SDUS38 PAFC 312016 NVWODN 0LrN)f0.;LrLrN @6 <  244 55''5665EE5TT5cc5qq555555555555##5225AA5PP5__5nn5||55555 ZZZ@@gg  TIMEALT KFT  2016 2010 2004 Y1958 21952  1946 1941 1935 1929 s1924 L1919 1 2 3 4 5x 6j 7[ 8L 9=10.111213141516171819202224|25m26_28P30A35240#4550 @ 2. 93 ?6 C8 |E7 nB8 _6@ P<; AB; 228 #-7 1( 2( ,1 @( 8) 2+ 23 :, 6- 9, c0" ;  1, :4 =6 C6 |E7 n@; _C: P?> AB= 28: #14 6; 24 2. 51 5) 79 35 &+ =. B" qU c24 2 2% 93 >6 @7 |B6 nA= _C; P@A AG@ #5< 7; 07 4: 2: 6> )1 37 F0 C0 'B8 gC g1+ g;2 g=7 gA7 g|A; gnA8 g_@6 gP4H g25E g#6? gG= g72 g13 g4; g3A g4B gJ  g<6 g8/ gG7 gT gqB. gEG# @6 @2( @:6 @=5 @@5 @|B: @n@5 @_A4 @P5I @A3L @24E @#7? @1I @A9 @6: @4B @?8 @4? @Y! @H8 @@/ @c @EF3 <  2( 95 <4 >5 |A8 n?> _@C P>@ A3L 24H 97 78 21 /A 78 <9   K<   qE6 TB% E92 D  0% 91 <1 ?6 |@5 n>7 _9@ P3M A<N 22M #=L CC 6A 2F =2 :3 HA B@ OB Ee C 2- :0 @3 @3 |A4 nC1 _;@ PDN A7> 24S  28 ;8 08  CD 7= = 2$ :1 ?0 ?. |D/ nE2 _F& A7K :6 3; 75 @B 6 5) :. >- ?2 |A3 nB- _N ;; 6G +: <@   2O Z- Z4% Z;. Z?2 ZC2 Z|E2 ZnE3 Z_F2 ZP3= ZA:< Z#/= Z:> Z:8 Z=A Z8= Z9> ZBONDmNDPNDAND2ND#NDND|NDPNDAND2ND#NDND.NDND|NDmND_NDPNDAND2NDND`=ND`_ND`PND`2ND`#ND`ND9ND9ND9mND9PND92ND9#ND9NDNDNDND_ND2ND#NDNDNDNDNDmND_NDPND2ND#NDNDNDNDNDNDNDmND_NDPNDAND2ND#NDNDLND.NDNDNDNDNDNDNDND|NDmND_NDPNDAND2ND#NDNDzLNDz=NDz.NDzNDzNDzNDzNDzNDz|NDzmNDz_NDzPNDzANDz2NDz#NDzNDS.NDSNDSNDSNDSNDS|NDSmNDS_NDSPNDSANDS2NDS#NDSNDFd>fd;LrLrN @6 <P VAD Algorithm Output 07/31/23 20:16 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 007 -3.4 -2.9 NA 050 009 4.4 NA 5.67 0.5 P 009 -5.0 -3.6 NA 055 012 6.5 NA 5.67 0.9 P 010 -6.9 -3.4 NA 064 015 7.7 NA 9.77 0.5 P 014 -9.0 -8.8 -3.4 046 024 8.2 0.1195 16.20 0.5 P 020 -18.1 -15.1 NA 050 046 5.1 NA 10.89 1.3 P 021 -16.5 -13.9 -7.5 050 042 7.5 0.1828 16.20 0.9 P 028 -21.4 -13.8 -9.7 057 049 4.0 0.0925 16.20 1.3 P 030 -22.1 -14.2 NA 057 051 5.5 NA 12.92 1.8 P 038 -23.7 -12.2 -12.3 063 052 3.3 0.0802 16.20 1.8 P 040 -24.6 -12.7 NA 063 054 2.3 NA 23.18 1.3 P 048 -24.1 -10.7 -15.3 066 051 2.8 0.0813 16.20 2.4 P 050 -26.6 -11.5 NA 067 056 9.0 NA 17.18 2.4 P 060 -26.2 -10.3 NA 069 055 2.7 NA 12.90 4.0 P 060 -25.1 -10.1 -19.3 068 052 2.4 0.0912 16.20 3.1 P VAD Algorithm Output 07/31/23 20:16 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 070 -26.5 -11.5 NA 066 056 2.9 NA 24.21 2.4 P 080 -26.8 -19.2 NA 054 064 1.5 NA 27.63 2.4 P 090 -26.5 -15.2 NA 060 059 1.7 NA 31.00 2.4 P 100 -27.8 -12.2 NA 066 059 1.9 NA 34.31 2.4 P 110 -22.2 -18.4 NA 050 056 1.6 NA 30.20 3.1 P 120 -20.1 -20.2 NA 045 055 2.0 NA 32.87 3.1 P 130 -15.5 -13.6 NA 049 040 1.1 NA 43.94 2.4 P 140 -15.9 -13.4 NA 050 040 1.9 NA 47.05 2.4 P 150 -17.4 -18.3 NA 044 049 2.2 NA 32.59 4.0 P 160 -18.4 -9.1 NA 064 040 1.8 NA 34.70 4.0 P 170 -17.7 -11.8 NA 056 041 2.0 NA 36.80 4.0 P 190 -17.1 -14.3 NA 050 043 1.7 NA 40.97 4.0 P 200 -20.2 -17.2 NA 050 051 1.4 NA 22.72 8.0 P 220 -19.3 -12.0 NA 058 044 1.6 NA 24.99 8.0 P VAD Algorithm Output 07/31/23 20:16 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 240 -18.8 -13.7 NA 054 045 1.7 NA 27.25 8.0 P 250 -18.9 -12.1 NA 057 044 2.5 NA 43.02 5.1 P 280 -13.0 -11.7 NA 048 034 1.7 NA 39.09 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 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