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Computed Radiation Imaging: Physics and Mathematics of Forward and Inverse Problems

Autor Esam M A Hussein
en Limba Engleză Paperback – 26 mai 2011
Computer-assisted imaging with radiation (x- and gamma rays) is an integral part of modern medical-diagnostic practice. This imaging technology is also slowly finding its way into industrial applications. Although the technology is well developed, there is a need for further improvement to enhance image quality, reduce artifacts, minimize patient radiation exposure, compete with and complement other imaging methods (such as magnetic resonance imaging and ultrasonics), and accommodate dense and large objects encountered in industrial applications.
Scientists and engineers, attempting to progress this technology, are faced with an enormous amount of literature, addressing the imaging problem from various view points. This book provides a single source that addresses both the physical and mathematical aspects of the imaging problem in a consistent and comprehensive manner.


  • Discusses the inherent physical and numerical capabilities and limitations of the methods presented for both the forward and inverse problems
  • Provides information on available Internet resources and software
  • Written in a manner that makes it readable by physicists, mathematicians, engineers and computer scientists – avoids, as much as possible, the use of specialized terminology without clear introduction and definition
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Specificații

ISBN-13: 9780323165297
ISBN-10: 032316529X
Pagini: 302
Dimensiuni: 152 x 229 x 16 mm
Greutate: 0.41 kg
Editura: ELSEVIER SCIENCE

Public țintă

Researchers working in the field of radiation-based imaging

Cuprins

  1. Radiation Imaging PART I - The Forward Problem
  2. Radiation Transport
  3. Measurement Models
  4. Transmission
  5. Emission
  6. Scattering PART II - The Inverse Problem
  7. Features
  8. Formulation
  9. Preprocessing of Measurements
  10. Matrix-Based Methods
  11. Functional Optimization
  12. Analytic Methods
  13. Probabilistic Methods
  14. Incomplete Problems
  15. Testing
  16. Post-Processing: Image Enhancement