AbstractIn this paper we consider an inverse heat conduction problem which appears in some applied subjects. This problem is ill-posed in the sense that the solution (if it exists) does not depend continuously on the data. The Meyer wavelets are applied to formulate a regularized solution which is convergent to exact one on an acceptable interval when data error tends to zero
In this paper we apply the Approximate Inverse to a one dimensional inverse heat conduction problem....
We consider an inverse heat conduction problem, the Sideways Heat Equation, which is a model of a pr...
The ill-posed problem of attempting to recover the temperature functions from one measured transient...
AbstractIn this paper, the following inverse heat conduction problem: ut = uxx,x≥0,t≥0,u(x,0) = 0,x≥...
AbstractThe sideways heat equation is considered as a model ill-posed problem. The aim of this paper...
In this article, we consider the backward heat conduction problem (BHCP). This classical problem is...
We consider an axisymmetric inverse heat conduction problem of determining the surface temperature ...
We consider an axisymmetric inverse heat conduction problem of determining the surface temperature f...
AbstractWe consider the backward heat equation uxx(x,t)=ut(x,t),−∞<x<∞,0≤t<T. The solution u(x,t) on...
Abstract This paper investigates a radially symmetric inverse heat conduction problem, which determi...
We consider an axisymmetric inverse heat conduction problem of determining the surface temperature f...
We have considered the Laplace equation in an arbitrary-shaped domain and presented a numerical meth...
AbstractWe consider the problem of determining an unknown source, which depends only on the spatial ...
We consider an inverse problem for simultaneously determining the space-dependent source and the ini...
AbstractIn this paper, we consider an inverse heat conduction problem which appears in some applied ...
In this paper we apply the Approximate Inverse to a one dimensional inverse heat conduction problem....
We consider an inverse heat conduction problem, the Sideways Heat Equation, which is a model of a pr...
The ill-posed problem of attempting to recover the temperature functions from one measured transient...
AbstractIn this paper, the following inverse heat conduction problem: ut = uxx,x≥0,t≥0,u(x,0) = 0,x≥...
AbstractThe sideways heat equation is considered as a model ill-posed problem. The aim of this paper...
In this article, we consider the backward heat conduction problem (BHCP). This classical problem is...
We consider an axisymmetric inverse heat conduction problem of determining the surface temperature ...
We consider an axisymmetric inverse heat conduction problem of determining the surface temperature f...
AbstractWe consider the backward heat equation uxx(x,t)=ut(x,t),−∞<x<∞,0≤t<T. The solution u(x,t) on...
Abstract This paper investigates a radially symmetric inverse heat conduction problem, which determi...
We consider an axisymmetric inverse heat conduction problem of determining the surface temperature f...
We have considered the Laplace equation in an arbitrary-shaped domain and presented a numerical meth...
AbstractWe consider the problem of determining an unknown source, which depends only on the spatial ...
We consider an inverse problem for simultaneously determining the space-dependent source and the ini...
AbstractIn this paper, we consider an inverse heat conduction problem which appears in some applied ...
In this paper we apply the Approximate Inverse to a one dimensional inverse heat conduction problem....
We consider an inverse heat conduction problem, the Sideways Heat Equation, which is a model of a pr...
The ill-posed problem of attempting to recover the temperature functions from one measured transient...
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