3D video : from capture to diffusion /

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Bibliographic Details
Corporate Author:	Ebooks Corporation
Format:	Electronic eBook
Language:	English
Published:	London : Hoboken, NJ : ISTE ; Wiley, 2013.
Series:	Computer engineering series (London, England)
Subjects:	3-D video. 3-D television. Three-dimensional imaging. Three-dimensional display systems.
Online Access:	Connect to this title online (unlimited simultaneous users allowed; 325 uses per year)

Table of Contents:

Machine generated contents note: ch. 1 Foundation / Laurent Lucas / Yannick Remion / Céline Loscos
1.1. Introduction / Laurent Lucas / Céline Loscos / Yannick Remion
1.2. short history / Laurent Lucas / Céline Loscos / Yannick Remion
1.2.1. pinhole model / Laurent Lucas / Céline Loscos / Yannick Remion
1.2.2. Depth perception and binocular vision / Laurent Lucas / Céline Loscos / Yannick Remion
1.2.3. Multiview systems / Laurent Lucas / Céline Loscos / Yannick Remion
1.3. Stereopsis and 3D physiological aspects / Laurent Lucas / Céline Loscos / Yannick Remion
1.3.1. Psychophysical indices / Laurent Lucas / Céline Loscos / Yannick Remion
1.3.2. Monocular indices / Laurent Lucas / Céline Loscos / Yannick Remion
1.3.3. Ocular indices / Laurent Lucas / Céline Loscos / Yannick Remion
1.3.4. Binocular indices / Laurent Lucas / Céline Loscos / Yannick Remion
1.4. 3D computer vision / Laurent Lucas / Céline Loscos / Yannick Remion
1.5. Conclusion / Laurent Lucas / Céline Loscos / Yannick Remion
1.6. Bibliography / Laurent Lucas / Céline Loscos / Yannick Remion
ch. 2 Digital Cameras: Definitions and Principles / Laurent Lucas / Céline Loscos / Yannick Remion
2.1. Introduction / Min H. Kim / Céline Loscos / Nicolas Hautière
2.2. Capturing light: physical fundamentals / Min H. Kim / Céline Loscos / Nicolas Hautière
2.2.1. Radiometry and photometry / Min H. Kim / Céline Loscos / Nicolas Hautière
2.2.2. Wavelengths and color spaces / Nicolas Hautière / Min H. Kim / Céline Loscos
2.3. Digital camera / Min H. Kim / Céline Loscos / Nicolas Hautière
2.3.1. Optical components / Min H. Kim / Céline Loscos / Nicolas Hautière
2.3.2. Electrical components / Min H. Kim / Céline Loscos / Nicolas Hautière
2.3.3. Principal functions and their control / Min H. Kim / Céline Loscos / Nicolas Hautière
2.3.4. Storage formats for images / Min H. Kim / Céline Loscos / Nicolas Hautière
2.4. Cameras, human vision and color / Min H. Kim / Céline Loscos / Nicolas Hautière
2.4.1. Adapting optics and electronics to human perception / Min H. Kim / Céline Loscos / Nicolas Hautière
2.4.2. Controlling color / Min H. Kim / Céline Loscos / Nicolas Hautière
2.5. Improving current performance / Min H. Kim / Céline Loscos / Nicolas Hautière
2.5.1. HDR imaging / Min H. Kim / Céline Loscos / Nicolas Hautière
2.5.2. Hyperspectral acquisition / Min H. Kim / Céline Loscos / Nicolas Hautière
2.6. Conclusion / Min H. Kim / Céline Loscos / Nicolas Hautière
2.7. Bibliography / Min H. Kim / Céline Loscos / Nicolas Hautière
ch. 3 Multiview Acquisition Systems / Min H. Kim / Céline Loscos / Nicolas Hautière
3.1. Introduction: what is a multiview acquisition system? / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.2. Binocular systems / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.2.1. Technical description / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.2.2. Principal uses / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.2.3. Related databases / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.3. Lateral or directional multiview systems / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.3.1. Technical description / Yannick Remion / Yves Pupulin / Frédéric Devernay
3.3.2. Principal uses / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.3.3. Related databases / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.4. Global or omnidirectional multiview systems / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.4.1. Technical description / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.4.2. Principal uses / Frédéric Devernay / Yves Pupulin / Yannick Remion
3.4.3. Related databases / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.5. Conclusion / Frédéric Devernay / Yannick Remion / Yves Pupulin
3.6. Bibliography / Frédéric Devernay / Yannick Remion / Yves Pupulin
ch. 4 Shooting and Viewing Geometries in 3DTV / Frédéric Devernay / Yannick Remion / Yves Pupulin
4.1. Introduction / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.2. geometry of 3D viewing / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.2.1. Description / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.2.2. Setting the parametric model / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.3. geometry of 3D shooting / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.3.1. Choosing a convenient geometry / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.3.2. Setting the parametric model / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.4. Geometric impact of the 3D workflow / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.4.1. Rendered-to-shot space mapping / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.4.2. 3D space distortion model / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.5. Specification methodology for multiscopic shooting / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.5.1. Controlling depth distortion / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.5.2. Accurate depth effect / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.6. OpenGL implementation / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.7. Conclusion / Jessica Prévoteau / Yannick Remion / Laurent Lucas
