*** Hypoellipse: PC/Non-Xpick/Y2K version 3.9 11/1/2001 *** Configured for up to 140 stations in station list and up to 70 records per earthquake. Run on 01/11/01 at 10:48 c* sample input control file for hypoellipse jump control.dat alaska input extra calibration curves. qspa( 9) -4.07-3.74-3.47-3.04-2.60-2.35-2.07-1.71-1.42-1.14 -.87 -.65 -.43 -.20 -.03 .20 .39 .57 .73 .85 .94 1.03 1.11 1.20 1.29 1.38 1.46 1.54 1.62 1.68 1.69 1.68 1.54 1.39 1.09 .86 .56 .23 -.34 -.66 scan for missing stations. code = 0 global minimum search turned on arrival-time record blank source fields will be assumed to be source "v" subroutine input1 found end of file on unit 12 list of stations available for these solutions alaska begin station list -1 19821001 station list code = -1 set up for events starting on 19821001 name latitude longitude elev p thickness p p pdy1 sdy1 pdy2 sdy2 pdy3 sdy3 pdy4 sdy4 pdy5 sdy5 calr xmgc mgwt fmgc wt * continuation record * thk 1 2 mod dly sys ps polarity stawt teldy code altdy cnyrmody hr alaska test variables description standard reset to 1 1.7800 1.7800 ratio of p-wave velocity to s-wave velocity. 2 5.0000 5.0000 lt 0 no elev cor/ =0 use 1st vel/ gt 0 use this. 3 .0000 .0000 first trial latitude in degrees. 4 .0000 .0000 first trial longitude in degrees. 5 -99.0000 -99.0000 first trial depth in kilometers, unless = -99. 6 .0000 .0000****sphere rad for aux rms values. if neg cont iteration at most neg point. 7 10.0000 -10.0000****minimum number of first motions required to plot. 8 .0000 .0000 elevation of top of layered models (km). 9 .0000 270.0000****if 0 allow neg depths in summary and archive files. 10 50.0000 5.0000****apply distance weighting on this iteration. 11 50.0000 25.0000****xnear = greatest distance with weight of 1.0 12 100.0000 100.0000****xfar = least distnace with weight of 0.0 13 50.0000 50.0000 apply azimuthal weighting on this iteration. 14 50.0000 7.0000****weight out large residuals on this iteration. 15 10.0000 6.0000****give zero weight to residuals gt this. 16 50.0000 50.0000 apply boxcar weighting on this iteration. 17 2.0000 2.0000 give zero weight to residuals gt this*stand. dev. 18 50.0000 50.0000 begin jeffreys weighting on this iteration. 19 .0500 .0500 use jeffreys weighting only if rms gt this. 20 .0500 .0500 mu of jeffreys weighting funct. 21 9.0000 20.0000****maximum number of iterations. 22 35.0000 35.0000 limit change in focal depth to this amount (km). 23 .7000 .7000 if delz would make z neg, set delz = -this*z (km). 24 35.0000 35.0000 limit change in epicenter to this. (km). 25 40.0000 40.0000 fix depth if epicentral change gt this. (km). 26 .0025 .0025 stop iterating if square of adjustment lt this. 27 20.0000 20.0000 global opt: if deep solution z > this, continue with z 1/2 way to surface. 28 .0000 -10.0000****for fixed hypo on plane, set = plunge azimuth. if neg. continue as free sol. 29 -.1000 -.1600****set std err of res=+this if degrees of freedom =0 or =-this if this lt 0. 30 .0000 .0000 dip of plunge vector for epi. fixed on plane. see test(28) & (47) also. 31 -1.1500 -1.3500****duration magnitude c1, constant. 32 2.0000 2.0000 duration magnitude c2, *log((f - p)*fmgc). 