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35-03 : Traitement d'images médicales
35-01 Génie biomédical général 35-02 Instrumentation biomédicale 35-04 Modélisation des systèmes physiologiques 35-05 Biophysique 35-06 Biomatériaux 35-07 Biomécanique 35-08 Génie de la réhabilitation 35-09 Informatique biomédicale 35-10 Capteurs et mesures biomédicaux 35-11 Traitement des biosignauxOuvrages de la bibliothèque en indexation 35-03
Affiner la recherche Interroger des sources externesAdvanced Biomedical Image Analysis / Mark A. Haidekker
Titre : Advanced Biomedical Image Analysis Type de document : texte imprimé Auteurs : Mark A. Haidekker, Auteur Editeur : Hoboken,New jersey : John Wiley & Sons, Inc Année de publication : 2011 Importance : 512 p. Présentation : couv. ill. en coul., ill. Format : 24,2 cm. Accompagnement : CD-ROM ISBN/ISSN/EAN : 978-0-470-62458-6 Langues : Anglais (eng) Catégories : GÉNIE BIOMÉDICAL Index. décimale : 35-03 Traitement d'images médicales Résumé : A comprehensive reference of cutting-edge advanced techniques for quantitative image processing and analysis
Medical diagnostics and intervention, and biomedical research rely progressively on imaging techniques, namely, the ability to capture, store, analyze, and display images at the organ, tissue, cellular, and molecular level. These tasks are supported by increasingly powerful computer methods to process and analyze images. This text serves as an authoritative resource and self-study guide explaining sophisticated techniques of quantitative image analysis, with a focus on biomedical applications. It offers both theory and practical examples for immediate application of the topics as well as for in-depth study.
Advanced Biomedical Image Analysis presents methods in the four major areas of image processing: image enhancement and restoration, image segmentation, image quantification and classification, and image visualization. In each instance, the theory, mathematical foundation, and basic description of an image processing operator is provided, as well as a discussion of performance features, advantages, and limitations. Key algorithms are provided in pseudo-code to help with implementation, and biomedical examples are included in each chapter.
Image registration, storage, transport, and compression are also covered, and there is a review of image analysis and visualization software. The accompanying live DVD contains a selection of image analysis software, and it provides most of the algorithms from the book so readers can immediately put their new knowledge to use.
Members of the academic community involved in image-related research as well as members of the professional R&D sector will rely on this volume.
It is also well suited as a textbook for graduate-level image processing classes in the computer science and engineering fields.Note de contenu : Contents
1 Image Analysis: A Perspective
2 Survey of Fundamental Image Processing Operators
3 Image Processing in the Frequency Domain
4 The Wavelet Transform and Wavelet-Based Filtering
5 Adaptive Filtering
6 Deformable Models and Active Contours
7 The Hough Transform
8 Texture Analysis
9 Shape Analysis
10 Fractal Approaches to Image Analysis
11 Image Registration
12 Image Storage, Transport, and Compression
13 Image Visualization
14 Image Analysis and Visualization Software
Appendix A: Image Analysis with Crystal Image
Appendix B: Software on DVD
-IndexAdvanced Biomedical Image Analysis [texte imprimé] / Mark A. Haidekker, Auteur . - Hoboken,New jersey : John Wiley & Sons, Inc, 2011 . - 512 p. : couv. ill. en coul., ill. ; 24,2 cm. + CD-ROM.
ISBN : 978-0-470-62458-6
Langues : Anglais (eng)
Catégories : GÉNIE BIOMÉDICAL Index. décimale : 35-03 Traitement d'images médicales Résumé : A comprehensive reference of cutting-edge advanced techniques for quantitative image processing and analysis
Medical diagnostics and intervention, and biomedical research rely progressively on imaging techniques, namely, the ability to capture, store, analyze, and display images at the organ, tissue, cellular, and molecular level. These tasks are supported by increasingly powerful computer methods to process and analyze images. This text serves as an authoritative resource and self-study guide explaining sophisticated techniques of quantitative image analysis, with a focus on biomedical applications. It offers both theory and practical examples for immediate application of the topics as well as for in-depth study.
Advanced Biomedical Image Analysis presents methods in the four major areas of image processing: image enhancement and restoration, image segmentation, image quantification and classification, and image visualization. In each instance, the theory, mathematical foundation, and basic description of an image processing operator is provided, as well as a discussion of performance features, advantages, and limitations. Key algorithms are provided in pseudo-code to help with implementation, and biomedical examples are included in each chapter.
