Dr Graham Treece, Department of Engineering
Teaching
Most of my teaching is within Group G: Bioengineering. There are bioengineering courses offered in both IIA and IIB Part IA Part IB- Paper 8: Bioengineering (OCT simulation software can be found here).
- 3G4: Medical imaging and 3D computer graphics (demos can be found here).
- GG2: CT reconstruction and visualisation (where instructions and python code can also be found).
- 4I8: Medical physics (this is an external course taught by the physics department, but I have been the engineering contact).
- F-GMT11-1: Automatic mapping of density to material in volume rendering
- F-GMT11-2: Prediction of metal artefacts in CT data
- Design of colour and material maps in volume rendering
- Adjustment for prior smoothing in medical image analysis
- Removal of metal artefacts in CT data
- Fast simulation of CT scanning in 3D
- Ankle prosthesis alignment from X-rays
- Reducing noise due to metal in CT data
- Mapping bone changes after osseointegrated implantation
- Assessing trabecular bone over the whole skeleton
- Complex variable thickness bone cortices from CT data
- Noise reduction with image-sensitive morphological operators
- Simple ultrasound-guided prostate biopsy of MRI-based targets
- Measuring bone cortical thickness of the skull
- Cleaning up surface meshes derived from CT data
- Image processing with structurally-varying morphological operators
- Medical imaging and computer graphics: using bone asymmetry to detect disease
- Computer graphics: multi-parameter visualisation on a 3D surface
- Computer graphics: fracturing a simulated femur
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