33 .0000 .0000 duration magnitude c3, *delta. 34 .0000 .0000 if not 0, scale the normal equations. 35 .0010 .0010 minimum damping of normal equations. 36 100.0000 4.0000****maximum first trial depth if computed from p-arrival times. 37 3.0000 7.0000****if termination occurs before this iteration, set iteration number to this and continue. 38 .0000 2.0000****if this =1, run all with and then without s/ =2,run with s/ =3, run without s/ =4, fix hypo / neg, use s to fix origin. 39 1.0000 1.0000 multiply the s and s-p weights by this factor. 40 .0070 .0070 duration magnitude c4, *depth. 41 .0000 .0000****if this =1, print opt. ge 1, & summary opt. =+ or -1, then write sum. record each itteration. 42 75.0000 75.0000 global opt: deep starting z wrt top of model. 43 .0000 .0000 duration magnitude c5, *(log((f - p)*fmgc)**2). 44 .0000 1.0000****if =1 rerun debug eqs with critical sta/ =2 continue iter with crit sta. 45 .1379 .1379 x scale factor for focal mechanism plot. 46 .0000 10.0000****xfar set ge dist of test(46)th station + 10. if lt 0 then fill gap. 47 .0000 .0000****weight for fix on plane. see test(28) and (30). 48 6.5000 6.5000 half-space velocity for first trial location. 49 .0000 1.0000****if .ne. 0 calculate vp/vs ratio; if abs val >1 make wadati plot; if neg, use wadati origin in solution. 50 .0000 .0000 for exploring rms space, compute this number of fixed depth solutions (up to 22). 51 1000.0000 400.0000****for epicentral distance beyond this, use first travel-time table. 52 2800.0000 2800.0000 Wood Anderson static magnification assumed for local magnitude determination. 53 1.0000 1.0000 if .eq. 1 stations with 4-letter codes ending e or n treated as horizontals. 54 200.0000 200.0000 if 1st computed trial location > this (km) from closest station, start at closest station. 55 19.0000 19.0000****assumed century for events without summary record. weight option - relative standard errors for code: 0 1 2 3 1.000 5.000 10.000 20.000 printer option 1 summary option 2 magnitude option 3 tabulation option 4 no event output -2 one line/eq -1 final solution 0 no sum records 0 use xmag 0 no summary 0 one line per iter 1 summary records 1 use fmag 1 a 1 sta res each iter 2 sum + archive file 2 use (xmag+fmag)/2 2 a + b 2 regres each iter 3 archive file 3 prefer fmag /xmag 3 a,b + c 3 "corrected" input 4 prefer xmag /fmag 4 a,b,c + d 4 if neg use fms not fmp positive/q from std errors negative/q from sol+sta u of a cal data file: pub1:[alaska.data]uofacal.dat make compensating change in layer below variable layer. velocity model 1 layer velocity depth thickness vpvs km/sec km km 1 6.400 .000 39.000 1.780 2 8.000 39.000 1000.000 1.780 iaspei91 P model vp/vs = -1.78000 z .00 20.00 20.00 35.00 35.00 77.50 120.00 165.00 210.00 210.00 260.00 310.00 v 5.80 5.80 6.50 6.50 8.04 8.05 8.05 8.18 8.30 8.30 8.48 8.66 dd 20.0000 11 92.6667 30 dz 5.0000 4 10.9524 21 iaspei91 S model vp/vs = 1.00000 z .00 20.00 20.00 35.00 35.00 77.50 120.00 165.00 210.00 210.00 260.00 310.00 v 3.36 3.36 3.75 3.75 4.47 4.49 4.50 4.51 4.52 4.52 4.61 4.70 dd 20.0000 11 92.6667 30 dz 5.0000 4 10.9524 21 jump to phases.dat ---------------------------------------------------------------- ---------------------------------------------------------------- ---------------------------------------------------------------- 82/10/08 01:30 alaska vp/vs ratio std. error of vp/vs date hrmn origin s-intercept estimated std. er. std. er. used 1) s vs p 1.8814 .0296 821008 130 47.28 -41.67 .69 .69 2) p vs s 1.8719 .0136 821008 130 47.09 -41.06 .16 .16 3) bi-weight 1.8720 .0326 821008 130 47.08 -41.06 station prmk p-time p-wt srmk s-time s-wt deviation from line vlz ipu0 53.63 1.00 es 59.04 1.00 -.14 cfi ep 2 57.78 .01 is 66.31 1.00 -.38 saw ipu0 60.93 1.00 es 73.38 1.00 .18 bmr ep 1 64.45 .04 es 80.36 1.00 .36 skn ep 0 83.60 1.00 es 115.33 1.00 -.05 compute starting parameters from the first 9 p-arrival times. ( adjustments )(adjst. taken) i lat long depth rms prms damp no phi --------eigenvalues--------- dlat dlon dz dlat dlon dz 61 146 1 49.2 42.1 .0* 3.1089 1.5999 .10E-02 18 14.0 .3187E+00 .7437E-01 .1000E-02 -20. -10. .00 -20. -10. .00 2 38.6 30.5 .0* 1.5114 1.4801 .10E-02 18 14.0 .3504E+00 .7845E-01 .1000E-02 -3.5 2.15 .00 -3.5 2.15 .00 3 36.7 33.0 .0* 1.4765 1.4754 .10E-02 18 14.0 .3494E+00 .7717E-01 .1000E-02 -.66 .377 .00 -.66 .377 .00 4 36.4 33.4 .0* 1.4752 1.4752 .10E-02 18 14.0 .3516E+00 .7713E-01 .1000E-02 -.13 .061 .00 -.13 .061 .00 apply distance weighting 5 36.3 33.5 .0* .92781 .57375 .10E-02 14 10.0 .1939E+00 .3679E-01 .1000E-02 -8.3 2.83 .00 -8.3 2.83 .00 6 31.8 36.7 .0* .55548 .55487 .10E-02 14 10.0 .2130E+00 .3871E-01 .1000E-02 -.24 .197 .00 -.24 .197 .00 apply truncation weighting 61 146 7 31.7 36.9 .0* .55484 .55484 .10E-02 14 10.0 .2138E+00 .3875E-01 .1000E-02 -.02 .010 .00 -.02 .010 .00 ( adjustments )(adjst. taken) i lat long depth rms prms damp no phi --------eigenvalues--------- dlat dlon dz dlat dlon dz 61 146 1 49.2 42.1 75.0* 4.7677 2.1172 .10E-02 18 14.0 .1925E+00 .3333E-01 .1000E-02 -68. -5.1 .00 -35. -2.6 .00 2 30.4 39.2 75.0* 3.1445 2.7062 .10E-02 18 14.0 .2079E+00 .2968E-01 .1000E-02 -24. -3.9 .00 -24. -3.9 .00 3 17.6 34.9 75.0* 2.8580 2.7535 .10E-02 18 14.0 .2065E+00 .2661E-01 .1000E-02 17.7 -4.1 .00 17.7 -4.1 .00 4 27.1 30.3 75.0* 2.8557 2.7593 .10E-02 18 14.0 .2027E+00 .2794E-01 .1000E-02 -16. 4.74 .00 -16. 4.74 .00 apply distance weighting 5 18.3 35.6 75.0* 2.3520 2.3220 .10E-02 14 10.0 .9413E-01 .1142E-01 .1000E-02 5.02 1.21 .00 5.02 1.21 .00 6 21.0 36.9 75.0* 2.3291 2.3263 .10E-02 14 10.0 .9490E-01 .1211E-01 .1000E-02 -2.5 .584 .00 -2.5 .584 .00 apply truncation weighting 61 146 7 19.6 37.6 75.0* 2.3277 2.3267 .10E-02 14 10.0 .9517E-01 .1186E-01 .1000E-02 1.47 -.51 .00 1.47 -.51 .00 8 20.4 37.0 75.0* 2.3274 2.3270 .10E-02 14 10.0 .9493E-01 .1200E-01 .1000E-02 -.93 .336 .00 -.93 .336 .00 9 19.9 37.4 75.0* 2.3272 2.3271 .10E-02 14 10.0 .9510E-01 .1191E-01 .1000E-02 .583 -.21 .00 .583 -.21 .00 10 20.2 37.2 75.0* 2.3272 2.3271 .10E-02 14 10.0 .9499E-01 .1196E-01 .1000E-02 -.37 .135 .00 -.37 .135 .00 11 20.0 37.3 75.0* 2.3271 2.3271 .10E-02 14 10.0 .9506E-01 .1193E-01 .1000E-02 .233 -.09 .00 .233 -.09 .00 12 20.1 37.2 75.0* 2.3271 2.3271 .10E-02 14 10.0 .9502E-01 .1195E-01 .1000E-02 -.15 .054 .00 -.15 .054 .00 13 20.1 37.3 75.0* 2.3271 