SDUS61 KALY 051727 NSSENX >M/6Zް> W%MM<sP STORM STRUCTURE P RADAR ID 310 DATE/TIME 05:05:24/17:27:43 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 Q9 256/ 71 < 7.7 13.2 5 45 7.7 P Y8 262/ 19 < 1.4 9.0 3 51 8.6 P B0 269/ 75 < 8.3 10.5 3 41 10.5 P S8 197/ 70 < 7.5 9.9 2 41 7.5 P P9 37/ 11 7.1 8.5 2 47 8.5 P B8 252/ 75 < 8.4 11.1 2 38 8.4 P J0 206/ 78 < 8.9 11.8 2 38 11.8 P B7 283/ 47 < 4.2 10.4 2 42 8.2 P B2 272/ 62 < 6.4 11.2 2 39 8.4 P K1 44/ 72 < 7.8 9.7 2 38 7.8 P STORM STRUCTURE P RADAR ID 310 DATE/TIME 05:05:24/17:27:43 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 E8 198/ 55 < 5.5 9.3 2 41 9.3 P C1 207/ 70 < 7.5 10.0 2 39 10.0 P P1 248/ 68 < 7.3 9.5 2 39 9.5 P Y0 131/ 20 < 1.3 8.7 2 43 8.7 P I1 37/ 5 < 0.2 6.2 1 45 6.2 P W7 91/ 60 < 6.0 10.6 1 39 8.0 P S9 240/ 27 3.0 8.8 1 43 8.8 P M7 179/ 48 6.4 9.9 1 40 9.9 P A1 101/ 28 8.1 9.0 1 43 9.0 P J1 54/ 61 < 6.1 8.4 1 35 8.4 P STORM STRUCTURE P RADAR ID 310 DATE/TIME 05:05:24/17:27:43 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 G1 49/ 53 < 4.7 7.1 1 37 7.1 P V0 303/ 33 < 2.7 8.9 1 37 8.9 P N1 60/ 60 < 5.9 8.2 1 34 8.2 P U1 202/ 45 8.0 9.8 1 38 9.8 P Y1 68/ 46 5.9 7.6 1 41 7.6 P Q1 200/ 9 5.9 8.4 1 42 5.9 P L8 27/ 26 < 1.9 4.0 1 37 1.9 P N0 97/ 33 < 2.6 3.8 1 37 2.6 P X0 303/ 41 6.9 9.1 1 38 9.1 P D0 41/ 36 < 3.0 4.2 0 35 4.2 P STORM STRUCTURE P RADAR ID 310 DATE/TIME 05:05:24/17:27:43 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 O1 50/ 41 < 3.6 4.7 0 33 4.7 P K8 157/ 12 < 0.8 3.3 0 35 1.8 P R8 57/ 26 3.0 4.9 0 35 4.2 P F1 124/ 27 < 2.0 3.3 0 34 2.0 P P0 80/ 6 1.5 2.5 0 35 2.5 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 230 (DEG) DEFAULT (DIRECTION) 2.5 (M/S) THRESH (MINIMUM SPEED) P 33.8 (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   Q9}wqRMHC>95je`[VQM(++--/-pid_Z[VY8 ea\i^Z][\Z B<   ea\U^ZQWYV    +,/-+-.//3 PLHHSK14&'B0ztoiPLG@<;hd_XTi')((+)id`d[TS8%tokkgcB=<;63ZUTSNK%%&'()]X`WSRVP9c:+UAGH6U*+/G4I6B8o<T&Y6J0vAv&^B7S dysmh~vql !40+($ MaZURe_[WR    +*++*),+*- JIOJJXZTPUB2l tp}wrmix ,(LHB?:630 ZTd`ZWRNd_    )'-+,-*+(( OQhcb_ZXRX6K1a6N&QE8 N]ifysmjg` !:741.))% N]RfL]YTSQ    ))''((*))* @KdRRTSMNR6C10_d3d'R6P1\_1_'TVY09VVWUQUQW*++UT36I1/>>>-'W7s djXZ\dTkY] "$    OPXLLPTTY]    %')'((((&' IFCHC?;BBJS97OKXRRXUX<51-)KCOKXRRXUX&*)+(*++DDNIFRNJM79oi`tngcZVRMHC@Zi`^USc#%&%)'(\\SSWMN6A1ZQZ+V6J1T%T#D6G1Q GG%D6V0h YY%;6N1R#R"F6U1 bPb&^6Y1L;L)=6Q1T;;*=L8S X(XYXZ1XVV  TVUXW TSV    /%.,,1$13/ '<5?)#''FN0a&a)%*6X0I[E[&UFD0bO*O*'#$6O1/ /!%K8GY6<ZVW!"YS 6<YSW#%#,+-#+.ZU<R8H 1P.N*UV/82 B *PLPT82    #+#.%++### #?J.**%FF1L")!)""fP0VUOPL0NOJ-&'#QK