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MDA GLOSSARY, VER. 4.0 U( f8 A& s; A! `; k
314
/ J) g# V: U V. V) fUSLANTCOM United States Atlantic Command (Now see USACOM).
: Z6 i' ~3 B3 c! |# u$ L5 _USLANTFLT U.S. Atlantic Fleet.
7 S' i0 Q1 c6 A+ t8 B# @- kUSMAR-
5 F8 v4 C# Q& J: K' P% I3 T, cFORCENT1 b2 Y) Z% x' ], s' z% _
U.S. Marine Component, U.S. Central Command.
- [% k: o! D2 t5 I, S: cUSMAR-FORLANT U.S. Marine Component, U.S. Atlantic Command.$ v4 M) {3 P/ b2 z
USMAR-FORPAC U.S. Marine Component, U.S. Pacific Command.
$ O8 M, s/ e) z$ ^USMC United States Marine Corps.9 v1 M8 z# e1 l1 i$ Q
USMCR United States Marine Corps Reserve., K( u9 ?" y$ O$ r6 l5 ?
USMILREP U.S. Military Representative.
% s* e& E* E+ z8 I6 m& {# kUSN United States Navy.. r2 }( q5 o- `1 N6 G. X5 y
USNAVCENT U.S. Naval Forces, U.S. Central Command./ Z: P0 F' @1 \' i/ V% s
USNAVEUR U.S. Naval Forces, U.S. European Command.
. Y2 \5 s9 y1 z+ Q9 D" CUSNIP U.S. Naval Institute Proceedings.
/ G; o4 d3 W. \3 Y* g8 S0 S6 q; qUSNO U.S. Naval Observatory.
2 I9 y$ b3 H/ C6 A+ nUSNPGS U.S. Naval Post-Graduate School.4 K0 j4 Y* P7 p
USPACAF U.S. Air Forces, U.S. Pacific Command.
) B5 J' m( _( v: IUSPACFLT US Pacific Fleet.; n1 P0 ~2 ]# R; d1 _0 _- y
USPACOM United States Pacific Command, Pearl Harbor, HI.
/ r2 V6 b, k& bUSREPMC U.S. Representative to the Military Committee (NATO).& o+ ~2 }3 q0 P2 v+ n* b9 M
USSC United States Space Command.2 h/ `, {( v8 {) O# t5 h
USSOCOM United States Special Operations Command, Tampa, FL.
/ g3 e# J/ y( E" yUSSOUTHCOM United States Southern Command, Panama Canal Zone, Panama. d, k f1 u" Y! w3 ^5 @8 f" [
USSPACECOM See United States Space Command.
! L0 F) e+ U1 `* h0 A7 Y) u) X2 mUSSS United States Secret Service.
# i+ H8 J5 O* u2 ~( ZUSSTRATCOM See United States Strategic Command.
: |3 K+ q& ]2 Y& wUSTA United States Telephone Association.
+ f" U I% E7 q) m! yUSTRANSCOM See United States Transportation Command.: E. Q- F" r2 l% b- G
UT Universal Time.
& z$ q& _5 Y1 g) `7 M# bUTC Unit Type Code.; {( E1 `# [$ a2 U1 Z5 }
MDA GLOSSARY, VER. 4.0 U- J1 t' D6 @/ D/ _
315" l- Y+ r7 \! }- H' b
UTM Universal Transverse Mercator.3 F% Z, t2 U6 H, ~ @
UTTMDS Upper Tier Theater Missile Defense System. See THAAD System.
) E5 Q- w3 V: h1 t$ k# yUUT Unit Under Test (ILS term).% P3 K0 @6 p# m5 y p) g: p s
UV Ultraviolet.
F& w, J& A( n2 `4 Q6 |; \UV Electro-' {6 P7 I5 p( i. _. c8 [
Optics
/ [" h+ ]0 i. { KTechnologies/techniques employed by optical sensors in the wavelength
/ O; e1 ?2 A$ s: {# rspectrum shorter than visible (e.g., less than 4,000 A).
`) @0 \1 k& H2 |9 CUVPI Ultraviolet Plume Instrument.
! ^: l7 J- I5 Q, o0 {" IUW Unconventional Warfare.
$ R- b0 z; ]* }* K! p! mMDA GLOSSARY, VER. 4.0 V
% n: j2 { ~& R6 K8 C& r' ~ s316' R z( ]$ ? Q1 J, P3 a% h: N
V Volt.
4 |8 S% A0 l9 D) s( ^' {; r+ j9 G, vV&H Vulnerability and Hardening.% z; o% {4 S; f, s, L' D5 m" H3 D
V&V Verification and Validation. (See Verification, Validation, and IV&V.)( @0 e# ]1 w7 k3 d/ ^5 Z
V/STOL Vertical Short Takeoff and Landing [aircraft].0 V8 U8 S1 A' \# C
VAFB Vandenberg Air Force Base, CA.9 m% x0 S A3 Y& C; f; Z* f
Validation Confirmation that the processes and outputs from a test resource parallel real
. l. A3 [ b$ M2 Dworld processes and are realistically sensitive to change in the environment,8 H; h& A! F8 P2 {: j# M+ i2 J4 A% h8 I
tactical situation, system design, tactics, and threat.
