Inverse problem in seismic imaging

Abstract

We address the problem of estimating sound speeds (seismic velocities) inside the earth which is necessary for obtaining seismic images in regular Cartesian coordinates. The main goals are to develop algorithms to convert time migration velocities to true seismic velocities, and to convert time‐migrated images to depth images in regular Cartesian coordinates.Our main results are three‐fold. First, we establish a theoretical relation between the seismic velocities and the time migration velocities using the paraxial ray tracing theory. Second, we formulate an appropriate inverse problem describing the relation between time migration velocities and depth velocities and show that this problem is mathematically ill‐posed, i.e., unstable to small perturbations. Third, we develop numerical algorithms to solve regularized versions of these equations which can be used to recover smoothed velocity variations. Our algorithms consist of efficient time‐to‐depth conversion algorithms based on Dijkstra‐like Fast Marching Methods, as well as level set and ray tracing algorithms for transforming Dix velocities into seismic velocities. Our algorithms are applied to both two‐dimensional and three‐dimensional problems and we test them on a collection of both synthetic examples and field data. (© 2008 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)