4.8. Bibliography / Jessica Prévoteau / Yannick Remion / Laurent Lucas
ch. 5 Camera Calibration: Geometric and Colorimetric Correction / Jessica Prévoteau / Yannick Remion / Laurent Lucas
5.1. Introduction / Jean-Baptiste Thomas / Vincent Nozick
5.2. Camera calibration / Jean-Baptiste Thomas / Vincent Nozick
5.2.1. Introduction / Jean-Baptiste Thomas / Vincent Nozick
5.2.2. Camera model / Jean-Baptiste Thomas / Vincent Nozick
5.2.3. Calibration using a sight / Jean-Baptiste Thomas / Vincent Nozick
5.2.4. Automatic methods / Jean-Baptiste Thomas / Vincent Nozick
5.3. Radial distortion / Jean-Baptiste Thomas / Vincent Nozick
5.3.1. Introduction / Jean-Baptiste Thomas / Vincent Nozick
5.3.2. When to correct distortion? / Jean-Baptiste Thomas / Vincent Nozick
5.3.3. Radial distortion correction models / Jean-Baptiste Thomas / Vincent Nozick
5.4. Image rectification / Jean-Baptiste Thomas / Vincent Nozick
5.4.1. Introduction / Jean-Baptiste Thomas / Vincent Nozick
5.4.2. Problems / Jean-Baptiste Thomas / Vincent Nozick
5.4.3. Image-based methods / Jean-Baptiste Thomas / Vincent Nozick
5.4.4. Camera-based methods / Jean-Baptiste Thomas / Vincent Nozick
5.4.5. Correcting more than two images simultaneously / Jean-Baptiste Thomas / Vincent Nozick
5.5. Colorimetric considerations in cameras / Jean-Baptiste Thomas / Vincent Nozick
5.5.1. Elements of applied colorimetry / Jean-Baptiste Thomas / Vincent Nozick
5.5.2. Colorimetric calibration in cameras / Jean-Baptiste Thomas / Vincent Nozick
5.6. Conclusion / Jean-Baptiste Thomas / Vincent Nozick
5.7. Bibliography / Jean-Baptiste Thomas / Vincent Nozick
ch. 6 Feature Points Detection and Image Matching / Jean-Baptiste Thomas / Vincent Nozick
6.1. Introduction / Michel Desvignes / Barbara Romaniuk / Lara Younes
6.2. Feature points / Barbara Romaniuk / Lara Younes / Michel Desvignes
6.2.1. Point detection / Michel Desvignes / Barbara Romaniuk / Lara Younes
6.2.2. Edge-based feature points / Michel Desvignes / Barbara Romaniuk / Lara Younes
6.2.3. Stable regions: IBR and MSER / Michel Desvignes / Barbara Romaniuk / Lara Younes
6.3. Feature point descriptors / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.3.1. Scale-invariant feature transform / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.3.2. Gradient Location and Orientation Histogram / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.3.3. DAISY descriptor / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.3.4. Speeded-Up Robust Features (SURF) / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.3.5. Multi-scale Oriented Patches (MOPS) / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.3.6. Shape context / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.4. Image matching / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.4.1. Descriptor matching / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.4.2. Correspondence group detection / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.5. Conclusion / Michel Desvignes / Lara Younes / Barbara Romaniuk
6.6. Bibliography / Michel Desvignes / Lara Younes / Barbara Romaniuk
ch. 7 Multi- and Stereoscopic Matching, Depth and Disparity / Michel Desvignes / Lara Younes / Barbara Romaniuk
7.1. Introduction / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.2. Difficulties, primitives and stereoscopic matching / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.2.1. Difficulties / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.2.2. Primitives and density / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
Contents note continued: 7.3. Simplified geometry and disparity / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.4. description of stereoscopic and multiscopic methods / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.4.1. Local and global matching algorithms / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.4.2. Principal constraints / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.4.3. Energy costs / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.5. Methods for explicitly accounting for occlusions / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.5.1. local stereoscopic method - seeds propagation / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.5.2. global multiscopic method / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.6. Conclusion / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
7.7. Bibliography / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
