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Principles of Magnetic Resonance Imaging: A Signal Processing Perspective

2010-04-05 
基本信息·出版社:Wiley-IEEE Press ·页码:416 页 ·出版日期:1999年10月 ·ISBN:0780347234 ·条形码:9780780347236 ·装帧:精装 ·正文语种:英 ...
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Principles of Magnetic Resonance Imaging: A Signal Processing Perspective 去商家看看

 Principles of Magnetic Resonance Imaging: A Signal Processing Perspective


基本信息·出版社:Wiley-IEEE Press
·页码:416 页
·出版日期:1999年10月
·ISBN:0780347234
·条形码:9780780347236
·装帧:精装
·正文语种:英语
·丛书名:IEEE Press Series on Biomedical Engineering
·外文书名:磁共振成象原理: 信号处理方法(IEEE出版社生物医学工程系列)

内容简介 在线阅读本书

In 1971 Dr. Paul C. Lauterbur pioneered spatial information encoding principles that made image formation possible by using magnetic resonance signals. Now Lauterbur, "father of the MRI", and Dr. Zhi–Pei Liang have co–authored the first engineering textbook on magnetic resonance imaging. This long–awaited, definitive text will help undergraduate and graduate students of biomedical engineering, biomedical imaging scientists, radiologists, and electrical engineers gain an in–depth understanding of MRI principles.

The authors use a signal processing approach to describe the fundamentals of magnetic resonance imaging. You will find a clear and rigorous discussion of these carefully selected essential topics: Mathematical fundamentals Signal generation and detection principles Signal characteristics Signal localization principles Image reconstruction techniques Image contrast mechanisms Image resolution, noise, and artifacts Fast–scan imagingConstrained reconstruction Complete with a comprehensive set of examples and homework problems, Principles of Magnetic Resonance Imaging is the must–read book to improve your knowledge of this revolutionary technique.
作者简介 About the Authors
Zhi–Pei Liang is a faculty member in the Department of Electrical and Computer Engineering (ECE) and the Beckman Institute for Advanced Science and Technology at the University of Illinois at Urbana–Champaign (UIUC). Dr. Liang has contributed to the theory and applications of image reconstruction, constrained imaging, and image analysis. He received the Sylvia Sorkin Greenfield Best Paper Award of the Medical Physics Journal in 1990 and the National Science Foundation Career Award in 1995. Dr. Liang was named a Beckman Fellow of the UIUC Center for Advanced Study in 1997 and a Henry Magnuski Scholar for Outstanding Young Faculty Member in the ECE Department in 1999.
Paul C. Lauterbur is a Center–for–Advanced–Study professor of Medical Information Sciences, Chemistry, and Molecular and Integrative Physiology and professor in the Center for Biophysics and Computational Biology, the Bioengineering Program, and the Beckman Institute all at the University of Illinois at Urbana–Champaign. Before conceiving of and demonstrating magnetic resonance imaging in 1971 1972, Dr. Lauterbur used nuclear magnetic resonance spectroscopy to study molecular structures. Among his numerous awards are the 1987 National Medal of Science, 1990 Bower Award and Prize for Achievement in Science, and 1994 Kyoto Prize for Advanced Technology. Dr. Lauterbur is a member of the National Academy of Sciences.
专业书评 Biomedical/Electrical Engineering Principles of Magnetic Resonance Imaging A Signal Processing Perspective A volume in the IEEE Press Series in Biomedical Engineering Metin Akay, Series Editor Since its inception in 1971, MRI has developed into a premier tool for anatomical and functional imaging. Principles of Magnetic Resonance Imaging provides a clear and comprehensive treatment of MR image formation principles from a signal processing perspective. You will find discussion of these essential topics:Mathematical fundamentalsSignal generation and detection principlesSignal characteristicsSignal localization principlesImage reconstruction techniquesImage contrast mechanismsImage resolution, noise, and artifactsFast-scan imagingConstrained reconstructionSpatial information encodingPrinciples of Magnetic Resonance Imaging contains a comprehensive set of examples and homework problems. This textbook will provide students of biomedical engineering, biophysics, chemistry, electrical engineering, and radiology with a systematic, in-depth understanding of MRI principles.

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