Station_WP cRP cVS cPP cXL cYL WKMxKC TAU 0.3629 0.1623 0.8268 0.0129 0.0140 0.4164 0.01 IDENT: UT Hour= 1.4519 LT Hour= 7.4519 CosCHI=0.2015 YEAR=2010 UT DAY of year= 89 STARTT=1269912427 UT_dDAY= 89.06050 LT_sDAY= 89.06050 FILNM = [TK03300127] set in IDENT > FSREAD, # 0 RIQ.11111100; MMAX = 860160 Ident: [ TOMSK UNIV. DYNASONDE 10-03-30 0127UT 90°E 8pBP4It0 89.06050 RIQ.11111100] Today is: 2010/03/30 begin at 01:28:03.0 IDEBUG, IDTA (DBMS Control) = 4 1 CTYPE-Mode Constants: CTYPE STYPE RLEN RSNDG RTYPE SPRMP CYCLS ITIKS PPSET Lsecs [BP ] 0 0 0 0 4 4 0 8****** Analysis Constants: DXX DYY FGYROF DIP TAU NDTAU DMT EDFI WKMxKC NSECF DLGF 0.0800 0.0800 1.5990 74.93 0.0100 32 0.96 0.00.41638 0 0.0000000 Analysis Control: AZnt NDIM NUMV INCV UNIP MLTC KONTRL 0 -3 20 5 21 0 BKZPI MINF MAXF MINT MAXT MINR MAXR PPLM IMPT EPLM RDBW NMBR MMIN NUMVF INCV UPMO Q 81024000 1 999999 10 778 90 0 20 1 0 1 20 5 D B 0.00 PRETEC MAXT MMAXb4 MMAX NEPB NPPB NDBL NXYB JPCT MTOA TOAn TOAx mEP dE dDAY UNIP21 1720320 4680 2012 833 0 0 2017 1 512 16.5 782.5 8 4 89.06050 Old Order = TIME Before re-ordering by FREQ, with MMAX= 2012 CLAZZ: NTRY = 2; CLZ = 8.0; JM, JMAX = 63 12; Fraction sumITC>20/MMAX = 0.939 DSND organized 1889 total echoes, or 93.9%; in 12 traces; of which DSND selected 1889 useful echoes, or 93.9%; in 12 traces; NME = 0; Q = 0.000 j sITR IST IET FST FET FTR FSE FEE PSE RST RET RTR RDT XTR XDT YTR YDT ATR ADT VTR VDT DST DET 10EPT 10EDT MAN JSP 8 129 1069 1962 0.00 0.00 -5.46 0.00 0.00 0.00 0 0 -569 3 -139 75 -53 58 45 4 2 4 0 0 82 14 0 0 6 41 439 871 0.00 0.00 3.79 0.00 0.00 0.00 0 0 743 4 -38 27 -140 84 35 3 -3 5 0 0 102 13 0 0 11 26 1166 1700 0.00 0.00 5.12 0.00 0.00 0.00 0 0 618 17 -36 50 120 63 40 3 4 26 0 0 104 14 0 0 10 48 1165 1840 0.00 0.00 5.16 0.00 0.00 0.00 0 0 705 24 -61 40 -164 79 40 5 -13 6 0 0 103 14 0 0 9 193 1102 1688 0.00 0.00 4.97 0.00 0.00 0.00 0 0 616 18 -14 43 3 54 51 5 8 7 0 0 69 16 0 0 1 370 22 411 0.00 0.00 1.55 0.00 0.00 0.00 0 0 112 1 -34 23 -3 33 49 3 0 25 0 0 73 15 0 0 7 94 806 1661 0.00 0.00 4.36 0.00 0.00 0.00 0 0 539 7 -38 24 -202 89 43 4 25 65 0 0 90 14 0 0 2 20 173 346 0.00 0.00 1.71 0.00 0.00 0.00 0 0 224 1 -57 41 7 11 40 2 -35 9 0 0 123 13 0 0 5 89 426 763 0.00 0.00 3.72 0.00 0.00 0.00 0 0 497 3 -35 44 -70 64 39 4 3 7 0 0 93 14 0 0 4 466 423 1995 0.00 0.00 -4.75 0.00 0.00 0.00 0 0 -281 1 -37 26 -22 26 57 6 3 8 0 0 57 17 0 0 3 389 421 1719 0.00 0.00 4.36 0.00 0.00 0.00 0 0 279 