SDUS64 KLIX 261102 NSSLIX >L/!v>N0 L?L<P STORM STRUCTURE P RADAR ID 545 DATE/TIME 11:26:23/11:02:23 NUMBER OF STORM CELLS 36 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 W7 92/ 46 < 3.8 23.1 8 45 8.1 P D8 175/ 92 <10.9 14.6 6 45 10.9 P E9 133/107 <13.9 18.6 5 42 13.9 P I3 101/ 68 < 6.7 13.3 3 42 6.7 P V8 156/ 95 <11.5 15.6 3 40 11.5 P U1 116/ 51 < 4.4 12.7 3 41 6.7 P J9 259/ 16 < 0.9 12.5 3 42 12.4 P Q9 126/101 <12.3 17.0 3 38 12.3 P Z8 253/ 90 <10.7 13.6 2 39 10.7 P Z1 107/ 76 < 8.0 15.0 2 39 8.0 P STORM STRUCTURE P RADAR ID 545 DATE/TIME 11:26:23/11:02:23 NUMBER OF STORM CELLS 36 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 K9 242/ 40 < 3.1 12.0 2 39 12.0 P U2 34/ 12 2.0 12.4 2 44 12.4 P H7 242/ 66 < 6.5 12.1 2 37 6.5 P I9 258/ 34 < 2.7 13.0 2 37 13.0 P I7 168/ 39 4.8 13.7 2 38 11.0 P W6 257/ 52 < 4.7 11.9 2 38 11.9 P N4 97/ 22 2.2 9.5 2 40 6.1 P L9 188/ 54 < 5.0 6.8 1 39 5.0 P B9 168/ 65 < 6.4 9.1 1 37 6.4 P S8 52/ 81 < 8.8 12.4 1 37 12.4 P STORM STRUCTURE P RADAR ID 545 DATE/TIME 11:26:23/11:02:23 NUMBER OF STORM CELLS 36 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 M7 237/ 72 < 7.6 10.5 1 35 7.6 P O9 199/ 63 < 6.2 8.7 1 35 6.2 P W9 253/ 68 < 6.9 9.6 1 34 6.9 P X9 58/ 82 < 9.0 12.7 1 35 12.7 P X8 100/ 35 9.9 12.6 1 41 12.6 P T7 245/ 8 5.7 7.9 1 38 7.1 P M9 54/ 35 7.2 12.5 1 37 12.5 P V6 131/ 29 < 2.0 4.8 1 37 2.0 P V9 40/ 8 5.0 11.8 1 38 11.8 P G8 164/ 50 6.5 9.0 1 36 6.5 P STORM STRUCTURE P RADAR ID 545 DATE/TIME 11:26:23/11:02:23 NUMBER OF STORM CELLS 36 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 Q6 154/ 17 < 1.1 4.4 0 35 1.8 P B8 75/ 32 < 2.3 3.8 0 34 3.8 P U9 146/ 40 6.7 8.3 0 35 8.3 P I8 90/ 38 6.4 8.4 0 35 6.4 P A0 133/ 38 6.3 8.0 0 34 8.0 P D9 350/ 3 1.7 4.4 0 38 2.6 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 300 (DEG) DEFAULT (DIRECTION) 2.5 (M/S) THRESH (MINIMUM SPEED) P 13.0 (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  Y`fmt{vW7[M-MV3Q'-*+-|[L9DfD8{`\XUxtpm-/.-|zqoFE9os**I3? Kdu~   W!&+ %dr<XGN9[C    $&()'(**)* 08eGGHGK`O6V8=[s(xU1 q{lu   Pji-C <CZ    )+.,-,*))( <7AJLL0;=GFJ9{}|.*#-6Q9c{&VZ8|[ZSsrk%''~rmZ15  %(+/38;?8$ cKPSWPt 2<F    469823-('. ``cUXdYma\FK9xBSx&'UJU2` )+V|    4|-     //-/(),-/0 .-!3FC<4H79ytmnd}yB<:751-)ZtROjdEA&'%#$%$%^bVRRNLJFI9N?N %EBI7ug_[jd_uN  0N30+:%3n%&&%&%%&TE73?.4IW6 Ra[row.*% FBr4Dw"#####&JDGEB>@N4? j_t|}uC+i  j=7|     ((/.,/-,,) *0<=A23/FL9JD52#'64VB9Yc_[.+(FC@%%%IFBFS8|p@p|$%yg6M7i4L#R6O9W&>#B6W9:`-E"H6X9B#pFX8~Wc~()emvT7%zuO"Q9/QG'++&&1]@6M96}H}%sV6? DNYP{uaN0   "ND.8;    #%''%%&&% ',51<946V9IWv2v&ZvG83RNIEZ"A:63EA""#&$<963IFQ6o!,##6B8{&&"6U9KSCS#GFI8:eTJ@e@%#QE6A0P?P"FVD9%,,%9+$&7&