Your query was:

kulesh

HR: 1340h
AN: S33A-0289
TI: Modeling of Wave Dispersion Using Continuous Wavelet Transforms: Incorporating Causality Constraint with Non Linearly Frequency-Dependent Attenuation
AU: * Holschneider, M
EM: hols@math.uni-potsdam.de
AF: Insitute for Mathematics, University of Potsdam, Am Neuen Palais 10, Potsdam, 14469 Germany
AU: Kulesh, M
EM: kulesh@math.uni-potsdam.de
AF: Insitute for Mathematics, University of Potsdam, Am Neuen Palais 10, Potsdam, 14469 Germany
AU: Diallo, M S
EM: mamadou@math.uni-potsdam.de
AF: Insitute for Mathematics, University of Potsdam, Am Neuen Palais 10, Potsdam, 14469 Germany
AU: kurennaya, k
EM: kurinna@math.uni-potsdam.de
AF: Insitute for Mathematics, University of Potsdam, Am Neuen Palais 10, Potsdam, 14469 Germany
AU: Scherbaum, F
EM: fs@geo.potsdam.de
AF: Faculty for Geoscience, University of Potsdam, Karl-Liebknecht Str. 24-25, Potsdam, 14415 Germany
AB: This contribution is concerned with the modeling of wave dispersion using continuous wavelet transforms. The mathematical basis for such modeling was formulated in Kulesh et al., Pure Appl. Geophys, 162(2005) p. 843-855. In that work, we derived the wavelet propagator with the assumption that the attenuation shows a nearly linear frequency dependency without imposing any constraint on the relationship between the phase velocity and the attenuation. In the present work we show how to improve the model to incorporate non-linear frequency dependent attenuation for the Cauchy wavelet while satisfying the causality constraint. We show examples with synthetic and experimental data for illustration.
DE: 3280 Wavelet transform (3255, 4455)
DE: 3355 Regional modeling
DE: 4455 Nonlinear waves, shock waves, solitons (0689, 2487, 3280, 3285, 4275, 6934, 7851, SC: Seismology [S]
MN: Fall Meeting 2005