2 -11 11 -28 24 59 5 -1 10 0 0 45 17 0 0 12 24 1583 1739 0.00 0.00 5.18 0.00 0.00 0.00 0 0 397 5 -24 14 -90 49 56 7 2 2 0 0 85 15 0 0 POL rejected 0 multiple- & other traces: NIX ----- Precision Extrapolation to Penetrations with Error Estimates ---- j FSTj FETj RSTj RETj DSTj DETj 1 1.2008 1.8663 108.19 116.37 14.9039 31.3479 2 1.6801 1.7508 224.73 225.25 6.0363 20.8201 3 3.5900 5.2234 247.94 352.55 20.9781370.5161 4 -3.5758 -5.9039 -268.29 -328.82-36.1943123.3097 5 3.5851 3.8488 491.91 503.95 55.1137 42.0488 6 3.7319 3.8387 745.13 748.83 48.0173 50.3420 7 4.0868 4.6710 514.78 563.43 85.6192-22.8256 8 -4.8698 -5.7550 -550.71 -629.38 39.0178179.8843 9 4.7050 5.1624 561.46 717.18181.7413 10.3683 10 5.0864 5.2464 692.91 734.18 -9.3621******** 11 5.0582 5.1984 622.04 647.88157.6840******** 12 5.1524 5.2011 392.06 411.29518.0309220.3741 JOIN traces Je to Js: Abolish Je -Je Js LWe LWs FETe FSTs RETe RETs DETe DSTs ITRe ITRs -5 7 763 1661 3.85 4.09 504.0 514.8 42 86 89 94 -7 9 1661 1688 4.67 4.71 563.4 561.5 -23 182 183 193 -9 10 1688 1840 5.16 5.09 717.2 692.9 10 -9 376 48 Trace Consolidation; old, NEW JMAX = 12 9 -------------------------------------- Break E/Es at cusp --------------- j is ie fis fie JBWX TBWX TBFR TBWj ixR FxR HxR 1 22 411 1.1721 1.8781 1 0.3904 0.3904 0.1415 1 224 1.6024 125.38 BreakE cusp: 1 1.8504 115.71 TBWij: Trace Relative Bandwidths. Simple ordering (No O/X pairs) Column j: Row i: i=j: BW vs. minmaxF Upper: j > i: Overlap BW relative to i Lower: j < i: Overlap BW relative to j Row i, Col: j=1 2 3 4 5 6 7 8 9 1 0.14 0.11 0 0 0 0 0 0 0 2 1.00 0.02 0 0 0 0 0 0 0 3 0 0 0.35 0 0.07 0 1.00 0.09 0.03 4 0 0 0 0.50 0 0.38 0 0 0 5 0 0 1.00 0 0.02 0 1.00 0 0 6 0 0 0 1.00 0 0.19 0 0 0 7 0 0 0.98 0 0.06 0 0.35 0.08 0.03 8 0 0 1.00 0 0 0 1.00 0.03 0.33 9 0 0 1.00 0 0 0 1.00 0.95 0.01 TBWij: Trace Overlap BinCounts. Simple ordering (No O/X pairs) Column j: Row i: i=j: BC rel. to Total SITR= 1889.0 Upper: j > i: Olap BC i rel. to i+j Lower: j < i: Olap BC j rel. to i+j Row i, Col: j=1 2 3 4 5 6 7 8 9 1 0.20 0.64 0 0 0 0 0 0 0 2 0.36 0.01 0 0 0 0 0 0 0 3 0 0 0.21 0 0.69 0 0.51 0.74 0.27 4 0 0 0 0.25 0 0.73 0 0 0 5 0 0 0.31 0 0.02 0 0.36 0 0 6 0 0 0 0.27 0 0.07 0 0 0 7 0 0 0.49 0 0.64 0 0.22 0.78 0.20 8 0 0 0.26 0 0 0 0.22 0.01 0.06 9 0 0 0.73 0 0 0 0.80 0.94 0.01 PROXT: Trace Start/End Proximities. Simple ordering; (No O/X pairs). Row i. Column j. i=j: Naturally Vacant. PROXT only if > 5 (~20% rel(F + R)). i < j (Upper): jStart, iEnd i > j (Lower): jEnd, iStart Row i, Col: j=1 2 3 4 5 6 7 8 9 1 0 2 0 3 0 4 0 5 0 6 0 7 0 8 0 9 8 0 NOMULTS: compare traces MUL k1 k2 RTR1 RTR2 DMUL 2 1 2 111.695 224.017 0.003 2 3 5 279.394 743.434 0.284 2 3 7 279.394 565.184 0.011 Test k2 as mul*k1. Q21 = REL(mul*R1,R2). CJG sums +- in bins, depending if Q21<.1 NOMULT k1 IT1 FST1 FET1 RTR1 k2 IT2 FST2 FET2 RTR2 CJG R1M R2M Q21 NIX -mul NB -k2 A12M 3 389 3.6 5.2 279.4 7 424 3.6 5.2 565.2 16.0 276.1 537.5 1.000 -200 -2 18 -7 NOMULT kills jj for proximity to k2 NOMULT k2 ITRk2 FSTk2 FETk2 RTRk2 jj ITRjj FSTjj FETjj RTRjj NIX mul Prox 7 424 3.6 5.2 565.2 8 26 5.1 5.2 617.6 -112 2 3 3 5 279.394 743.434 0.120 2 4 6 281.226 568.875 0.011 RejectHiFlat: j, NIXj = 5 -699 RST, RET, RTR = 745.13 748.83 743.43 RELsr, RELer = 0.0023 0.0072; TOL = 0.030 PNOX: E/F (= i/j) RTR transitions at FCES; i,j <0 maybe; >0 confirmed. i ITRi FSi FEi RTRi j ITRj FSj FEj RTRj DSE FCES JNZO: Is j z//o? RD=Rz/Ro~.94; build TO; if>8 make new jz: JNZO j ISTj IETj ITRj FSTj FETj RTRj YRTj YRTz RD Qoz CJG TO NB jz ISTz IETz ITRz FSTz FETz RTRz Qjzo 3 421 1719 389 3.6 5.2 279.39 -7.36 -5.83 0.89 1.20 5.50 20.58 14 Ajzo 3 950 1719 199 4.4 5.2 294.4 10 421 948 190 3.6 4.2 253.2 AZOXo: [o 3z10] TOz,o,x= 20.58 20.58 0.00 AZOXz: [z10o 3] TOz,o,x= 20.58 20.58 0.00 Qjzo 7 426 1840 424 3.6 5.2 565.18 -8.17 -10.86 0.89 1.39 8.00 24.00 9 Ajzo 7 958 1840 301 4.4 5.3 608.7 11 426 936 123 3.6 4.2 502.8 AZOXo: [o 7z11] TOz,o,x= 24.00 24.00 0.00 AZOXz: [z11o 7] TOz,o,x= 24.00 24.00 0.00 End JNZO; old, new JMAX = 9 O/X conjugates? Yes, if TO>1 (=CJG*sqrtNB); (CJG tests slopes, RPRs); and best conjugacy by BTCJ JOKO io ITo FSTo FETo RTRo jx ITx FSTx FETx RTRx BWxo YRTo RD Qox TO NB i/j Qiojx 3 199 4.4 5.2 294.4 4 466 -3.6 -5.9-281.2 1.194 0.14 -0.96 0.39146.37 17 3 Aiojx 3 4.3 295.0 4 5.1-305.9 1.194 0.14 -0.96 0.39146.37 17 -3 AZOXo: [o 3z10x 4] TOz,o,x= 20.58 459.69 439.11 AZOXx: [x 4o 3] TOz,o,x= 0.00 439.11 439.11 Qiojx 3 199 4.4 5.2 294.4 6 129 -4.9 -5.8-568.9 1.139 0.14 -0.49 6.22-19.90 11 3 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -19.900 3 o 6 x 4.377 4.891 4 x 10 2.7 5.0 0.0 439.1 439.1 3 Qiojx 10 190 3.6 4.2 253.2 4 466 -3.6 -5.9-281.2 1.196 0.13 -0.93 0.57112.25 14 10 Aiojx 10 3.6 255.7 4 4.3-275.9 1.196 0.13 -0.93 0.57112.25 14 -10 AZOXo: [o10x 4] TOz,o,x= 20.58 357.33 336.75 AZOXx: [x 4o 3o10] TOz,o,x= 0.00 336.75 775.86 Qiojx 11 123 3.6 4.2 