Add to ORKGThis paper focuses on the inverse problem of identifying an internal void in a bounded two- or three-dimensional region. Information, in form of a heat flux and temperature, is assumed to be obtainable only on the external boundary of the region. The reciprocity gap approach with a suitable test functions is used in both the two- and three-dimensional cases
Thermal imaging is a technique of recent interest for the nondestructive evaluation of materials. Th...
A method based on the thermal quadrupoles technique for heat transfer is presented for imaging subsu...
A hidden defect D affecting the interface in a layered specimen is evaluated from temperature maps c...
We develop an algorithm capable of detecting the presence of spherical voids in a thermally conducti...
This paper considers the inverse problem of locating one or more circular inclusions in a two-dimens...
Given a two-dimensional region that contains one or more circular voids, we develop mathematical met...
The ability to study the interior of an object without destroying it is an important industrial too...
The ability to study the interior of an object without destroying it is an important industrial tool...
this paper a digital image processing technique is applied to simulated thermal responses in order t...
This paper examines uniqueness and stability results for an inverse problem in thermal imaging. The ...
An inverse problem in thermal imaging involving the recovery of a void in a material from its surfac...
This paper presents a 3D boundary element model (BEM), formulated in the frequency domain, to simula...
This paper presents a new algorithm for three-dimensional reconstruction of defect shape using pulse...
This paper examines an inverse problem which arises in thermal imaging. We investigate the problem o...
We examine the inverse problem of locating and describing an internal point defect in a one-dimensio...
Thermal imaging is a technique of recent interest for the nondestructive evaluation of materials. Th...
A method based on the thermal quadrupoles technique for heat transfer is presented for imaging subsu...
A hidden defect D affecting the interface in a layered specimen is evaluated from temperature maps c...
We develop an algorithm capable of detecting the presence of spherical voids in a thermally conducti...
This paper considers the inverse problem of locating one or more circular inclusions in a two-dimens...
Given a two-dimensional region that contains one or more circular voids, we develop mathematical met...
The ability to study the interior of an object without destroying it is an important industrial too...
The ability to study the interior of an object without destroying it is an important industrial tool...
this paper a digital image processing technique is applied to simulated thermal responses in order t...
This paper examines uniqueness and stability results for an inverse problem in thermal imaging. The ...
An inverse problem in thermal imaging involving the recovery of a void in a material from its surfac...
This paper presents a 3D boundary element model (BEM), formulated in the frequency domain, to simula...
This paper presents a new algorithm for three-dimensional reconstruction of defect shape using pulse...
This paper examines an inverse problem which arises in thermal imaging. We investigate the problem o...
We examine the inverse problem of locating and describing an internal point defect in a one-dimensio...
Thermal imaging is a technique of recent interest for the nondestructive evaluation of materials. Th...
A method based on the thermal quadrupoles technique for heat transfer is presented for imaging subsu...
A hidden defect D affecting the interface in a layered specimen is evaluated from temperature maps c...