M Yari; R. Mohebian; M. A. Riahi
Abstract
Instantaneous spectral attributes such as center frequency, root-mean-square frequency and bandwidth often are extracted from time-frequency spectrum to describe frequency- dependent rock properties in exploration seismic. These attributes are defined using probability theory. A time-frequency map (spectrogram) ...
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Instantaneous spectral attributes such as center frequency, root-mean-square frequency and bandwidth often are extracted from time-frequency spectrum to describe frequency- dependent rock properties in exploration seismic. These attributes are defined using probability theory. A time-frequency map (spectrogram) can be obtained from methods such as short-time Fourier transform (STFT), continuous-wavelet transform (CWT) and time-frequency continuous-wavelet transform (TFCWT) that methods CWT and TFCWT does not require preselecting a time window, which is essential in STFT and have better time-frequency resolution than STFT. In this paper is applied method using mathematical formulas which compute the instantaneous spectral attributes from the scalogram that these attributes are similar to attributes obtained from spectrogram TFCWT. Except that here not need to convert scalogram into spectrogram computing time will be longer.
M. Talebian; S. H. Tabatabaei; M. Fattahi; M. Ghorashi; A. Beitollahi; A. Ghalandarzadeh; M.A. Riahi
Abstract
The Iranian plateau lies between the Arabian and Eurasian plates and accommodates approximately 22 mm/yr of N-S shortening. About 9 mm/y of this shortening is taken up by folding and thrusting in the Zagros while the remaining 13 mm/yr is taken up in the Alborz and Kopeh-Dagh. The Central Iran ...
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The Iranian plateau lies between the Arabian and Eurasian plates and accommodates approximately 22 mm/yr of N-S shortening. About 9 mm/y of this shortening is taken up by folding and thrusting in the Zagros while the remaining 13 mm/yr is taken up in the Alborz and Kopeh-Dagh. The Central Iran block is relatively stable and thus moves to the north with an average velocity of about 13 mm/y. As the stable Afghanistan block lies to the east, the northward motion of Central Iran produces a right-lateral shear in eastern Iran, which is distributed mainly over a few major faults to the west (~5 mm/yr) and east (~ 8 mm/yr) of the Lut desert. Limited information is available about the slip rates of individual faults in eastern Iran; therefore in this study we try to combine all geological, geodetic and available Quaternary dating results to estimate the fault slip rates and distribution of active deformation in eastern Iran. Finally, we report the results from OSL dating of samples taken from uplifted plain deposits near the south end of the Bam-Baravat fault. These results show that this fault is growing in the vertical direction with at a rate of ~ 0.5 mmy-1. Considering geometric relation between the Bam-Baravat and the south Bam earthquake fault, we estimate a slip rate of about 2 mm/y for the south Bam earthquake fault.