SDUS33 KSGF 241326 NVWSGF 0M~¿^&Ð$ÿÿ‘sÿþ“(_0#†M~¼ôM~¿^€ €€€€€€€€€€; l< eÿÿRÿÿB 2ÿÿÿÿÿÿÿÿ44ÿßÿß ò5þ5'þ'56þ65EþE5TþT5cþc5qþq5€þ€5þ5žþž5­þ­5¼þ¼5ÊþÊ5ÙþÙ5èþè5÷þ÷5þ5þ5#þ#52þ25AþA5PþP5_þ_5nþn5|þ|5‹þ‹5šþš5©þ©5¸þ¸5ÇþÇ ZZÕZßÕߧÕ§ßÍÕÍßôÕôßÕß@Õ@ßgÕgßÕß³Õ³ßÚÕÚß  êTIMEALT KFT  Ìê1326 ¥ê1315 ê1305 Yê1255 2ê1244  ê1234 æê1223 ¿ê1213 ™ê1203 sê1152 Lê1142à 2´ 3¥ 4– 5‡ 6x 7j 8[ 9L10=11.12131415ó16ä17Õ18Æ19¸20©21š22‹24|25m26_28P30A35240#4550 ÚÇj Ú¸] Ú©_ Ú‹K Ún* Ú_I ÚP1 ÚA%% Ú2( Ú#+ Ú- Ú/ Ú÷. Úè0 ÚÙ0 ÚÊ ; Ú¼*3 Ú­+4 ³Çh ³¸a ³©W  ³_#$ ³P&  ³A1 ³2+" ³#) ³, ³. ³÷3 ³è. ³Ù0 ³Ê(2 ³¼(5 ³­*5 Çh ¸a ©l _( P," A< 2%) #, #% + ÷1 è4 Ù". Ê&1 ¼$0 ­+4 ž9F gÇ_ g¸] g©C  g_" gA$( g2%/ g#3# g+ g3 g÷3 gè7 gÙ"0 gÊ'. g¼(. g­&8 @Ço  @¸^ @©_  @P#" @2:% @#; @, @/ @÷) @è' @Ù1 @Ê), @¼)/ @­)2 @ž)5 Çd  ¸Y ©b P6" 2(% #!/ - ( ÷$# è; Ù,% Ê*+ ¼+- ­,2 ž,3 ôÇc  ô¸\ ô©Q ô#  ô$ ô+ ô÷( ôè&# ôÙ+$ ôÊ+, ô¼-4 ô­08 ôž/< ÍÇW ͸\ Í©8 Íšm Í#% Í* Í. Í÷/ ÍÙ1# ÍÊ&  ͼ,, Í­+2 Íž(9 §ÇK §¸K §©c §) §÷- §Ù.) §Ê*/ §¼*- §­,3 §ž+7 ÇL ¸N ©] ) ÷* è(  ¼.# ZÇ< Z¸P Z©N Z÷ Ó–NDÓxNDÓšNDÓ‹NDÓ|NDÓmNDÓ_NDÓPNDÓANDÓ2NDÓ#NDÓND¬–ND¬‡ND¬xND¬jND¬šND¬‹ND¬|ND¬mND¬_ND¬PND¬AND¬2ND¬#ND¬ND†–ND†‡ND†xND†jND†‹ND†|ND†mND†_ND†PND†AND†2ND†#ND†ND`–ND`‡ND`xND`jND`LND`šND`‹ND`|ND`mND`_ND`PND`AND`2ND`#ND`ND9–ND9‡ND9xND9jND9[ND9=ND9‹ND9|ND9mND9_ND9PND9AND92ND9#ND9ND–ND‡NDxNDjND[ND=ND‹ND|NDmND_NDPNDAND2ND#NDNDí–NDí‡NDíxNDíjNDí[NDíLNDí=NDí.NDí‹NDí|NDímNDí_NDíPNDíANDí2NDí#NDíNDƇNDÆxNDÆjNDÆ[NDÆLNDÆ=NDÆ.NDÆäNDÆ‹NDÆ|NDÆmNDÆ_NDÆPNDÆANDÆ2NDÆ#NDÆND –ND ‡ND xND jND [ND LND =ND .ND ND ND äND ‹ND |ND mND _ND PND AND 2ND #ND NDz–NDz‡NDzxNDzjNDz[NDzLNDz=NDz.NDzNDzNDzÕNDzÆNDz©NDzšNDz‹NDz|NDzmNDz_NDzPNDzANDz2NDz#NDzNDS–NDS‡NDSxNDSjNDS[NDSLNDS=NDS.NDSNDSNDSNDSäNDSÕNDSÆNDS¸NDS©NDSšNDS‹NDS|NDSmNDS_NDSPNDSANDS2NDS#NDSNDÿÿdþ$ÿÿ‘sÿþ“(_d#M~¼ôM~¿^€ €€€€€€€€€€; l<ÿÿP VAD Algorithm Output 04/24/24 13:26 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 015 -4.5 4.9 NA 137 013 7.3 NA 5.67 0.2 P 017 -5.7 5.1 NA 131 015 5.8 NA 5.67 0.5 P 019 -7.8 2.7 -0.6 109 016 5.6 0.0419 16.20 0.2 P 020 -9.6 2.7 NA 106 019 3.4 NA 6.25 0.9 P 024 -8.4 2.8 -0.7 108 017 4.6 0.0052 16.20 0.5 P 030 -8.9 0.4 NA 093 017 3.0 NA 15.25 0.9 P 032 -8.4 0.2 -0.6 091 016 3.0 -0.0081 16.20 0.9 P 038 -5.9 -0.8 0.7 083 012 3.9 -0.0619 16.20 1.3 P 040 -7.1 0.7 NA 095 014 3.2 NA 23.34 0.9 P 047 -4.6 -2.1 0.7 065 010 1.5 0.0029 16.20 1.8 P 060 3.7 -6.8 NA 331 015 3.7 NA 8.47 5.1 P 080 11.0 -5.8 NA 298 024 0.9 NA 31.03 1.8 P 090 7.7 -12.9 NA 329 029 0.7 NA 13.86 5.1 P 100 12.0 -8.3 NA 305 028 0.7 NA 15.64 5.1 ÿÿP VAD Algorithm Output 04/24/24 13:26 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 102 16.4 -6.4 -55.1 291 034 1.1 0.3319 16.20 5.1 P 110 17.4 -7.5 NA 293 037 0.8 NA 17.41 5.1 P 120 20.3 -3.7 NA 280 040 1.9 NA 15.43 6.4 P 125 22.0 -3.7 -84.5 279 043 2.1 0.3718 16.20 6.4 P 130 21.8 -3.9 NA 280 043 2.3 NA 16.86 6.4 P 140 22.8 -2.1 NA 275 045 1.3 NA 18.28 6.4 P 150 23.9 -1.3 NA 273 047 1.7 NA 19.70 6.4 P 160 23.5 -4.4 NA 281 046 1.3 NA 21.11 6.4 P 170 24.3 -5.0 NA 282 048 1.3 NA 22.52 6.4 P 180 23.4 -7.0 NA 287 048 1.6 NA 23.93 6.4 P 190 29.1 -9.5 NA 288 059 1.7 NA 25.33 6.4 P 200 23.0 -12.4 NA 298 051 1.2 NA 33.01 5.1 P 210 23.2 -12.9 NA 299 052 2.0 NA 34.71 5.1 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 2000 3000 4000 5000 6000 7000 2 8000 9000 10000 11000 12000 13000 2 14000 15000 16000 17000 18000 19000 2 20000 21000 22000 24000 25000 26000 2 28000 30000 35000 40000 45000 50000 2 2 OPTIMUM SLANT RANGE 16.2 2 2 2 2 2 ÿÿ