Tony Gaddis’s accessible, step-by-step presentation helps beginning students understand the important details necessary to become skilled programmers at an introductory level. Gaddis motivates the study of both programming skills and the Java programming language by presenting all the details needed to understand the “how” and the “why”—but never losing sight of the fact that most beginners struggle with this material. His approach is both gradual and highly accessible, ensuring that students understand the logic behind developing high-quality programs.In Starting Out with Java: Early Objects, Gaddis looks at objects—the fundamentals of classes and methods—before covering procedural programming. As with all Gaddis texts, clear and easy-to-read code listings, concise and practical real-world examples, and an abundance of exercises appear in every chapter.
目錄
Ch1: INTRODUCTION.
Ch2: IMAGE FORMATION.
Ch3: INTERACTION OF ELECTROMAGNETIC RADIATION WITH MATTER IN MEDICAL IMAGING.
Ch4: MEDICAL IMAGING MODALITIES: X-RAY IMAGING.
Ch5: MEDICAL IMAGING MODALITIES: MAGNETIC RESONANCE IMAGING.
Ch6: NUCLEAR MEDICINE IMAGING MODALITIES.
Ch7: MEDICAL IMAGING MODALITIES: ULTRASOUND IMAGING.
Ch8: IMAGE RECONSTRUCTION.
Ch9: IMAGE PROCESSING AND ENHANCEMENT.
Ch10: IMAGE SEGMENTATION.
Ch11: IMAGE REPRESENTATION, ANALYSIS, AND CLASSIFICATION.
Ch12: IMAGE REGISTRATION.
Ch13: IMAGE VISUALIZATION.
Ch14: CURRENT AND FUTURE TRENDS IN MEDICAL IMAGING AND IMAGE ANALYSIS.
INDEX.
Ch1: INTRODUCTION.
Ch2: IMAGE FORMATION.
Ch3: INTERACTION OF ELECTROMAGNETIC RADIATION WITH MATTER IN MEDICAL IMAGING.
Ch4: MEDICAL IMAGING MODALITIES: X-RAY IMAGING.
Ch5: MEDICAL IMAGING MODALITIES: MAGNETIC RESONANCE IMAGING.
Ch6: NUCLEAR MEDICINE IMAGING MODALITIES.
Ch7: MEDICAL IMAGING MODALITIES: ULTRASOUND IMAGING.
Ch8: IMAGE RECONSTRUCTION.
Ch9: IMAGE PROCESSING AND ENHANCEMENT.
Ch10: IMAGE SEGMENTATION.
Ch11: IMAGE REPRESENTATION, ANALYSIS, AND CLASSIFICATION.
Ch12:...