502.8 4 466 -3.6 -5.9-281.2 1.190 0.07 -1.84 13.58-28.21 12 11 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -28.213 4 x 11 o 3.585 4.167 10 o 10 3.6 4.2 20.6 357.3 336.7 2 Qiojx 10 190 3.6 4.2 253.2 6 129 -4.9 -5.8-568.9 1.143 0.13 -0.47 6.11 -4.00 4 10 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -4.000 10 o 6 x 3.991 4.224 4 x 7 2.7 5.0 0.0 336.7 775.9 3 Qiojx 11 123 3.6 4.2 502.8 6 129 -4.9 -5.8-568.9 1.137 0.07 -0.93 0.47 11.50 4 11 Aiojx 11 3.7 512.5 6 4.2-551.8 1.137 0.07 -0.93 0.47 11.50 4 -11 AZOXo: [o11x 6] TOz,o,x= 24.00 58.50 34.50 AZOXx: [x 6o11] TOz,o,x= 0.00 34.50 34.50 Qiojz 3 199 4.4 5.2 294.4 10 190 3.6 4.2 253.2 1.161 0.14 0.13 0.89 1.20 20.58 14 10 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n 20.579 3 o 10 z 4.377 4.960 10 z 7 4.3 5.0 20.6 357.3 336.7 1 DAZITb4 j, k, AZOX= 3 4 [o 3z10x 4] Tzox= 20.58 459.69 439.11 DAZITaf j, k, AZOX= 3 4 [ ] Tzox= 0.00 0.00 0.00 DAZITb4 j, k, AZOX= 10 0 [o10x 4] Tzox= 0.00 357.33 336.75 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n 20.579 10 o 10 x 3.590 4.224 4 x 7 2.7 5.0 0.0 357.3 336.7 2 Qiojz 3 199 4.4 5.2 294.4 11 123 3.6 4.2 502.8 1.156 0.14 0.07 1.76 10.62-31.18 12 11 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -31.177 11 o 11 x 3.585 4.167 6 x 7 4.0 4.9 24.0 58.5 34.5 2 JNXZ iz ITz FSTz FETz RTRz jx ITx FSTx FETx RTRx BWxz YRTz RD Qzx TO NB i/j Qizjx 3 199 4.4 5.2 294.4 4 466 -3.6 -5.9-281.2 1.020 0.14 -0.81 0.11 2.26 2 3 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n 2.263 4 x 3 o 4.377 5.041 3 o 7 4.4 5.2 0.0 0.0 0.0 2 DAZITb4 j, k, AZOX= 4 4 [x 4o 3o10] Tzox= 0.00 336.75 775.86 DAZITaf j, k, AZOX= 4 4 [ ] Tzox= 0.00 0.00 0.00 DAZITb4 j, k, AZOX= 3 0 [ ] Tzox= 0.00 0.00 0.00 Aizjx 3 5.0 270.4 4 5.1-335.6 1.020 0.14 -0.81 0.11 2.26 2 -3 AZOXz: [z 3x 4] TOz,o,x= 2.26 0.00 2.26 AZOXx: [x 4z 3] TOz,o,x= 2.26 0.00 2.26 Qizjx 10 190 3.6 4.2 253.2 4 466 -3.6 -5.9-281.2 1.165 0.13 -0.85 0.50-26.14 15 10 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -26.143 10 o 10 o 3.590 4.224 4 x 7 2.7 5.0 0.0 357.3 336.7 2 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -26.143 10 o 10 x 3.590 4.224 4 x 7 2.7 5.0 0.0 357.3 336.7 2 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -26.143 10 z 4 x 4.316 4.960 4 x 7 2.7 5.0 2.3 0.0 2.3 3 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -26.143 10 o 4 x 3.590 4.224 4 x 7 2.7 5.0 2.3 0.0 2.3 3 Qizjx 11 123 3.6 4.2 502.8 4 466 -3.6 -5.9-281.2 