Magnetic resonance imaging : mathematical foundations and applications /
Magnetic Resonance Imaging advances a coherent mathematical theory of MRI and presents for the first time a real-world application of non-commutative Fourier analysis. Emphasizing the interdisciplinary nature of clinical MRI, this book offers an intriguing look at the geometric principles underlying...
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| Format: | Book |
| Language: | English |
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New York :
Wiley-Liss,
©1998.
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| Online Access: | Table of contents Table of contents Publisher description Cover |
Table of Contents:
- NMR Spectroscopy and Clinical MRI: Historical and Phenomenological Aspects
- The Development of Computerized Pulsed Fourier NMR Spectroscopy and Clinical MRI: First Part
- The Development of Computerized Pulsed Fourier NMR Spectroscopy and Clinical MRI: Second Part
- The NMR and MRI Methodologies Continued
- The Kepplerian Phase-Sensitive Quadrature Detection Strategy
- The Structure-Function Problem in Clinical MRI
- The Planar Coadjoint Orbit Stratification of the Heisenberg Dual
- Quantum Computational Aspects
- Projective Homologies: Affine Dilations and Transvections
- Gradient Echoes and the Affine Wavelet Transform
- Phase-Coherent Wavelet Geometry and Spherical Volume Shims
- The Transvectional Encoding Procedure
- Phase-Locked Synchronized Neural Networks
- Kernel Distributions
- Applications and Synopsis
- Tomographic Morphology: MRI of the Articulatio Genus
- In Vivo Dynamical MRI Visualization: The Human Brain Function
- Retrospect and Conclusions.