SDUS31 KBTV 260128 NVWTYX 0M½ä&ÀRÿÿªìÿþØ`¨0×#FM½®M½ã€ €€€€€€€€€€0ø¼< †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  Ìê0128 ¥ê0122 ê0117 Yê0112 2ê0107  ê0102 æê0057 ¿ê0052 ™ê0047 sê0042 Lê0037à 2´ 3¥ 4– 5‡ 6x 7j 8[ 9L10=11.12131415ó16ä17Õ18Æ19¸20©21š22‹24|25m26_28P30A35240#4550 Ú¸×) Ú©è- Úšò/ Ú‹÷/ Ú|ø0 Ún- Ú_- ÚP. ÚA- Ú2- Ú#- Ú* Ú, Ú÷/ ³¸Û( ³©é. ³šó/ ³‹ø/ ³|ÿ, ³n+ ³_- ³P - ³A- ³2. ³#. ³. ³/ ³÷- ¸Û' ©é+ šð- ‹ø. |- n+ _- P , A - 2/ #- - 1 ÷, è. g¸×( g©é* gšð, g‹ù. g|- gn+ g_+ gP . gA/ g21 g#/ g. g. g÷- gè, @¸Ú( @©é* @šó* @‹ø- @|, @n+ @_ , @P + @A . @2. @#0 @- @- @÷, @è!& @Ù$ ¸Ø( ©è( šô, ‹ø, |ÿ. n* _+ P - A- 2. #/ - / ÷/ è1 Ùÿ, ô¸Ú' ô©ñ( ôšø+ ô‹ý- ô|- ôn+ ô_ - ôP - ôA - ô2. ô#2 ô2 ô- ô÷+ ôè/ ô­! ͸Ú' Í©ê( Íšþ. Í‹/ Í|- Ín/ Í_ - ÍP , ÍA . Í20 Í#1 Í1 Í. Í÷- Íè0 ÍÙ& ÍÊ0 ͼ §¸Ø' §©ö, §š2 §‹2 §|. §n- §_ - §P . §A. §2/ §#3 §2 §8 §÷- §è* §Ù* §Ê" ¸×& ©ä* šþ/ ‹2 |ÿ, n 1 _0 P , A- 2/ #1 0 1 ÷1 è- Ù) Ê) Z¸Ô% Z©à) Zší# Z‹ü, Z|ÿ, Zn- Z_0 ZP - ZA/ Z2/ Z#1 Z5 Z0 Z÷- Zè/ ZÙ, ZÊ( Z¼ !ÓÃNDÓäNDÓÕNDÓÆNDÓ¸NDÓ©NDÓšNDÓ‹NDÓ|NDÓmNDÓ_NDÓPNDÓANDÓ2NDÓ#NDÓND¬ÃND¬äND¬ÕND¬ÆND¬¸ND¬©ND¬šND¬‹ND¬|ND¬mND¬_ND¬PND¬AND¬2ND¬#ND¬ND†ÃND†ÕND†ÆND†¸ND†©ND†šND†‹ND†|ND†mND†_ND†PND†AND†2ND†#ND†ND`ÃND`ÕND`ÆND`¸ND`©ND`šND`‹ND`|ND`mND`_ND`PND`AND`2ND`#ND`ND9ÃND9ÆND9¸ND9©ND9šND9‹ND9|ND9mND9_ND9PND9AND92ND9#ND9NDÃNDÆND¸ND©NDšND‹ND|NDmND_NDPNDAND2ND#NDNDíÃNDíÕNDíÆNDí¸NDíšNDí‹NDí|NDímNDí_NDíPNDíANDí2NDí#NDíNDÆÃNDÆ©NDÆšNDÆ‹NDÆ|NDÆmNDÆ_NDÆPNDÆANDÆ2NDÆ#NDÆND ÃND ¸ND ©ND šND ‹ND |ND mND _ND PND AND 2ND #ND NDzÃNDz¸NDz©NDzšNDz‹NDz|NDzmNDz_NDzPNDzANDz2NDz#NDzNDSÃNDS©NDSšNDS‹NDS|NDSmNDS_NDSPNDSANDS2NDS#NDSNDÿÿ´d¬RÿÿªìÿþØ`¨d×M½®M½ã€ €€€€€€€€€€0ø¼<ÿÿP VAD Algorithm Output 06/26/24 01:28 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 023 4.2 13.6 NA 197 028 5.2 NA 5.67 0.5 P 025 7.5 17.1 NA 204 036 4.4 NA 5.67 0.9 P 030 14.4 14.6 3.5 225 040 4.0 -0.1136 16.20 0.5 P 030 12.2 17.5 NA 215 041 3.5 NA 7.26 1.3 P 037 17.5 15.4 7.4 229 045 3.1 -0.1825 16.20 0.9 P 040 18.0 14.2 NA 232 045 3.2 NA 7.84 2.4 P 044 19.8 12.7 9.6 237 046 2.5 -0.0893 16.20 1.3 P 050 21.3 11.6 NA 242 047 1.9 NA 15.06 1.8 P 053 21.6 11.6 12.7 242 048 2.3 -0.1031 16.20 1.8 P 060 22.4 9.5 NA 247 047 1.6 NA 11.98 3.1 P 064 22.7 9.0 15.6 248 048 2.3 -0.0774 16.20 2.4 P 070 22.8 9.2 NA 248 048 2.0 NA 14.85 3.1 P 075 22.5 7.0 19.3 253 046 2.5 -0.0907 16.20 3.1 P 080 22.6 5.3 NA 257 045 2.4 NA 17.69 3.1 ÿÿP VAD Algorithm Output 06/26/24 01:28 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 090 22.8 2.5 NA 264 045 2.5 NA 16.16 4.0 P 090 22.9 2.5 21.4 264 045 2.6 -0.0272 16.20 4.0 P 100 23.7 -0.4 NA 271 046 2.1 NA 14.60 5.1 P 109 23.4 -1.0 20.0 273 045 2.2 0.0474 16.20 5.1 P 110 23.1 -1.0 NA 273 045 2.1 NA 16.37 5.1 P 120 23.3 -1.8 NA 275 045 1.9 NA 14.59 6.4 P 130 23.0 -1.3 NA 273 045 2.2 NA 16.02 6.4 P 131 23.4 -1.6 20.0 274 046 2.2 0.0215 16.20 6.4 P 140 21.6 -1.3 NA 273 042 1.5 NA 34.06 3.1 P 150 22.4 -1.5 NA 274 044 2.2 NA 15.22 8.0 P 158 22.6 -0.4 35.1 271 044 2.7 -0.1688 16.20 8.0 P 160 24.1 -0.7 NA 272 047 2.6 NA 13.19 10.0 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