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MDA GLOSSARY, VER. 4.0 U6 s+ U W7 A& e. j, \4 F+ l( y
314
4 e# q# d1 `. u( U, ]USLANTCOM United States Atlantic Command (Now see USACOM).# J3 n2 j( c5 `" B6 ]* N. p
USLANTFLT U.S. Atlantic Fleet.; K( r. S& T! `8 v7 y9 i n8 D7 c
USMAR-: w9 |$ O/ Z* M2 Q
FORCENT, j; b- I4 l* W, x- v. ^1 s
U.S. Marine Component, U.S. Central Command.+ V% Y6 c1 C. ?) B# {+ B# X9 F' P5 O
USMAR-FORLANT U.S. Marine Component, U.S. Atlantic Command.
; B) s2 v9 X9 G7 `; I1 B( A% q NUSMAR-FORPAC U.S. Marine Component, U.S. Pacific Command.
0 v7 r2 O, S3 K' l; {3 @4 rUSMC United States Marine Corps.' C0 S! c& i9 P6 ^
USMCR United States Marine Corps Reserve.
8 \% Y5 D h, Y4 ]2 q8 oUSMILREP U.S. Military Representative.
# x$ D5 n/ s+ W$ ], y, eUSN United States Navy.' S" [# ~/ A o$ E( V
USNAVCENT U.S. Naval Forces, U.S. Central Command.
9 t6 D8 ?! N$ V7 Y/ fUSNAVEUR U.S. Naval Forces, U.S. European Command.
) a! p/ G/ G; A' F+ [. S+ jUSNIP U.S. Naval Institute Proceedings.0 X8 c k# M2 v+ j) A" Z( P' a
USNO U.S. Naval Observatory. j2 ?6 i$ y Q+ B- B) v
USNPGS U.S. Naval Post-Graduate School.- o2 F+ N5 t: @* \
USPACAF U.S. Air Forces, U.S. Pacific Command.
$ L; Q3 V# L3 V& sUSPACFLT US Pacific Fleet.
! d/ j+ H0 J% q9 ?USPACOM United States Pacific Command, Pearl Harbor, HI." N$ u3 j2 \4 u# v, N# k
USREPMC U.S. Representative to the Military Committee (NATO).
1 T" Z5 }9 L I: J0 [6 pUSSC United States Space Command.
" d( _ T) [9 V3 a) z3 I* N5 Q& }USSOCOM United States Special Operations Command, Tampa, FL.! Z% n1 j8 B0 c) P; w; b
USSOUTHCOM United States Southern Command, Panama Canal Zone, Panama.9 M5 A5 l ^6 D9 A& G# |
USSPACECOM See United States Space Command.
0 t! N6 i- S S h2 _ p9 aUSSS United States Secret Service.
; Z5 h, D ]. x1 |6 b3 ~1 J" q, [& xUSSTRATCOM See United States Strategic Command.
# \- Q) n2 f$ d8 `USTA United States Telephone Association.
' @. l# A* h' ?9 D! e- pUSTRANSCOM See United States Transportation Command.; l! W, @: }0 l
UT Universal Time.
) Z6 {0 n0 t3 W/ m( mUTC Unit Type Code.
1 p0 ]$ Y0 o! V/ HMDA GLOSSARY, VER. 4.0 U3 y2 r4 R% t; l
315# T# F0 ^* [' m. m7 Q, T# V9 o' h
UTM Universal Transverse Mercator.
7 L& i6 W" q4 [$ B% PUTTMDS Upper Tier Theater Missile Defense System. See THAAD System.
: I' c. p( ~' d1 h# l. qUUT Unit Under Test (ILS term).
( \5 V q' P5 }2 W6 F; f. y8 {+ N5 zUV Ultraviolet.5 ]# u+ c% I, C; v
UV Electro-9 e$ C( y& W* } i
Optics9 S* V& }3 ^% _2 v) B& [% D
Technologies/techniques employed by optical sensors in the wavelength7 P7 x, b& n2 q% u
spectrum shorter than visible (e.g., less than 4,000 A).
- _& i. a% g' Y% Y5 V: |: t% yUVPI Ultraviolet Plume Instrument.
' _$ ^/ G9 O( ?0 I, t4 Y- Y1 r dUW Unconventional Warfare.4 |0 U; m# w) b( [ F
MDA GLOSSARY, VER. 4.0 V
% p# _6 O$ ]; i2 b5 E316
& }( b% q" K1 E9 `! f4 H+ U0 w5 BV Volt.
* Q9 b% B( y/ ` a. q$ uV&H Vulnerability and Hardening.
9 J! \7 u/ ~. r7 D e' LV&V Verification and Validation. (See Verification, Validation, and IV&V.) t5 p' o" ]8 q5 O/ w
V/STOL Vertical Short Takeoff and Landing [aircraft].
- n# o6 l- y: G0 g$ rVAFB Vandenberg Air Force Base, CA.4 x7 h6 { {9 q3 X& O; M* K# A' ^
Validation Confirmation that the processes and outputs from a test resource parallel real ~2 N c8 Z8 G( r, D8 _5 v5 I
world processes and are realistically sensitive to change in the environment,
2 e; K& G, ]6 ^1 O( F: h4 u* Ytactical situation, system design, tactics, and threat." o0 D4 Z+ D/ a1 B- D2 {% K5 ]/ S
VAMOSC Visibility and Management of O&S Costs.9 p( W6 g: b, _5 o* M. {0 f: N$ I
VAR Visitor Access Request.$ S4 S( _) j$ d! c8 Q& R
Variability The manner in which the probability of damage to a specific target decreases
0 L$ k, L; M! k* F9 mwith the distance from ground zero; or, in damage assessment, a mathematical
: G2 p1 [/ w7 k4 `factor introduced to average the effects of orientation, minor shielding, and K" n1 U# }- F0 e- ^( I( o
uncertainty of target response to the effects considered.