2.3271 .10E-02 14 10.0 .9504E-01 .1194E-01 .1000E-02 .093 -.03 .00 .093 -.03 .00 14 20.1 37.2 75.0* 2.3271 .0000 .37E-01 14 10.0 .9504E-01 .1194E-01 .1000E-02 -.09 .034 .00 15 20.1 37.3 75.0* 2.3271 2.3271 .37E-01 14 10.0 .1310E+00 .4793E-01 .3699E-01 .023 -.01 .00 .023 -.01 .00 ( adjustments )(adjst. taken) i lat long depth rms prms damp no phi --------eigenvalues--------- dlat dlon dz dlat dlon dz 61 146 1 20.1 37.3 75.0 2.8429 1.1168 .10E-02 18 14.0 .2129E+00 .5835E-01 .2708E-01 14.3 -1.9 -41. 12.2 -1.6 -35. 2 26.6 35.4 40.0 1.3220 1.1473 .10E-02 18 14.0 .2679E+00 .4962E-01 .1738E-01 -1.3 1.76 -16. -1.3 1.76 -16. 3 25.9 37.4 24.3 .75583 .60265 .10E-02 18 14.0 .3794E+00 .1337E+00 .4983E-01 5.55 -.58 .826 5.55 -.58 .826 4 28.9 36.8 25.1 .60134 .60114 .10E-02 18 14.0 .3676E+00 .1341E+00 .4928E-01 .129 -.02 -.17 .129 -.02 -.17 apply distance weighting 5 29.0 36.7 25.0 .40723 .30992 .10E-02 14 10.0 .2032E+00 .3722E-01 .1934E-01 .743 .347 2.88 .743 .347 2.88 6 29.4 37.1 27.8 .30959 .30847 .10E-02 14 10.0 .1988E+00 .3985E-01 .2566E-01 .152 -.04 -.36 .152 -.04 -.36 apply truncation weighting 61 146 7 29.5 37.1 27.5 .30844 .30844 .10E-02 14 10.0 .1991E+00 .3971E-01 .2560E-01 .000 .000 -.01 .000 .000 -.01 ( adjustments )(adjst. taken) i lat long depth rms prms damp no phi --------eigenvalues--------- dlat dlon dz dlat dlon dz 61 146 1 31.7 36.9 10.0* 1.0714 1.0410 .10E-02 18 14.0 .3689E+00 .7479E-01 .1000E-02 3.30 -1.4 .00 3.30 -1.4 .00 2 33.5 35.3 10.0* 1.0364 1.0357 .10E-02 18 14.0 .3587E+00 .7562E-01 .1000E-02 .460 -.24 .00 .460 -.24 .00 3 33.7 35.0 10.0* 1.0356 1.0356 .10E-02 18 14.0 .3572E+00 .7573E-01 .1000E-02 .066 -.03 .00 .066 -.03 .00 4 33.7 35.0 10.0* 1.0356 1.0356 .10E-02 18 14.0 .3570E+00 .7574E-01 .1000E-02 .009 .00 .00 .009 .00 .00 apply distance weighting apply truncation weighting 61 146 7 33.7 35.0 10.0* .64648 .52836 .10E-02 14 10.0 .2030E+00 .3774E-01 .1000E-02 -4.3 1.75 .00 -4.3 1.75 .00 8 31.4 37.0 10.0* .52286 .52263 .10E-02 14 10.0 .2133E+00 .3848E-01 .1000E-02 -.17 .101 .00 -.17 .101 .00 9 31.3 37.1 10.0* .52262 .52262 .10E-02 14 10.0 .2138E+00 .3851E-01 .1000E-02 -.01 .005 .00 -.01 .005 .00 ( adjustments )(adjst. taken) i lat long depth rms prms damp no phi --------eigenvalues--------- dlat dlon dz dlat dlon dz 61 146 1 31.3 37.1 10.0 1.0836 .67917 .10E-02 18 14.0 .3743E+00 .1103E+00 .4034E-01 -2.0 -.19 12.5 -2.0 -.19 12.5 2 30.3 36.8 22.5 .64190 .60237 .10E-02 18 14.0 .3659E+00 .1282E+00 .4998E-01 -2.2 -.14 2.40 -2.2 -.14 2.40 3 29.1 36.7 24.9 .60120 .60113 .10E-02 18 14.0 .3672E+00 .1337E+00 .4931E-01 -.13 .027 .017 -.13 .027 .017 4 29.0 36.7 24.9 .60113 .60113 .10E-02 18 14.0 .3674E+00 .1338E+00 .4932E-01 .00 .001 .002 .00 .001 .002 apply distance weighting apply truncation weighting 61 146 7 29.0 36.7 24.9 .40715 .30993 .10E-02 14 10.0 .2032E+00 .3722E-01 .1933E-01 .732 .350 2.89 .732 .350 2.89 8 29.4 37.1 27.8 .30959 .30847 .10E-02 14 10.0 .1988E+00 .3984E-01 .2566E-01 .152 -.04 -.36 .152 -.04 -.36 9 29.5 37.1 27.5 .30844 .30844 .10E-02 14 10.0 .1991E+00 .3970E-01 .2560E-01 .000 .000 -.01 .000 .000 -.01 9 29.5 37.1 27.5 .30844 .30844 .10E-02 14 10.0 .1981E+00 .3870E-01 .2460E-01 .000 .000 -.01 .00 .00 .00 -az/dp--step---se =az/dp==step===se -az/dp--step---se 298/11 -.001 .672 198/43 .0040 1.91 39/45 -.004 1.52 horizontal and vertical single variable standard deviations (68% - one degree of freedom; max 99 km) seh = .39 seh = .93 sez = .90 quality = a az = -65. az = 25. se of orig = .11; # of iterations = 9; dmax = 244.34; sequence number = event type = " "; processing status = " " s minus p interval for closest station = 5.41 date origin lat long depth mag no d1 gap d rms avwt se 19821008 130 45.22 61n29.48 146w37.08 27.48 1.754 14 43 169 1 .3084 1.00 .16 61.4914 146.6179 seh sez q sqd adj in nr avr aar nm avxm mdxm sdxm nf avfm mdfm sdfm vpvs .9 .9 c c c .39 10 19 .0000 .268 0 .0 8 1.75 1.75 .3 1.872 -- travel times and delays -- stn c pha remk p p-sec s-sec resid std-er dist azm ain tc c vthk ttob-ttcal-dlay-edly=resid rmk stn pha sources vlz z ipu0 c 53.90 .44 .16 42.9 159 123 -.270 1 8.41 7.96 .002 .44 vlz vlz z s es 59.31 -.36 .16 123 -.270 1 13.82 14.18 .003 -.36 vlz s cfi z ep 2 57.78 .74 1.69 70.5 241 111 1 12.56 11.82 .000 .74 cfi cfi z s is 66.31 .05 .17 111 1 21.09 21.03 .001 .05 cfi s saw z ipu0 c 60.93 -.22 .18 97.5 292 106 1 15.71 15.83 .098 -.22 saw saw z s es 73.38 -.19 .18 106 1 28.16 28.18 .174 -.19 saw s knk z ipu0 c 61.70 .43 .19 98.4 266 106 1 16.48 15.97 .078 .43 knk bmr z ep 1 64.45 -.56 1.04 122.9 117 103 1 19.23 19.68 .107 -.56 bmr bmr z s es 80.36 -.09 .21 103 1 35.14 35.04 .190 -.09 bmr s prg z ep 0 68.43 .10 .25 146.9 243 53 1 23.21 23.10 .009 .10 prg pms z ep 4 70.41 .37 ----- 159.7 261 53 1 25.19 24.70 .112 .37 pms pms z s es 88.95 -.44 .28 53 1 43.73 43.97 .199 -.44 pms s ssn z ipu0 c 78.73 .42 .93 219.8 271 53 1 33.51 32.22 .670 .203 .42 ssn skl z ep 1 79.02 .98 5.22 223.0 242 53 1 33.80 32.61 .100 .108 .98 skl bal z ipd0 d 79.52 .01 2.24 234.8 101 53 1 34.30 34.09 .203 .01 bal skn z ep 0 23.60 .41 d ----- 265.2 284 53 1 38.38 37.89 .088 .41 skn skn z s es 55.33 2.52 d ----- 53 1 70.11 67.44 .157 2.52 skn s brlk z ep 0 88.12 .24 d ----- 302.6 232 53 1 42.90 42.56 .099 .24 brlk adk z ep 0 04.00 .29 d ----- 2102.5 253 40 12 258.78258.47 .020 .29 adk -- magnitude data -- stn c source sys c10 amx gr ink amf per unit/mm gnd mot u xmgc xmag fmp fmag vlz z 14 1.13* cfi z 40 2.05 saw z 27 1.71 knk z 39 2.02 bmr z 25 1.64 prg z 27 1.71 pms z 30 1.80 bal z 37 1.98 missing station delta azim ex-gap rd-gap aaaz 58.5 200.7 82.3 40.6 depth may decrease by .91 or increase by .86 given a reading standard error of .160 and rms limit of .315 ---------------------------------------------------------------- ---------------------------------------------------------------- ---------------------------------------------------------------- 82/10/08 01:30 alaska vp/vs ratio std. error of vp/vs date hrmn origin s-intercept estimated std. er. std. er. used 1) s vs p 1.8814 .0296 821008 130 47.28 -41.67 .69 .69 2) p vs s 1.8719 .0136 821008 130 47.09 -41.06 .16 .16 3) bi-weight 1.8720 .0326 821008 130 47.08 -41.06 station prmk p-time p-wt srmk s-time s-wt deviation from line vlz ipu0 53.63 1.00 es 59.04 1.00 -.14 cfi ep 2 57.78 .01 is 66.31 1.00 -.38 saw ipu0 60.93 1.00 es 73.38 1.00 .18 bmr ep 1 64.45 .04 