Compressed Sensing Magnetic Resonance Image Reconstruction Algorithms
Title | Compressed Sensing Magnetic Resonance Image Reconstruction Algorithms PDF eBook |
Author | Bhabesh Deka |
Publisher | Springer |
Pages | 133 |
Release | 2018-12-29 |
Genre | Technology & Engineering |
ISBN | 9811335974 |
This book presents a comprehensive review of the recent developments in fast L1-norm regularization-based compressed sensing (CS) magnetic resonance image reconstruction algorithms. Compressed sensing magnetic resonance imaging (CS-MRI) is able to reduce the scan time of MRI considerably as it is possible to reconstruct MR images from only a few measurements in the k-space; far below the requirements of the Nyquist sampling rate. L1-norm-based regularization problems can be solved efficiently using the state-of-the-art convex optimization techniques, which in general outperform the greedy techniques in terms of quality of reconstructions. Recently, fast convex optimization based reconstruction algorithms have been developed which are also able to achieve the benchmarks for the use of CS-MRI in clinical practice. This book enables graduate students, researchers, and medical practitioners working in the field of medical image processing, particularly in MRI to understand the need for the CS in MRI, and thereby how it could revolutionize the soft tissue imaging to benefit healthcare technology without making major changes in the existing scanner hardware. It would be particularly useful for researchers who have just entered into the exciting field of CS-MRI and would like to quickly go through the developments to date without diving into the detailed mathematical analysis. Finally, it also discusses recent trends and future research directions for implementation of CS-MRI in clinical practice, particularly in Bio- and Neuro-informatics applications.
Compressed Sensing for Magnetic Resonance Image Reconstruction
Title | Compressed Sensing for Magnetic Resonance Image Reconstruction PDF eBook |
Author | Angshul Majumdar |
Publisher | Cambridge University Press |
Pages | 227 |
Release | 2015-02-26 |
Genre | Computers |
ISBN | 1107103762 |
"Discusses different ways to use existing mathematical techniques to solve compressed sensing problems"--Provided by publisher.
Magnetic Resonance Image Reconstruction
Title | Magnetic Resonance Image Reconstruction PDF eBook |
Author | Mehmet Akcakaya |
Publisher | Academic Press |
Pages | 518 |
Release | 2022-11-04 |
Genre | Science |
ISBN | 012822746X |
Magnetic Resonance Image Reconstruction: Theory, Methods and Applications presents the fundamental concepts of MR image reconstruction, including its formulation as an inverse problem, as well as the most common models and optimization methods for reconstructing MR images. The book discusses approaches for specific applications such as non-Cartesian imaging, under sampled reconstruction, motion correction, dynamic imaging and quantitative MRI. This unique resource is suitable for physicists, engineers, technologists and clinicians with an interest in medical image reconstruction and MRI. - Explains the underlying principles of MRI reconstruction, along with the latest research - Gives example codes for some of the methods presented - Includes updates on the latest developments, including compressed sensing, tensor-based reconstruction and machine learning based reconstruction
Compressed Sensing Magnetic Resonance Image Reconstruction Algorithms
Title | Compressed Sensing Magnetic Resonance Image Reconstruction Algorithms PDF eBook |
Author | Sumit Datta |
Publisher | |
Pages | 133 |
Release | 2019 |
Genre | Compressed sensing (Telecommunication) |
ISBN | 9789811335983 |
This book presents a comprehensive review of the recent developments in fast L1-norm regularization-based compressed sensing (CS) magnetic resonance image reconstruction algorithms. Compressed sensing magnetic resonance imaging (CS-MRI) is able to reduce the scan time of MRI considerably as it is possible to reconstruct MR images from only a few measurements in the k-space; far below the requirements of the Nyquist sampling rate. L1-norm-based regularization problems can be solved efficiently using the state-of-the-art convex optimization techniques, which in general outperform the greedy techniques in terms of quality of reconstructions. Recently, fast convex optimization based reconstruction algorithms have been developed which are also able to achieve the benchmarks for the use of CS-MRI in clinical practice. This book enables graduate students, researchers, and medical practitioners working in the field of medical image processing, particularly in MRI to understand the need for the CS in MRI, and thereby how it could revolutionize the soft tissue imaging to benefit healthcare technology without making major changes in the existing scanner hardware. It would be particularly useful for researchers who have just entered into the exciting field of CS-MRI and would like to quickly go through the developments to date without diving into the detailed mathematical analysis. Finally, it also discusses recent trends and future research directions for implementation of CS-MRI in clinical practice, particularly in Bio- and Neuro-informatics applications.
Advances in Electronics, Communication and Computing
Title | Advances in Electronics, Communication and Computing PDF eBook |
Author | Akhtar Kalam |
Publisher | Springer |
Pages | 797 |
Release | 2017-10-27 |
Genre | Technology & Engineering |
ISBN | 9811047650 |
This book is a compilation of research work in the interdisciplinary areas of electronics, communication, and computing. This book is specifically targeted at students, research scholars and academicians. The book covers the different approaches and techniques for specific applications, such as particle-swarm optimization, Otsu’s function and harmony search optimization algorithm, triple gate silicon on insulator (SOI)MOSFET, micro-Raman and Fourier Transform Infrared Spectroscopy (FTIR) analysis, high-k dielectric gate oxide, spectrum sensing in cognitive radio, microstrip antenna, Ground-penetrating radar (GPR) with conducting surfaces, and digital image forgery detection. The contents of the book will be useful to academic and professional researchers alike.
Handbook of Mathematical Methods in Imaging
Title | Handbook of Mathematical Methods in Imaging PDF eBook |
Author | Otmar Scherzer |
Publisher | Springer Science & Business Media |
Pages | 1626 |
Release | 2010-11-23 |
Genre | Mathematics |
ISBN | 0387929193 |
The Handbook of Mathematical Methods in Imaging provides a comprehensive treatment of the mathematical techniques used in imaging science. The material is grouped into two central themes, namely, Inverse Problems (Algorithmic Reconstruction) and Signal and Image Processing. Each section within the themes covers applications (modeling), mathematics, numerical methods (using a case example) and open questions. Written by experts in the area, the presentation is mathematically rigorous. The entries are cross-referenced for easy navigation through connected topics. Available in both print and electronic forms, the handbook is enhanced by more than 150 illustrations and an extended bibliography. It will benefit students, scientists and researchers in applied mathematics. Engineers and computer scientists working in imaging will also find this handbook useful.
Compressed Sensing for Magnetic Resonance Image Reconstruction
Title | Compressed Sensing for Magnetic Resonance Image Reconstruction PDF eBook |
Author | Angshul Majumdar |
Publisher | Cambridge University Press |
Pages | 228 |
Release | 2015-02-26 |
Genre | Technology & Engineering |
ISBN | 1316673928 |
Expecting the reader to have some basic training in liner algebra and optimization, the book begins with a general discussion on CS techniques and algorithms. It moves on to discussing single channel static MRI, the most common modality in clinical studies. It then takes up multi-channel MRI and the interesting challenges consequently thrown up in signal reconstruction. Off-line and on-line techniques in dynamic MRI reconstruction are visited. Towards the end the book broadens the subject by discussing how CS is being applied to other areas of biomedical signal processing like X-ray, CT and EEG acquisition. The emphasis throughout is on qualitative understanding of the subject rather than on quantitative aspects of mathematical forms. The book is intended for MRI engineers interested in the brass tacks of image formation; medical physicists interested in advanced techniques in image reconstruction; and mathematicians or signal processing engineers.