An Analysis of Backward Heat Conduction Problems Using the Time Evolution Method of Fundamental Solutions

Authors

Joseph Kolibal, University of Southern MississippiFollow
C.H. Tsai
D.L. YoungFollow

Document Type

Article

Publication Date

9-1-2010

Department

Mathematics

School

Mathematics and Natural Sciences

Abstract

The time evolution method of fundamental solutions (MFS) is proposed to solve backward heat conduction problems (BHCPs). The time evolution MFS belongs to one of the mesh-free numerical methods and is essentially composed of a sequence of diffusion fundamental solutions which exactly satisfy the heat conduction equations. Through correct treatment of temporal evolution, the resulting system of the time evolution MFS is smaller, and effectively decreases the possibility of ill-conditioning induced by such strongly ill-posed problems. Both one-dimensional and two-dimensional BHCPs are examined in this study, and the numerical results demonstrate the accuracy and stability of the MFS, especially for the BHCPs with high levels of noise. Conclusively, time evolution MFS is a stable and powerful numerical scheme, and is especially suitable for the numerical solution of BHCPs.

Publication Title

CMES-Computer Modeling in Engineering & Sciences

Volume

66

Issue

1

First Page

53

Last Page

72

Recommended Citation

Kolibal, J., Tsai, C., Young, D. (2010). An Analysis of Backward Heat Conduction Problems Using the Time Evolution Method of Fundamental Solutions. CMES-Computer Modeling in Engineering & Sciences, 66(1), 53-72.
Available at: https://aquila.usm.edu/fac_pubs/759