Synopses & Reviews
Fundamentals of Digital Imaging in Medicine is a primer for students of medical radiology, designed to demystify the mathematics that imaging theory resides in. The focus on medical imaging accompanied by an approach that forgoes complex mathematics for intuitive explanation makes this book accessible and relevant to the medical radiology student without advanced training in mathematics. Addressing concepts such as spatial frequency and Fourier transformations, the reader is armed with a new understanding and grasp of digital imaging with which to manipulate images to optimize their interpretation. Including over 150 figures to illustrate the fundamental concepts of digital imaging and laid out for easy targeting of the desired information, this book is a must-have for any student of medical radiology who wishes to penetrate the world of medical imaging theory.
Review
"The purpose of this book is to help professionals without a very solid mathematical background to understand how medical images are formed, processed, and displayed. It explains all the processes without advanced mathematics and the reader gets an intuitive feel for all processes from signal production to its final display. This is harmonically enhanced through a wealth of illustrated examples.This is a very well written book, easy to read, and easy to follow. All of the material is backed up with up-todate useful literature for further reading. The reader is guided through an intuitive way to digital imaging in medicine without the need for advanced mathematics knowledge. This "tour" is advanced by numerous illustrated examples, which help the reader to advance his/her knowledge." (George C. Kagadis, PhD, in Med. Phys 37 (7))
Synopsis
In general, image processing texts are intended for students of engineering and computer science, and there is little written at all on the specific requirements of medical image processing. Students of medical radiation science (Diagnostic radiography, Nuclear medicine, Radiation therapy) usually have minimal mathematical and computer science training and find the available texts incomprehensible. A text that explains the principles of image processing in minimally-mathematical language is needed for these students. Contrary to the claims of some textbook authors, the vast majority of technologists that process images do not need to understand the mathematics involved, but would nevertheless benefit from a thorough understanding of the general process.
Synopsis
Addressing concepts such as spatial frequency and Fourier transformations, this book arms the reader with an understanding of digital imaging with which to manipulate images to optimize their interpretation. Over 150 figures illustrate fundamental concepts.
Table of Contents
Introduction.- Digital Images.- Medical Images.- The Spatial and Frequency Domains.- Image Quality.- Contrast Adjustment.- Image Filters.- Spatial Transformation.- Appendices.