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Automatic matching of features in Synthetic Aperture Radar data to digital map dataCaves, Ronald George January 1993 (has links)
The large amounts of Synthetic Aperture Radar (SAR) data now being generated demand automatic tools for image interpretation. Where available, map data provides a valuable aid for visual interpretation and it should aid automatic interpretation. Automatic map based interpretation will be heavily dependent on methods for matching image and map features, both for defining the initial registration and for comparing image and map. This thesis investigates methods for carrying out this matching. Before beginning to develop image map matching methods, a full understanding of the nature of SAR data is first required. The general theory of SAR imaging, the effects of speckle and texture on image statistics, multi-look image statistics, and parameter estimation, are all discussed before addressing the main subject matter. Initially the feasibility of directly matching map features to SAR image features is investigated. Simulations based on a simple image model produce promising results. However, the results of matching features in real images are disappointing. This is due to the limitations of the image model on which matching is based. Possible extensions to include texture and correlation are considered to be computationally too expensive. Rather, it is concluded that pre-processing is needed to structure the image prior to matching. Structuring using edge detection and segmentation are investigated. Among operators for detecting edges in SAR an operator based on intensity ratios is identified as the most suitable. Its performance is fully analysed. Segmentation using an iterative edge detection/segment growing algorithm developed at the Royal Signals and Radar Establishment is investigated and various improvements are suggested. The output of segmentation is structured to a higher level than the output of edge detection. Thus the former is the more suitable candidate for map matching. Approaches to matching segmentations to map data are discussed.
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An optimization approach to labelling problems in computer visionYang, Dekun January 1995 (has links)
This thesis is concerned with the development of an optimization based approach to solving labelling problems which involve the assignment of image entities into interpretation categories in computer vision. Attention is mainly focussed on the theoretical basis and computational aspect of continuous relaxation for solving a discrete labelling problem based on an optimization framework. First, a theoretical basis for continuous relaxation is presented which includes the formulation of a discrete labelling problem as a continuous minimization problem and an analysis of labelling unambiguity associated with continuous relaxation. The main advantage of the formulation over existing formulations is the embedding of relational measurements into the specification of a consistent labelling. The analysis provides a sufficient condition for a continuous labelling formulation to ensure that a consistent labelling is unambiguous. Second, a continuous relaxation labelling algorithm based on mean field theory is presented with the aim of approximating simulated annealing in a deterministic manner. The novelty of the algorithm lies in the utilization of mean field theory technique to avoid stochastic optimization for approximating the global optimum of a consistent labelling criterion. This is contrast to the conventional methods which find a local optimum near an initial estimate of labelling. A special three-frame discrete labelling problem of establishing trinocular stereo correspondence and a mixed labelling problem of interpreting image entities in terms of cylindrical objects and their locations are also addressed. For the former, two orientation based geometric constraints are suggested for matching lines among three viewpoints and a method is presented to find a consistent labelling using simulated annealing. For the latter, the image interpretation of 3D cylindrical objects and their 3D locations is achieved using three knowledge sources: edge map, region map and the ground plane constraint. The method differs from existing methods in that it exploits an integrated use of multiple image cues to simplify the interpretation task and improve the interpretation performance. Experimental results on both synthetic data and real images are provided to demonstrate the viability and the potential of the proposed methods throughout the thesis.
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Radiographer interpretation of trauma radiographs: Issues for radiography education providersHardy, Maryann L., Snaith, Beverly 11 October 2007 (has links)
No / The role of radiographers with respect to image interpretation within clinical practice is well recognised. It is the expectation of the professional, regulatory and academic bodies that upon qualification, radiographers will possess image interpretation skills. Additionally, The College of Radiographers has asserted that its aspiration is for all radiographers to be able to provide an immediate written interpretation on skeletal trauma radiographs by 2010. This paper explores the readiness of radiography education programmes in the UK to deliver this expectation.
Method
A postal questionnaire was distributed to 25 Higher Education Institutions in the UK (including Northern Ireland) that provided pre-registration radiography education as identified from the Society & College of Radiographers register. Information was sought relating to the type of image interpretation education delivered at pre- and post-registration levels; the anatomical range of image interpretation education; and education delivery styles.
Results
A total of 19 responses (n=19/25; 76.0%) were received. Image interpretation education was included as part of all radiographer pre-registration programmes and offered at post-registration level at 12 academic centres (n=12/19; 63.2%). The anatomical areas and educational delivery methods varied across institutions.
Conclusion
Radiography education providers have embraced the need for image interpretation education within both pre- and post-registration radiography programmes. As a result, UK education programmes are able to meet the 2010 College of Radiographers aspiration.
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Towards Automatic Image Analysis for Computerised Mammography /Olsén, Christina, January 2008 (has links)
Diss. Umeå : Umeå universitet, 2008.
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Preliminary clinical evaluation: Where are we? An international scoping reviewHarcus, James, Stevens, B., Pantic, V., Hewis, J. 27 August 2024 (has links)
Yes / Background: The College of Radiographers’ vision was that diagnostic radiographers in the UK would be
writing preliminary clinical evaluations (PCE) on images. Their 2013 policy supporting the use of PCE has
not been updated in a decade and it might be suggested PCE practices in the UK have not really moved
on, though elsewhere it appears to have gained traction. The aim of this scoping review was to establish
the current global status of the use of PCE.
