SDUS63 KDDC 192234 NSSDDC >M>0^y o>M?M=yM><sP STORM STRUCTURE P RADAR ID 350 DATE/TIME 05:19:24/22:34:33 NUMBER OF STORM CELLS 35 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 O5 48/ 88 <10.8 42.3 70 65 22.9 P F6 56/126 <18.8 36.2 66 64 28.8 P A6 179/114 <16.0 49.2 66 60 19.7 P M8 53/ 97 <12.3 38.8 55 59 12.3 P S3 194/ 25 < 2.0 33.0 53 61 5.3 P X6 313/ 86 <10.1 34.4 48 56 10.1 P P7 42/ 85 <10.1 20.5 40 59 10.1 P E4 174/101 <13.0 33.5 39 55 13.0 P C0 337/ 32 < 2.7 28.8 36 59 5.2 P Z4 56/103 16.9 41.7 36 59 21.7 P STORM STRUCTURE P RADAR ID 350 DATE/TIME 05:19:24/22:34:33 NUMBER OF STORM CELLS 35 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 U7 131/ 14 13.7 >26.8 33 64 16.7 P S2 127/ 11 < 1.0 9.8 19 66 2.7 P L8 147/ 17 29.7 >35.1 18 58 35.1 P M5 186/113 <15.7 24.8 17 51 15.7 P U6 37/ 75 < 8.4 14.4 17 53 14.4 P K7 175/ 19 26.4 32.5 16 54 26.4 P F8 172/ 90 <11.1 23.4 15 51 11.1 P D2 350/ 27 4.3 19.1 10 58 4.3 P O6 328/ 36 20.5 25.7 10 53 20.5 P H5 73/ 10 17.9 >21.4 9 55 17.9 P STORM STRUCTURE P RADAR ID 350 DATE/TIME 05:19:24/22:34:33 NUMBER OF STORM CELLS 35 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 X1 48/132 <20.1 30.8 9 44 20.1 P D6 310/ 76 < 8.6 18.7 8 48 8.6 P J4 48/143 <23.0 27.4 8 43 23.0 P N8 93/ 7 < 0.5 4.3 6 61 0.5 P G8 20/ 21 17.9 26.8 4 43 23.5 P C8 258/ 15 < 1.0 8.7 4 49 8.7 P M7 2/ 26 28.4 34.7 4 45 28.4 P I7 167/ 84 < 9.9 16.9 4 41 9.9 P D8 242/ 48 < 4.4 8.2 3 45 4.4 P Z7 237/ 9 8.0 8.4 2 49 8.0 P STORM STRUCTURE P RADAR ID 350 DATE/TIME 05:19:24/22:34:33 NUMBER OF STORM CELLS 35 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 T8 43/116 <16.3 20.1 2 35 20.1 P E8 49/119 20.9 26.4 1 38 20.9 P V8 19/ 59 17.8 22.3 1 39 22.3 P U8 235/ 45 16.3 20.7 1 41 16.3 P W8 322/ 12 7.2 8.3 1 41 8.3 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 227 (DEG) DEFAULT (DIRECTION) 2.5 (M/S) THRESH (MINIMUM SPEED) P 31.8 (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  %+17=DJO5q Qgxs T;BBFKMRQS ^e dZdddddddd Z2<<F<PFF F07:;9C:< A68<>?===> F6 j 0} 0  dddddddd dddddddd FECFEAFB >BCDDCA@@ QA6a   JLG dddddddddd (FddZZP<FF JKHLE>EB 5;DFB=<=;< CFM8wl7c7{dd< 72;S3 %CcJ  ~  -6?$&58F1 ZZdddddZPP (2F2((( ,'.-:25*-* D?>A=;=A=@ dZo|SlrfX6cb^WPXOOMgedddd(2+*048;8VP7J4CzMzeddF(2 (6<;qE44 bROvsk qqnjkj  dddddddddd 2<F<(<<2 ;G=),';: 9:;;;77==: C0G ] QBED Q>  k '0+ (S4@+ dZdPddddd <( *(+)$=2 >;<<947;@? k-`]T`giZ4Z ck`W nRRSWY`h ox dddddd2ddd 2<<<PF(F<< 5$41;8#56  9;>=?>>=?< y6U7yZF!@S2Fb O8  A!FZFP 2 )05;??Bni06L8/G)_dF:CM5^} FF(2  '),1003vU6~58;<<d  *,055eK7~dLEOD<8O'QLFd2 +.,++36eRPGFF8Wo<23D22VCL++ZZd<  *-.-0:(6O6Z 5H5- 4)HKT SE RdDc  ZF     ')02449;=7 ?1QM6X14 ,D6PNIEA@>axYXVP<22*245530zy{ggJ4 IRKfq3    dd  %"",/ 61+5167755 %6N8l+=FG8j&* P.+FC8%WWQWW21R.6M7[Z-$VI7 CKc'()nfD8R^^<,),2-J2VZ7XZTNUPTXP221SVQ6T8#6E87&6V89'6U8~)6W8SHS)Q