Image Registration Based On Point Similarity Measures

Image Registration Based on Point Similarity Measures

Author : Peter Rogelj

Publisher : LAP Lambert Academic Publishing

Page : 136 pages

File Size : 10,38 MB

Release : 2010-05

Category :

ISBN : 9783838357331

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Book Description

Image Registration is an important tool for medical image analysis. It can be used to find complex spatial relationship between images even in the case of multi-modality data. Point similarity measures were shown to provide several benefits to the registration process. Although they are intensity-based, they enable multi-modality assessment of the most localized image discrepancies by measuring similarity of arbitrary small image subregions, including individual image points. Such local properties enable registration process to avoid interpolation artifacts commonly observed using other intensity-based similarity measures. Furthermore, point similarity measures separate the registration process into functionally independent parts of similarity measurement, optimization and spatial regularization, simplifying design and testing of registration methods. Finally, they enable straightforward integration of additional knowledge of the problem domain, and thus enable additional registration improvements.



Image Registration

Author : A. Ardeshir Goshtasby

Publisher : Springer Science & Business Media

Page : 454 pages

File Size : 10,85 MB

Release : 2012-01-11

Category : Computers

ISBN : 1447124588

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Book Description

This book presents a thorough and detailed guide to image registration, outlining the principles and reviewing state-of-the-art tools and methods. The book begins by identifying the components of a general image registration system, and then describes the design of each component using various image analysis tools. The text reviews a vast array of tools and methods, not only describing the principles behind each tool and method, but also measuring and comparing their performances using synthetic and real data. Features: discusses similarity/dissimilarity measures, point detectors, feature extraction/selection and homogeneous/heterogeneous descriptors; examines robust estimators, point pattern matching algorithms, transformation functions, and image resampling and blending; covers principal axes methods, hierarchical methods, optimization-based methods, edge-based methods, model-based methods, and adaptive methods; includes a glossary, an extensive list of references, and an appendix on PCA.



Medical Image Registration

Author : Joseph V. Hajnal

Publisher : CRC Press

Page : 394 pages

File Size : 31,77 MB

Release : 2001-06-27

Category : Medical

ISBN : 1420042475

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Book Description

Image registration is the process of systematically placing separate images in a common frame of reference so that the information they contain can be optimally integrated or compared. This is becoming the central tool for image analysis, understanding, and visualization in both medical and scientific applications. Medical Image Registration provid



Theory and Applications of Image Registration

Author : Arthur Ardeshir Goshtasby

Publisher : John Wiley & Sons

Page : 476 pages

File Size : 46,72 MB

Release : 2017-08-21

Category : Computers

ISBN : 1119171717

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Book Description

A hands-on guide to image registration theory and methods—with examples of a wide range of real-world applications Theory and Applications of Image Registration offers comprehensive coverage of feature-based image registration methods. It provides in-depth exploration of an array of fundamental issues, including image orientation detection, similarity measures, feature extraction methods, and elastic transformation functions. Also covered are robust parameter estimation, validation methods, multi-temporal and multi-modality image registration, methods for determining the orientation of an image, methods for identifying locally unique neighborhoods in an image, methods for detecting lines in an image, methods for finding corresponding points and corresponding lines in images, registration of video images to create panoramas, and much more. Theory and Applications of Image Registration provides readers with a practical guide to the theory and underpinning principles. Throughout the book numerous real-world examples are given, illustrating how image registration can be applied to problems in various fields, including biomedicine, remote sensing, and computer vision. Also provided are software routines to help readers develop their image registration skills. Many of the algorithms described in the book have been implemented, and the software packages are made available to the readers of the book on a companion website. In addition, the book: Explores the fundamentals of image registration and provides a comprehensive look at its multi-disciplinary applications Reviews real-world applications of image registration in the fields of biomedical imaging, remote sensing, computer vision, and more Discusses methods in the registration of long videos in target tracking and 3-D reconstruction Addresses key research topics and explores potential solutions to a number of open problems in image registration Includes a companion website featuring fully implemented algorithms and image registration software for hands-on learning Theory and Applications of Image Registration is a valuable resource for researchers and professionals working in industry and government agencies where image registration techniques are routinely employed. It is also an excellent supplementary text for graduate students in computer science, electrical engineering, software engineering, and medical physics.



Biomedical Image Registration

Author : James C. Gee

Publisher : Springer Science & Business Media

Page : 423 pages

File Size : 32,90 MB

Release : 2003-10-13

Category : Medical

ISBN : 3540203435

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Book Description

The 2nd International Workshop on Biomedical Image Registration (WBIR) was held June 23–24, 2003, at the University of Pennsylvania, Philadelphia. Following the success of the ?rst workshop in Bled, Slovenia, this meeting aimed to once again bring together leading researchers in the area of biomedical image registration to present and discuss recent developments in the ?eld. Thetheory,implementationandapplicationofimageregistrationinmedicine have become major themes in nearly every scienti?c forum dedicated to image processingandanalysis. Thisintenseinterestre?ectsthe?eld’simportantrolein theconductofabroadandcontinuallygrowingrangeofstudies. Indeed,thete- niques have enabled some of the most exciting contemporary developments in the clinical and research application of medical imaging, including fusion of m- timodality data to assist clinical interpretation; change detection in longitudinal studies; brain shift modeling to improve anatomic localization in neurosurgical procedures; cardiac motion quanti?cation; construction of probabilistic atlases of organ structure and function; and large-scale phenotyping in animal models. WBIR was conceived to provide the burgeoning community of investigators in biomedical image registration an opportunity to share, discuss and stimulate developments in registration research and application at a meeting exclusively devoted to the topic. The format of this year’s workshop consisted of invited talks, author presentations and ample opportunities for discussion, the latter including an elegant reception and dinner hosted at the Mutter ̈ Museum. A representation of the best work in the ?eld, selected by peer review from full manuscripts,waspresentedinsingle-tracksessions. Thepapers,whichaddressed the full diversity of registration topics, are reproduced in this volume, along with enlightening essays by some of the invited speakers.





