SDUS32 TJSJ 102047 NVWSJU 0M%( H*|0P3PM$WM% (E <  244 55''5665EE5TT5cc5qq555555555555##5225AA5PP5__5nn5||55555 ZZZ@@gg  TIMEALT KFT  2047 2041 2035 Y2029 22023  2017 2011 2005 1959 s1953 L1947 1 2 3 4 5x 6j 7[ 8L 9=10.111213141516171819202224|25m26_28P30A35240#4550 R      | _  P  2 #       A A 7! qJ c?# TE(     |  _     | n _ P 2Q #  B  qM$ cL$ T3. E4, g g  g g g| gn  g_ g#I gW gJ g* g5% gM gqG% gc:# gT.. gE>- @ @  @ @ @| @n  @_ @P @ @ @M  @) @J @2 @> @ @T @qV& @cG( @T@/ @E8,     | n  _ P  A ,    % N L% A# q3 T>2 E-2     | n  _  P  A  2  #  * B  7 I : _ V% S q:  cF. T/  ED/       | n  _  P  A 2 # . 5 R  1 K J G  c?0 T:- E/8 6?:        | n  _  A 2 #   H    X & Z! cA0 T14 E=2 68:       |  n  _  P A 2 #   ' : $   O 4 C b qK c?" TD4 E@H 639 Z  Z  Z Z Z|  Zn  Z_  ZP  ZA Z2 Z#$ Z Z Z4 Z; ZJ ZM ZJ ZU Z>" Z_ Zq/ ZcV! ZT7" Z67ANDjND=NDNDNDNDNDNDAND2ND#NDNDNDNDjNDLND=ND.NDNDNDNDNDNDNDNDNDNDNDND|NDmND_NDPNDAND2ND#NDNDND=NDNDNDNDNDNDNDNDND2ND#NDND`ND`LND`=ND`.ND`ND`ND`ND`ND`ND`ND`2ND`#ND`ND9ND9=ND9.ND9ND9ND9ND92ND9#ND9NDND.NDNDNDNDNDND_ND2ND#NDNDNDNDND2ND#NDNDNDNDNDNDNDmND#NDNDNDLNDNDNDNDNDmND#NDNDzNDzNDz#NDzNDSNDSNDSANDS#NDSNDd H*|dPPM$WM% (E <P VAD Algorithm Output 05/10/24 20:47 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 003 -6.2 -1.6 NA 076 012 2.4 NA 5.67 0.3 P 008 -1.8 0.3 0.6 099 004 2.0 -0.0301 16.20 0.3 P 020 -4.8 -0.7 NA 082 010 9.4 NA 15.69 1.0 P 020 -0.4 6.5 -0.9 176 013 8.2 0.0405 16.20 1.0 P 030 -0.6 6.7 NA 175 013 1.5 NA 6.32 4.2 P 037 -2.0 7.1 0.8 165 014 1.3 -0.0321 16.20 2.0 P 040 2.0 8.8 NA 193 018 1.3 NA 17.11 2.0 P 050 0.8 8.4 NA 185 016 1.4 NA 21.28 2.0 P 060 3.0 9.2 NA 198 019 1.6 NA 12.86 4.2 P 008 -1.9 0.4 -3.2 102 004 2.3 -0.0433 16.20 0.3 P 080 -1.7 6.6 NA 165 013 1.7 NA 17.14 4.2 P 090 0.7 5.7 NA 187 011 1.8 NA 19.26 4.2 P 110 -1.1 3.0 NA 160 006 0.6 NA 15.74 6.4 P 113 -1.0 2.6 -47.7 159 006 0.7 0.1394 16.20 6.4 P VAD Algorithm Output 05/10/24 20:47 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 120 -1.1 5.0 NA 168 010 0.9 NA 17.17 6.4 P 150 4.4 7.9 NA 209 018 3.1 NA 21.42 6.4 P 170 11.7 0.7 NA 267 023 4.9 NA 24.24 6.4 P 190 14.8 0.3 NA 269 029 3.8 NA 20.40 8.6 P 200 5.8 -7.1 NA 321 018 4.9 NA 21.47 8.6 P 008 -1.4 -0.3 -40.7 078 003 2.3 -0.0240 16.20 0.3 P 240 9.8 -12.3 NA 321 031 3.6 NA 25.71 8.6 P 250 12.7 -11.0 NA 311 033 3.8 NA 19.93 11.7 P 260 8.0 -14.0 NA 330 031 1.6 NA 11.88 20.9 P 280 11.7 -13.7 NA 319 035 3.4 NA 12.79 20.9 P 300 11.9 -16.8 NA 325 040 4.1 NA 18.12 15.6 P 008 -1.9 -0.1 -40.7 087 004 1.8 -0.0231 16.20 0.3 P 037 5.0 7.6 -79.7 213 018 1.4 0.3947 16.20 2.0 P 008 -0.8 -1.7 -74.3 026 004 2.9 -0.0159 16.20 0.3 P VAD Algorithm Output 05/10/24 20:47 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 008 -1.2 -0.3 -74.3 076 003 1.3 -0.0531 16.20 0.3 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 1000 2000 3000 4000 5000 6000 2 7000 8000 9000 10000 11000 12000 2 13000 14000 15000 16000 17000 18000 2 19000 20000 22000 24000 25000 26000 2 28000 30000 35000 40000 45000 50000 2 2 OPTIMUM SLANT RANGE 16.2 2 2 2 2 2