In the biomedical field, biomedical imaging has come to be a discipline of its own, given the nature of its applications in the understanding of the human body and medical diagnostics. The understanding of Deformable Models are the significant utility on biomedical imagery primarily because of its ability to perform efficient topology preservation and fast shape recovery. This has dominated the binary, grayscale and color imaging frameworks, which the eye can perceive. It has not only the ability to find boundaries and surfaces that are deep seated in 2-D and 3-D volumes respectively, but also…mehr
In the biomedical field, biomedical imaging has come to be a discipline of its own, given the nature of its applications in the understanding of the human body and medical diagnostics. The understanding of Deformable Models are the significant utility on biomedical imagery primarily because of its ability to perform efficient topology preservation and fast shape recovery. This has dominated the binary, grayscale and color imaging frameworks, which the eye can perceive. It has not only the ability to find boundaries and surfaces that are deep seated in 2-D and 3-D volumes respectively, but also provide satisfactory solutions for the completion of cognitive objects with missing boundaries.
Deformable Models: Biomedical and Clinical Applications will focus on the core mage processing techniques for biomedical and clinical applications.
Produktdetails
Produktdetails
Topics in Biomedical Engineering. International Book Series
Artikelnr. des Verlages: 11582595, 978-0-387-31201-9
2007
Seitenzahl: 576
Erscheinungstermin: 2. August 2007
Englisch
Abmessung: 241mm x 160mm x 36mm
Gewicht: 954g
ISBN-13: 9780387312019
ISBN-10: 0387312013
Artikelnr.: 20768553
Herstellerkennzeichnung
Books on Demand GmbH
In de Tarpen 42
22848 Norderstedt
info@bod.de
040 53433511
Autorenporträt
Aly A. Farag received the bachelor degree from Cairo University, Egypt and the PhD degree from Purdue University in Electrical Engineering. He also holds master degrees in bioengineering from the Ohio State and the University of Michigan. He is a University Scholar and Professor of Electrical & Computer Engineering at the University of Louisville. Dr. Farag is the founder and director of the Computer Vision and Image Processing Laboratory (CVIP Lab) which focuses on imaging science, computer vision and biomedical imaging. Dr. Farag main research focus is 3D object reconstruction from multimodality imaging, and applications of statistical and variational methods for object segmentation and registration. He has authored over 250 technical papers in the field of image understanding and holds a number patents. He is regular reviewer to a number of professional organizations in the United States and abroad, and a member of the editorial boards of a number journals and international meetings. Jasjit S. Suri, PhD is an innovator, scientist, a visionary, and industrialist and an internationally known world leader in Biomedical Engineering and Biological Sciences. Dr. Suri has spent over 20 years in the field of biomedical engineering, devices and its management. He received his Doctorate from the University of Washinton, Seattle and Master's in Executive Business Management from Weatherhead, Case Western Reserve University, Cleveland, Ohio. Dr. Suri was crowned with the President's Gold Medal in 1980 and elected as a Fellow of the American Institute for Medical and Biological Engineering.
Inhaltsangabe
Simulating Bacterial Biofilms.- Distance Transform Algorithms And Their Implementation And Evaluation.- Level Set Techniques For Structural Inversion In Medical Imaging.- Shape And Texture-Based Deformable Models For Facial Image Analysis.- Detection Of The Breast Contour In Mammograms By Using Active Contour Models.- Statistical deformable models for cardiac Segmentation and Functional Analysis In Gated-Spect Studies.- Level Set Formulation For Dual Snake Models.- Accurate Tracking Of Monotonically Advancing Fronts.- Toward Consistently Behaving Deformable Models For Improved Automation In Image Segmentation.- Application Of Deformable Models For The Detection Of Acute Renal Rejection.- Physically And Statistically Based Deformable Models For Medical Image Analysis.- Deformable Organisms For Medical Image Analysis.- Pde-Based Three Dimensional Path Planning For Virtual Endoscopy.- Object Tracking In Image Sequence Combining Hausdorff Distance, Non-Extensive Entropy In Level Set Formulation.- Deformable Model-Based Image Registration.
Simulating Bacterial Biofilms.- Distance Transform Algorithms And Their Implementation And Evaluation.- Level Set Techniques For Structural Inversion In Medical Imaging.- Shape And Texture-Based Deformable Models For Facial Image Analysis.- Detection Of The Breast Contour In Mammograms By Using Active Contour Models.- Statistical deformable models for cardiac Segmentation and Functional Analysis In Gated-Spect Studies.- Level Set Formulation For Dual Snake Models.- Accurate Tracking Of Monotonically Advancing Fronts.- Toward Consistently Behaving Deformable Models For Improved Automation In Image Segmentation.- Application Of Deformable Models For The Detection Of Acute Renal Rejection.- Physically And Statistically Based Deformable Models For Medical Image Analysis.- Deformable Organisms For Medical Image Analysis.- Pde-Based Three Dimensional Path Planning For Virtual Endoscopy.- Object Tracking In Image Sequence Combining Hausdorff Distance, Non-Extensive Entropy In Level Set Formulation.- Deformable Model-Based Image Registration.
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