Mutual Information Based Methods to Localize Image Registration [electronic Resource]

Author : Kathleen P. Wilkie

Publisher : University of Waterloo

Page : 131 pages

File Size : 19,79 MB

Release : 2005

Category : Diagnostic imaging

ISBN :

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Book Description

Modern medicine has become reliant on medical imaging. Multiple modalities, e.g. magnetic resonance imaging (MRI), computed tomography (CT), etc., are used to provide as much information about the patient as possible. The problem of geometrically aligning the resulting images is called image registration. Mutual information, an information theoretic similarity measure, allows for automated intermodal image registration algorithms. In applications such as cancer therapy, diagnosticians are more concerned with the alignment of images over a region of interest such as a cancerous lesion, than over an entire image set. Attempts to register only the regions of interest, defined manually by diagnosticians, fail due to inaccurate mutual information estimation over the region of overlap of these small regions. This thesis examines the region of union as an alternative to the region of overlap. We demonstrate that the region of union improves the accuracy and reliability of mutual information estimation over small regions. We also present two new mutual information based similarity measures which allow for localized image registration by combining local and global image information. The new similarity measures are based on convex combinations of the information contained in the regions of interest and the information contained in the global images. Preliminary results indicate that the proposed similarity measures are capable of localizing image registration. Experiments using medical images from computer tomography and positron emission tomography demonstrate the initial success of these measures. Finally, in other applications, auto-detection of regions of interest may prove useful and would allow for fully automated localized image registration. We examine methods to automatically detect potential regions of interest based on local activity level and present some encouraging results.



Robust Feature-Point Based Image Matching

Author : Wui-Fung Sze

Publisher : Open Dissertation Press

Page : pages

File Size : 22,94 MB

Release : 2017-01-27

Category :

ISBN : 9781361470985

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Book Description

This dissertation, "Robust Feature-point Based Image Matching" by Wui-fung, Sze, 施會豐, was obtained from The University of Hong Kong (Pokfulam, Hong Kong) and is being sold pursuant to Creative Commons: Attribution 3.0 Hong Kong License. The content of this dissertation has not been altered in any way. We have altered the formatting in order to facilitate the ease of printing and reading of the dissertation. All rights not granted by the above license are retained by the author. Abstract: Abstract of thesis entitled "Robust Feature-Point Based Image Matching" Submitted by SZE Wui Fung for the degree of Master of Philosophy at The University of Hong Kong in August 2006 Establishing reliable correspondences across images is essential for many computer vision applications. Besides feature extraction, a general point-based image imaging framework comprises two stages, namely putative matching and robust model estimation. The first stage involves establishing putative matches based on photometric similarity measures or some local constraints. The second stage involves recovering the fundamental matrix that describes the geometric model relating two views and simultaneously eliminating mismatched point-pairs priorly generated. This thesis proposes novel methods for both putative matching and robust model estimation, a more reliable matching result than has hitherto been possible. Two different approaches to putative matching, namely correlation matching (intensity-based) and SVD matching (proximity-based), are investigated. For correlation matching, a new similarity measure invariant to image rotation and scaling is proposed. The weakness of SVD matching in handling image rotation and occluded data is solved by preceding the algorithm with a simple transformation (consisting of a translation and a scaling) on the coordinates of extracted image-points. Intertwining these two modified matching algorithms, a new image-matching algorithm is developed to relate images resulting from zooming and photographing with large position offsets. Experimental results on real images demonstrate that our proposed algorithm is able to provide a high proportional of correct matches even when the scaling variation between two images is larger than 3. Regarding the stage of robust estimation, the 8-point algorithm, which is extensively used for computing the fundamental matrix, is analyzed in detail. Simple but effective approaches are incorporated in the 8-point algorithm to minimize a newly derived cost function. The resulting estimate of the fundamental matrix is found to be more accurate than that of the standard 8-point algorithm. The improvement is justified by theory and verified by experiments on both real and synthetic data. We also derive a condition number in terms of the singular values of the pivotal matrix of the 8-point algorithm, and show empirically how the condition number describes the quality of the fundamental matrix for detecting mismatches, which is a key step in the RANSAC approach for robust estimation of the fundamental matrix. It is shown that the condition number can be improved by using more data-points in the 8-point algorithm. Based on this finding, a nested RANSAC algorithm is proposed to selectively increase the size of the sample set when a potential solution is detected. Examples using real images show that the nested RANSAC approach produces results superior to standard RANSAC. DOI: 10.5353/th_b3715326 Subjects: Computer vision Image processing Algorithms



Biomedical Image Registration

Author : Boštjan Likar

Publisher : Springer Science & Business Media

Page : 334 pages

File Size : 19,21 MB

Release : 2006-06-30

Category : Computers

ISBN : 3540356487

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Book Description

This book constitutes the thoroughly refereed post-proceedings of the Third International Workshop on Biomedical Image Registration. The 20 revised full papers and 18 revised poster papers presented were carefully reviewed and selected for inclusion in the book. The papers cover all areas of biomedical image registration; methods of registration, biomedical applications, and validation of registration.