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COORDINATED DESIGN OF RESTORATION ALGORITHM AND CODED APERTURE (RECONSTRUCTION, TOMOGRAPHY).Paxman, Richard Greenwood January 1984 (has links)
Coded-aperture systems are indirect imaging systems that have been used to image x-ray and (gamma)-ray sources. Coded aperture systems are also capable of recording tomographic information and because they involve no detector motion they are natural candidates for use in dynamic studies in nuclear medicine. Computer simulations suggest that an orthogonal-view coded-aperture system, which circumvents the problem of limited angular view, is capable of restoring clinically useful tomographic information. The restoration is performed with the aid of the iterative back-projection algorithm which is shown to yield the Moore-Penrose generalized inverse in the limit of many iterations. The convergence behavior of this algorithm is also examined. In order to improve reconstructions, the problems of optimizing coded aperture design is addressed. The concept of "alignment" is introduced in which the aperture parameters are adjusted until the system is tuned to measure well the object class of interest. A mean-square error figure of merit is derived that indicates the degree of alignment of a system. Aperture design may then be seen as a multidimensional optimization problem in which system parameters are adjusted in order to find a global minimum value for the figure of merit. The figure of merit presumes the use of an optimum restoration filter in the reconstruction process. Various restoration algorithms are suggested which fulfill this requirement. Finally, simple proof-of-principle simulations are given that demonstrate a degree of plausibility to the alignment approach.
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Architecture and algorithms for a fully programmable ultrasound system /York, George W. P. January 1999 (has links)
Thesis (Ph. D.)--University of Washington, 1999. / Vita. Includes bibliographical references (leaves 110-118).
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Inherent insensitivity to RF inhomogeneity in FLASH imagingWang, Danli. January 2003 (has links) (PDF)
Thesis (M.S.)--Biomedical Engineering, Georgia Institute of Technology, 2003. / John Oshinski, Committee Member; Paul Benkeser, Committee Member; Xiaoping Hu, Committee Chair. Includes bibliographical references (leaves 45-47).
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A generalized programmable system and efficient algorithms for ultrasound backend processing /Basoglu, Chris. January 1997 (has links)
Thesis (Ph. D.)--University of Washington, 1997. / Vita. Includes bibliographical references (leaves [273]-288).
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Quantitative in vivo assessment of tissue microstructure using diffusion tensor and kurtosis imagingZhang, Zhongping, 张忠平 January 2011 (has links)
published_or_final_version / Diagnostic Radiology / Master / Master of Philosophy
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Magnetic resonance diffusion characterization of brain diseases丁莹, Ding, Ying January 2012 (has links)
Magnetic resonance imaging (MRI) is a valuable imaging technique. It provides excellent soft tissue contrast and multi-parametric non-invasive imaging protocols. Among those various techniques, diffusion MRI measures the water diffusion properties of biological tissue. It is a useful tool in characterizing various brain tissue microstructures quantitatively. With its rapid development, it is emerging that subtle changes can be probed by diffusion tensor imaging (DTI) quantitation. The objectives of this doctoral work are to access the subtle microstructural alterations in rodent brains due to hemodynamic changes, fear conditioning and sleep deprivation using in vivo DTI. With the improved reproducibility and specificity achieved by using advanced post-processing and animal preparation procedures, in vivo DTI is expected to be useful to explore the underlying biological mechanisms for posttraumatic stress disorder and memory deficit following sleep loss in human.
Firstly, as DTI could be influenced by the presence of water molecules in brain vasculature, for better understand the reproducibility and sensitivity of in vivo DTI measurements, conventional DTI protocol was applied to a well-controlled rat model of hypercapnia. Our data demonstrated that diffusivities increased in whole brain, gray and white matter regions in response to hypercapnia. These results indicate that in vivo DTI quantitation in brain can be interfered by vascular factors on the order of few percents. Cautions should be taken in designing and interpreting quantitative DTI studies as all DTI indices can be potentially confounded by physiologic conditions, cerebrovascular and hemodynamic characteristics.
Secondly, recent DTI studies have shown detection of long-term neural plasticity weeks to months following relatively extensive periods of training in animals. However, rapid plasticity within a short period (24 hours) after learning is important for observing the time course of training-evoked changes and narrow down candidate mechanisms. Fear conditioning (FC), which typically occurs over a short timescale (in minutes), was selected as a paradigm for investigation. Using voxel-wise repeated measures analysis, FA was found to increase in amygdala and decrease in hippocampus 1-hour post-FC, and it reversed in both regions 1-day post-FC. Results indicate that DTI can detect rapid microstructural changes in brain regions known to mediate fear conditioning in vivo. DTI indices could be explored as a translational tool to capture potential early biological changes in individuals at risk for developing post-traumatic stress disorder.
Thirdly, in vivo DTI was employed to access regional specific microstructural changes following rapid eye movement sleep deprivation (SD), and explore possible temporal differentiation of these changes. With voxel-base analysis, MD is found to decrease in post-SD time points in bilateral hippocampi and cerebral cortex. The distributions of these clusters exhibited differentiable layer specific patterns, which were pointing to dentate gyrus and CA1 layer in hippocampus, and parietal cortex and barrel field layers in cerebral cortex. Results indicate that in vivo DTI is capable to detect microstructural changes in specific layers and reveal temporal distinction between them. These specific layers are possibly more susceptible to sleep loss, and the temporal distinction of changes between these layers might underlie learning and memory decline after SD. / published_or_final_version / Electrical and Electronic Engineering / Doctoral / Doctor of Philosophy
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The development of new agents for molecular imaging in cancerStöckmann, Henning January 2012 (has links)
No description available.
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Imaging techniques and hardware for inhomogeneous MRI /Thayer, David A., January 2004 (has links) (PDF)
Thesis (M.S.)--Brigham Young University. Dept. of Electrical and Computer Engineering, 2004. / Includes bibliographical references (p. 135-137).
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Deformable models and their applications in medical image processing /Zhu, Hui, January 1998 (has links)
Thesis (Ph. D.)--University of Hong Kong, 1998. / Includes bibliographical references.
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3D visualization of an invariant display strategy for hyperspecteral imagery /Kim, Kang Suk. January 2002 (has links) (PDF)
Thesis (M.S. in Applied Physics and Computer Science)--Naval Postgraduate School, December 2002. / Thesis advisor(s): Richard C. Olsen, Donald P. Brutzman. Includes bibliographical references (p. 85-86). Also available online.
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