Application of higher-order statistics and subspace-based techniques to the analysis and diagnosis of electrocardiogram signals

El-Khafif, Sahar Hafez

January 2002

No description available.

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Photodynamic therapy for the treatment of cancer of the pancreas

Rogowska, Agnieska Zofia

January 2001

No description available.

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The radiolabelling of salbutamol with technetium-99m and its applications to the study of salbutamol deposition in the human respiratory tract

Biddiscombe, Martyn F.

January 1994

No description available.

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An investigation of naming and category specific anomia using positron emission tomography

Moore, Caroline Julia

January 2000

No description available.

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A model based approach for the characterisation of radiolabelled antibodies in radioimmunotherapy

Flynn, Aiden Anthony

January 2000

No description available.

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Three-dimensional registration methods for multi-modal magnetic resonance neuroimages

Triantafyllou, Christina

January 2002

In this thesis, image alignment techniques are developed and evaluated for applications in neuroimaging. In particular, the problem of combining cross-sequence MRI (Magnetic Resonance Imaging) intra-subject scans is considered. The challenge in this case is to find topographically uniform mappings in order to register (find a mapping between) low resolution echo-planar images and their high resolution structural counterparts. Such an approach enables us to effectually fuse, in a clinically useful way, information across scans. This dissertation devises an alternative framework by which this may be achieved, involving appropriate optimisation of the required mapping functions, which turn out to be non-linear and high-dimensional in nature. Novel ways to constrain and regularise these functions to enhance the computational speed of the process and the accuracy of the solution are also studied. The algorithms, whose characteristics are demonstrated for this specific application should be fully generalisable to other medical imaging modalities and potentially, other areas of image processing. To begin with, some existing registration methods are reviewed, followed by the introduction of an automated global 3-D registration method. Its performance is investigated on extracted cortical and ventricular surfaces by utilising the principles of the chamfer matching approach. Evaluations on synthetic and real data-sets, are performed to show that removal of global image differences is possible in principle, although the true accuracy of the method depends on the type of geometrical distortions present. These results also reveal that this class of algorithm is unable to solve more localised variations and higher order magnetic field distortions between the images. These facts motivate the development of a high-dimensional 3-D registration method capable of effecting a one-to-one correspondence by capturing the localised differences. This method was seen to account not only for topological differences but also for non-linear deformations in size and shape. Validation of the algorithm is carried out on geometrical objects, simulated data and real images to ensure that the important requirements for a topologically useful mapping; invertibility, smoothness of the deformation field and an almost perfect correspondence can be maintained between two image sequences.

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Theory and application of spectral analysis to doppler-shift ultrasound signals from blood vessels

Coghian, B. A.

January 1979

No description available.

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The development of computerised continuous and multi-modality monitoring in the intensive care environment of a district general hospital

Powell, Shirley Ann

January 2002

No description available.

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Biomedical modelling

Diamantopoulos, Panayiotis

January 2002

No description available.

615.84

Optical and thermal transport modelling of laser-tissue interaction

Daniel, Gwenaelle Monique

January 2002

No description available.

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