SDUS35 KSLC 200520 NVWSLC 0M˜L#j âÿÿ ÿþJÆÇ0PŸ*M˜KM˜L€ €€€€€€€€€€:à (< ÿÿ†ÿÿv 2ÿÿÿÿÿÿÿÿ44ÿßÿß Ò5þ5,þ,5=þ=5NþN5_þ_5pþp5þ5’þ’5£þ£5´þ´5ÅþÅ5ÖþÖ5çþç5øþø5 þ 5þ5+þ+5<þ<5MþM5^þ^5oþo5€þ€5‘þ‘5¢þ¢5³þ³5ÄþÄ ZZÕZßÕߧÕ§ßÍÕÍßôÕôßÕß@Õ@ßgÕgßÕß³Õ³ßÚÕÚß  êTIMEALT KFT  Ìê0520 ¥ê0514 ê0508 Yê0502 2ê0456  ê0450 æê0444 ¿ê0438 ™ê0432 sê0426 Lê0420À 5¯ 6ž 7 8| 9k10Z11I12813'141516ô17ã18Ò19Á20°22Ÿ24Ž25}26l28[30J35940(4550 Úoç Ú^ì ÚMè Ú<é Ú+ð# Úí+ Ú í1 Úøò6 Úçî5 ÚÖî7 ÚÅî5 Ú´ò5 Ú£ð4 Ú’í3 Úà: ³³  ³¢ ³‘ ³€" ³^á ³Mì ³<ê ³+ì$ ³î+ ³ í2 ³øì4 ³çí5 ³Öì6 ³Åî6 ³´ò6 ³£ñ5 ³’ì3 ³é. Ä ‘  oî ^Ü Må <å +í( é+  ì2 øì4 çì3 Öì5 Åî7 ´ð6 £ð6 ’æ7 á7 pä1 gÄc g³a g€3  g^â gMì g<è  g+ì& gê* g é/ gøê3 gçê6 gÖì6 gÅï7 g´ò7 g£ï4 g’î2 gæ, gpí. @ÄZ @³V @‘. @€9 @oÙ @^æ @Mï @<ë" @+ê( @ã( @ æ. @øê. @çê6 @Öë6 @Åî6 @´ò7 @£í5 @’ê3 @ì0 @pê. @_÷9 ¢_  ‘?  €: ^í Mß <Û! +þ5 ç*  â- øå/ çê6 Öë8 Åë5 ´ï5 £é3 ’æ1 æ0 pò5 ôÄa ô³ ô¢b ô‘4 ô€Y  ôoõ ô^ò ôM÷  ô<ê! ô+é$ ôÛ, ô ç+ ôøé. ôçê3 ôÖê7 ôÅì6 ô´ï6 ô£è3 ô’ê2 ôê. ôpñ2 ô_÷? ÍÄZ ͳ` Í¢\ Í‘[ Í€[  Íoý Í^ # ÍMò% Í<ì" Í+è! Íå$ Í è( Íøê, Íçë5 ÍÖé7 ÍÅë7 Í´î7 Í£í3 Í’ê2 Íì- Ípï2 Í_÷> §Ä\ §³\ §¢] §‘d §€B  §o §^ì §Më §<î  §+ì) §ó( § ð. §øé, §çí6 §Öé8 §Åê6 §´í6 §£í3 §’ë0 §ï, §pí2 §_ð9 ÄT ³U ¢B ‘\  €5  o" ^ Mä <ë# +ú) ù-  õ. øç* çé4 Öè7 Åé7 ´í5 £í3 ’ç1 ð, pô4 _ñ= ZÄM Z³P Z¢C Z‘= Z€<  Zo ZMÛ Z<ë! Z+û) Zö% Z ó, Zøå) Zçé6 ZÖç6 ZÅé8 Z´í7 Z£é4 Z’ç. Zå- Zpô8 Z_îCÓÀNDÓ¯NDÓžNDÓNDÓ|NDÓlNDÓ[NDÓJNDÓ9NDÓ(NDÓND¬ÀND¬kND¬lND¬[ND¬JND¬9ND¬(ND¬ND†¯ND†žND†|ND†[ND†JND†9ND†(ND†ND`žND`ND`kND`[ND`JND`9ND`(ND`ND9žND9JND99ND9(ND9NDÀND¯NDkND[NDJND9ND(NDNDíJNDí9NDí(NDíNDÆJNDÆ9NDÆ(NDÆND JND 9ND (ND NDzJNDz9NDz(NDzNDSZNDSJNDS9NDS(NDSNDÿÿldd âÿÿ ÿþJÆÇdP*M˜KM˜L€ €€€€€€€€€€:à (<ÿÿP VAD Algorithm Output 05/20/24 05:20 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 046 -0.7 -10.1 NA 004 020 5.1 NA 5.67 0.5 P 100 7.0 5.7 NA 231 017 8.0 NA 7.05 7.6 P 110 8.4 5.6 NA 236 020 3.7 NA 6.21 10.2 P 120 9.8 7.7 NA 232 024 4.7 NA 9.51 7.6 P 130 11.8 8.8 NA 233 029 3.6 NA 8.05 10.2 P 130 3.3 10.5 99.6 198 021 5.3 -0.3808 16.20 5.0 P 140 15.3 9.0 NA 240 035 3.8 NA 11.95 7.6 P 150 18.6 12.3 NA 237 043 3.1 NA 6.26 16.3 P 160 21.1 13.8 NA 237 049 3.4 NA 14.38 7.6 P 170 24.5 13.2 NA 242 054 2.9 NA 15.59 7.6 P 174 24.4 13.6 97.9 241 054 2.5 0.1204 16.20 7.6 P 180 23.1 14.3 NA 238 053 2.5 NA 6.37 20.7 P 190 23.7 15.1 NA 238 055 2.5 NA 18.00 7.6 P 200 23.5 14.4 NA 238 053 2.1 NA 11.59 12.8 ÿÿP VAD Algorithm Output 05/20/24 05:20 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 219 23.9 12.9 98.4 242 053 1.6 0.1073 16.20 10.2 P 220 23.9 12.9 NA 242 053 1.6 NA 16.28 10.2 P 240 23.4 13.3 NA 240 052 1.9 NA 14.52 12.8 P 250 22.0 14.0 NA 237 051 2.0 NA 15.25 12.8 P 260 20.6 21.3 NA 224 058 1.3 NA 26.38 7.6 P 130 3.5 9.9 -22.3 200 020 5.1 -0.3339 16.20 5.0 P 174 24.4 13.9 -38.9 240 055 2.6 0.1005 16.20 7.6 P 219 23.2 12.9 -63.0 241 052 1.9 0.1360 16.20 10.2 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 5000 6000 7000 8000 9000 10000 2 11000 12000 13000 14000 15000 16000 2 17000 18000 19000 20000 22000 24000 2 25000 26000 28000 30000 35000 40000 2 45000 50000 -666 -666 -666 -666 2 2 OPTIMUM SLANT RANGE 16.2 2 2 2 2 2 ÿÿ