ch. 8 3D Scene Reconstruction and Structuring / Stéphanie Prévost / Cédric Niquin / Sylvie Chambon / Guillaume Gales
8.1. Problems and challenges / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.2. Silhouette-based reconstruction / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.2.1. Silhouette extraction methods / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.2.2. Reconstruction methods / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.2.3. Improving volume reconstruction / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.3. Industrial application / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.3.1. Hardware acceleration / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.3.2. Results / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.4. Temporally structuring reconstructions / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.4.1. Generalized skeletal extraction / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.4.2. Calculating displacement fields / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.5. Conclusion / Ludovic Blache / Muhannad Ismael / Philippe Souchet
8.6. Bibliography / Ludovic Blache / Muhannad Ismael / Philippe Souchet
ch. 9 Synthesizing Intermediary Viewpoints / Ludovic Blache / Muhannad Ismael / Philippe Souchet
9.1. Introduction / Luce Morin / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier
9.2. Viewpoint synthesis by interpolation and extrapolation / Luce Morin / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier
9.2.1. Direct and inverse projections / Luce Morin / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier
9.2.2. Reducing distortions in viewpoint synthesis / Luce Morin / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier
9.2.3. Viewpoint interpolation / Luce Morin / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier
9.3. Inpainting uncovered zones / Luce Morin / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier
9.3.1. Overview of 2D inpainting techniques / Luce Morin / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier
9.3.2. 3D Inpainting / Luce Morin / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier
9.4. Conclusion / Luce Morin / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier
9.5. Bibliography / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier / Luce Morin
ch. 10 Multiview Video Coding (MVC) / Luce Morin / Olivier Le Meur / Christine Guillemot / Vincent Jantet / Josselin Gautier
10.1. Introduction / Benjamin Battin / Philippe Vautrot / Marco Cagnallo / Frédéric Dufaux
10.2. Specific approaches to stereoscopy / Benjamin Battin / Philippe Vautrot / Marco Cagnallo / Frédéric Dufaux
10.2.1. Formats / Benjamin Battin / Philippe Vautrot / Marco Cagnallo / Frédéric Dufaux
10.2.2. Associated coding techniques / Benjamin Battin / Philippe Vautrot / Marco Cagnallo / Frédéric Dufaux
10.3. Multiview approaches / Benjamin Battin / Philippe Vautrot / Marco Cagnallo / Frédéric Dufaux
10.3.1. Formats / Benjamin Battin / Philippe Vautrot / Marco Cagnallo / Frédéric Dufaux
10.3.2. Associated coding techniques / Benjamin Battin / Philippe Vautrot / Marco Cagnallo / Frédéric Dufaux
10.4. Conclusion / Benjamin Battin / Philippe Vautrot / Marco Cagnallo / Frédéric Dufaux
10.5. Bibliography / Benjamin Battin / Philippe Vautrot / Marco Cagnallo / Frédéric Dufaux
ch. 11 3D Mesh Compression / Benjamin Battin / Philippe Vautrot / Marco Cagnallo / Frédéric Dufaux
11.1. Introduction / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.2. Compression basics: rate-distortion trade-off / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.3. Multiresolution coding of surface meshes / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.4. Topological and progressive coding / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.4.1. Monoresolution compression / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.4.2. Multiresolution compression / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.5. Mesh sequence compression / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.5.1. Definitions / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.5.2. Methods using spatio-temporal prediction / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.5.3. Methods with prior segmentation / Guillaume Lavoué / Marc Antonini / Florent Dupont
11.5.4. Transform-based methods / Guillaume Lavoué / Florent Dupont / Marc Antonini
11.6. Quality evaluation: classic and perceptual metrics / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.6.1. Classic metrics / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.6.2. Perceptual metrics / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.7. Conclusion / Florent Dupont / Guillaume Lavoué / Marc Antonini
11.8. Bibliography / Florent Dupont / Guillaume Lavoué / Marc Antonini
ch. 12 Coding Methods for Depth Videos / Florent Dupont / Marc Antonini / Guillaume Lavoué
12.1. Introduction / Elie Gabriel Mora / Béatrice Pesquet-Popescu / Joël Jung / Marco Cagnallo
12.2. Analyzing the characteristics of a depth map / Béatrice Pesquet-Popescu / Joël Jung / Elie Gabriel Mora / Marco Cagnallo
