SDUS64 KSJT 050023 NSSSJT >M?zwt>p/OMiM<@P STORM STRUCTURE P RADAR ID 538 DATE/TIME 05:05:24/00:23:05 NUMBER OF STORM CELLS 66 P P STORM AZRAN BASE TOP CELL BASED VIL MAX REF HEIGHT P ID DEG/NM KFT KFT KG/M**2 DBZ KFT P P V3 234/ 97 <11.9 47.7 80 70 20.5 P W1 276/ 64 < 6.4 43.4 79 68 29.0 P X5 194/182 <33.5 49.5 79 66 33.5 P P5 79/ 44 < 3.7 40.2 57 59 20.3 P D8 6/100 <12.5 32.7 57 60 16.8 P Z9 240/116 <15.9 31.8 52 62 21.2 P G2 61/ 85 < 9.6 34.4 50 59 9.6 P V8 78/ 86 < 9.8 34.5 46 57 17.5 P X8 60/ 35 < 2.4 40.2 42 60 15.5 P J0 351/ 84 < 9.4 33.4 39 59 9.4 P STORM STRUCTURE P RADAR ID 538 DATE/TIME 05:05:24/00:23:05 NUMBER OF STORM CELLS 66 P P STORM AZRAN BASE TOP CELL BASED VIL MAX REF HEIGHT P ID DEG/NM KFT KFT KG/M**2 DBZ KFT P P B4 88/100 <12.4 21.4 39 57 17.2 P H1 341/ 93 <11.1 38.3 38 56 11.1 P T4 343/ 82 < 9.3 25.5 37 57 12.7 P A2 93/ 78 < 8.3 24.8 36 59 15.2 P A5 243/139 <21.2 33.0 35 53 21.2 P L9 55/ 63 < 6.0 36.9 33 56 9.1 P T1 110/ 66 < 6.5 25.6 32 61 16.0 P Z0 85/ 92 <10.9 37.0 31 55 10.9 P E2 35/ 30 < 2.1 25.3 29 59 6.9 P U0 99/ 63 < 6.1 24.9 27 55 15.2 P STORM STRUCTURE P RADAR ID 538 DATE/TIME 05:05:24/00:23:05 NUMBER OF STORM CELLS 66 P P STORM AZRAN BASE TOP CELL BASED VIL MAX REF HEIGHT P ID DEG/NM KFT KFT KG/M**2 DBZ KFT P P V9 66/ 71 < 7.2 22.1 27 56 13.6 P S3 271/ 82 < 9.3 25.0 26 56 12.8 P C5 355/123 <17.3 28.0 25 53 17.3 P S9 39/ 51 < 4.3 19.6 24 56 11.9 P C4 356/ 95 <11.5 24.8 24 55 11.5 P E1 242/129 <18.7 29.3 23 51 18.7 P Z4 284/ 57 10.2 26.2 23 55 16.9 P Y1 310/ 61 < 5.9 22.3 21 56 14.7 P Z3 329/ 53 < 4.7 24.1 20 53 12.2 P K4 294/ 66 < 6.6 24.7 20 53 12.3 P STORM STRUCTURE P RADAR ID 538 DATE/TIME 05:05:24/00:23:05 NUMBER OF STORM CELLS 66 P P STORM AZRAN BASE TOP CELL BASED VIL MAX REF HEIGHT P ID DEG/NM KFT KFT KG/M**2 DBZ KFT P P X4 288/ 48 < 4.1 26.3 18 53 14.0 P O3 359/117 <16.0 30.7 18 50 16.0 P X3 77/ 77 < 8.3 24.6 18 52 12.0 P M0 81/ 69 < 6.9 27.1 17 51 13.0 P O2 337/ 76 < 8.2 24.0 17 52 11.5 P Q2 107/ 74 < 7.9 22.4 