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W1974459939 abstract "While techniques for retrieval of seismic velocities from wavelet arrival times in ambient noise correlations are now well established, interpretation of wavelet amplitudes remains unsatisfactory. It is clear that such amplitudes contain information on seismic attenuation, but they are also affected by ambient noise intensity, site amplification, and any nonlinear preprocessing that may have been applied to the noise signals. Disentangling these many factors in order to reliably recover seismic attenuation is challenging. It is argued here that noise intensity, while rarely isotropic or homogeneous, may nevertheless be modeled by a radiative transfer equation. It is then shown that this recognition sufficiently constrains the noise intensity that we may hope to fit measured correlation amplitudes to models for spatially varying attenuation and site amplification factors. One-bit preprocessing, it is shown, is not compatible with such fits except in the special case of spatially constant noise intensity. An alternative procedure for accelerating convergence is suggested. Numerical simulations for a case of homogeneous attenuation and homogeneous seismic velocity are presented in support of the assertions. Attenuation, site factors, and noise intensity are successfully retrieved from correlations of numerically simulated imperfectly diffuse waves measured on a linear array of sensors. Bien que les techniques pour la récupération des vitesses sismiques dans les corrélations de bruit ambiant soient maintenant bien établies, l’interprétation des amplitudes reste insatisfaisante. Il est clair que ces amplitudes contiennent des informations sur l’atténuation sismique, mais elles sont également affectées par l’intensité du bruit ambiant, l’amplification du site et les prétraitements non linéaires. Séparer ces nombreux facteurs, pour récupérer l’atténuation sismique est un défi. Il est soutenu ici que l’intensité du bruit, bien que rarement isotrope et homogène, peut néanmoins être modélisée par une équation de transfert radiatif. Il est ensuite montré que cette reconnaissance contraint suffisamment l’intensité du bruit. En conséquence, nous pouvons récupérer l’intensité, l’atténuation et l’amplification des sites. Un prétraitement one-bit, comme il est montré, n’est pas compatible avec la récupération. Une autre procédure pour accélérer la convergence est suggérée. Des simulations numériques sont présentées à l’appui de ces affirmations. Facteurs d’atténuation, facteurs des sites et intensité du bruit sont récupérés avec succès à partir de corrélations de simulations numériques d’ondes imparfaitement diffusées, mesurées sur un réseau linéaire de capteurs." @default.
W1974459939 created "2016-06-24" @default.
W1974459939 creator A5088561067 @default.
W1974459939 date "2011-09-01" @default.
W1974459939 modified "2023-09-24" @default.
W1974459939 title "On the amplitudes of correlations and the inference of attenuations, specific intensities and site factors from ambient noise" @default.
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W1974459939 doi "https://doi.org/10.1016/j.crte.2011.07.001" @default.
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