es 80.36 1.00 .36 skn ep 0 83.60 1.00 es 115.33 1.00 -.05 compute starting parameters from the first 9 p-arrival times. ( adjustments )(adjst. taken) i lat long depth rms prms damp no phi --------eigenvalues--------- dlat dlon dz dlat dlon dz 61 146 1 11.2 49.2 .0* 3.1403 2.6948 .10E-02 18 14.0 .4964E+00 .4884E-01 .1000E-02 27.1 -3.4 .00 27.1 -3.4 .00 2 25.7 45.4 .0* 2.1042 1.7022 .10E-02 18 14.0 .4245E+00 .7081E-01 .1000E-02 15.6 -8.1 .00 15.6 -8.1 .00 3 34.2 36.3 .0* 1.5755 1.5476 .10E-02 18 14.0 .3660E+00 .7660E-01 .1000E-02 3.31 -2.2 .00 3.31 -2.2 .00 4 35.9 33.8 .0* 1.5426 1.5417 .10E-02 18 14.0 .3540E+00 .7708E-01 .1000E-02 .655 -.34 .00 .655 -.34 .00 apply distance weighting 5 36.3 33.4 .0* .92880 .57598 .10E-02 14 10.0 .1938E+00 .3678E-01 .1000E-02 -8.3 2.86 .00 -8.3 2.86 .00 6 31.8 36.7 .0* .55772 .55711 .10E-02 14 10.0 .2129E+00 .3870E-01 .1000E-02 -.24 .197 .00 -.24 .197 .00 apply truncation weighting 61 146 7 31.7 36.9 .0* .55438 .55438 .10E-02 13 9.0 .2137E+00 .3874E-01 .1000E-02 -.02 .012 .00 -.02 .012 .00 ( adjustments )(adjst. taken) i lat long depth rms prms damp no phi --------eigenvalues--------- dlat dlon dz dlat dlon dz 61 146 1 11.2 49.2 75.0* 3.4245 2.4683 .10E-02 18 14.0 .2142E+00 .3017E-01 .1000E-02 41.6 -20. .00 35.0 -17. .00 2 30.0 30.1 75.0* 3.0023 2.7800 .10E-02 18 14.0 .2015E+00 .2878E-01 .1000E-02 -25. 5.86 .00 -25. 5.86 .00 3 16.6 36.6 75.0* 2.9575 2.7921 .10E-02 18 14.0 .2076E+00 .2687E-01 .1000E-02 22.1 -6.5 .00 22.1 -6.5 .00 4 28.6 29.3 75.0* 2.9588 .0000 .79E-01 18 14.0 .2076E+00 .2687E-01 .1000E-02 -22. 6.48 .00 apply distance weighting 5 16.6 36.6 75.0* 2.3867 2.3704 .79E-01 14 10.0 .1732E+00 .8965E-01 .7949E-01 1.64 .994 .00 1.64 .994 .00 6 17.5 37.7 75.0* 2.3621 2.3541 .40E-01 14 10.0 .1341E+00 .5018E-01 .3975E-01 1.97 .167 .00 1.97 .167 .00 apply truncation weighting 61 146 7 18.6 37.9 75.0* 2.3383 2.3346 .20E-01 13 9.0 .1144E+00 .3056E-01 .1987E-01 1.83 -.35 .00 1.83 -.35 .00 8 19.6 37.5 75.0* 2.3334 2.3327 .99E-02 13 9.0 .1044E+00 .2081E-01 .9937E-02 .972 -.27 .00 .972 -.27 .00 9 20.1 37.2 75.0* 2.3327 2.3327 .50E-02 13 9.0 .9929E-01 .1594E-01 .4968E-02 .087 -.01 .00 .087 -.01 .00 10 20.1 37.1 75.0* 2.3327 .0000 .50E-01 13 9.0 .9929E-01 .1594E-01 .4968E-02 -.09 .015 .00 11 20.1 37.2 75.0* 2.3327 2.3327 .50E-01 13 9.0 .1440E+00 .6065E-01 .4968E-01 .025 .002 .00 .025 .002 .00 ( adjustments )(adjst. taken) i lat long depth rms prms damp no phi --------eigenvalues--------- dlat dlon dz dlat dlon dz 61 146 1 20.1 37.2 75.0 2.9137 1.2441 .10E-02 18 14.0 .2128E+00 .5834E-01 .2706E-01 14.9 -2.0 -41. 12.7 -1.7 -35. 2 26.9 35.2 40.0 1.4552 1.2878 .10E-02 18 14.0 .2672E+00 .4976E-01 .1700E-01 -1.6 1.83 -16. -1.6 1.83 -16. 