Identification of the heterogeneous conductivity in an inverse heat conduction problem

This work deals with the problem of determining a nonhomogeneous heat conductivity profile in a steady-state heat conduction boundary-value problem with mixed Dirichlet-Neumann boundary conditions over a bounded domain in Double-struck capital R-n, from the knowledge of the state over the whole domain. We develop a method based on a variational approach leading to an optimality equation which is then projected into a finite dimensional space. Discretization yields a linear although severely ill-posed equation which is then regularized via appropriate ad-hoc penalizers resulting a in a generalized Tikhonov-Phillips functional. No smoothness assumptions are imposed on the conductivity. Numerical examples for the case in which the conductivity can take only two prescribed values (a two-materials case) show that the approach is able to produce very good reconstructions of the exact solution.

Automated summary

This work addresses the problem of determining a nonhomogeneous heat conductivity profile in a steady-state heat conduction boundary-value problem in a bounded domain in Double-struck capital R-n. A method based on variational approach and finite dimensional projection is developed, resulting in a regularized linear equation that can reconstruct the exact solution even when the conductivity can only take two prescribed values.