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Deep Network Design for Medical Image Computing
Principles and Applications
- 1st Edition - August 24, 2022
- Authors: Haofu Liao, S. Kevin Zhou, Jiebo Luo
- Language: English
- Paperback ISBN:9 7 8 - 0 - 1 2 - 8 2 4 3 8 3 - 1
- eBook ISBN:9 7 8 - 0 - 1 2 - 8 2 4 4 0 3 - 6
Deep Network Design for Medical Image Computing: Principles and Applications covers a range of MIC tasks and discusses design principles of these tasks for deep learning approache… Read more
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Request a sales quoteDeep Network Design for Medical Image Computing: Principles and Applications covers a range of MIC tasks and discusses design principles of these tasks for deep learning approaches in medicine. These include skin disease classification, vertebrae identification and localization, cardiac ultrasound image segmentation, 2D/3D medical image registration for intervention, metal artifact reduction, sparse-view artifact reduction, etc. For each topic, the book provides a deep learning-based solution that takes into account the medical or biological aspect of the problem and how the solution addresses a variety of important questions surrounding architecture, the design of deep learning techniques, when to introduce adversarial learning, and more.
This book will help graduate students and researchers develop a better understanding of the deep learning design principles for MIC and to apply them to their medical problems.
- Explains design principles of deep learning techniques for MIC
- Contains cutting-edge deep learning research on MIC
- Covers a broad range of MIC tasks, including the classification, detection, segmentation, registration, reconstruction and synthesis of medical images
Medical imaging researchers and graduate students
- Cover image
- Title page
- Table of Contents
- Copyright
- Dedication
- List of figures
- Acknowledgments
- Chapter 1: Introduction
- Abstract
- 1.1. Medical image computing
- 1.2. Deep learning design principles
- 1.3. Chapter organization
- References
- Chapter 2: Deep learning basics
- Abstract
- 2.1. Convolutional neural networks
- 2.2. Recurrent neural networks
- 2.3. Deep image-to-image networks
- 2.4. Deep generative networks
- References
- Part 1: Deep network design for medical image analysis and selected applications
- Chapter 3: Classification: lesion and disease recognition
- Abstract
- 3.1. Design principles
- 3.2. Case study: skin disease classification versus skin lesion characterization
- 3.3. Case study: skin lesion classification with multitask learning
- 3.4. Summary
- References
- Chapter 4: Detection: vertebrae localization and identification
- Abstract
- 4.1. Design principles
- 4.2. Case study: vertebrae localization and identification
- 4.3. Summary
- References
- Chapter 5: Segmentation: intracardiac echocardiography contouring
- Abstract
- 5.1. Design principles
- 5.2. Case study: intracardiac echocardiography contouring
- 5.3. Summary
- References
- Chapter 6: Registration: 2D/3D rigid registration
- Abstract
- 6.1. Design principles
- 6.2. Case study: 2D/3D medical image registration
- 6.3. Summary
- References
- Part 2: Deep network design for medical image reconstruction, synthesis, and selected applications
- Chapter 7: Reconstruction: supervised artifact reduction
- Abstract
- 7.1. Design principles
- 7.2. Case study: sparse-view artifact reduction
- 7.3. Case study: metal artifact reduction
- 7.4. Summary
- References
- Chapter 8: Reconstruction: unsupervised artifact reduction
- Abstract
- 8.1. Design principles
- 8.2. Case study: metal artifact reduction
- 8.3. Summary
- References
- Chapter 9: Synthesis: novel radiography view synthesis
- Abstract
- 9.1. Design principles
- 9.2. Case study: novel radiography view synthesis
- 9.3. Summary
- References
- Chapter 10: Challenges and future directions
- Abstract
- 10.1. Challenges and open issues
- 10.2. Trends and future directions
- References
- Index
- No. of pages: 264
- Language: English
- Edition: 1
- Published: August 24, 2022
- Imprint: Academic Press
- Paperback ISBN: 9780128243831
- eBook ISBN: 9780128244036
HL
Haofu Liao
Dr. Haofu Liao is currently an applied scientist of the Rekognition & Video Analysis team at Amazon Web Services, Inc. He received his Ph.D. degree in Computer Science from the University of Rochester, Rochester, NY in 2019 under the supervision of Prof. Jiebo Luo. Prior to that, he received his M.S. degree in Electrical and Computer Engineering from Northeastern University, Boston, MA in 2015 and his B.E. degree from the Beijing University of Posts and Telecommunications, Beijing, China in 2012. His research interest is in the interdisciplinary field between artificial intelligence and medicine. In particular, his research focuses on deep medical image computing where he designs deep learning-based approaches that are tailored for medical imaging or medical image analysis problems. He has authored more than 20 peer-reviewed papers in medical image computing and computer vision venues, including CVPR, MICCAI, TMI, ICPR.
Affiliations and expertise
Applied Scientist, Rekognition and Video Analysis team, Amazon Web Services, Inc, CA, USASZ
S. Kevin Zhou
S. Kevin Zhou, Ph.D. is currently a Principal Key Expert Scientist at Siemens Healthcare Technology Center, leading a team of full time research scientists and students dedicated to researching and developing innovative solutions for medical and industrial imaging products. His research interests lie in computer vision and machine/deep learning and their applications to medical image analysis, face recognition and modeling, etc. He has published over 150 book chapters and peer-reviewed journal and conference papers, registered over 250 patents and inventions, written two research monographs, and edited three books. He has won multiple technology, patent and product awards, including R&D 100 Award and Siemens Inventor of the Year. He is an editorial board member for Medical Image Analysis journal and a fellow of American Institute of Medical and Biological Engineering (AIMBE).
Affiliations and expertise
Principal Key Expert, Medical Image Analysis, Siemens Healthcare Technology Center, Princeton, New Jersey, USAJL
Jiebo Luo
Jiebo Luo is a Professor of Computer Science at the University of Rochester, which joined in 2011 after a prolific career of fifteen years at Kodak Research Laboratories. He has been involved in numerous technical conferences, including serving as a program co-chair of ACM Multimedia 2010, IEEE CVPR 2012, ACM ICMR 2016, and IEEE ICIP 2017, as well as a general co-chair of ACM Multimedia 2018. He has served on the editorial boards of the IEEE Transactions on Pattern Analysis and Machine Intelligence (TPAMI), IEEE Transactions on Multimedia (TMM), IEEE Transactions on Circuits and Systems for Video Technology (TCSVT), IEEE Transactions on Big Data (TBD), ACM Transactions on Intelligent Systems and Technology (TIST), Pattern Recognition, Knowledge and Information Systems (KAIS), Machine Vision and Applications, and Journal of Electronic Imaging. He is currently the Editor-in-Chief of the IEEE Transactions on Multimedia. Professor Luo is a Fellow of ACM, AAAI, IEEE, SPIE and IAPR.
Affiliations and expertise
Professor of Computer Science, University of Rochester, NY, USARead Deep Network Design for Medical Image Computing on ScienceDirect