Image registration, storage, transport, and compression are also covered, and there is a review of image analysis and visualization software. The accompanying live DVD contains a selection of image analysis software, and it provides most of the algorithms from the book so readers can immediately put their new knowledge to use.
Members of the academic community involved in image-related research as well as members of the professional R&D sector will rely on this volume.
It is also well suited as a textbook for graduate-level image processing classes in the computer science and engineering fields.Note de contenu : Contents
1 Image Analysis: A Perspective
2 Survey of Fundamental Image Processing Operators
3 Image Processing in the Frequency Domain
4 The Wavelet Transform and Wavelet-Based Filtering
5 Adaptive Filtering
6 Deformable Models and Active Contours
7 The Hough Transform
8 Texture Analysis
9 Shape Analysis
10 Fractal Approaches to Image Analysis
11 Image Registration
12 Image Storage, Transport, and Compression
13 Image Visualization
14 Image Analysis and Visualization Software
Appendix A: Image Analysis with Crystal Image
Appendix B: Software on DVD
-IndexExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 2533 35-03-12 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2533 2534 35-03-12 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2534
Titre : An Introduction To The Principles Of Medical Imaging Type de document : texte imprimé Auteurs : Chris Guy, Auteur ; Dominic Ffytche, Auteur Editeur : London : Imperial College Press Année de publication : 2005 Importance : 374 p. Présentation : couv. ill. en coul., ill. Format : 23,5 cm. ISBN/ISSN/EAN : 978-1-86094-502-1 Langues : Anglais (eng) Catégories : GÉNIE BIOMÉDICAL Index. décimale : 35-03 Traitement d'images médicales Résumé : The introduction of X-ray computed tomography (CT) 25 years ago revolutionized medical imaging; X-ray CT itself provided the first clear cross-sectional images of the human body, with substantial contrast between different types of soft tissue. The enduring legacy of CT is, however, the spur that it gave to the subsequent introduction of tomographic imaging techniques into diagnostic nuclear medicine and the extraordinarily rapid development of magnetic resonance imaging (MRI) over this period.This book is a non-mathematical introduction to the principles underlying modern medical imaging, taking tomography as its central theme. The first three chapters cover the general principles of tomography, a survey of the atomic and nuclear physics which underpins modern imaging, and a review of the key issues involved in radiation protection. The subsequent chapters deal in turn with X-ray radiography, gamma imaging, MRI and ultrasound. The clinical role of diagnostic imaging is illustrated in the final chapter through the use of fictional clinical histories. Three appendices provide a more mathematical background to the tomographic method, the principles of mathematical Fourier methods, and the mathematics of MRI.This revised edition includes new introductory sections on the relevant physics of molecules in general, and water, in particular. Every chapter now has a table of key points with cross-references to other sections. Several figures have also been revised.The book is intended to provide a broad introductory background to tomographic imaging for two groups of readers: the physics or engineering undergraduate thinking of specializing in medical physics, and the medical student or clinician using tomographic techniques in research and clinical practice. Note de contenu : Contents:
-Introduction
1 Tomography
2 Atomic and Nuclear Physics
3 Radiation Protection
4 X-ray Radiography
5 Nuclear Medicine: Gamma Imaging
6 Magnetic Resonance Imaging
7 Ultrasound Imaging
8 Imaging in Clinical Practice
Appendix A: Waves, Images and Fourier analysis
Appendix B: Fourier Image Reconstruction
Appendix C: Mathematics of NMR
-Index
An Introduction To The Principles Of Medical Imaging [texte imprimé] / Chris Guy, Auteur ; Dominic Ffytche, Auteur . - London : Imperial College Press, 2005 . - 374 p. : couv. ill. en coul., ill. ; 23,5 cm.
