A near-optimal recovery algorithm for the Stokes equations with incomplete information on the boundary conditions
Abstract
We address the problem of numerically approximating the velocity and pressure governed by the Stokes system when the boundary conditions are only partially known and thus do not uniquely determine the velocity-pressure couple. We propose an algorithm that takes advantage of available linear measurements of the velocity and pressure to construct a numerical approximation. This approximation is guaranteed to be near-optimal in the sense that it approximates the velocity-pressure couple that minimi...
Description / Details
We address the problem of numerically approximating the velocity and pressure governed by the Stokes system when the boundary conditions are only partially known and thus do not uniquely determine the velocity-pressure couple. We propose an algorithm that takes advantage of available linear measurements of the velocity and pressure to construct a numerical approximation. This approximation is guaranteed to be near-optimal in the sense that it approximates the velocity-pressure couple that minimizes, in the energy norm, the distance to all other solutions satisfying the measurements and the Stokes system.
Source: arXiv:2604.28051v1 - http://arxiv.org/abs/2604.28051v1 PDF: https://arxiv.org/pdf/2604.28051v1 Original Link: http://arxiv.org/abs/2604.28051v1
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May 1, 2026
Mathematics
Mathematics
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