1.160 0.07 -1.70 12.29-67.20 12 11 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -67.204 11 o 11 o 3.585 4.167 6 x 7 4.0 4.9 24.0 58.5 34.5 2 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -67.204 11 o 11 x 3.585 4.167 6 x 7 4.0 4.9 24.0 58.5 34.5 2 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -67.204 11 z 4 x 4.311 4.901 6 x 7 4.0 4.9 0.0 34.5 34.5 3 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -67.204 11 o 4 x 3.585 4.167 6 x 7 4.0 4.9 0.0 34.5 34.5 3 Qizjx 10 190 3.6 4.2 253.2 6 129 -4.9 -5.8-568.9 1.143 0.13 -0.43 5.35-77.60 12 10 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -77.596 10 o 10 o 3.590 4.224 4 x 7 2.7 5.0 0.0 357.3 336.7 2 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -77.596 10 o 10 x 3.590 4.224 4 x 7 2.7 5.0 0.0 357.3 336.7 2 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -77.596 10 z 6 x 4.316 4.891 4 x 7 2.7 5.0 2.3 0.0 2.3 3 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -77.596 6 x 10 o 3.991 4.224 11 o 7 3.6 4.2 24.0 58.5 34.5 2 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -77.596 10 o 6 x 3.991 4.224 4 x 7 2.7 5.0 2.3 0.0 2.3 3 Qizjx 11 123 3.6 4.2 502.8 6 129 -4.9 -5.8-568.9 1.143 0.07 -0.85 0.46-17.39 10 11 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -17.393 11 o 11 o 3.585 4.167 6 x 7 4.0 4.9 24.0 58.5 34.5 2 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -17.393 11 o 11 x 3.585 4.167 6 x 7 4.0 4.9 24.0 58.5 34.5 2 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -17.393 11 z 6 x 4.311 4.891 6 x 7 4.0 4.9 0.0 34.5 34.5 3 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -17.393 6 x 11 o 3.991 4.167 11 o 7 3.6 4.2 24.0 58.5 34.5 2 BTCJ D J CJ L CL FsP FeP M2 C2 k Fs2 Fe2 DRZ_1 DRO_2 DRX_3 n -17.393 11 o 6 x 3.991 4.167 6 x 7 4.0 4.9 0.0 34.5 34.5 3 AZOX Table j cjjcjjcjjcjj etc. 1 2 3 z 3x 4 4 x 4z 3 5 6 x 6o11 7 o 7z11 8 9 10 o10x 4 11 o11x 6 Z, O, X Match Quality j DRZ DRO DRX 3 2.3 0.0 2.3 4 2.3 0.0 2.3 6 0.0 34.5 34.5 7 24.0 24.0 0.0 10 0.0 357.3 336.7 11 24.0 58.5 34.5 ------------Reject Es and Some Other Traces------------------ j RSTj RETj RTRj RELs RELe NIXj 2 224.73 225.25 224.02 0.0032 0.0055 -46 9 392.06 411.29 396.74 0.0119 0.0360 -40 ---------------------------------------- Determine E-layer penetrations ---------------- PNOX: E/F (= i/j) RTR transitions at FCES; i,j <0 maybe; >0 confirmed. i ITRi FSi FEi RTRi j ITRj FSj FEj RTRj DSE FCES QPNOX: FEZ JEZ FEO JEO FEX JEX FFZ JFZ FFO JFO FFX JFX -88.000 0 -88.000 0 88.000 0 88.000 0 88.000 0 -88.000 0 JEFSE: FEZ JEZ FEO JEO FEX JEX FFZ JFZ FFO JFO FFX JFX -88.000 0 1.878 1 88.000 0 0.000 0 88.000 0 -3.563 4 MANIX: FZE IEZ FOE IEO FXE IEX DOZ IFZ DOX IFO DXZ IFX 0.000 0 1.898 1 0.000 0 1.898 0 1.898 0 1.599 0 sPENEE: IEZ IFZ IEO IFO IEX IFX I2Z I2O I2X foE 0 0 1 0 0 0 0 0 0 1.8981 ---------------------------------------- Determine F-layer penetrations ---------------- Initial PENEF: zox MHz, Trace#s; Mag Conjugacy diffs/MHz; ok if < 0.1 PENEF: FZ1 JZ FO1 JO FX1 JX DOZ DOX DXZ 5.300 3 0.000 0 -6.240 4 9.000 9.000 0.100 --------Penetration Traces for SPREAD Consideration:--------- IEZ IFZ IEO IFO IEX IFX I2Z I2O I2X 0 0 1 0 0 0 0 0 4 FZE FOE FXE FZF2 FOF2 FXF2 0.000 1.898 0.000 0.0 5.4 -6.2 jj j k MANjk FCj IGj DLF1 DLFN FCk IGk RTRk RAVk NPj sumCN MMC avFSP sMCN jj OK j 3 1 0 1.90 0 1.57 2.30 Admit k 3 1 1 0 1.87 0 Add k 3 1 1 0 0 111.7 113.6 21 1 Admit k 3 1 2 0 1.75 0 jj OK j 9 4 11 6.24 8 5.16 7.55 Admit k 9 4 4 11 -5.90 8 Add k 9 4 4 -11 8-281.2-299.2 43 2 Admit k 9 4 6 0 -5.76 8 Add k 9 4 6 0 8-568.9-597.9 32 12 SPRD dDAY mFZE sFZE mFOE sFOE mFXE sFXE mFZ2 sFZ2 mFO2 sFO2 mFX2 sFX2 89.06050 0.000 0.0000 0.000 0.0000 0.000 0.0000 0.000 0.0000 0.000 0.0000 0.000 0.0000 RIQ.11111100 PENEE,F: 0.000 1.898 0.000 0.000 5.382 -6.240 TRORD: Table of traces in Standard Order: # JFRj FST RST F*R MANj NIXj 1 1 1.20 108.19 129.9 0 0 2 2 1.68 224.73 377.6 0 -46 3 10 3.59 247.94 890.1 0 -11 4 4 -3.58 -268.29 959.3 11 0 5 3 4.38 271.18 1187.1 0 -10 6 11 3.59 491.91 1763.6 0 -11 7 9 5.15 392.06 2020.0 0 -40 8 7 4.36 531.13 2317.8 0 -200 9 6 -4.87 -550.71 2681.9 0 0 10 5 3.73 745.13 2780.7 0 -699 11 8 5.06 622.04 3146.4 0 -112 123456789012 AZOX(JQ) = [x 4z 3] # JTJj FTSj TQVj 1 1 1.2008 1.521E-01 2 2 1.6801 -1.389E-05 3 4 2.6587 1.000E+00 4 6 3.9911 1.335E-03 5 9 5.1524 -5.983E-07 6 10 3.5900 0.000E+00 7 11 3.5851 0.000E+00 # JTJFP FTSJFPj TQVJFPj 1 1 1.2008 1.521E-01 2 2 1.6801 -1.389E-05 3 4 2.6587 1.000E+00 4 11 3.5851 0.000E+00 5 10 3.5900 0.000E+00 6 6 3.9911 1.335E-03 7 9 5.1524 -5.983E-07 Traces in TJF after re-ordered by JFP # JTJ FTSj FTEj TQVj MANj NIXj 1 1 1.2008 1.8663 1.521E-01 0 0 2 2 1.6801 1.7508 -1.389E-05 0 -46 3 -4 2.6587 5.0414 1.000E+00 63 0 4 11 3.5851 4.1667 0.000E+00 0 -11 5 10 3.5900 4.2245 0.000E+00 0 -11 6 -6 3.9911 4.8906 1.335E-03 0 0 7 9 5.1524 5.2011 -5.983E-07 0 -40 Selected Traces in Sequence: jk # jk TQjk j 1 