SDUS35 KRIW 100033 NVWRIW 0M&:XC0^MM %O `< 0 244 55--5??5PP5bb5tt5555555555%%5665HH5ZZ5kk5}}5555 ZZZ@@gg  TIMEALT KFT  0033 0028 0023 Y0018 20013  0008 0003 2357 2352 s2347 L2341 6 7 8 9y10g11V12D13214!15161718192022242526p28^30L35;40)4550   , 6 < } k# Z* H3 68 %* 1 6 - 6 C Q O% :   % = " }" k1 Z+ H- 64 %+ / + 3 ? = O <) E 2  2 . }$ k% Z) H7 66 %0 , 2! 5 C ? I B% B O  g}  g' g& g( g}, gk. gZ% gH& g65 g%4 g. g/ g< g> gF gK! gA& gC gC  gtI @6  @; @ @$ @}: @k+  @Z# @H0 @6) @%2 @3 @/ @> @C @G @P @D& @5 @Z ;    > ' } k+  Z% H$ 6& %1 - 1 ; B T X Q" h O tr `    $  # }" k$  Z& H, 6* %* - / ; R O S D%   b@ I    - :  }! k! Z( H, 6- %7 0 9 7 H ^ O @# @  W bB B  6 3  +  } k* Z$ H' 63 %) 5 + < G s S @' = M  B  -  )    } k Z( H) 6, %- 5  3 U W H E$ 6* ,  t& Z4 ZK Z  Z  Z} Zk# ZZ( ZH( Z63 Z%0 Z3 Z3 Z7 Z9 Zm ZT ZB& Z<! Z7 ZtE ZbNDpND^NDLND;ND)NDNDpND^NDLND;ND)NDNDNDpND^NDLND;ND)NDND`^ND`LND`;ND`)ND`ND9pND9^ND9LND9;ND9)ND9ND^NDLND;ND)NDNDpNDLND;ND)NDNDpNDLND;ND)NDNDpND^NDLND;ND)NDNDz^NDzLNDz;NDz)NDzNDSLNDS;NDS)NDSNDFd>:XCdMM %O `<P VAD Algorithm Output 05/10/24 00:33 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 060 -2.7 -3.6 NA 037 009 4.6 NA 5.67 0.5 P 060 -0.0 -4.6 NA 000 009 3.1 NA 6.36 0.5 P 062 -2.0 -4.3 NA 025 009 2.8 NA 5.67 0.9 P 067 -11.1 -5.6 15.0 063 024 3.4 -0.4478 16.20 0.5 P 070 -7.0 -7.1 NA 044 019 3.3 NA 20.18 0.5 P 074 -10.3 -5.8 23.4 061 023 3.7 -0.3939 16.20 0.9 P 080 -7.7 -5.7 NA 054 019 3.5 NA 15.84 1.3 P 081 -8.9 -5.8 30.0 057 021 3.6 -0.2934 16.20 1.3 P 089 -6.0 -4.4 32.5 054 014 3.6 -0.0676 16.20 1.8 P 090 -10.0 -5.8 NA 060 022 3.4 NA 16.59 1.8 P 100 -5.3 -4.3 31.1 051 013 3.3 0.0772 16.20 2.4 P 100 -5.4 -8.8 NA 031 020 3.7 NA 27.64 1.3 P 110 -4.9 -7.2 NA 035 017 3.8 NA 25.61 1.8 P 112 -5.2 -4.2 28.3 051 013 3.4 0.1088 16.20 3.1 P VAD Algorithm Output 05/10/24 00:33 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 -8.0 -8.8 NA 042 023 2.2 NA 38.39 1.3 P 128 -5.2 -4.4 25.6 050 013 2.6 0.0858 16.20 4.0 P 130 -5.5 -4.4 NA 051 014 2.1 NA 16.89 4.0 P 140 -7.0 -4.7 NA 056 016 2.2 NA 12.19 6.4 P 146 -5.9 -5.5 23.1 047 016 2.5 0.0727 16.20 5.1 P 150 -6.2 -7.0 NA 042 018 2.1 NA 16.95 5.1 P 160 -8.2 -7.0 NA 049 021 2.4 NA 15.06 6.4 P 168 -7.7 -8.3 29.6 043 022 2.7 -0.0710 16.20 6.4 P 170 -10.0 -7.2 NA 054 024 2.2 NA 20.48 5.1 P 180 -9.6 -9.6 NA 045 026 2.9 NA 17.91 6.4 P 190 -10.1 -7.3 NA 054 024 1.7 NA 19.33 6.4 P 194 -9.6 -5.6 44.2 060 022 3.1 -0.1512 16.20 8.0 P 200 -10.3 -4.4 NA 067 022 2.8 NA 16.75 8.0 P 220 -12.7 -2.0 NA 081 025 3.7 NA 15.35 10.0 P VAD Algorithm Output 05/10/24 00:33 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 229 -14.4 -7.0 81.7 064 031 5.1 -0.3135 16.20 10.0 P 240 -18.6 -3.7 NA 079 037 5.1 NA 21.33 8.0 P 260 -6.2 -3.9 NA 058 014 6.7 NA 19.05 10.0 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 6000 7000 8000 9000 10000 11000 2 12000 13000 14000 15000 16000 17000 2 18000 19000 20000 22000 24000 25000 2 26000 28000 30000 35000 40000 45000 2 50000 -666 -666 -666 -666 -666 2 2 OPTIMUM SLANT RANGE 16.2 2 2 2 2 2