An Inverse Problem Solution for Thermal Conductivity Reconstruction

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Abstract: This work deals with the inverse problem of reconstructing the thermal conductivity coefficient of the (2+1)D heat equation from over–posed data at the boundaries. The proposed solution uses a variational approach for identifying the coefficient. The inverse problem is reformulated as a higher–order elliptic boundary–value problem for minimization of a quadratic functional of the original equation. The resulting system consists of a well–posed fourth–order boundary–value problem for the temperature and an explicit equation for the unknown thermal conductivity coefficient. The existence and uniqueness of the resulting higher–order boundary–value problem are investigated. The unique solvability of the inverse coefficient problem is proven. The numerical algorithm is validated and applied to problems of reconstructing continuous nonlinear coefficient and discontinuous coefficients. Accurate and stable numerical solutions are obtained.

WSEAS Transactions on Systems, ISSN / E-ISSN: 1109-2777 / 2224-2678, Volume 20, 2021, Art. #21

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Tchavdar T. Marinov, Rossitza S. Marinova, "An Inverse Problem Solution for Thermal Conductivity Reconstruction," WSEAS Transactions on Systems, vol. 20, pp. 187-195, 2021, DOI:10.37394/23202.2021.20.21
Tchavdar T. Marinov, Rossitza S. Marinova. An Inverse Problem Solution for Thermal Conductivity Reconstruction. WSEAS Transactions on Systems. 2021;20:187-195. 10.37394/23202.2021.20.21
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