1 1.521E-01 j 3 4 1.000E+00 -------TREVIEW: Prepare echo data for profile inversion------- TREVIEW: JMA O-modes, JFR-order, JMA= 4 O-traces: Traces in IAY(j) order: (F*R; O-only) IAYj: 1 10 3 11 IGj: 0 0 2 3 SrtFS 1.20 3.59 4.38 3.59 SrtFE 1.87 4.22 5.22 4.17 MANy= 62 0 0 0 NIXy= 0 -11 -10 -11 ITRy= 370 190 199 123 XYTy= 34.2 33.1 37.8 102.2 RTRy= 111.7 253.2 294.4 502.8 BWjj=0.14150.00000.34730.0000 TREVIEW: selected O-traces: JAC= 1 O-traces: JTP 1 MAN= 62 FST= 1.20 FET= 1.87 RST= 108.2 RET= 116.4 RTR= 111.7 XYT= 34.2 Daytime START = 90.00 TREVIEW ECHO-selection details: INN jj IGj JPOL JOLD FLO FSjj FEjj RSjj REjj FTOP foE FOPEAK 29 1 0 1 1 1.87 1.17 1.87 108.2 116.4 1.90 1.90 5.38 30 put FOE=FLO= 1.898 51 -4 8 2 1 1.90 -3.56 -6.00 -268.6 -340.9 POLAN O-Trace Summary LTI SttFMHz EndFMHz 1 1.1768 1.8981 0 0.0000 0.0000 TOMSK UNIV. DYNASONDE 10-03-30 0127UT 90°E 8pBP4It0 89.06050 RIQ.11111100 FB= 1.5990 MHz., DIP= 74.9330 START= 90.0 Km. AMODE= 0.0 VALLEY= -1.0 LIST= 0 POLAN95 Valley, Peak & error log output POLANA.f90 Last change: jet 2/04/04 11:44:00 PEAK 2.334 (±0.141) MHz, Height 113.4 (± 1.5) km. ScaleHt -7.4 (± 0.5) km SlabT 10.8 km >>>>error at section-2.2 55. f,h = -3.91 262.29 -3.95 264.08 0.00 0.00 0.00 0.00 0.00 0.00 0.00 0.00 >>>> end =-2.2: 33 26 6 6 104.38 1.74 2.33 0.00 55 1 0 0 0 0 16 6 109.39 2.33 0.00 7.44 8.08 0.00 0.00 0.00 -------------------------------------- NeXtYZ v. 1.2 Full ----------------------- TLocal yDay sLat sFlux aKp 7.1164 89.2965 56.4486 120.0 2.0 foE fxE foF2 fxF2 mFOE mFXE mFO2 mFX2 1.8981 0.0000 5.3817 6.2402 0.0000 0.0000 0.0000 0.0000 ChapFm ChapZm ChapH 5.2378 230.9137 27.8 cEmax cDhght cVwdth cEhght cEfreq cEFslpe ZProf(0,7) ZProf(0,8) 1.0000 0.7589 1.0162 0.0000 0.0000 0.0000 0.0000 0.0000 Prof(0,9) ZProf(0,10) NoEusd AvEpol AvEaz AvFpol AvFaz 0.0000 0.0000 526.0000 17.3580 175.6726 8.7358 209.3712 ------------------------------------ end NeXtYZ ----------------------------- ------------------------------------VFITH results, in log(R) true range intervals------------------------ HTOP FTOP Vx dVx Vy dVy Vz dVz RSQP VM dVM VB dVB IGU 95.1734 1.2953 15.8 29.8 3.9 13.7 8.1 29.2 0.402 5.8 15.8 6.8 28.1 7 101.2043 1.6750 17.4 144.1 14.9 34.1 4.8 71.6 0.374 15.6 36.0 0.8 70.7 40 Day FMXE HMXE SHE FMXF HMXF SHF bTEC tTEC aTEC rTEC FileName 89.06050 2.298 114.13 10.41 5.238 230.91 27.79 2.037 2.667 4.704 1.309 RIQ.11111100 Old Order = FREQ Before re-ordering by