Description |
1 online resource (xvi, 581 pages) : illustrations |
Series |
Topics in biomedical engineering international book series |
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Topics in biomedical engineering international book series.
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Contents |
Signed Distance Transform -- Subjective Level Sets -- Level Set application to BioFilms -- Level Set Shape Models -- Real-time level set implementation including software and hardware architectures -- A Level Sets Formulation for Dual Snakes Model -- Object Tracking Combining Hausdorff Distance, HSV Histogram and Nonextensive Entropy -- Extrapolation Techniques For Finite Element Method -- GVF vs. Level Set -- Level Set Registration -- Active Shape and Appearance Models for Facial Image Analysis -- PDE-Based Three Dimensional Path Planning For Virtual Endoscopy -- Application of Level sets in Medical Virtual Reality, Virtual Reality, Visualization and Imaging Research Centre |
Summary |
Deformable Models: Theory and Biomaterial Applications is the second installation in the two-volume set Deformable Models which provides a wide cross-section of the methods and algorithms of variational and PDE methods in biomedical image analysis. The chapters are written by well-known researchers in this field, and the presentation style goes beyond an intricate abstraction of the theory into real application of the methods and description of the algorithms that were implemented. As such these chapters will serve the main goal of the editors of the volumes in bringing down to earth the latest in variational and PDE methods in modeling of soft tissues, covering the theory, algorithms, and applications of level sets and deformable models in medical image analysis. Overall, the chapters of this volume provide an elegant cross-section of the theory and application of variational and PDE approaches in medical image analysis. Graduate students and researchers at various levels of familiarity with these techniques will find the volume very useful for understanding the theory and algorithmic implementations. In addition, the various case studies provided demonstrate the power of these techniques in clinical applications. Researchers at various levels will find these chapters useful to understand the theory, algorithms, and implementation of many of these approaches |
Analysis |
engineering |
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afbeelden |
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imagery |
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computertechnieken |
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computer techniques |
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biomedische techniek |
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biomedical engineering |
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radiologie |
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radiology |
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computational science |
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Engineering (General) |
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Techniek (algemeen) |
Notes |
Print version record |
Subject |
Biomedical engineering.
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Deformation potential.
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Diagnostic imaging -- Digital techniques.
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Computer simulation.
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Digital computer simulation.
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Diagnostic imaging.
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Magnetic resonance imaging.
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Human anatomy -- Models.
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Mathematical models.
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Image Interpretation, Computer-Assisted -- methods
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Biomedical Engineering
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Biomedical Technology
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Computer Simulation
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Diagnostic Imaging
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Imaging, Three-Dimensional
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Magnetic Resonance Imaging
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Models, Anatomic
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Models, Theoretical
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biomedical engineering.
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simulation.
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mathematical models.
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Ingénierie.
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Mathematical models
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Magnetic resonance imaging
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Human anatomy -- Models
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Digital computer simulation
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Diagnostic imaging
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Computer simulation
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Biomedical engineering
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Deformation potential
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Diagnostic imaging -- Digital techniques
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Form |
Electronic book
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Author |
Suri, Jasjit S
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Farag, Aly A
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ISBN |
9780387683430 |
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0387683437 |
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9780387312040 |
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0387312048 |
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