SDUS33 KILX 230246 NVWILX 0M}(¥&l%ÿÿœÖÿþ£Ú0#>M}'M}(¥€ €€€€€€€€€€4< …ÿÿ’ÿÿ‚ 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  Ìê0246 ¥ê0239 ê0232 Yê0225 2ê0218  ê0211 æê0204 ¿ê0157 ™ê0149 sê0142 Lê0135à 1´ 2¥ 3– 4‡ 5x 6j 7[ 8L 9=10.11121314ó15ä16Õ17Æ18¸19©20š22‹24|25m26_28P30A35240#4550 ÚǪ Ú¸³/ Ú©¼/ ÚšÍ* Ú‹Þ) Ú|ä, ÚnÜ. Ú21 Ú# , Ú4 Ú0 Ú÷/ Úè0 ÚÙ/ ÚÊ1 Ú¼0 Ú­- ³Ǫ ³¸³/ ³©». ³šË) ³‹Ú) ³|à- ³nÜ. ³2 / ³#û ³. ³ , ³÷1 ³è/ ³Ù0 ³Ê- ³¼- ³­- Ǭ ¸². ©¼. šÏ( ‹Ù) |ã+ nÙ. 0 / ÷1 è1 Ù. Ê- ¼ 2 ­+ gÇ­ g¸³, g©¼, gšË) g‹Þ' g|á, gnß+ g2, g#1 g1 g1 g÷3 gè3 gÙ. gÊ1 g¼/ g­2 gž4 @Ç­ @¸², @©º, @šÎ( @‹Ù) @|Þ+ @nÞ- @#. @, @2 @÷6 @è4 @Ù1 @Ê3 @¼4 @­2 Ç® ¸²+ ©º+ šÊ( ‹Ø) |á+ nÙ* 4 2 ÷4 è . Ù2 Ê, ¼, ­, ôǯ ô¸³* ô©º+ ôšÐ' ô‹×( ô|Þ, ônÓ' ô2ç ô7 ô2 ô÷0 ôè , ôÙ, ôÊ+ ô¼+ Íǯ ͸³) Í©») ÍšÏ& Í‹Ö( Í|Þ, ÍnÎ- Í2  Í#1 Í5 Í3 Í÷% Íè' ÍÙ& ÍÊ+ ͼ+ Í­ + §Ç® §¸³( §©½) §šÉ' §‹Ô( §|Ù, §nË9 §2 § §" §÷( §è% §Ù& §Ê+ §¼( Ç­ ¸¸& ©½( šÈ' ‹Ð( |Ö( nÈ/ ' # ÷% è& Ù) Ê) ¼* ­* ZDZ Z¸¹% Z©¾( ZšÍ& Z‹Ñ( Z|Ü0 Z# Z5 Z& Z÷$ Zè' ZÙ( ZÊ) Z¼) Z­)Ó[NDÓLNDÓ=NDÓšNDÓ‹NDÓ|NDÓmNDÓ_NDÓPNDÓANDÓ2NDÓ#NDÓND¬[ND¬LND¬=ND¬šND¬‹ND¬|ND¬mND¬_ND¬PND¬AND¬2ND¬#ND¬ND†[ND†LND†=ND†.ND†ND†šND†‹ND†|ND†mND†_ND†PND†AND†2ND†#ND†ND`[ND`LND`=ND`‹ND`|ND`mND`_ND`PND`AND`2ND`#ND`ND9[ND9LND9=ND9.ND9šND9‹ND9|ND9mND9_ND9PND9AND92ND9#ND9ND[NDLND=ND.NDNDšND‹ND|NDmND_NDPNDAND2ND#NDNDí[NDíLNDí=NDíNDí©NDíšNDí‹NDí|NDímNDí_NDíPNDíANDí2NDí#NDíNDÆ[NDÆLNDÆ=NDÆšNDÆ‹NDÆ|NDÆmNDÆ_NDÆPNDÆANDÆ2NDÆ#NDÆND [ND LND =ND ND ©ND šND ‹ND |ND mND _ND PND AND 2ND #ND NDz[NDzLNDz=NDz.NDzNDzšNDz‹NDz|NDzmNDz_NDzPNDzANDz2NDz#NDzNDSjNDS[NDSLNDS=NDS.NDSšNDS‹NDS|NDSmNDS_NDSPNDSANDS2NDS#NDSNDÿÿbdZ%ÿÿœÖÿþ£Úd#>M}'M}(¥€ €€€€€€€€€€4<ÿÿP VAD Algorithm Output 04/23/24 02:46 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 -2.7 15.8 NA 170 031 3.9 NA 4.78 0.5 P 011 -2.6 16.8 NA 171 033 4.2 NA 5.67 0.5 P 013 -2.8 19.9 NA 172 039 3.1 NA 5.67 0.9 P 018 -1.4 23.8 0.6 177 046 3.5 -0.0165 16.20 0.5 P 020 -0.2 24.3 NA 179 047 3.5 NA 8.80 1.3 P 025 1.1 24.9 0.8 182 048 2.9 -0.0132 16.20 0.9 P 030 3.4 23.8 NA 188 047 3.2 NA 15.24 1.3 P 031 4.1 23.4 1.2 190 046 3.7 -0.0181 16.20 1.3 P 039 9.4 19.0 2.8 206 041 4.5 -0.0636 16.20 1.8 P 040 9.1 19.3 NA 205 042 4.8 NA 16.14 1.8 P 050 14.4 15.5 3.5 223 041 3.9 -0.0176 16.20 2.4 P 050 14.0 15.8 NA 222 041 4.3 NA 16.04 2.4 P 060 16.7 15.1 NA 228 044 4.2 NA 15.50 3.1 P 063 17.4 14.8 1.2 230 044 3.4 0.0626 16.20 3.1 ÿÿP VAD Algorithm Output 04/23/24 02:46 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 15.0 18.2 NA 220 046 3.9 NA 37.89 1.3 P 110 25.2 -2.5 NA 276 049 2.5 NA 45.79 1.8 P 120 22.6 0.4 NA 269 044 2.4 NA 39.76 2.4 P 130 26.1 -4.5 NA 280 052 1.2 NA 27.63 4.0 P 140 24.6 -0.7 NA 272 048 1.7 NA 37.30 3.1 P 150 24.0 -1.6 NA 274 047 2.0 NA 39.89 3.1 P 160 24.6 -1.0 NA 272 048 0.9 NA 34.03 4.0 P 170 24.2 -2.2 NA 275 047 1.1 NA 36.14 4.0 P 180 25.0 -0.8 NA 272 049 1.1 NA 30.70 5.1 P 190 24.5 -0.8 NA 272 048 1.3 NA 32.41 5.1 P 200 23.2 -0.7 NA 272 045 1.1 NA 27.63 6.4 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