Seong Won Na scite author profile

In this article we discuss a formal framework for casting the inverse problem of detecting the location and shape of an insonified scatterer embedded within a twodimensional homogeneous acoustic host, in terms of a partialdifferential-equation-constrained optimization approach. We seek to satisfy the ensuing Karush-Kuhn-Tucker first-order optimality conditions using boundary integral equations. The treatment of evolving boundary shapes, which arise naturally during the search for the true shape, resides on the use of total derivatives, borrowing from recent work by Bonnet and Guzina [1-4] in elastodynamics. We consider incomplete information collected at stations sparsely spaced at the assumed obstacle's backscattered region. To improve on the ability of the optimizer to arrive at the global optimum we: (a) favor an amplitude-based misfit functional; and (b) iterate over both the frequency-and wave-direction spaces through a sequence of problems. We report numerical results for soundhard objects with shapes ranging from circles, to penny-and kite-shaped, including obstacles with arbitrarily shaped nonconvex boundaries.

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Seong Won Na

Direct time-domain soil profile reconstruction for one-dimensional semi-infinite domains

Partial-differential-equation-constrained amplitude-based shape detection in inverse acoustic scattering

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