Foundations of Medical Imaging
Designed to provide those engaged in modern medical imaging with a coherent perspective of the entire discipline so that one protocol is no longer an isolated or independent mode of imaging from others, to wit: single photon emission computed tomography (SPECT), positron emission tomography (PET) or magnetic resonance imaging (MRI). Introduces biomagnetic imaging as a third new modality.
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Mathematical Preliminaries for Image Processing
Image Reconstruction From Projections in Two Dimensions
13 other sections not shown
absorption acoustical algorithm amplitude angle applied attenuation coefficient backprojection chemical shift coincidence collimator computed computed tomography conventional coordinates crystal system detection detector direction distribution effect electrons emission energy equation example field inhomogeneity Figure Fourier domain Fourier imaging Fourier transform frequency gamma given gradient gradient coil histogram IEEE Trans image reconstruction imaging technique interaction interpolation inverse ionization linear Magn magnetic field measured medical imaging method msec neuromagnetic NMR imaging NMR signal Nucl nuclear obtained parameters particle phase encoding photons pixel planar plane point spread function projection data propagation pulse sequence radiation Radon transform readout gradient reconstructed image region relaxation represents resolution result rf pulse rotating sampling scatter scintillation camera selection semiconductor detectors sensitivity shown in Fig slice spatial domain SPECT spectral spectroscopy spectrum spherical spread function tion tomography transducer ultrasonic ultrasound velocity voltage voxel wave Wiener filter X-ray X-ray CT Z. H. Cho
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Bildgebende Verfahren in der Medizin: Von der Technik zur medizinischen ...
No preview available - 1999