3 26.1 37.3 23.9 .94107 .81031 .10E-02 18 14.0 .3793E+00 .1327E+00 .4997E-01 5.69 -.56 .961 5.69 -.56 .961 4 29.1 36.6 24.8 .80955 .80941 .10E-02 18 14.0 .3671E+00 .1335E+00 .4933E-01 .115 -.02 -.17 .115 -.02 -.17 apply distance weighting 5 29.2 36.6 24.7 .42759 .33639 .10E-02 14 10.0 .2030E+00 .3719E-01 .1915E-01 .445 .434 3.13 .445 .434 3.13 6 29.4 37.1 27.8 .33561 .33466 .10E-02 14 10.0 .1987E+00 .3976E-01 .2561E-01 .135 -.04 -.35 .135 -.04 -.35 apply truncation weighting 61 146 7 29.5 37.1 27.4 .30825 .30824 .10E-02 13 9.0 .1990E+00 .3962E-01 .2554E-01 -.01 .002 .041 -.01 .002 .041 ( adjustments )(adjst. taken) i lat long depth rms prms damp no phi --------eigenvalues--------- dlat dlon dz dlat dlon dz 61 146 1 31.7 36.9 10.0* 1.1749 1.1458 .10E-02 18 14.0 .3688E+00 .7479E-01 .1000E-02 3.38 -1.5 .00 3.38 -1.5 .00 2 33.5 35.2 10.0* 1.1415 1.1409 .10E-02 18 14.0 .3584E+00 .7565E-01 .1000E-02 .455 -.23 .00 .455 -.23 .00 3 33.7 35.0 10.0* 1.1408 1.1408 .10E-02 18 14.0 .3569E+00 .7575E-01 .1000E-02 .063 -.03 .00 .063 -.03 .00 4 33.8 34.9 10.0* 1.1408 1.1408 .10E-02 18 14.0 .3567E+00 .7576E-01 .1000E-02 .009 .00 .00 .009 .00 .00 apply distance weighting apply truncation weighting 61 146 7 33.8 34.9 10.0* .64975 .52815 .10E-02 13 9.0 .2027E+00 .3771E-01 .1000E-02 -4.4 1.80 .00 -4.4 1.80 .00 8 31.4 36.9 10.0* .52244 .52221 .10E-02 13 9.0 .2133E+00 .3847E-01 .1000E-02 -.17 .103 .00 -.17 .103 .00 9 31.3 37.1 10.0* .52220 .52220 .10E-02 13 9.0 .2137E+00 .3849E-01 .1000E-02 -.01 .006 .00 -.01 .006 .00 ( adjustments )(adjst. taken) i lat long depth rms prms damp no phi --------eigenvalues--------- dlat dlon dz dlat dlon dz 61 146 1 31.3 37.1 10.0 1.1862 .85851 .10E-02 18 14.0 .3743E+00 .1103E+00 .4034E-01 -1.7 -.30 12.1 -1.7 -.30 12.1 2 30.4 36.7 22.1 .84265 .81025 .10E-02 18 14.0 .3656E+00 .1272E+00 .5006E-01 -2.2 -.12 2.59 -2.2 -.12 2.59 3 29.3 36.6 24.6 .80946 .80941 .10E-02 18 14.0 .3667E+00 .1331E+00 .4936E-01 -.13 .025 .003 -.13 .025 .003 4 29.2 36.6 24.6 .80941 .80941 .10E-02 18 14.0 .3670E+00 .1331E+00 .4938E-01 .00 .001 .001 .00 .001 .001 apply distance weighting apply truncation weighting 61 146 7 29.2 36.6 24.6 .40893 .30984 .10E-02 13 9.0 .2030E+00 .3719E-01 .1913E-01 .419 .437 3.20 .419 .437 3.20 8 29.4 37.1 27.9 .30944 .30827 .10E-02 13 9.0 .1986E+00 .3978E-01 .2560E-01 .140 -.04 -.37 .140 -.04 -.37 9 29.5 37.1 27.5 .30824 .30824 .10E-02 13 9.0 .1989E+00 .3964E-01 .2554E-01 .000 .000 -.01 .000 .000 -.01 9 29.5 37.1 27.5 .30824 .30824 .10E-02 13 9.0 .1979E+00 .3864E-01 .2454E-01 .000 .000 -.01 .00 .00 .00 -az/dp--step---se =az/dp==step===se -az/dp--step---se 298/11 -.001 .673 198/43 .0042 1.91 39/45 -.004 1.52 c* added 10 sec error to skl arrival to demonstrate weighting out large res horizontal and vertical single variable standard deviations (68% - one degree of freedom; max 99 km) seh = .39 seh = .93 sez = .91 quality = a az = -65. az = 25. se of orig = .11; # of iterations = 9; dmax = 244.31; sequence number = event type = " "; processing status = " " s minus p interval for closest station = 5.41 date origin lat long depth mag no d1 gap d rms avwt se 19821008 130 45.22 61n29.48 146w37.08 27.48 1.754 13 43 169 1 .3082 1.00 .16 61.4914 146.6179 seh sez q sqd adj in nr avr aar nm avxm mdxm sdxm nf avfm mdfm sdfm vpvs .9 .9 c c c .40 10 19 .000 .267 0 .0 8 1.75 1.75 .3 1.872 -- travel times and delays -- stn c pha remk p p-sec s-sec resid std-er dist azm ain tc c vthk ttob-ttcal-dlay-edly=resid rmk stn pha sources vlz z ipu0 c 53.90 .44 .16 42.9 159 123 -.270 1 8.41 7.96 .002 .44 vlz vlz z s es 59.31 -.36 .16 123 -.270 1 13.82 14.18 .003 -.36 vlz s cfi z ep 2 57.78 .74 1.69 70.5 