Huntul, Mousa J.Tekin, Ibrahim2026-01-242026-01-242022https://doi.org/10.1016/j.rinam.2022.100314https://hdl.handle.net/20.500.12868/4677In this article, first we convert an inverse problem of determining the unknown timewise terms of nonlinear third order in time partial differential equation (PDE) from knowledge of two boundary measurements to the auxiliary system of integral equations. Then, existence and uniqueness of the solution of this system is proved by means of the contraction principle on a small time interval. Also uniqueness of the solution of the inverse problem is given. However, since the governing equation is yet ill-posed (very slight errors in the temperature input may cause relatively significant errors in the output potential and source terms), we need to regularize the solution. Therefore, to get a stable solution, a regularized cost function is to be minimized for retrieval of the unknown terms. The third order in time PDE problem is discretized using the FDM and reshaped as non-linear least-squares optimization of the Tikhonov regularization function. This is numerically solved by means of the MATLAB subroutine lsqnonlin tool. Both analytical and perturbed data are inverted. Numerical outcomes for two benchmark test examples are reported and discussed. The proposed numerical approach has also been discussed. © 2022 The Author(s)eninfo:eu-repo/semantics/openAccessExistence and uniquenessInverse problems for PDEsNonlinear optimizationThird order in time PDETikhonov regularizationArticle10.1016/j.rinam.2022.100314152-s2.0-85134835022Q2