16 51 13.6 P H4 263/103 <13.2 21.8 15 50 13.2 P Y3 12/ 93 <11.1 15.5 14 52 11.1 P F5 347/125 <17.9 23.8 14 49 17.9 P R4 89/ 41 < 3.2 12.0 11 53 5.1 P STORM CELL SEGMENTS ADAPTATION DATA P P 60(DBZ) THRESH (REFLECTIVITY #1) 1.9 (KM) THRESH (SEGMENT LENGTH #1) P 55(DBZ) THRESH (REFLECTIVITY #2) 1.9 (KM) THRESH (SEGMENT LENGTH #2) P 50(DBZ) THRESH (REFLECTIVITY #3) 1.9 (KM) THRESH (SEGMENT LENGTH #3) P 45(DBZ) THRESH (REFLECTIVITY #4) 1.9 (KM) THRESH (SEGMENT LENGTH #4) P 40(DBZ) THRESH (REFLECTIVITY #5) 1.9 (KM) THRESH (SEGMENT LENGTH #5) P 35(DBZ) THRESH (REFLECTIVITY #6) 1.9 (KM) THRESH (SEGMENT LENGTH #6) P 30(DBZ) THRESH (REFLECTIVITY #7) 1.9 (KM) THRESH (SEGMENT LENGTH #7) P 7 NBR REFLECTIVITY LEVELS 5 (DBZ) THRESH (DROPOUT REF DIFF) P 3 REFLECTIVITY AVG FACTOR 2 THRESH (DROPOUT COUNT) P 460 (KM) THRESH (MAX SEGMENT RANGE) 6000 MAX # OF SEGMENTS/ELEV P 1.37 MASS COEFFICIENT FACTOR 15 MAX # OF SEGMENTS/RADIAL P 486.0 MASS MULTIPLICATIVE FACTOR P 53000.0 (HR*KG/KM**4) MASS WEIGHTED FACTOR P STORM CELL CENTROIDS ADAPTATION DATA P P 10.0 (KM**2) THRESH (COMPONENT AREA #1) 2 (BIN) THRESH (SEGMENT OVERLAP) P 10.0 (KM**2) THRESH (COMPONENT AREA #2) 1.5 (DEG) THRESH (AZ SEPARATION) P 10.0 (KM**2) THRESH (COMPONENT AREA #3) 4.00 (KM) THRESH (DEPTH DELETE) P 10.0 (KM**2) THRESH (COMPONENT AREA #4) 5.0 (KM) THRESH (HORIZONTAL DELETE)P 10.0 (KM**2) THRESH (COMPONENT AREA #5) 3.0 (DEG) THRESH (ELEVATION MERGE) P 10.0 (KM**2) THRESH (COMPONENT AREA #6) 4.0 (KM) THRESH (HEIGHT MERGE) P 10.0 (KM**2) THRESH (COMPONENT AREA #7) 10.0 (KM) THRESH (HORIZONTAL MERGE) P 5.0 (KM) THRESH (SEARCH RADIUS #1) 2 THRESH (# SEGMENTS/COMP) P 7.5 (KM) THRESH (SEARCH RADIUS #2) 120 THRESH (MAX COMPS/ELEV) P 10.0 (KM) THRESH (SEARCH RADIUS #3) 70 THRESH (MAX POT COMPS/ELV)P 120 (KG/M**2) THRESH (MX CELL-BASED VIL) 100 THRESH (MAX CELLS/VOL) P 130 THRESH (MX DETECTED CELLS)P STORM CELL TRACKING/FORECAST ADAPTATION DATA P P 204 (DEG) DEFAULT (DIRECTION) 2.5 (M/S) THRESH (MINIMUM SPEED) P 