@article {Rodríguez:2002:1610-1928:760,
title = "Range-Dependent Regularization of Travel Time Tomography based on Theoretical Modes",
journal = "Acta Acustica united with Acustica",
parent_itemid = "infobike://dav/aaua",
publishercode ="dav",
year = "2002",
volume = "88",
number = "5",
publication date ="2002-09-01T00:00:00",
pages = "760-762",
itemtype = "ARTICLE",
issn = "1610-1928",
url = "https://www.ingentaconnect.com/content/dav/aaua/2002/00000088/00000005/art00039",
author = "Rodr{\’ı}guez, Orlando C. and Jesus, S{\’e}rgio M.",
abstract = "Travel time inversion is a fundamental method of Ocean Acoustic Tomography, to estimate perturbations in sound speed. By discretizing the watercolumn into a system of layers, the method allows to introduce a system of linear equations, relating a known vector of perturbations in travel
time, to an unknown vector of perturbations in sound speed, through the so-called "observation matrix". Inverting the system allows to estimate the perturbation in sound speed in each layer of the watercolumn. However, in most problems of practical interest, the number of unknowns (i.e. the
perturbations in sound speed) is larger that the number of equations (i.e. the number of delays in travel time). Thus, inverting the system can be viewed as an ill-posed problem. The discussion presented in this paper illustrates an approach to the inversion problem, which is based on the
usage of theoretical modes. Further, it is shown that for a range-dependent perturbation in sound speed, corresponding to a superposition of plane waves, the inversion problem can be regularized (i.e. the system can be rewritten in order to deal with more equations than unknowns) by estimating
only the amplitudes and phases of the linear waves. Particular examples are given for real data.",
}