Inverse heat transfer problems in practical applications -- Problem formulation -- Mathematical model -- Direct problem -- Inverse problem -- The marching method and regularized solutions -- The marching method -- Regularized solutions -- The optimization method with conjugate technique -- Optimization problem formulation -- Method of solution -- Solution analysis : exact data -- Study of random error : noisy data -- Time-dependent conduction problem
This work presents a technique called Time Traveling Regularization (TTR) applied to an optimization...
AbstractThe inverse heat conduction problem involves the calculation of surface heat flux and/or tem...
This work presents a technique called Time Traveling Regularization (TTR) applied to an optimization...
A direct solution of the heat conduction equation with prescribed initial and boundary conditions yi...
Presents a solution for direct and inverse heat conduction problems. This work discusses the theoret...
The paper presents investigations related to solving of a direct and inverse problem of a non-statio...
The paper presents investigations related to solving of a direct and inverse problem of a non-statio...
An inverse geometric heat conduction problem algorithm is presented for the detection of irregular s...
A direct problem and an inverse problem for the Laplace’s equation was solved in this paper. Solutio...
A direct problem and an inverse problem for the Laplace’s equation was solved in this paper. Solutio...
An inverse geometric heat conduction problem algorithm is presented for the detection of irregular s...
An inverse geometric heat conduction problem algorithm is presented for the detection of irregular s...
The inverse heat conduction problem also frequently referred as the sideways heat equation, in shor...
This paper presents basic concepts of inverse and optimization problems. Deterministic and stochasti...
In many engineering systems, e.g., in heat exchanges, reflux condensers, combustion chambers, nuclea...
This work presents a technique called Time Traveling Regularization (TTR) applied to an optimization...
AbstractThe inverse heat conduction problem involves the calculation of surface heat flux and/or tem...
This work presents a technique called Time Traveling Regularization (TTR) applied to an optimization...
A direct solution of the heat conduction equation with prescribed initial and boundary conditions yi...
Presents a solution for direct and inverse heat conduction problems. This work discusses the theoret...
The paper presents investigations related to solving of a direct and inverse problem of a non-statio...
The paper presents investigations related to solving of a direct and inverse problem of a non-statio...
An inverse geometric heat conduction problem algorithm is presented for the detection of irregular s...
A direct problem and an inverse problem for the Laplace’s equation was solved in this paper. Solutio...
A direct problem and an inverse problem for the Laplace’s equation was solved in this paper. Solutio...
An inverse geometric heat conduction problem algorithm is presented for the detection of irregular s...
An inverse geometric heat conduction problem algorithm is presented for the detection of irregular s...
The inverse heat conduction problem also frequently referred as the sideways heat equation, in shor...
This paper presents basic concepts of inverse and optimization problems. Deterministic and stochasti...
In many engineering systems, e.g., in heat exchanges, reflux condensers, combustion chambers, nuclea...
This work presents a technique called Time Traveling Regularization (TTR) applied to an optimization...
AbstractThe inverse heat conduction problem involves the calculation of surface heat flux and/or tem...
This work presents a technique called Time Traveling Regularization (TTR) applied to an optimization...
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