Application of statistical spline model for solving inverse source parabolic problems

Salehi Shayegan, Amir Hossein; Zakeri, Ali

doi:10.22105/dmor.2018.66656

Document Type : Original Article

Authors

Department of Applied Mathematics, K. N. Toosi University of Technology, Tehran, Iran.

https://doi.org/10.22105/dmor.2018.66656

Abstract

Inverse parabolic problems are the most famous ill-posed problems‎. ‎Thus using stable inexact numerical methods for approximating these problems‎, ‎causes a large perturbation‎. ‎In this paper‎, ‎we study the problem of determining the source term of the inverse source problem‎

[{partial _t}T(x,t) = kappa ,{nabla ^2}T(x,t) + g(t)delta (x - {x^*}),x in {( circ ,,1)^d},t in ( circ ,,{t_f}),]

‎from the measured data given in the form of‎

[T({x_{measure}},{t_i}) = {y_i}, ,i = 1,2, ldots ,I,]

‎(additional condition) where d = 1,2 ‎and [delta ] is the Dirac delta function and (T,g) are the unknown functions‎. ‎Then‎, ‎using the statistical spline model and applying Levenberg-Marquardt method‎, ‎we obtain an approximate solution for quasi solution g=g(t)‎‎. ‎Finally‎, ‎to show the priority and accuracy of the introduced method some numerical examples are given‎.

Keywords

Main Subjects

Numerical Optimization

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Journal of Decisions and Operations Research

Application of statistical spline model for solving inverse source parabolic problems

References

References

Volume 3, Issue 2
September 2018
Pages 178-189

Application of statistical spline model for solving inverse source parabolic problems

References

References

Volume 3, Issue 2September 2018Pages 178-189

Volume 3, Issue 2
September 2018
Pages 178-189