Reconstruction of obstacles in a Stokes flow as a shape-from-moments problem
Abstract
We address the classical inverse problem of recovering the position and shape of obstacles immersed in a planar Stokes flow using boundary measurements. We prove that this problem can be transformed into a shape-from-moments problem to which ad hoc reconstruction methods can be applied. The effectiveness of this approach is confirmed by numerical tests that show significant improvements over those available in the literature to date.
Keywords
Geometric inverse problem Stokes equations non-primitive variables shape-from-moments problem biharmonic single-layer potential Prony's system partial balayage
Geometric inverse problem
Stokes equations
non-primitive variables
shape-from-moments problem
biharmonic single-layer potential
Prony's system
partial balayage
Domains
Mathematics [math]Origin | Files produced by the author(s) |
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