Add to ORKGThe first objective of this project is to develop new efficient numerical methods and supporting error and convergence analysis for solving fractional partial differential equations to study anomalous diffusion in biological tissue such as the human brain. The second objective is to develop a new efficient fractional differential-based approach for texture enhancement in image processing. The results of the thesis highlight that the fractional order analysis captured important features of nuclear magnetic resonance (NMR) relaxation and can be used to improve the quality of medical imaging
The diffusion magnetic resonance imaging signal arising from biological tissues can be numerically s...
The quantification of anomalous diffusion is increasingly being recognised as an advanced modality o...
The diffusion magnetic resonance imaging signal arising from biological tissues can be numerically s...
Abstract—In this paper, a new fractional order generalization of the diffusion equation is developed...
In this paper, a new fractional order generalization of the diffusion equation is developed to descr...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
This thesis is primarily concerned with developing new models and numerical methods based on the fra...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
Diffusion-weighted imaging is an in vivo, non-invasive medical diagnosis technique that uses the Bro...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
The diffusion magnetic resonance imaging signal arising from biological tissues can be numerically s...
The diffusion magnetic resonance imaging signal arising from biological tissues can be numerically s...
The diffusion magnetic resonance imaging signal arising from biological tissues can be numerically s...
The quantification of anomalous diffusion is increasingly being recognised as an advanced modality o...
The diffusion magnetic resonance imaging signal arising from biological tissues can be numerically s...
Abstract—In this paper, a new fractional order generalization of the diffusion equation is developed...
In this paper, a new fractional order generalization of the diffusion equation is developed to descr...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
This thesis is primarily concerned with developing new models and numerical methods based on the fra...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
Diffusion-weighted imaging is an in vivo, non-invasive medical diagnosis technique that uses the Bro...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
Water molecule diffusion in the brain is measured using a magnetic resonance imaging method. The ani...
The diffusion magnetic resonance imaging signal arising from biological tissues can be numerically s...
The diffusion magnetic resonance imaging signal arising from biological tissues can be numerically s...
The diffusion magnetic resonance imaging signal arising from biological tissues can be numerically s...
The quantification of anomalous diffusion is increasingly being recognised as an advanced modality o...
The diffusion magnetic resonance imaging signal arising from biological tissues can be numerically s...