ISBN : 978-1-86094-502-1
Langues : Anglais (eng)
Catégories : GÉNIE BIOMÉDICAL Index. décimale : 35-03 Traitement d'images médicales Résumé : The introduction of X-ray computed tomography (CT) 25 years ago revolutionized medical imaging; X-ray CT itself provided the first clear cross-sectional images of the human body, with substantial contrast between different types of soft tissue. The enduring legacy of CT is, however, the spur that it gave to the subsequent introduction of tomographic imaging techniques into diagnostic nuclear medicine and the extraordinarily rapid development of magnetic resonance imaging (MRI) over this period.This book is a non-mathematical introduction to the principles underlying modern medical imaging, taking tomography as its central theme. The first three chapters cover the general principles of tomography, a survey of the atomic and nuclear physics which underpins modern imaging, and a review of the key issues involved in radiation protection. The subsequent chapters deal in turn with X-ray radiography, gamma imaging, MRI and ultrasound. The clinical role of diagnostic imaging is illustrated in the final chapter through the use of fictional clinical histories. Three appendices provide a more mathematical background to the tomographic method, the principles of mathematical Fourier methods, and the mathematics of MRI.This revised edition includes new introductory sections on the relevant physics of molecules in general, and water, in particular. Every chapter now has a table of key points with cross-references to other sections. Several figures have also been revised.The book is intended to provide a broad introductory background to tomographic imaging for two groups of readers: the physics or engineering undergraduate thinking of specializing in medical physics, and the medical student or clinician using tomographic techniques in research and clinical practice. Note de contenu : Contents:
-Introduction
1 Tomography
2 Atomic and Nuclear Physics
3 Radiation Protection
4 X-ray Radiography
5 Nuclear Medicine: Gamma Imaging
6 Magnetic Resonance Imaging
7 Ultrasound Imaging
8 Imaging in Clinical Practice
Appendix A: Waves, Images and Fourier analysis
Appendix B: Fourier Image Reconstruction
Appendix C: Mathematics of NMR
-Index
Exemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 1627 35-03-07 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 1627 1913 35-03-07 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 1913
Titre : Biomedical Image Analysis Type de document : texte imprimé Auteurs : Rangaraj M. Rangayyan, Auteur Editeur : Boca Raton; London; New York : CRC Press Année de publication : 2005 Collection : The Biomedical Engineering Series Importance : 1272 p. Présentation : couv. ill.,ill. Format : 24 cm. ISBN/ISSN/EAN : 978-0-84939-695-3 Langues : Anglais (eng) Catégories : GÉNIE BIOMÉDICAL Index. décimale : 35-03 Traitement d'images médicales Résumé : Computers have become an integral part of medical imaging systems and are used for everything from data acquisition and image generation to image display and analysis. As the scope and complexity of imaging technology steadily increase, more advanced techniques are required to solve the emerging challenges.
Biomedical Image Analysis demonstrates the benefits reaped from the application of digital image processing, computer vision, and pattern analysis techniques to biomedical images, such as adding objective strength and improving diagnostic confidence through quantitative analysis. The book focuses on post-acquisition challenges such as image enhancement, detection of edges and objects, analysis of shape, quantification of texture and sharpness, and pattern analysis, rather than on the imaging equipment and imaging techniques. Each chapter addresses several problems associated with imaging or image analysis, outlining the typical processes, then detailing more sophisticated methods directed to the specific problems of interest.
Note de contenu : Contents
1 THE NATURE OF BIOMEDICAL IMAGES
Body Temperature as an Image
X-ray Imaging
Nuclear Medicine Imaging
2 IMAGE QUALITY AND INFORMATION CONTENT
Histogram
The Fourier Transform and Spectral Content
Modulation Transfer Function
Signal-to-Noise Ratio
3 REMOVAL OF ARTIFACTS
Optimal Filtering
Adaptive Filters
Comparative Analysis of Filters for Noise Removal
Application: Noise Reduction in Nuclear Medicine Imaging
4 IMAGE ENHANCEMENT
Dual-energy and Energy-subtraction X-ray Imaging
Gray-scale Transforms
