Fundamental Mathematics and Physics of Medical Imaging

$19.99

Download Fundamental Mathematics and Physics of Medical Imaging written by Jack Lancaster, Bruce Hasegawa in PDF format. This book is under the category Medicine and bearing the isbn/isbn13 number 149875161X; 0367574527/9781498751612/ 9780367574529. You may reffer the table below for additional details of the book.

SKU: 4abe17a1c80c Category: Tags: ,

Specifications

book-author

Jack Lancaster, Bruce Hasegawa

publisher

CRC Press

file-type

PDF

pages

346 pages

language

English

asin

B01N5WBVL4

isbn10

149875161X; 0367574527

isbn13

9781498751612/ 9780367574529


Book Description

Authored by a prominent educator; Fundamental Mathematics and Physics of Medical Imaging; (PDF) teaches the basic mathematics and physics concepts related to medical imaging systems. Going beyond a mere description of imaging modalities; this ebook digs into the mechanisms of image quality and image formation common to all imaging systems: noise; contrast mechanisms; and spatial and temporal resolution; making it an important reference for biomedical engineering students and medical physicists. This is an extensively reviewed new edition of The Physics of Medical X-Ray Imaging by Bruce Hasegawa (Medical Physics Publishing; 1991); and includes a broad range of modalities such as X-ray CT; MRI; and SPECT.

NOTE: The product only includes the ebook Fundamental Mathematics; and Physics of Medical Imaging in PDF. No access codes are included.

Additional information

book-author

Jack Lancaster, Bruce Hasegawa

publisher

CRC Press

file-type

PDF

pages

346 pages

language

English

asin

B01N5WBVL4

isbn10

149875161X; 0367574527

isbn13

9781498751612/ 9780367574529

Table of contents


Table of contents :
Content: Chapter 1. Overview —
Chapter 2. Medical imaging technology and terminology —
Chapter 3. Digital imaging in diagnostic radiology —
Chapter 4. Physical determinants of contrast —
Chapter 5. Mathematics for linear systems —
Chapter 6. Spatial resolution —
Chapter 7. Random processes —
Chapter 8. Noise and detective quantum efficiency —
Chapter 9. Noise-resolution model —
Chapter 10. The Rose model —
Chapter 11. Receiver operating characteristic (ROC) analysis —
Chapter 12. Digital subtraction angiography —
Chapter 13. Temporal filtering —
Chapter 14. Computed tomography —
Chapter 15. Single-photon emission computed tomography —
Chapter 16. Magnetic resonance imaging.

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