| Vol.5-2 |
| @ |
| —£ŽUŒ^”g”—LŒÀ—v‘f–@‚ð—p‚¢‚½’nk“®‚̃Vƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“ Simulation of Seismic Ground Motions by Discrete Wavenumber / Finite Element Method |
| ŽR“c@‘Pˆê*@E@–ì“c@–Î* Yoshikazu YAMADA* and Shigeru NODA* |
@
Abstract
@In this study, the discrete wavenumber / finite element ( DWFE ) method
( Olson, l982 ) and the fault dislocation theory were applied to the case
of the Izu-Hanto-Toho-Oki earthquake (M = 6.7 ) of 1980. Ground motions
were computed at the sites of Kawana and Takada near the source region.
The displacement seismograms systhesized from the theoretical method were
compared with the actual strong-motion records. We were able to reproduce
the recorded waveforms, particularly of body waves and the first portion
of surface waves, by the theoretical synthesis method with a realistic
crustal structure. The best agreement between the observed and synthesized
waveforms was obtained for relatively long-period components with periods
of 0.5 - 6 sec. The acceleration response spectra calculated at the two
stations gave a good estimate of those observed over the period range
from 0.5 to about l0 sec.
yƒL[ƒ[ƒhzF—£ŽUŒ^”g”—LŒÀ—v‘f–@C’f‘wkŒ¹ƒ‚ƒfƒ‹Cl980”NˆÉ“¤”¼“‡“Œ•û‰«’nkC—˜_’nk“®C ƒpƒ‰ƒƒgƒŠƒbƒNEƒXƒ^ƒfƒB
*‹ž“s‘åŠwHŠw•”
Faculty of Engineering, Kyoto Univ.
 |
 |