Homomorphic Filtering for Enhancement
Adaptive Contrast Enhancement
5 DETECTION OF REGIONS OF INTEREST
Application: Detection of the Spinal Canal
Application: Detection of the Breast Boundary in Mammograms
Application: Detection of the Pectoral Muscle in Mammograms
Application: Improved Segmentation of Breast Masses by Fuzzy-set-based Fusion of Contours and Regions
6 ANALYSIS OF SHAPE
Analysis of Spicularity
Application: Shape Analysis of Calcifications
Application: Shape Analysis of Breast Masses and Tumors
7 ANALYSIS OF TEXTURE
Texture in Biomedical Images
Laws' Measures of Texture Energy
Audification and Sonification of Texture in Images
Application: Analysis of Breast Masses Using Texture and Gradient Measures
8 ANALYSIS OF ORIENTED PATTERNS
Hough-Radon Transform Analysis
Application: Analysis of Ligament Healing
Application: Detection of Breast Tumors
Application: Bilateral Asymmetry in Mammograms
9 IMAGE RECONSTRUCTION FROM PROJECTIONS
Display of CT Images
Microtomography
Application: Analysis of the Tumor in Neuroblastoma
10 DECONVOLUTION, DEBLURRING, AND RESTORATION
Linear Space-invariant Restoration Filters
Homomorphic Deconvolution
Space-variant Restoration
Application: Restoration of Nuclear Medicine Images
11 IMAGE CODING AND DATA COMPRESSION
Application: Source Coding of Digitized Mammograms
mage Scanning Using the Peano-Hilbert Curve
Image Coding and Compression Standards
Segmentation-based Adaptive Scanning
Enhanced JBIG Coding
Lower-limit Analysis of Lossless Data Compression
Application: Teleradiology
12 PATTERN CLASSIFICATION AND DIAGNOSTIC DECISION
Neural Networks
Application: Image Enhancement for Breast Cancer Screening
Application: Classification of Breast Masses and Tumors via Shape Analysis
Application: Content-based Retrieval and Analysis of Breast Masses
-REFERENCES
-INDEX
Biomedical Image Analysis [texte imprimé] / Rangaraj M. Rangayyan, Auteur . - Boca Raton; London; New York : CRC Press, 2005 . - 1272 p. : couv. ill.,ill. ; 24 cm.. - (The Biomedical Engineering Series) .
ISBN : 978-0-84939-695-3
Langues : Anglais (eng)
Catégories : GÉNIE BIOMÉDICAL Index. décimale : 35-03 Traitement d'images médicales Résumé : Computers have become an integral part of medical imaging systems and are used for everything from data acquisition and image generation to image display and analysis. As the scope and complexity of imaging technology steadily increase, more advanced techniques are required to solve the emerging challenges.
Biomedical Image Analysis demonstrates the benefits reaped from the application of digital image processing, computer vision, and pattern analysis techniques to biomedical images, such as adding objective strength and improving diagnostic confidence through quantitative analysis. The book focuses on post-acquisition challenges such as image enhancement, detection of edges and objects, analysis of shape, quantification of texture and sharpness, and pattern analysis, rather than on the imaging equipment and imaging techniques. Each chapter addresses several problems associated with imaging or image analysis, outlining the typical processes, then detailing more sophisticated methods directed to the specific problems of interest.
Note de contenu : Contents
1 THE NATURE OF BIOMEDICAL IMAGES
Body Temperature as an Image
X-ray Imaging
Nuclear Medicine Imaging
2 IMAGE QUALITY AND INFORMATION CONTENT
Histogram
The Fourier Transform and Spectral Content
Modulation Transfer Function
Signal-to-Noise Ratio
3 REMOVAL OF ARTIFACTS
Optimal Filtering
Adaptive Filters
Comparative Analysis of Filters for Noise Removal
Application: Noise Reduction in Nuclear Medicine Imaging
4 IMAGE ENHANCEMENT
Dual-energy and Energy-subtraction X-ray Imaging
Gray-scale Transforms
Homomorphic Filtering for Enhancement
Adaptive Contrast Enhancement
5 DETECTION OF REGIONS OF INTEREST
Application: Detection of the Spinal Canal
Application: Detection of the Breast Boundary in Mammograms
Application: Detection of the Pectoral Muscle in Mammograms
Application: Improved Segmentation of Breast Masses by Fuzzy-set-based Fusion of Contours and Regions
6 ANALYSIS OF SHAPE
Analysis of Spicularity
Application: Shape Analysis of Calcifications
Application: Shape Analysis of Breast Masses and Tumors
7 ANALYSIS OF TEXTURE
Texture in Biomedical Images
Laws' Measures of Texture Energy
Audification and Sonification of Texture in Images
Application: Analysis of Breast Masses Using Texture and Gradient Measures
8 ANALYSIS OF ORIENTED PATTERNS
Hough-Radon Transform Analysis
