Abstract
Dedicated SST – or gradiometry missions like GRACE and GOCE will provide gravity field information of unprecedented resolution and precision. It has been recognized that better gravity field models and estimates of the geoid are useful for a wide range of research and application, including ocean circulation and climate change studies, physics of the earth's interior and height datum connection and unification. The computation of these models will require the solution of large and non-sparse normal equation systems, especially if “brute force” approaches are applied. Evidently there is a need for fast solvers. The multigrid approach is not only an extremely fast iterative solution technique, it yields en passant a well-defined sequence of coarser approximations as a byproduct to the final gravity field solution. We investigate the implementation of multigrid methods to satellite data analysis using space-domain representations of the anomalous gravity field. Theoretical and numerical aspects are covered. Multigrid algorithms are applied as stand-alone solvers as well as for the construction of preconditioners in the conjugate gradient technique. Our numerical results, concerning a regional gravity inversion from simulated GRACE data, show that multigrid solvers run much faster than conjugate gradient solvers with conventional preconditioners.
Published Version
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