* OMEGA DATA * 1 25 0.1 : IOM(initial),NOM(total),DOM(increment) * MEDIUM DATA * 4 : NL (NUMBER OF LAYERS) t/m3,m/s, ,m/s, , m 2.40 5500.0 600.0 3180.0 300.0 5500.0 :DNS, VP, Qp, VS, Qs, Thick 2.67 6300.0 600.0 3640.0 300.0 10500.0 :DNS, VP, Qp, Vs, Qs, Thick 2.80 6700.0 600.0 3870.0 300.0 19000.0 :DNS, Vp, Qp, Vs, Qs, Thick 3.00 7800.0 600.0 4500.0 300.0 0.0 :DNS, Vp, Qp, Vs, Qs, Thick * FAULT DATA * 2 : Number of Sources 0.0 (Source 1) : Time Delay from the origin time 0.0 0.0 : Location (X and Y: m) 6000.0 350.0 : Depth(m), Strike(deg) 90.0 180.0 : Dip(deg), Rake(deg) 15000.0 15000.0 1.20 : Length, Width, Dislocation (m) 2.5 3000.0 : Rise Time (sec), Rupture Velocity (m/s) 0 : NVR (If NVR=1 then Vr=infinite) 10.0 (Source 2) : Time Delay from the origin time 28600.0 -8600.0 : Location (X and Y: m) 6000.0 320.0 : Depth(m), Strike(deg) 90.0 180.0 : Dip(deg), Rake(deg) 15000.0 15000.0 5.00 : Length, Width, Dislocation (m) 2.5 3000.0 : Rise Time (sec), Rupture Velocity (m/s) 0 : NVR (If NVR=1 then Vr=infinite) * WAVENUMBER INTEGRATION DATA FOR SIMPSON'S OR FILON'S FORMULAS * 10 : Number of Integration Points from 0 to om/Vp(max) 20 : Number of Integration Points from om/Vp(max) to om/Vs(max) 30 : Number of Integration Points from om/Vs(max) to om/Rayleigh(min) 20 : Number of Integration Points from om/Ry(min) to om/c(final) 500.0 : c(final: m/s) * DATA FOR THE ASYMPTOTIC SOLUTIONS * 1 : BE USED (=1), OR NOT USED (=0) * CHANGE OF SIGNS OF IMAGINARY PARTS OF FINAL RESULTS (FOR FFT) * 1 : CHANGE SIGN (=1), NOT CHANGE SIGN (=0) * OBSERVATION POINT DATA * 1 : NUMBER OF OP 0.0 40000.0 0.0 : X,Y,Z (Unit :m) 2000.0 42000.0 0.0 : X,Y,Z (Unit :m) 4000.0 44000.0 0.0 : X,Y,Z (Unit :m) 6000.0 46000.0 0.0 : X,Y,Z (Unit :m) 8000.0 48000.0 0.0 : X,Y,Z (Unit :m) 10000.0 50000.0 0.0 : X,Y,Z (Unit :m) 12000.0 52000.0 0.0 : X,Y,Z (Unit :m) 14000.0 54000.0 0.0 : X,Y,Z (Unit :m) 16000.0 56000.0 0.0 : X,Y,Z (Unit :m) 18000.0 58000.0 0.0 : X,Y,Z (Unit :m) 20000.0 60000.0 0.0 : X,Y,Z (Unit :m)