Application: Analysis of Ligament Healing
Application: Detection of Breast Tumors
Application: Bilateral Asymmetry in Mammograms
9 IMAGE RECONSTRUCTION FROM PROJECTIONS
Display of CT Images
Microtomography
Application: Analysis of the Tumor in Neuroblastoma
10 DECONVOLUTION, DEBLURRING, AND RESTORATION
Linear Space-invariant Restoration Filters
Homomorphic Deconvolution
Space-variant Restoration
Application: Restoration of Nuclear Medicine Images
11 IMAGE CODING AND DATA COMPRESSION
Application: Source Coding of Digitized Mammograms
mage Scanning Using the Peano-Hilbert Curve
Image Coding and Compression Standards
Segmentation-based Adaptive Scanning
Enhanced JBIG Coding
Lower-limit Analysis of Lossless Data Compression
Application: Teleradiology
12 PATTERN CLASSIFICATION AND DIAGNOSTIC DECISION
Neural Networks
Application: Image Enhancement for Breast Cancer Screening
Application: Classification of Breast Masses and Tumors via Shape Analysis
Application: Content-based Retrieval and Analysis of Breast Masses
-REFERENCES
-INDEX
Exemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 1554 35-03-04 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 1554 2684 35-03-04 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2684
Titre : Biomedical imaging : principles and applications Type de document : texte imprimé Auteurs : Reiner Salzer, Auteur Editeur : Hoboken,New jersey : John Wiley & Sons, Inc Année de publication : 2012 Importance : 423 p. Présentation : couv. ill. en coul., ill. Format : 24 cm. ISBN/ISSN/EAN : 978-0-470-64847-6 Langues : Anglais (eng) Catégories : GÉNIE BIOMÉDICAL Index. décimale : 35-03 Traitement d'images médicales Résumé : This book presents and describes imaging technologies that can be used to study chemical processes and structural interactions in dynamic systems, principally in biomedical systems. The imaging technologies, largely biomedical imaging technologies such as MRT, Fluorescence mapping, raman mapping, nanoESCA, and CARS microscopy, have been selected according to their application range and to the chemical information content of their data. These technologies allow for the analysis and evaluation of delicate biological samples, which must not be disturbed during the profess. Ultimately, this may mean fewer animal lab tests and clinical trials. Note de contenu : Contents:
1 Evaluation of Spectroscopic Images
1.2 Data Analysis
1.3 Applications
2 Evaluation of Tomographic Data
2.2 Image Reconstruction
2.3 Image Data Representation: Pixel Size and Image Resolution
2.4 Consequences of Limited Spatial Resolution
2.5 Tomographic Data Evaluation: Tasks
3 X-Ray Imaging
3.1 Basics
3.2 Instrumentation
3.3 Clinical Applications
3.4 Radiation Exposure to Patients and Employees
4 Computed Tomography
4.1 Basics
4.2 Instrumentation
4.3 Measurement Techniques
4.4 Applications
4.4.1 Clinical Applications of Computed Tomography,
4.4.2 Radiation Dose in Typical Clinical Applications and Methods for Dose Reduction
4.5 Outlook
5 Magnetic Resonance Technology
5.2 Magnetic Nuclei Spin in a Magnetic Field
5.3 Image Creation
5.6 Noise in the Image
5.11 Reading the Mind—Functional MRI
6 Toward A 3D View of Cellular Architecture: Correlative Light Microscopy and Electron Tomography
6.3 Stains for CLEM
6.5 CLEM Applications
7 Tracer Imaging
7.2 Instrumentation
7.3 Measurement Techniques
7.4 Applications
8 Fluorescence Imaging
8.2 Contrast Mechanisms
8.3 Direct Methods: Fluorescent Probes
8.4 Indirect Methods: Fluorescent Proteins
8.5 Microscopy
8.7 Planar Imaging
8.8 Tomography
9 Infrared and Raman Spectroscopic Imaging
9.2 Instrumentation
9.3 Raman Imaging
9.4 Sampling Techniques
9.5 Data Analysis and Image Evaluation
10 Coherent Anti-Stokes Raman Scattering Microscopy
10.1 Basics
10.3 CARS Microscopy in Practice
10.5 Laser Sources
10.6 Data Acquisition
10.7 Measurement Techniques
11 Biomedical Sonography
11.1 Basic Principles
11.2 Instrumentation of Real-Time Ultrasound Imaging
11.3 Measurement Techniques of Real-Time Ultrasound Imaging
11.4 Application Examples of Biomedical Sonography
12 Acoustic Microscopy for Biomedical Applications
12.1 Sound Waves and Basics of Acoustic Microscopy
12.2 Types of Acoustic Microscopy
12.3 Biomedical Applications of Acoustic Microscopy
12.4 Examples of Tissue Investigations using SAM
Index
Biomedical imaging : principles and applications [texte imprimé] / Reiner Salzer, Auteur . - Hoboken,New jersey : John Wiley & Sons, Inc, 2012 . - 423 p. : couv. ill. en coul., ill. ; 24 cm.
