SDUS33 KIND 221049 NVWIDS 0Mš™‘&Š ÎÿÿšÕÿþ®]O0P¨NMš˜,Mš™‘€ €€€€€€€€€€<ý Ä< ½ÿÿÿÿò 2ÿÿÿÿÿÿÿÿ44ÿßÿß ò5þ5'þ'56þ65EþE5TþT5cþc5qþq5€þ€5þ5žþž5­þ­5¼þ¼5ÊþÊ5ÙþÙ5èþè5÷þ÷5þ5þ5#þ#52þ25AþA5PþP5_þ_5nþn5|þ|5‹þ‹5šþš5©þ©5¸þ¸5ÇþÇ ZZÕZßÕߧÕ§ßÍÕÍßôÕôßÕß@Õ@ßgÕgßÕß³Õ³ßÚÕÚß  êTIMEALT KFT  Ìê1049 ¥ê1043 ê1037 Yê1031 2ê1025  ê1019 æê1013 ¿ê1007 ™ê1001 sê0955 Lê0949à 1´ 2¥ 3– 4‡ 5x 6j 7[ 8L 9=10.11121314ó15ä16Õ17Æ18¸19©20š22‹24|25m26_28P30A35240#4550 Ú¸Ó& Ú©è- Úšó* Ú‹ú$ Ú|ü# Ú_( ÚPú$ ÚAï+ Ú÷ú# Ú¼ù0 Úžù3 Ú/ Ú€ý< Úcî9 ÚTå7 ³¸Ó& ³©æ. ³šò+ ³‹ù% ³|ù" ³_ ³Að) ³2ý+ ³÷4 ³÷/ ³Êú9 ³­ò. ³žû5 ³* ³cì5 ³TÞ/ ¸Ó& ©ä0 šñ, ‹ù$ |ý$ _ Pù( Að* #3 ÷. è÷- ­) ží, 2 €ü2 qô4 cá2 Tî; g¸Ó& g©ã0 gšð- g‹ö& g|ù# g_ÿ gPû% gAñ( g#4 gþ7 g÷Þ, gèú5 gÙô2 gžæ) gð, g€7 gqý7 gcâ2 gTå3 @¸Ó' @©å/ @šñ. @‹õ& @|ø# @_þ @Põ3 @Aò+ @21 @#9 @ÿ8 @ô2 @÷ì. @Ê* @­7 @žå, @ð1 @€ç. @qõ/ @câ0 @Tã4 ¸Ô& ©ä/ šñ. ‹÷& |ø" _ô P÷& A1 23 #6 ö5 ë- Êô( ¼0 ­ÿ1 žë.  0 €õ/ qð, cå- TÝ. ô¸Ô& ô©á0 ôšð/ ô‹ð# ô|ö# ô_ ôP ) ôA2 ô24 ô#4 ôæ3 ôá1 ô÷þ3 ôè ) ôÙ* ôÊ+ ô¼, ô­ý0 ôžë. ôß+ ô€í- ôqí+ ôcÙ. ôTÜ3 ôEñ7 ͸Ò% Í©ã/ Íšï/ Í‹ñ# Í|÷$ Í_ ÍPõ& ÍA. Í23 Íè3 Íú1 Í÷ù- Íèý+ ÍÙú( ÍÊ, ͼ0 Í­( Ížê, Íé, Í€ä/ Íqâ1 Ícå1 ÍTä@ §¸Ò% §©å0 §šð0 §‹÷+ §|û# §nö$ §_ §Pþ( §2 2 §#2 §ù2 §ó2 §÷ê4 §èü) §Ùü+ §Ê- §¼, §­) §žè+ §ö2 §€ò0 §qï6 §cã2 §Tá6 ¸Ñ% ©ä1 šï1 ‹ø) |ú" nù$ _ü# Põ* A* 2õ/ #þ0 õ2 1 ÷÷/ Ùê3 ¼ô. ­ÿ) žò0 ÷< €õ6 qç2 cá1 Tä5 E= Z¸×* Z©ã1 Zšï0 Z‹÷* Z|ú% Znú% Z_ø( ZPö* ZAù* Z2ü, Z#÷. Z/ Zú/ Z÷÷. Zèþ ZÊí3 Z¼, Z­÷+ Zžð1 Zú8 Z€ô9 Zqò> Zcà0 ZTä5 ZEÿ<ÓÃNDÓjNDÓ.NDÓNDÓNDÓNDÓäNDÓÕNDÓÆNDÓ©NDÓmNDÓANDÓ2NDÓ#NDÓND¬ÃND¬jND¬LND¬ND¬ND¬äND¬ÕND¬¸ND¬|ND¬mND¬AND¬2ND¬#ND¬ND†ÃND†jND†.ND†ND†ND†ÕND†ÆND†¸ND†AND†2ND†#ND†ND`ÃND`jND`.ND`ND`ÆND`¸ND`©ND`AND`2ND`#ND`ND9ÃND9jND9äND9ÕND9¸ND9AND92ND9#ND9NDÃNDjNDóNDäNDÕNDAND2ND#NDNDíÃNDíjNDí2NDí#NDíNDÆÃNDÆjNDÆNDÆANDÆ2NDÆ#NDÆND