This thesis contains research into adaptive methods for the spatial and angular dimensions of the neutral particle transport equation. Adaptive methods have been developed for two angular discretisations: the spherical harmonics method and an octahedron-based wavelet discretisation. The spatial discretisation used is a sub-grid scale finite element method. The primary focus of the research is goal-based adaptive methods which optimise a particular functional of the solution. The error measures that drive the adaptive methods are presented along with the novel and efficient techniques that are used to approximate them. Adaptive algorithms are first developed and presented for the spatial and angular discretisations separately. The adaptive m...
A new deterministic three-dimensional neutral and charged particle transport code, MultiTrans, has b...
Adaptive procedures of a Galerkin particle method are presented. In the Galerkin particle method, th...
The authors propose a modification of the Arbitrarily High Order Transport Nodal method whereby they...
It has become increasingly apparent that successful, general methods for the solution of the neutral...
Traditionally, solver technology and the space/angle discretisations are intimately linked; sweep-ba...
In this dissertation, we discuss an adaptive angular discretization scheme for the neutral-particle ...
In this work we examined the discretised form of Boltzmann-like transport, i.e. the neutron trans- p...
scaling in both runtime and memory usage, where n is the number of adapted angles. This adaptivity u...
Adaptive grid refinement strategies have been formulated to solve the even parity Boltzmann transpor...
publisher: Elsevier articletitle: Goal-based angular adaptivity applied to a wavelet-based discretis...
Particle-based numerical methods are becoming increasingly popular for the solution of continuum mec...
This Thesis demonstrates advanced new discretisation technologies that improve the accuracy and stab...
The objective of this project is to develop and demonstrate more efficient methods for solving radia...
An efficient adaptive wavelet method is proposed for the enhancement of computational efficiency of ...
We consider metric-based mesh adaptation methods for steady-state partial differential equations (PD...
A new deterministic three-dimensional neutral and charged particle transport code, MultiTrans, has b...
Adaptive procedures of a Galerkin particle method are presented. In the Galerkin particle method, th...
The authors propose a modification of the Arbitrarily High Order Transport Nodal method whereby they...
It has become increasingly apparent that successful, general methods for the solution of the neutral...
Traditionally, solver technology and the space/angle discretisations are intimately linked; sweep-ba...
In this dissertation, we discuss an adaptive angular discretization scheme for the neutral-particle ...
In this work we examined the discretised form of Boltzmann-like transport, i.e. the neutron trans- p...
scaling in both runtime and memory usage, where n is the number of adapted angles. This adaptivity u...
Adaptive grid refinement strategies have been formulated to solve the even parity Boltzmann transpor...
publisher: Elsevier articletitle: Goal-based angular adaptivity applied to a wavelet-based discretis...
Particle-based numerical methods are becoming increasingly popular for the solution of continuum mec...
This Thesis demonstrates advanced new discretisation technologies that improve the accuracy and stab...
The objective of this project is to develop and demonstrate more efficient methods for solving radia...
An efficient adaptive wavelet method is proposed for the enhancement of computational efficiency of ...
We consider metric-based mesh adaptation methods for steady-state partial differential equations (PD...
A new deterministic three-dimensional neutral and charged particle transport code, MultiTrans, has b...
Adaptive procedures of a Galerkin particle method are presented. In the Galerkin particle method, th...
The authors propose a modification of the Arbitrarily High Order Transport Nodal method whereby they...