18.7 (KTS) DEFAULT (SPEED) 20 (KM) ALLOWABLE ERROR P 20 (MIN) TIME (MAXIMUM) 15 (MIN) FORECAST INTERVAL P 10 NUMBER OF PAST VOLUMES 4 NUMBER OF INTERVALS P 30.0 (M/S) CORRELATION SPEED 15 (MIN) ERROR INTERVAL P P P SCIT REFLECTIVITY MEDIAN FILTER P P 7.0 (KM) FILTER KERNEL SIZE 0.5 THRESH (FILTER FRACTION) P Yes REFLECTIVITY FILTERED   yV3j  qwpifc`_{y { dddddddddd ZZdddddddd CEEQLHOPHG E?ADEFFFEE W1Yh,**'(e"dddddd2ddPdd DLDGO5BC@DDyX5g HKFA< :21307795* RJIKHOOQMB   PTRPVNOWXQ @A?<B?BAB? XXZV[XU[^RP5 )z-      35 dddddddddZ PPddddP(22 6GDFORG29) @AEGJFC?;@ i~D8 QGxyq ba bbee^^]  z}vu dZdddddddd (2 <Z<( 0* 3,(9D;4 ::3=:9<@=: /Z91 >vm#h_^ IG % %  dZPZd <( 46-00 >0;8,:5247 6fG2Oj~XA}FH~}`ddd<(=298:;bV8  LTY!-v=A DEGHJ>=:B@ _Vy dPPZdFdddd Z2 (2<2( 2'$+."(33- ED<=99>==9 uslX8 Od"sdw  BWGR ddddZ2<ddd 2((F<2 -&,-*";:3 @<:=<9=;>> hmVuR]J05 NN*%4 F "$*1:@ ^7:<BkqX ZZZZP <PP   ' #$$ ;78:888689 pqCdX]h6B4<dF'9H16 ikU]dt OSYQMOQRW igio FdZddddZ (  /-.0.-& -5689;<=:8 vs6T4EZ %9lA2{ e 3/003679; eGfKNo <FZ    $ ,0134147; T|dg_cc~6A5YJ#5L9 q'~L_  #$ Qr[VBGP <<2PPPPPd   !) 7788:788;< ]]LTi}|kqT1   h/1.--**) gE} 2PPP<F     ,.26689;= ymvppdmZ0R 0)kir QTWYUWWRU ilomom ZZdPddd  %0- +*-3678:97 p{}E2jZpF?EF(<F   9<43;9;tEa_U0f Mka#$. %! !!!# 5T99; < PZdP<PP (2 $-& 7(.5;==868 h>wknjV9 +. *0 #"' x`3NS:? FFP<2FFZF  (  5857779996 TeSdjbilMffS3FKI@GEadP( )+8<8n6C5h25S9J 0P*   'wvQt2e (P(FF<   3898787=:8 N_@SjQFVK6VC4XY[pqs 737wxzE1j I?4<6xo%     *.13% '0884<=63 6Z4fZ7FY1GAo# 228FZ3k_zFP 35VK4]*{{22 +35v6X4aP5fO3y}y3{ZdF2 $ 7252VX3^9;xF('44{M0 0~598D -(*%+')+*, [twxzaBD <ddddZF ((  )3/& 3003898985 m`dnwr`vO2> 87,B=:;:rSsdF<F  %!$87964ywvQ213527lMJFP14453ucZFH4 Mxl,2fY3*CTVWlo*--4}s6F5Q1FR4]xBq3 05rD6G5~  /fH3X6641Njh 1320lhau6H5aWo 1vvV1}SD109 Dd  :53.8M:*8W6M4g ,6U4KF3FJ4jc'*yB 52kOFS4Y&+6D5F1FU3 iw)+vZ2{|vwu<  /,.2+VG4%.20eJH/./gYW6L5/)6M5F2vA3{ 3|| 2d *(00/ VI4l8AqY ,1-`bVL4G#c17cIO-/-tUV6V5&P.fK3nYiUBI YI48$01.Mn?=FV4`=GG=.0O#6U5.p%6J5LL*96Z5+\||,FE4rxwB<ZT&$`Y6Y5ll)x6R5%MM'?