ISBN : 978-0-470-64847-6
Langues : Anglais (eng)
Catégories : GÉNIE BIOMÉDICAL Index. décimale : 35-03 Traitement d'images médicales Résumé : This book presents and describes imaging technologies that can be used to study chemical processes and structural interactions in dynamic systems, principally in biomedical systems. The imaging technologies, largely biomedical imaging technologies such as MRT, Fluorescence mapping, raman mapping, nanoESCA, and CARS microscopy, have been selected according to their application range and to the chemical information content of their data. These technologies allow for the analysis and evaluation of delicate biological samples, which must not be disturbed during the profess. Ultimately, this may mean fewer animal lab tests and clinical trials. Note de contenu : Contents:
1 Evaluation of Spectroscopic Images
1.2 Data Analysis
1.3 Applications
2 Evaluation of Tomographic Data
2.2 Image Reconstruction
2.3 Image Data Representation: Pixel Size and Image Resolution
2.4 Consequences of Limited Spatial Resolution
2.5 Tomographic Data Evaluation: Tasks
3 X-Ray Imaging
3.1 Basics
3.2 Instrumentation
3.3 Clinical Applications
3.4 Radiation Exposure to Patients and Employees
4 Computed Tomography
4.1 Basics
4.2 Instrumentation
4.3 Measurement Techniques
4.4 Applications
4.4.1 Clinical Applications of Computed Tomography,
4.4.2 Radiation Dose in Typical Clinical Applications and Methods for Dose Reduction
4.5 Outlook
5 Magnetic Resonance Technology
5.2 Magnetic Nuclei Spin in a Magnetic Field
5.3 Image Creation
5.6 Noise in the Image
5.11 Reading the Mind—Functional MRI
6 Toward A 3D View of Cellular Architecture: Correlative Light Microscopy and Electron Tomography
6.3 Stains for CLEM
6.5 CLEM Applications
7 Tracer Imaging
7.2 Instrumentation
7.3 Measurement Techniques
7.4 Applications
8 Fluorescence Imaging
8.2 Contrast Mechanisms
8.3 Direct Methods: Fluorescent Probes
8.4 Indirect Methods: Fluorescent Proteins
8.5 Microscopy
8.7 Planar Imaging
8.8 Tomography
9 Infrared and Raman Spectroscopic Imaging
9.2 Instrumentation
9.3 Raman Imaging
9.4 Sampling Techniques
9.5 Data Analysis and Image Evaluation
10 Coherent Anti-Stokes Raman Scattering Microscopy
10.1 Basics
10.3 CARS Microscopy in Practice
10.5 Laser Sources
10.6 Data Acquisition
10.7 Measurement Techniques
11 Biomedical Sonography
11.1 Basic Principles
11.2 Instrumentation of Real-Time Ultrasound Imaging
11.3 Measurement Techniques of Real-Time Ultrasound Imaging
11.4 Application Examples of Biomedical Sonography
12 Acoustic Microscopy for Biomedical Applications
12.1 Sound Waves and Basics of Acoustic Microscopy
12.2 Types of Acoustic Microscopy
12.3 Biomedical Applications of Acoustic Microscopy
12.4 Examples of Tissue Investigations using SAM
Index
Exemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 2549 35-03-16 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2549 2550 35-03-16 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2550
Titre : Compression des images et des signaux médicaux Type de document : texte imprimé Auteurs : Amine Naït-Ali, Auteur ; Christine Cavaro-Ménard, Auteur Editeur : Paris : Hermes science/Lavoisier Année de publication : 2007 Collection : Traité IC2 Information et Science du Vivant Importance : 328 p. Présentation : ill. Format : 24 cm. ISBN/ISSN/EAN : 978-2-7462-1493-4 Langues : Français (fre) Catégories : GÉNIE BIOMÉDICAL Index. décimale : 35-03 Traitement d'images médicales Résumé : Les ouvrages dédiés à la compression du signal sont variés et nombreux, mais cela n'est probablement pas le cas lorsqu'il est question de compresser un signal ou une image du type médical. En effet, l'intérêt les auteurs ont porté à ces signaux particuliers est motivé par l'essor fulgurant des systèmes d'imagerie médicale, des systèmes d'archivage ainsi que des systèmes de transmission filaire ou sans-fil en télémédecine, pour lesquels la compression est devenue indispensable. De manière globale, cet ouvrage traite l'aspect compression du signal médical sous sa forme unidimensionnelle (signaux physiologiques), bidimensionnelle (images rayons X, résonance magnétique, ultrasonsÂ…) et tridimensionnelle (images volumiques). Il peut être utilisé comme un point de départ pour les jeunes chercheurs des communautés scientifiques et médicales qui souhaitent se lancer dans un tel domaine. Il peut également être utilisé comme un support de cours spécialisé du niveau Master (en sciences ou en médecine) ou Ingénieur. Note de contenu : Table des matières
Avant-propos.