ÃND =ND AND 2ND #ND NDzÃNDzäNDzÆNDz2NDz#NDzNDSÃNDSÕNDS2NDS#NDSNDÿÿd ÎÿÿšÕÿþ®]OdPNMš˜,Mš™‘€ €€€€€€€€€€<ý Ä<ÿÿP VAD Algorithm Output 05/22/24 10:49 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 010 11.0 23.6 NA 205 051 4.4 NA 5.67 0.3 P 015 7.2 14.4 -0.0 207 031 2.5 0.0004 16.20 0.3 P 020 10.1 16.7 NA 211 038 2.1 NA 10.16 1.0 P 027 17.2 15.6 -1.7 228 045 2.2 0.0446 16.20 1.0 P 030 18.4 14.2 NA 232 045 2.3 NA 18.06 1.0 P 040 19.4 9.8 NA 243 042 2.2 NA 11.53 2.5 P 050 17.3 6.3 NA 250 036 2.2 NA 15.05 2.5 P 060 17.3 5.8 NA 252 035 1.1 NA 9.42 5.1 P 080 20.2 4.0 NA 259 040 5.5 NA 5.60 12.1 P 090 17.6 6.6 NA 250 036 3.6 NA 6.38 12.1 P 015 7.8 14.3 -1.5 208 032 2.1 0.0023 16.20 0.3 P 100 18.8 11.3 NA 239 043 1.6 NA 10.99 7.8 P 150 17.0 6.3 NA 250 035 1.2 NA 25.34 5.1 P 190 23.0 8.9 NA 249 048 2.0 NA 32.21 5.1 ÿÿP VAD Algorithm Output 05/22/24 10:49 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 220 24.6 9.5 NA 249 051 1.2 NA 37.28 5.1 P 240 23.7 3.7 NA 261 047 1.5 NA 27.41 7.8 P 250 29.3 9.0 NA 253 060 2.6 NA 28.57 7.8 P 280 25.0 15.5 NA 238 057 1.3 NA 21.06 12.1 P 300 21.1 18.5 NA 229 055 1.4 NA 34.31 7.8 P 015 7.2 14.2 -1.5 207 031 2.4 -0.0134 16.20 0.3 P 027 17.2 15.2 -3.0 228 045 2.4 0.0392 16.20 1.0 P 015 7.5 14.6 -3.3 207 032 2.4 -0.0122 16.20 0.3 P 015 7.6 14.3 -3.3 208 032 2.1 -0.0052 16.20 0.3 P 015 7.6 14.2 -3.3 208 031 2.5 0.0052 16.20 0.3 ÿÿ2 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 ÿÿ2 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 ÿÿ