TY  - EJOU
AU  - Yeih, Weichung  
AU  - Chan, I-Yao  
AU  - Fan, Chia-Ming  
AU  - Chang, Jiang-Jhy  
AU  - Liu, Chein-Shan 

TI  - Solving the Cauchy Problem of the Nonlinear Steady-state Heat Equation Using Double Iteration Process
T2  - Computer Modeling in Engineering \& Sciences

PY  - 2014
VL  - 99
IS  - 2
SN  - 1526-1506

AB  - In this paper, the Cauchy inverse problem of the nonlinear steady-state heat equation is studied. The double iteration process is used to tackle this problem in which the outer loop is developed based on the residual norm based algorithm (RNBA) while the inner loop determines the evolution direction and the modified Tikhonov's regularization method (MTRM) developed by Liu (Liu, 2012) is adopted. For the conventional iteration processes, a fixed evolution direction such as <b>F, B<sup>−1</sup>F, B<sup><i>T</i></sup>F</b> or <b><i>α</i>F+(1-<i>α</i>)B<sup><i>T</i></sup>F</b> is used where <b>F</b> is the residual vector, <b>B</b> is the Jacobian matrix, the superscript '-1' denotes the inverse, the superscript '<b>T</b>' denotes the transpose of a matrix and α denotes the optimal coefficient. Unlike the conventional approaches, the current approach tries to find an appropriate direction from the initial guess <b>B<sup><i>T</i></sup>F</b> using the MTRM and the final evolution direction is determined once the value of <i>a<sub>0</sub></i> is less than the critical value <i>a<sub>c</sub></i>. Since it may consume too much computation time for searching this appropriate evolution direction such that it makes this process computationally noneconomic, we terminate the inner iteration process as well as the whole process once the number of the iteration steps for the inner iteration exceeds a given maximum value, says I<sub>max</sub>. Six examples are illustrated to show the validity of the current approach and results show that the proposed method is very efficient and accurate.
KW  - Cauchy problem
KW  -  steady-state
KW  -  modified Tikhonov’s regularization method

DO  - 10.3970/cmes.2014.099.169