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Bibliographic Details
Main Authors: Blouza, Adel, Glangetas, Léo, Kian, Yavar, Ngo, Van-Sang
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.21589
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author Blouza, Adel
Glangetas, Léo
Kian, Yavar
Ngo, Van-Sang
author_facet Blouza, Adel
Glangetas, Léo
Kian, Yavar
Ngo, Van-Sang
contents This article is devoted to the analysis of inverse source problems for Stokes systems in unbounded domains where the corresponding velocity flow is observed on a surface. Our main objective is to study the unique determination of general class of time-dependent and vector-valued source terms with potentially unknown divergence. Taking into account the challenges inherent in this class of inverse source problems, we aim to identify the most precise conditions that ensure their resolution. Motivated by various fluid motion problems, we explore several class of boundary measurements. Our proofs are based on different arguments, including unique continuation properties for Stokes systems, approximate controllability, complex analysis, and the application of explicit harmonic functions and explicit solutions for Stokes systems. This analysis is complemented by a reconstruction algorithm and examples of numerical computations.
format Preprint
id arxiv_https___arxiv_org_abs_2407_21589
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Determination of time dependent source terms for Stokes systems in unbounded domains
Blouza, Adel
Glangetas, Léo
Kian, Yavar
Ngo, Van-Sang
Analysis of PDEs
This article is devoted to the analysis of inverse source problems for Stokes systems in unbounded domains where the corresponding velocity flow is observed on a surface. Our main objective is to study the unique determination of general class of time-dependent and vector-valued source terms with potentially unknown divergence. Taking into account the challenges inherent in this class of inverse source problems, we aim to identify the most precise conditions that ensure their resolution. Motivated by various fluid motion problems, we explore several class of boundary measurements. Our proofs are based on different arguments, including unique continuation properties for Stokes systems, approximate controllability, complex analysis, and the application of explicit harmonic functions and explicit solutions for Stokes systems. This analysis is complemented by a reconstruction algorithm and examples of numerical computations.
title Determination of time dependent source terms for Stokes systems in unbounded domains
topic Analysis of PDEs
url https://arxiv.org/abs/2407.21589