241 111 1 12.56 11.82 .000 .74 cfi cfi z s is 66.31 .05 .17 111 1 21.09 21.03 .001 .05 cfi s saw z ipu0 c 60.93 -.22 .18 97.5 292 106 1 15.71 15.83 .098 -.22 saw saw z s es 73.38 -.19 .18 106 1 28.16 28.18 .174 -.19 saw s knk z ipu0 c 61.70 .44 .19 98.4 266 106 1 16.48 15.97 .078 .44 knk bmr z ep 1 64.45 -.56 1.04 122.9 117 103 1 19.23 19.68 .107 -.56 bmr bmr z s es 80.36 -.09 .21 103 1 35.14 35.04 .190 -.09 bmr s prg z ep 0 68.43 .10 .25 146.9 243 53 1 23.21 23.10 .009 .10 prg pms z ep 4 70.41 .37 ----- 159.7 261 53 1 25.19 24.70 .112 .37 pms pms z s es 88.95 -.44 .28 53 1 43.73 43.97 .199 -.44 pms s ssn z ipu0 c 78.73 .42 .93 219.8 271 53 1 33.51 32.22 .670 .203 .42 ssn skl z ep 1 89.02 10.98 m ----- 223.0 242 53 1 43.80 32.61 .100 .108 10.98 skl bal z ipd0 d 79.52 .01 2.24 234.8 101 53 1 34.30 34.09 .203 .01 bal skn z ep 0 23.60 .41 d ----- 265.2 284 53 1 38.38 37.89 .088 .41 skn skn z s es 55.33 2.52 d ----- 53 1 70.11 67.44 .157 2.52 skn s brlk z ep 0 88.12 .24 d ----- 302.6 232 53 1 42.90 42.56 .099 .24 brlk adk z ep 0 04.00 .29 d ----- 2102.5 253 40 12 258.78258.47 .020 .29 adk -- magnitude data -- stn c source sys c10 amx gr ink amf per unit/mm gnd mot u xmgc xmag fmp fmag vlz z 14 1.13* cfi z 40 2.05 saw z 27 1.71 knk z 39 2.02 bmr z 25 1.64 prg z 27 1.71 pms z 30 1.80 bal z 37 1.98 missing station delta azim ex-gap rd-gap aaaz 58.5 200.7 82.3 40.6 depth may decrease by .91 or increase by .87 given a reading standard error of .160 and rms limit of .315 jump back to main input stream. sound bell  completed reading input phase file average rms of all events = .30834 average vp/vs ratio = 1.87 for 2 events. standard deviation of ratio = .00 ***** class/ a b c d total ***** number/ 2.0 .0 .0 .0 2.0 percentage/ 100.0 .0 .0 .0 include only class d and better in the following statistics. ----------- p residuals -------------- ----------- s residuals ------------- no event wting event wting no event wting event wting station n wt ave sd n wt ave sd n wt ave sd n wt ave sd station balz 2 .0 .009 .000 2 .0 .009 .000 0 .0 .000 .000 0 .0 .000 .000 bal bmrz 2 .0 -.560 .000 2 .2 -.560 .000 2 .6 -.086 .000 2 5.6 -.086 .000 bmr cfiz 2 .0 .742 .000 2 .1 .742 .000 2 .9 .054 .000 2 8.5 .054 .000 cfi knkz 2 .7 .435 .000 2 7.1 .435 .000 0 .0 .000 .000 0 .0 .000 .000 knk pmsz 0 .0 .000 .000 0 .0 .000 .000 2 .3 -.444 .000 2 3.1 -.444 .000 pms prgz 2 .4 .100 .000 2 3.9 .100 .000 0 .0 .000 .000 0 .0 .000 .000 prg sawz 2 .7 -.218 .000 2 7.1 -.218 .000 2 .7 -.192 .000 2 7.1 -.192 .000 saw sklz 1 .0 .980 .000 1 .0 .980 .000 0 .0 .000 .000 0 .0 .000 .000 skl ssnz 2 .0 .419 .000 2 .3 .419 .000 0 .0 .000 .000 0 .0 .000 .000 ssn vlzz 2 1.0 .443 .000 2 9.4 .443 .000 2 1.0 -.361 .000 2 9.4 -.361 .000 vlz s-p residuals x-mag res f-mag res station n wt ave sd n ave sd n ave sd balz 0 .0 .000 .000 0 .000 .000 2 .225 .000 bmrz 0 .0 .000 .000 0 .000 .000 2 -.115 .000 cfiz 0 .0 .000 .000 0 .000 .000 2 .293 .000 knkz 0 .0 .000 .000 0 .000 .000 2 .271 .000 pmsz 0 .0 .000 .000 0 .000 .000 2 .043 .000 prgz 0 .0 .000 .000 0 .000 .000 2 -.049 .000 sawz 0 .0 .000 .000 0 .000 .000 2 -.049 .000 vlzz 0 .0 .000 .000 0 .000 .000 2 -.619 .000 irelo = 0 nreloc = 0