SDUS33 KEAX 261011 NVWEAX 0M_+D0)MFM^ ;<  244 55((5885GG5VV5ff5uu555555555555--5<<5LL5[[5jj5zz55555 ZZZ@@gg  TIMEALT KFT  1011 1006 1001 Y0957 20952  0947 0943 0938 0933 s0928 L0924 2 3 4 5 6v 7f 8W 9H10811)1213 14151617181920222425q26b28R30C35440$4550  . 9 ; 6 z3 j0 [- L) <* -$ + . + - 4 1 1 5 3 1 , u/ f+ V, G. 8-  . 9 ; 8 z4 j0 [. L, <+ -) $ ) < : 2 3 0 3 2 3 / u. f/ V0 G- 8  - ; = ; z4 j1 [. L* <( -* ( / 4 0 9 1 4 : 3 2 , u" f/ V. G/ 8$ g g/ g; g> g8 gz4 gj2 g[/ gL, g<+ g-* g' g( g- g. g1 g, g1 g. g1 g@ g% gu& gf gV0 gG. g8( @ @0 @: @= @: @z4 @j1 @[/ @L. @<- @-, @) @+ @* @0 @. @6 @+ @- @. @; @8 @u  @f  @V. @G5 @8#  . = = 9 z4 j4 [. L/ <. -) ) ( 0 . 2 3 - 5 0 4 , u f V+ G4  / < = ; z8 j4 [0 L. <, -) * - + 7 2 1 5 7 9 * + u f V( G. 85  . > @ < z7 j3 [0 L, <+ -) * * / . 4 5 = @ 9 , & u f V( G(  - = A = z6 j5 [1 L. <- -) ) ) + . 4 5 0 = 7 + ) u! f V G"  . > @ = z: j5 [1 L. <, -+ ) + - 0 5 ; = 9 4 ( ( u" f V G% Z Z- Z; Z@ Z< Zz8 Zj5 Z[1 ZL/ Z<. Z-+ Z, Z+ Z- Z/ Z6 Z8 Z; Z6 Z, Z* Z' Zu# Zf ZV ZG($NDND$NDND$NDND`$ND`ND9$ND9ND4ND$NDND$NDND4ND$NDND4ND$NDNDz4NDz$NDzNDS4NDS$NDSND2d*DdMFM^ ;<P VAD Algorithm Output 04/26/24 10:11 P ALT U V W DIR SPD RMS DIV SRNG ELEV P 100ft m/s m/s cm/s deg kts kts E-3/s nm deg P 014 -4.3 11.7 NA 160 024 9.7 NA 5.67 0.5 P 020 -4.5 15.1 NA 163 031 7.5 NA 6.37 1.3 P 027 -3.4 19.6 13.6 170 039 9.4 -0.2743 16.20 0.9 P 030 -0.0 23.4 NA 180 046 3.9 NA 7.34 2.4 P 035 6.2 26.7 20.5 193 053 7.9 -0.2876 16.20 1.3 P 040 10.5 27.2 NA 201 057 4.6 NA 14.44 1.8 P 044 12.9 27.4 22.8 205 059 5.3 -0.0619 16.20 1.8 P 050 16.4 25.3 NA 213 059 2.5 NA 14.74 2.4 P 055 17.2 24.7 22.4 215 058 3.4 0.0322 16.20 2.4 P 060 17.2 21.7 NA 218 054 2.6 NA 11.36 4.0 P 067 18.1 21.1 21.4 221 054 4.2 0.0507 16.20 3.1 P 070 17.4 19.6 NA 222 051 2.5 NA 13.62 4.0 P 080 17.2 17.5 NA 225 048 3.3 NA 15.86 4.0 P 082 16.8 16.9 19.4 225 046 4.0 0.0651 16.20 4.0 P VAD Algorithm Output 04/26/24 10:11 P ALT U V W DIR SPD RMS DIV SRNG ELEV P 100ft m/s m/s cm/s deg kts kts E-3/s nm deg P 090 17.3 15.3 NA 228 045 3.9 NA 14.36 5.1 P 100 16.3 13.4 NA 231 041 4.0 NA 16.14 5.1 P 101 16.1 13.2 12.5 231 040 4.1 0.1408 16.20 5.1 P 110 17.9 12.2 NA 236 042 5.2 NA 44.38 1.8 P 120 14.2 11.8 NA 230 036 4.4 NA 10.27 10.0 P 124 18.5 20.0 37.1 223 053 3.7 -0.3468 16.20 6.4 P 130 17.5 13.2 NA 233 043 4.3 NA 13.91 8.0 P 140 17.9 15.3 NA 229 046 3.5 NA 15.07 8.0 P 150 18.7 12.0 NA 237 043 4.2 NA 38.96 3.1 P 150 20.1 12.7 26.8 238 046 2.1 0.1675 16.20 8.0 P 160 17.8 14.6 NA 231 045 2.6 NA 26.64 5.1 P 170 22.7 14.4 NA 238 052 4.3 NA 44.09 3.1 P 180 18.0 17.7 NA 226 049 4.5 NA 19.66 8.0 P 190 18.9 16.4 NA 229 049 1.9 NA 31.79 5.1 P VAD Algorithm Output 04/26/24 10:11 P ALT U V W DIR SPD RMS DIV SRNG ELEV P 100ft m/s m/s cm/s deg kts kts E-3/s nm deg P 200 22.4 15.8 NA 235 053 3.4 NA 41.63 4.0 P 220 19.8 17.3 NA 229 051 3.9 NA 36.87 5.1 P 240 18.2 17.7 NA 226 049 4.2 NA 40.23 5.1 P 250 14.8 17.0 NA 221 044 3.5 NA 27.61 8.0 P 260 16.0 17.9 NA 222 047 2.4 NA 23.23 10.0 P 280 13.8 16.9 NA 219 043 6.0 NA 38.16 6.4 P 300 15.1 16.9 NA 222 044 5.9 NA 40.88 6.4 P 350 16.9 16.2 NA 226 046 4.1 NA 58.20 5.1 P 400 7.9 21.6 NA 200 045 3.9 NA 54.27 6.4 2 ADAPTABLE PARAMETERS - WIND PROFILE 2 2 2 VAD ANALYSIS SLANT RANGE 16.2 NMI 2 2 BEGINNING AZIMUTH ANGLE 0.0 DEGREE 2 2 ENDING AZIMUTH ANGLE 0.0 DEGREE 2 2 NUMBER OF PASSES 2 2 2 RMS THRESHOLD 9.7 KNOTS 2 2 SYMMETRY THRESHOLD 13.6 KNOTS 2 2 DATA POINTS THRESHOLD 25 2 2 2 2 2 2 ALTITUDES SELECTED 2 2000 3000 4000 5000 6000 7000 2 8000 9000 10000 11000 12000 13000 2 14000 15000 16000 17000 18000 19000 2 20000 22000 24000 25000 26000 28000 2 30000 35000 40000 45000 50000 -666 2 2 OPTIMUM SLANT RANGE 16.2 2 2 2 2 2