TIME, with MMAX= 2012 -------------------------------VFITefVSB results, E, F region Averages ------------- dDAY NTR VX dVX VY dVY VZ dVZ PQ VM dVM VB dVB INFILE 89.06050 999 -2.8 38.7 4.4 11.0 -0.7 38.9 50.8 4.1 15.2 -1.9 37.5 RIQ.11111100 89.06050 998 -2.9 30.3 2.7 2.8 3.8 31.7 90.2 3.6 8.8 3.0 30.6 RIQ.11111100 ---------------------------------- Mesospheric VFITMimp ---------------------------------- dDAY jm VX dVX VY dVY VZ dVZ PQ HPN HPM HPX INFILE In VFITM, of 0, 0 are f<4.3 --------------Pulset PULSF Structure Functions-------------- j LG Dlag_1 Dlag_2 Dlag_3 Dlag_4 3*B SIA SIB CHI 1 4 0.00000 0.00001 0.00003 0.00005 0.31645 Noise loss of lags: LG in trace j: 0 1 4 4 0.00006 0.00051 0.00142 0.00278 0.07013 Noise loss of lags: LG in trace j: 0 4 6 4 0.00014 0.00127 0.00353 0.00691 0.07641 Noise loss of lags: LG in trace j: 0 6 DSND organized 1889 total echoes, or 93.9%; in 11 traces; of which DSND selected 965 useful echoes, or 48.0%; in 3 traces; NME = 0; Q = 0.000 j sITR IST IET FST FET FTR FSE FEE PSE RST RET RTR RDT XTR XDT YTR YDT ATR ADT VTR VDT DST DET 10EPT 10EDT MAN JSP 1 370 22 411 1.20 1.87 1.55 0.00 0.00 0.00 108 116 112 1 -34 23 -3 33 49 3 0 25 15 31 73 15 62 0 4 466 423 1995 -3.58 -5.90 -4.75 0.00 -6.24 0.00 -268 -329 -281 1 -37 26 -22 26 57 6 3 8 -36 123 57 17 63 0 6 129 1069 1962 -4.87 -5.76 -5.46 0.00 -6.02 0.00 -551 -629 -569 3 -139 75 -53 58 45 4 2 4 39 180 82 14 0 0 POL rejected 8 multiple- & other traces: NIX 2 20 173 346 1.68 1.75 1.71 0.00 0.00 0.00 225 225 224 1 -57 41 7 11 40 2 -35 9 6 21 123 13 -46 0 10 190 421 948 3.59 4.22 3.89 0.00 0.00 0.00 248 265 253 1 -10 10 -32 24 57 4 1 3 21 46 48 16 -11 0 3 199 950 1719 4.38 5.22 4.82 0.00 5.30 0.00 271 353 294 2 -12***** -36 25 61 4 -4265589 35 371 43 17 -10 0 11 123 426 936 3.59 4.17 3.84 0.00 0.00 0.00 492 520 503 3 -35 44 -96 89 41 5 3 6 55 42 94 14 -11 0 9 24 1583 1739 5.15 5.20 5.18 0.00 0.00 0.00 392 411 397 5 -24 14 -90 49 56 7 2 2 518 220 85 15 -40 0 7 301 958 1840 4.36 5.25 4.90 0.00 0.00 0.00 531 712 609 21 -30 36 -53 98 48 7 7 22 127 306 77 16 -200 0 5 41 439 871 3.73 3.84 3.79 0.00 0.00 0.00 745 749 743 3 -38 24 -140 70 35 3 -3 6 48 50 102 13 -699 0 8 26 1166 1700 5.06 5.20 5.12 0.00 0.00 0.00 622 648 618 11 -36 74 120 100 40 3 4 24 158 -107 104 14 -112 0 [ TOMSK UNIV. DYNASONDE 10-03-30 0127UT 90°E 8pBP4It0 89.06050 RIQ.11111100]. Done 2010/03/30 at 01:29:42.6; *********************** MMAX= 2012: DSND normal termination