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
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3-D volume acoustical amplitude applied attenuation coefficient backprojection chemical shift coincidence collimator computed computed tomography conventional convolution coordinates crystal system data acquisition detection detector direction distribution echo signal effect electrons emission energy equation example excitation field inhomogeneity Figure filter function Fourier domain Fourier imaging Fourier transform frequency gamma gradient gradient pulse histogram IEEE Trans image reconstruction interpolation inverse ionization linear Magn magnetic field method msec NMR imaging NMR signal Nucl nuclear obtained particle phase encoding photomultiplier photons pixel point spread function projection data propagation pulse sequence quantitative radial Radon transform readout gradient reconstructed image region resolution result rf coil rf pulse rotating sampling scatter scintillation camera semiconductor detectors sensitivity shown in Fig spatial domain SPECT spectral spectroscopy spectrum spin density spiral scan spread function SSFP susceptibility T2 relaxation tion tissue tomography 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