CHAPITRE 1 Intérêt de la compression de l'information médicale
CHAPITRE 2 État de l'art des méthodes de compression
CHAPITRE 3 Spécificités des signaux physiologiques et des images médicales
CHAPITRE 4 Place des standards dans la compression des images médicales
CHAPITRE 5 Évaluation des dégradations des images médicales compressées
CHAPITRE 6 Compression des signaux physiologiques
CHAPITRE 7 Compression des images médicales 2D
CHAPITRE 8 Compression des séquences médicales dynamiques et volumiques
CHAPITRE 9 Compression des maillages surfaciques 3D statiques et dynamiques
CHAPITRE 10 Codage hybride cryptage-marquage-compression pour la sécurisation de l'information médicale
CHAPITRE 11 Transmission des données médicales compressées sur réseaux fixe et mobile
IndexCompression des images et des signaux médicaux [texte imprimé] / Amine Naït-Ali, Auteur ; Christine Cavaro-Ménard, Auteur . - Paris : Hermes science/Lavoisier, 2007 . - 328 p. : ill. ; 24 cm.. - (Traité IC2 Information et Science du Vivant) .
ISBN : 978-2-7462-1493-4
Langues : Français (fre)
Catégories : GÉNIE BIOMÉDICAL Index. décimale : 35-03 Traitement d'images médicales Résumé : Les ouvrages dédiés à la compression du signal sont variés et nombreux, mais cela n'est probablement pas le cas lorsqu'il est question de compresser un signal ou une image du type médical. En effet, l'intérêt les auteurs ont porté à ces signaux particuliers est motivé par l'essor fulgurant des systèmes d'imagerie médicale, des systèmes d'archivage ainsi que des systèmes de transmission filaire ou sans-fil en télémédecine, pour lesquels la compression est devenue indispensable. De manière globale, cet ouvrage traite l'aspect compression du signal médical sous sa forme unidimensionnelle (signaux physiologiques), bidimensionnelle (images rayons X, résonance magnétique, ultrasonsÂ…) et tridimensionnelle (images volumiques). Il peut être utilisé comme un point de départ pour les jeunes chercheurs des communautés scientifiques et médicales qui souhaitent se lancer dans un tel domaine. Il peut également être utilisé comme un support de cours spécialisé du niveau Master (en sciences ou en médecine) ou Ingénieur. Note de contenu : Table des matières
Avant-propos.
CHAPITRE 1 Intérêt de la compression de l'information médicale
CHAPITRE 2 État de l'art des méthodes de compression
CHAPITRE 3 Spécificités des signaux physiologiques et des images médicales
CHAPITRE 4 Place des standards dans la compression des images médicales
CHAPITRE 5 Évaluation des dégradations des images médicales compressées
CHAPITRE 6 Compression des signaux physiologiques
CHAPITRE 7 Compression des images médicales 2D
CHAPITRE 8 Compression des séquences médicales dynamiques et volumiques
CHAPITRE 9 Compression des maillages surfaciques 3D statiques et dynamiques
CHAPITRE 10 Codage hybride cryptage-marquage-compression pour la sécurisation de l'information médicale
CHAPITRE 11 Transmission des données médicales compressées sur réseaux fixe et mobile
IndexExemplaires
Code-barres Cote Support Localisation Section Disponibilité N.Inventaire 2989 35-03-18 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2989 2990 35-03-18 Livre Bibliothèque de Génie Electrique- USTO Documentaires Exclu du prêt 2990
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