% G A' E" \; m8 K+ D4 qVBO Vertical Burn-Out (velocity).9 _4 g4 ~3 X, Q4 L$ L8 W
VCC Voice Communications Circuit.: I8 \2 d$ u: I
VCRM Verification Cross Reference Matrix.
) [. ?7 \5 b9 {1 A5 X: ^ f: G8 PVCS Voice Communications System.4 ~. H, j; Q9 V! L7 `5 a
VDC Volts Direct Current.
6 N8 K' A( \& U5 U2 LVDD Version Description Document.
* L. O' D$ [' r [8 e$ mVDU Visual Display Unit.
* Z- E) f B0 u4 |$ W, t5 fVE Value Engineering.9 q9 `7 V0 u+ t: t0 {
VECP Value Engineering Change Proposal.
+ s& z# v/ @3 F. v' v zVerification (1) Confirmation that all data inputs, logic, calculations and engineering
4 D8 I% o3 r$ n& P2 P4 B0 Xrepresentations of a T&E resource accurately portray the characteristics,
; G+ d- o( _, K, Y: U( M. mcalculations, logic, and interactions of the system under evaluation.; m6 }0 e* _* B: o! p! L+ s1 }! ]
(2) The process of evaluating a system or component during or at the end
% _! i7 w' J* E1 Kof the development process to determine whether it satisfies specified* B4 h& R: u, u8 ~( x
requirements.. A8 _; G& F% m% b/ ]2 m
VESA Video Electronics Standards Association.
8 b' p$ n* \( J, U5 p0 f( nVFR Visual Flight Rules.2 @7 Z7 B$ L/ H% s5 P# p
VGA Video Graphics Array (Telecomm/Computer term).. X* q' w' ?9 @% L
VHF Very High Frequency.
D: E5 ~- Z( oVHSIC Very High Speed Integrated Circuit.
1 I0 W' H$ P+ Q: y+ h4 I) DMDA GLOSSARY, VER. 4.0 V
: U& ?; _" F5 ?0 d5 V6 w317
- Z' v5 }+ q0 X. z! W f$ ^VIDS Vehicle Integrated Defense Software (USA term).5 X+ n( @& m5 Q3 z* L
VIGILANTE Viewing Image/Gimbaled Instrumentation Lab-Analog Neural Three-D
/ b/ H& z0 Q- E3 o3 O' ~1 KExperiment. VIGILANTE involves building a small computer (ANTE) offering 1/12
. h) A3 @. v8 g) N4 Q% E4 gOperation Per Second (OPS), using a mixture of experimental three-dimensional3 r. p2 [1 ]% H* [4 P% C
circuitry and commercial components. Project also demonstrates VIRGIL, a
. M4 L, j1 B2 l# ]% s' B/ Jgimbaled airborne sensor with visible, experimental UV and quantum-well IR
+ F% D/ d! T/ D2 ?cameras capable of tracking targets that can be detected, identified, and
( F1 V- g, ^8 e. Tprecision-tracked with the ANTE processor.) w. D" Q% k2 q* [' Q ]: ?" ~
VIM Vibration Isolation Module.
: V0 i$ d; f# q. X! ZVINSON Encrypted Ultra High Frequency Communications System.
2 ]* i; e6 t+ H/ \# S, v$ F T$ e( T* y% eVIS Visible.9 P' a1 o h6 ?" j
VIS/UV Visible/Ultraviolet.
% {% Z, e& \- B- WVisibility Range
C+ y$ d! w+ f(or Visibility)
. M6 _- P1 V; C/ ]) [. D" t1 dThe horizontal distance (in kilometers or miles) at which a large dark object can
5 d+ ] J( h) C% C6 Q$ p. Hjust be seen against the horizon’s sky in daylight. The visibility is related to the
8 J1 w! \6 A7 y& N8 \clarity of the atmosphere ranging from 170 miles (280 kilometers) for an
( ~: b# h- g/ o& W# @6 e. \& Uexceptionally clear atmosphere to 0.6 mile (1.0 kilometer) or less for dense haze
+ H3 Y, w" l& U: _" P% W( H) Xor fog. The visibility on an average clear day is taken to be 12 miles (192 V+ ^6 D% Y. E( Y" W9 g+ J& f
kilometers).& q2 H6 f* _4 q" j
Visible Electro-
1 x" L$ }* W; k1 b+ eOptics/ F1 c0 A8 S0 V9 i8 U1 S
Technologies/techniques employed by optical sensors in the visible portion of
9 o+ U% [9 f: z0 {the wavelength spectrum.! l, U$ s5 i# L; ~
VLAR Vertical Launch and Recovery (UAV JPO term).
# [) [2 I7 G9 m: `+ v1 F. kVLF Very Low Frequency.2 i/ G" ?0 G1 ?' T4 X" ?
VLOS Vertical Line of Sight. |
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