9 f8 N0 ]+ `4 ^$ TVAMOSC Visibility and Management of O&S Costs.. @9 C1 T: [# j% y5 w3 f! C
VAR Visitor Access Request.
/ y% A w& F1 Y& p/ D. [Variability The manner in which the probability of damage to a specific target decreases
4 \3 }3 L; I$ d7 Z3 [* G5 _) \3 q0 Lwith the distance from ground zero; or, in damage assessment, a mathematical
0 L0 L& L2 W2 _2 @2 f+ O9 l9 Ifactor introduced to average the effects of orientation, minor shielding, and
# A! c+ e; B9 L u# e1 Juncertainty of target response to the effects considered., J' K; H& y! X1 j
VBO Vertical Burn-Out (velocity).
( d e a* q& w2 T% i- W0 K0 @: x) pVCC Voice Communications Circuit.8 u0 y3 Y& J2 z' d- y( K
VCRM Verification Cross Reference Matrix.
& ^9 F! H. p7 U' p8 XVCS Voice Communications System.( Y6 X( G: F+ n% G; M
VDC Volts Direct Current.! w( \+ J5 B9 A
VDD Version Description Document.
( L- j9 q+ t% k; YVDU Visual Display Unit.+ c* T) o1 P% \& c% w
VE Value Engineering.
! s& ~1 v8 v0 gVECP Value Engineering Change Proposal.
9 u" \; ^) C4 z6 z# | F0 ~* {Verification (1) Confirmation that all data inputs, logic, calculations and engineering; k0 Y. g8 b; U% S* k9 K: X8 z" g
representations of a T&E resource accurately portray the characteristics,
' Q9 T. l" _+ d# X+ Hcalculations, logic, and interactions of the system under evaluation.
5 D, @! k/ l* A. q' Y7 u+ L) V(2) The process of evaluating a system or component during or at the end* E$ j- O+ ?8 Q# A
of the development process to determine whether it satisfies specified0 {8 c+ @' e6 H& e
requirements.
- O: O6 k9 `) A" y3 U6 S1 nVESA Video Electronics Standards Association.
! M0 t+ H. t: M- g: C/ NVFR Visual Flight Rules.
2 M& r* M8 _( R/ {* Q1 r, NVGA Video Graphics Array (Telecomm/Computer term).
; E1 x {6 [* y( t& e' t5 dVHF Very High Frequency.
! Z4 m9 U4 y4 `5 CVHSIC Very High Speed Integrated Circuit.5 S* z* l0 V! `% @" L* s0 ^! i6 ^* T
MDA GLOSSARY, VER. 4.0 V0 f* `$ _. P: B) l1 J+ X
317: P. `3 j3 Y9 \* V/ g% C
VIDS Vehicle Integrated Defense Software (USA term).
" l g( Y1 [# S0 ~& s* qVIGILANTE Viewing Image/Gimbaled Instrumentation Lab-Analog Neural Three-D/ b+ {, w8 C0 T
Experiment. VIGILANTE involves building a small computer (ANTE) offering 1/12( f! ~# {) C4 O# Q
Operation Per Second (OPS), using a mixture of experimental three-dimensional
. l* N. ?7 w/ I8 d, Zcircuitry and commercial components. Project also demonstrates VIRGIL, a
! o6 J c' f7 R' N. Ygimbaled airborne sensor with visible, experimental UV and quantum-well IR g1 z& q% h' H# ~
cameras capable of tracking targets that can be detected, identified, and9 ?0 M7 Q9 Y0 M f5 v, L
precision-tracked with the ANTE processor.* T& D# X, U) g/ P8 @& D
VIM Vibration Isolation Module.8 ?# P3 L6 r4 O
VINSON Encrypted Ultra High Frequency Communications System.( L0 t7 ?7 I9 J5 g0 N3 x& [
VIS Visible.# o; N9 Q: X5 |6 ~. j; r" D
VIS/UV Visible/Ultraviolet.
& b% a2 L2 n$ _Visibility Range# A$ F# |0 b% p2 L; N$ D, J7 k
(or Visibility)
6 q$ J( W' S. \! w' x5 G5 C. {; z) kThe horizontal distance (in kilometers or miles) at which a large dark object can
1 w) G( _0 g3 c7 J! B9 Ejust be seen against the horizon’s sky in daylight. The visibility is related to the
- ^; h4 B" l& C5 s3 Cclarity of the atmosphere ranging from 170 miles (280 kilometers) for an: c6 Y$ U" D) S4 A) [
exceptionally clear atmosphere to 0.6 mile (1.0 kilometer) or less for dense haze! ^: l: a0 V# z. U. Z7 h
or fog. The visibility on an average clear day is taken to be 12 miles (194 H7 s: O9 k" C. f
kilometers). C z* Z0 ]# @$ A) ]8 d4 X- J a
Visible Electro-
2 J E. q* X4 U3 D. k' MOptics* \1 c3 R% h+ N) W- }
Technologies/techniques employed by optical sensors in the visible portion of
+ m% ^1 d1 M: F+ N, s4 R+ x2 uthe wavelength spectrum.
. a* E! O$ P2 B& z/ D0 uVLAR Vertical Launch and Recovery (UAV JPO term).
* f; m0 ?7 r' ?) v$ J, @' o& pVLF Very Low Frequency.
7 c7 t& |# G2 Z) RVLOS Vertical Line of Sight. |
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