Deep Learning for Biomedical Image Reconstruction
Published on 12. October 2023
Book
Hardback
400 pages
978-1-316-51751-2 (ISBN)
Description
Discover the power of deep neural networks for image reconstruction with this state-of-the-art review of modern theories and applications. The background theory of deep learning is introduced step-by-step, and by incorporating modeling fundamentals this book explains how to implement deep learning in a variety of modalities, including X-ray, CT, MRI and others. Real-world examples demonstrate an interdisciplinary approach to medical image reconstruction processes, featuring numerous imaging applications. Recent clinical studies and innovative research activity in generative models and mathematical theory will inspire the reader towards new frontiers. This book is ideal for graduate students in Electrical or Biomedical Engineering or Medical Physics.
More details
Language
English
Place of publication
Cambridge
United Kingdom
Target group
Professional and scholarly
Product notice
sewn/stitched
Cloth over boards
Illustrations
Worked examples or Exercises
Dimensions
Height: 246 mm
Width: 170 mm
Thickness: 24 mm
Weight
885 gr
ISBN-13
978-1-316-51751-2 (9781316517512)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Jong Chul Ye | Yonina C. Eldar | Michael Unser
Deep Learning for Biomedical Image Reconstruction
E-Book
09/2023
Cambridge University Press
€111.99
Available for download
Persons
Content
Part I. Theory of Deep Learning for Image Reconstruction Michael Unser: 1. Formalizing deep neural networks Jong Chul Ye and Sangmin Lee; 2. Geometry of deep learning Saiprasad Ravishankar, Zhishen Huang, Michael McCann and Siqi Ye; 3. Model-based reconstruction with learning: from unsupervised to supervised and beyond Yuelong Li, Or Bar-Shira, Vishal Monga and Yonina C. Eldar; 4. Deep algorithm unrolling for biomedical; Part II. Deep Learning Architecture for Various Imaging Modalities Haimiao Zhang, Bin Dong, Ge Wang and Baodong Liu: 5. Deep learning for CT image reconstruction Guang-Hong Chen, Chengzhu Zhang, Yinsheng Li, Yoseob Han and Jong Chul Ye; 6. Deep learning in CT reconstruction: bring the measured data to tasks Patricia Johnson and Florian Knoll; 7. Overview deep learning reconstruction of accelerated MRI Mathews Jacob, Hemant K. Aggarwal and Qing Zou; 8. Model-based deep learning algorithms for inverse problems Mehmet Akcakaya, Gyutaek Oh, Jong Chul Ye; 9. k-space deep learning for MR reconstruction and artifact removal Ruud J. G. van Sloun, Jong Chul Ye and Yonina C Eldar; 10. Deep learning for ultrasound beamforming Jaeyoung Huh, Shujaat Khan and Jong Chul Ye; 11. Ultrasound image artifact removal using deep neural network; Part III. Generative Models for Biomedical Imaging Jaejun Yoo, Michael Unser: 12. Deep generative models for biomedical image reconstruction Tolga C?ukur, Mahmut Yurt, Salman Ul Hassan Dar, Hyungjin Chun and, Jong Chul Ye; 13. Image synthesis in multi-contrast MRI with generative adversarial networks Jaejun Yoo and Michael Unser; 14. Regularizing deep-neural-network paradigm for the reconstruction of dynamic magnetic resonance images Thanh-an Pham, Fangshu Yang and Michael Unser; 15. Regularizing neural network for phase unwrapping Michael T. McCann, Laur`ene Donati, Harshit Gupta and Michael Unser; 16. CryoGAN: a deep generative adversarial approach to single-particle cryo-em; Index.