceedings. ^1 U% f7 t: C0 ~: }
USNO U.S. Naval Observatory.: j# f$ G# v0 j0 a
USNPGS U.S. Naval Post-Graduate School.0 U$ S2 Q. H4 B- M1 T2 F6 K7 v
USPACAF U.S. Air Forces, U.S. Pacific Command.
6 o9 V t6 V, d9 YUSPACFLT US Pacific Fleet.
( L. k) r) ?4 Q& G( IUSPACOM United States Pacific Command, Pearl Harbor, HI.
2 h3 f# A* J3 Z! [9 m& L" t/ eUSREPMC U.S. Representative to the Military Committee (NATO).
6 s) Q, w# V; q0 I* d; N) S$ c8 DUSSC United States Space Command.
6 J9 @6 S1 g: L4 q* {USSOCOM United States Special Operations Command, Tampa, FL.2 N# @$ K% F3 H4 {" }% c$ A8 W
USSOUTHCOM United States Southern Command, Panama Canal Zone, Panama.7 y |; j* w' E6 U, T
USSPACECOM See United States Space Command.
7 t; l+ N) C5 j- eUSSS United States Secret Service.
' b$ w7 P; \9 N" v6 TUSSTRATCOM See United States Strategic Command.* I1 w: V. ~4 k/ z8 ^: x
USTA United States Telephone Association.
+ O' Z3 U* P z4 ^USTRANSCOM See United States Transportation Command.
- H1 ^9 b" \+ r* z) WUT Universal Time.
6 P1 `+ j/ D4 \UTC Unit Type Code.
4 P% h: \: F9 e4 BMDA GLOSSARY, VER. 4.0 U
2 c# C6 i' w: L: r* J4 f# Y* |; p315$ y4 u/ p; P$ f: `, \; |, K
UTM Universal Transverse Mercator.
7 M/ z9 ]7 q- T( fUTTMDS Upper Tier Theater Missile Defense System. See THAAD System.
1 S! A! ?: W2 {( ?: P cUUT Unit Under Test (ILS term).7 z! p6 F) P& }4 V% W. s$ d
UV Ultraviolet.
4 G$ N/ H- Z! {. ~' z$ mUV Electro-% \ R! i) C- J& f, n1 B7 l" S
Optics
" \& ^6 E; u. D8 [8 [9 s0 n+ ~9 QTechnologies/techniques employed by optical sensors in the wavelength) L$ }& o) k3 |9 v% y2 b9 d! B" r
spectrum shorter than visible (e.g., less than 4,000 A).! z) O u( q* A0 o+ H9 Y
UVPI Ultraviolet Plume Instrument.) Y8 u* I K7 S" u& h( P v
UW Unconventional Warfare.
; |( p1 j- b, s IMDA GLOSSARY, VER. 4.0 V) L9 O) b1 _$ P7 k/ U
316
, P0 _5 v0 S) ~+ T9 RV Volt.
3 W; m: A6 c, y. X$ K# UV&H Vulnerability and Hardening.
4 a' U% G8 R0 V4 \/ \V&V Verification and Validation. (See Verification, Validation, and IV&V.)
# U( x+ K, I( S) |. \0 U' HV/STOL Vertical Short Takeoff and Landing [aircraft].% j) S* T6 g7 M4 f, r
VAFB Vandenberg Air Force Base, CA.
" r+ T: h; v" V" Q$ \Validation Confirmation that the processes and outputs from a test resource parallel real, G/ P5 ]. z9 |
world processes and are realistically sensitive to change in the environment,
8 I3 C3 L5 e/ J Wtactical situation, system design, tactics, and threat.
8 n; x, z9 E; B8 V; N3 D) ^: rVAMOSC Visibility and Management of O&S Costs.9 U9 m' t x1 f
VAR Visitor Access Request.
, Z* ]* z, V* w) m2 m+ h* ?9 hVariability The manner in which the probability of damage to a specific target decreases
6 |: P! L/ Y, r H- Wwith the distance from ground zero; or, in damage assessment, a mathematical
9 ~7 H2 m- l" O3 Bfactor introduced to average the effects of orientation, minor shielding, and* q" b6 O9 Y- q
uncertainty of target response to the effects considered.
* Z: `# K, M6 X q( @$ JVBO Vertical Burn-Out (velocity).
, f. u2 Q1 m$ t! \6 R9 y- @VCC Voice Communications Circuit.
6 N" L1 |* |$ R3 D% e! {2 BVCRM Verification Cross Reference Matrix.$ R$ l* u/ H) t0 e$ n
VCS Voice Communications System.
