P. Reihani scite author profile

In this study, we propose an effective approach for the numerically solution of a class of one-dimensional nonlinear inverse time fractional heat conduction problems. The boundary heat fluxes are considered as unknown functions of the boundary temperatures. A numerical method based on the finite difference and mollification approaches is developed to determine the unknown boundary functions. The stability and convergence of the numerical method are proved. Four test problems are conducted to illustrate the ability of the numerical algorithm.

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A series solution of nonlinear injection–extraction well equation

Shidfar

Reihani

2010

Communications in Nonlinear Science and Numerical Simulation

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P. Reihani

An stable numerical algorithm for identifying the solution of an inverse problem

A numerical solution of an inverse parabolic problem with unknown boundary conditions

Boundary functions determination in an inverse time fractional heat conduction problem

A series solution of nonlinear injection–extraction well equation

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