We consider the numerical approximation of the radiative transfer equation using discontinuous angular and continuous spatial approximations for the even parts of the solution. The even-parity equations are solved using a diffusion synthetic accelerated source iteration. We provide a convergence analysis for the infinite-dimensional iteration as well as for its discretized counterpart. The diffusion correction is computed by a subspace correction, which leads to a convergence behavior that is robust with respect to the discretization. The proven theoretical contraction rate deteriorates for scattering dominated problems. We show numerically that the preconditioned iteration is in practice robust in the diffusion limit. Moreover, computation...
This paper presents a fast approximation for the solution of the radiative transfer equation in inho...
Abstract: Weighted mesh approximations of the radiation transport equation corresponding t...
This thesis presents the derivation of analytical expressions of the radiative transfer equation and...
International audienceWe propose a new approach to the numerical solution of radiative transfer equa...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
The radiative transfer problem is a model used to describe particles moving in a medium with which t...
We propose a multilevel preconditioning strategy for the iterative solution of large sparse linear s...
The discretization of the multi-dimensional radiative transfer equation results in a very large line...
We describe two separate wavelength discretization schemes that can be used in the numerical soluti...
The diffusion synthetic acceleration (DSA) method has emerged as a powerful tool for accelerating th...
International audienceTwo Krylov subspace methods, the GMRES and the BiCGSTAB, are analyzed for solv...
International audienceDue to its integro-differential nature, deriving schemes for numerically solvi...
In a previous paper (Hennink and Lathouwers, 2017) we developed a finite element discretization for ...
Radiative transfer is the physical phenomenon of energy transfer in the form of electromagnetic radi...
Radiative transfer is the physical phenomenon of energy transfer in the form of electromagnetic radi...
This paper presents a fast approximation for the solution of the radiative transfer equation in inho...
Abstract: Weighted mesh approximations of the radiation transport equation corresponding t...
This thesis presents the derivation of analytical expressions of the radiative transfer equation and...
International audienceWe propose a new approach to the numerical solution of radiative transfer equa...
. The discretization of the multi--dimensional radiative transfer equation results in a very large l...
The radiative transfer problem is a model used to describe particles moving in a medium with which t...
We propose a multilevel preconditioning strategy for the iterative solution of large sparse linear s...
The discretization of the multi-dimensional radiative transfer equation results in a very large line...
We describe two separate wavelength discretization schemes that can be used in the numerical soluti...
The diffusion synthetic acceleration (DSA) method has emerged as a powerful tool for accelerating th...
International audienceTwo Krylov subspace methods, the GMRES and the BiCGSTAB, are analyzed for solv...
International audienceDue to its integro-differential nature, deriving schemes for numerically solvi...
In a previous paper (Hennink and Lathouwers, 2017) we developed a finite element discretization for ...
Radiative transfer is the physical phenomenon of energy transfer in the form of electromagnetic radi...
Radiative transfer is the physical phenomenon of energy transfer in the form of electromagnetic radi...
This paper presents a fast approximation for the solution of the radiative transfer equation in inho...
Abstract: Weighted mesh approximations of the radiation transport equation corresponding t...
This thesis presents the derivation of analytical expressions of the radiative transfer equation and...