Method: The Arksey and O'Malley scoping review framework and PRISMA-ScR guidelines were used to
develop a protocol to identify studies between January 2013 to January 2024 using six databases. Collated
literature was analysed using content analysis to identify themes.
Results: 52 relevant studies were identified for inclusion. Studies focused predominantly on evaluating
accuracy, education, perceptions, and new initiatives. Themes identified a developing role in the use of
PCE internationally, perhaps more than in the UK, and in a range of modalities and clinical settings
though projectional radiography remains the mainstay. Barriers and drivers to the use of PCE were
identified in addition to some quality mechanisms used to support PCE implementation, though impact
of implementation was not well explored.
Conclusion: Considering PCE has been an aspiration for more than a decade, it remains relatively
infrequently researched. There is growing scope internationally, particularly in Australia, yet there is no
real evaluation of the impact and role that PCE may have.
Implications for practice: Until further research into the potential impact of PCE and barriers to its
implementation, it is likely practices may not evolve with the risk AI technologies may supersede necessity
for the practice.
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A Probabilistic Approach to Image Feature Extraction, Segmentation and InterpretationPal, Chris January 2000 (has links)
This thesis describes a probabilistic approach to imagesegmentation and interpretation. The focus of the investigation is the development of a systematic way of combining color, brightness, texture and geometric features extracted from an image to arrive at a consistent interpretation for each pixel in the image. The contribution of this thesis is thus the presentation of a novel framework for the fusion of extracted image features producing a segmentation of an image into relevant regions. Further, a solution to the sub-pixel mixing problem is presented based on solving a probabilistic linear program. This work is specifically aimed at interpreting and digitizing multi-spectral aerial imagery of the Earth's surface. The features of interest for extraction are those of relevance to environmental management, monitoring and protection. The presented algorithms are suitable for use within a larger interpretive system. Some results are presented and contrasted with other techniques. The integration of these algorithms into a larger system is based firmly on a probabilistic methodology and the use of statistical decision theory to accomplish uncertain inference within the visual formalism of a graphical probability model.
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A Probabilistic Approach to Image Feature Extraction, Segmentation and InterpretationPal, Chris January 2000 (has links)
This thesis describes a probabilistic approach to imagesegmentation and interpretation. The focus of the investigation is the development of a systematic way of combining color, brightness, texture and geometric features extracted from an image to arrive at a consistent interpretation for each pixel in the image. The contribution of this thesis is thus the presentation of a novel framework for the fusion of extracted image features producing a segmentation of an image into relevant regions. Further, a solution to the sub-pixel mixing problem is presented based on solving a probabilistic linear program. This work is specifically aimed at interpreting and digitizing multi-spectral aerial imagery of the Earth's surface. The features of interest for extraction are those of relevance to environmental management, monitoring and protection. The presented algorithms are suitable for use within a larger interpretive system. Some results are presented and contrasted with other techniques. The integration of these algorithms into a larger system is based firmly on a probabilistic methodology and the use of statistical decision theory to accomplish uncertain inference within the visual formalism of a graphical probability model.
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Magnetic resonance intensity standardization for multi-site tissue classification of brains with multiple sclerosis a comparative analysis /Gedamu, Abraham. January 1900 (has links)
Thesis (M.Eng.). / Written for the Dept. of Biomedical Engineering. Title from title page of PDF (viewed 2008/04/12). Includes bibliographical references.
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Radio frequency coil techniques and cardiovascular magnetic resonance imaging /Brown, Ryan Jeffrey. January 2009 (has links)
Thesis (Ph. D.)--Cornell University, January, 2009. / Vita. Includes bibliographical references (leaves 143-155).
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The impact of image test bank construction on radiographic interpretation outcomes: A comparison studyHardy, Maryann L., Flintham, K., Snaith, Beverly, Lewis, Emily F. 22 October 2015 (has links)
No / Assessment of image interpretation competency is commonly undertaken through review of a defined image test bank. Content of these image banks has been criticised for the high percentage of abnormal examinations which contrasts with lower reported incidences of abnormal radiographs in clinical practice. As a result, questions have been raised regarding the influence of prevalence bias on the accuracy of interpretive decision making. This article describes a new and novel approach to the design of musculoskeletal image test banks.
Three manufactured image banks were compiled following a standard academic menu in keeping with previous studies. Three further image test banks were constructed to reflect local clinical workload within a single NHS Trust. Eighteen radiographers, blinded to the method of test bank composition, were randomly assigned 2 test banks to review (1 manufactured, 1 clinical workload). Comparison of interpretive accuracy was undertaken.
Inter-rater agreement was moderate to good for all image banks (manufactured: range k = 0.45–0.68; clinical workload: k = 0.49–0.62). A significant difference in mean radiographer sensitivity was noted between test bank designs (manufactured 87.1%; clinical workload 78.5%; p = 0.040, 95% CI = 0.4–16.8; t = 2.223). Relative parity in radiographer specificity and overall accuracy was observed.
This study confirms the findings of previous research that high abnormality prevalence image banks over-estimate the ability of observers to identify abnormalities. Assessment of interpretive competency using an image bank that reflects local clinical practice is a better approach to accurately establish interpretive competency and the learning development needs of individual practitioners.
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