3 f% `$ ^% l' T' L1 J3 _, X4 p/ nVDC Volts Direct Current.' x% M# _* S& v J2 }
VDD Version Description Document.
2 }6 f7 d" w3 l( x; ?+ cVDU Visual Display Unit.
- u: o0 d" t$ f: U! l F/ XVE Value Engineering.
8 v* `8 ^8 |! Q9 N: j3 [2 m& rVECP Value Engineering Change Proposal.
) x4 o9 J, W9 ^ U X: }( {Verification (1) Confirmation that all data inputs, logic, calculations and engineering( Q9 f! ? g! n% Z, w
representations of a T&E resource accurately portray the characteristics,
: I$ h) u0 O- j7 A; V% ncalculations, logic, and interactions of the system under evaluation.+ ^( Y9 T; x, N8 K
(2) The process of evaluating a system or component during or at the end+ ^2 y% r! I- ]: }9 K
of the development process to determine whether it satisfies specified7 J% d6 Y+ P- H# P& X; r. ]
requirements.
6 G2 a" f- L$ _$ cVESA Video Electronics Standards Association.: J' Y( U5 C& s1 X4 u1 j) G, r3 K
VFR Visual Flight Rules.
# ?2 u o4 v/ h$ ~$ R" W/ c! b) t9 b) oVGA Video Graphics Array (Telecomm/Computer term).4 g7 j q0 u3 \
VHF Very High Frequency." M3 q& O/ W4 Z r) i! }/ }5 N1 f
VHSIC Very High Speed Integrated Circuit.
5 `$ h% l2 {5 L3 L% u3 Q/ KMDA GLOSSARY, VER. 4.0 V4 w* V/ g/ ~. D' \# p# ?
317
4 l, H# ~4 d; fVIDS Vehicle Integrated Defense Software (USA term).: \" }: F4 r n
VIGILANTE Viewing Image/Gimbaled Instrumentation Lab-Analog Neural Three-D
" E* P9 C: A6 j2 K( Q4 b- p7 ~Experiment. VIGILANTE involves building a small computer (ANTE) offering 1/12# U( a% S- n q6 F) x$ D& u% c
Operation Per Second (OPS), using a mixture of experimental three-dimensional: b- N# _% X& b0 U+ Y- [
circuitry and commercial components. Project also demonstrates VIRGIL, a; b$ C$ d: A q$ u# v7 S
gimbaled airborne sensor with visible, experimental UV and quantum-well IR! j- q" d( x% J! f+ j8 G1 f7 p
cameras capable of tracking targets that can be detected, identified, and, T' T' Y& b' C2 t2 M9 c3 e/ J" a
precision-tracked with the ANTE processor.
+ Y8 l- t; c. E# H w* EVIM Vibration Isolation Module.
* h% m9 M& ]/ C" C- \VINSON Encrypted Ultra High Frequency Communications System.# I$ w, t$ d3 G9 r# _$ E6 K
VIS Visible.
' f+ T$ G: D8 M7 G; K. EVIS/UV Visible/Ultraviolet.
4 D- p0 u& E& {6 b8 zVisibility Range9 Y: M+ b5 }8 C; N! R/ z c0 B$ f
(or Visibility)
3 F9 v2 M. ?. D9 [' o8 I+ a8 C1 @The horizontal distance (in kilometers or miles) at which a large dark object can" P: H" Y3 D7 ~% p% F/ f
just be seen against the horizon’s sky in daylight. The visibility is related to the1 z( [5 n! H( W$ _4 r$ w0 N9 e
clarity of the atmosphere ranging from 170 miles (280 kilometers) for an
, q/ r# _8 X0 l8 c! C% z/ lexceptionally clear atmosphere to 0.6 mile (1.0 kilometer) or less for dense haze# m0 @% {/ ~% j% q
or fog. The visibility on an average clear day is taken to be 12 miles (19% u ]( h0 T5 J. ~
kilometers)., I( W3 e" @ e/ s$ q; P
Visible Electro-
! ~) b* h2 ~% E `/ y4 O }+ eOptics L: V& P4 y# E
Technologies/techniques employed by optical sensors in the visible portion of$ p0 w' @! B3 M
the wavelength spectrum.
% a; @+ [, {6 P! I! x$ ]9 V0 `VLAR Vertical Launch and Recovery (UAV JPO term).: E p0 [; g1 D- ~) |
VLF Very Low Frequency., Z' v4 _# F! Q! C: m7 E7 m5 [0 {
VLOS Vertical Line of Sight. |
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