12.3. Depth coding methods / Béatrice Pesquet-Popescu / Joël Jung / Elie Gabriel Mora / Marco Cagnallo
12.3.1. Methods using the intrinsic characteristics of depth maps / Elie Gabriel Mora / Joël Jung / Marco Cagnallo / Béatrice Pesquet-Popescu
12.3.2. Methods exploiting correlation with associated textures / Elie Gabriel Mora / Béatrice Pesquet-Popescu / Joël Jung / Marco Cagnallo
12.3.3. Methods optimizing depth coding for the quality of synthesized views / Béatrice Pesquet-Popescu / Joël Jung / Elie Gabriel Mora / Marco Cagnallo
12.4. Conclusion / Béatrice Pesquet-Popescu / Joël Jung / Elie Gabriel Mora / Marco Cagnallo
12.5. Bibliography / Béatrice Pesquet-Popescu / Joël Jung / Elie Gabriel Mora / Marco Cagnallo
ch. 13 Stereoscopic Watermarking / Elie Gabriel Mora / Joël Jung / Béatrice Pesquet-Popescu / Marco Cagnallo
13.1. Introduction / Mihai Mitrea / Afef Chammem / Françoise Prêteux
13.2. Constraints of stereoscopic video watermarking / Afef Chammem / Françoise Prêteux / Mihai Mitrea
13.2.1. Theoretical framework / Afef Chammem / Mihai Mitrea / Françoise Prêteux
13.2.2. Properties / Mihai Mitrea / Afef Chammem / Françoise Prêteux
13.2.3. Corpus / Mihai Mitrea / Afef Chammem / Françoise Prêteux
13.2.4. Conclusion / Afef Chammem / Mihai Mitrea / Françoise Prêteux
13.3. State of the art for stereoscopic content watermarking / Afef Chammem / Mihai Mitrea / Françoise Prêteux
13.4. Comparative study / Afef Chammem / Mihai Mitrea / Françoise Prêteux
13.4.1. Transparency / Mihai Mitrea / Afef Chammem / Françoise Prêteux
13.4.2. Robustness / Mihai Mitrea / Afef Chammem / Françoise Prêteux
13.4.3. Computation cost / Mihai Mitrea / Afef Chammem / Françoise Prêteux
13.4.4. Conclusion / Mihai Mitrea / Françoise Prêteux / Afef Chammem
13.5. Conclusions / Mihai Mitrea / Françoise Prêteux / Afef Chammem
13.6. Bibliography / Mihai Mitrea / Françoise Prêteux / Afef Chammem
ch. 14 HD 3DTV and Autostereoscopy / Mihai Mitrea / Françoise Prêteux / Afef Chammem
14.1. Introduction / Laurent Lucas / Venceslas Biri
14.2. Technological principles / Laurent Lucas / Venceslas Biri
14.2.1. Stereoscopic systems using glasses / Laurent Lucas / Venceslas Biri
14.2.2. Autostereoscopic displays / Laurent Lucas / Venceslas Biri
14.2.3. Optical elements / Laurent Lucas / Venceslas Biri
14.2.4. Measurement of autostereoscopic display / Laurent Lucas / Venceslas Biri
14.3. Design of mixing filters / Laurent Lucas / Venceslas Biri
14.4. View generation and interleaving / Laurent Lucas / Venceslas Biri
Contents note continued: 14.4.1. Virtual view generation / Laurent Lucas / Venceslas Biri
14.4.2. View interleaving / Laurent Lucas / Venceslas Biri
14.5. Future developments / Laurent Lucas / Venceslas Biri
14.6. Conclusion / Laurent Lucas / Venceslas Biri
14.7. Bibliography / Laurent Lucas / Venceslas Biri
ch. 15 Augmented and/or Mixed Reality / Laurent Lucas / Venceslas Biri
15.1. Introduction / Marie-Odile Berger / Gilles Simon
15.2. Real-time pose computation / Marie-Odile Berger / Gilles Simon
15.2.1. Pose computation requirements / Marie-Odile Berger / Gilles Simon
15.2.2. Image/model mapping / Marie-Odile Berger / Gilles Simon
15.2.3. Pose computation: principal PnP algorithms / Marie-Odile Berger / Gilles Simon
15.2.4. Pose computation and planar surfaces / Marie-Odile Berger / Gilles Simon
15.3. Model acquisition / Marie-Odile Berger / Gilles Simon
15.3.1. Offline modeling / Marie-Odile Berger / Gilles Simon
15.3.2. Online modeling / Marie-Odile Berger / Gilles Simon
15.4. Conclusion / Marie-Odile Berger / Gilles Simon
15.5. Bibliography / Marie-Odile Berger / Gilles Simon
ch. 16 Visual Comfort and Fatigue in Stereoscopy / Marie-Odile Berger / Gilles Simon
16.1. Introduction / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.2. Visual comfort and fatigue: definitions and indications / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.2.1. Visual fatigue / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.2.2. Visual comfort and discomfort / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.2.3. Detection and evaluation of visual fatigue and discomfort / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.3. Signs and symptoms of fatigue and discomfort / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.3.1. Ocular and ocularmotor fatigue / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.3.2. Cognitive fatigue / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.3.3. Signs and symptoms linked to discomfort / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.4. Sources of visual fatigue and discomfort / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.4.1. Ocular constraints / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.4.2. Cognitive constraints / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.5. Application to 3D content and technologies / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.5.1. comfort zone / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.5.2. Reproduction artifacts / Jing Li / Marcus Barkowsky / Matthieu Urvoy / Patrick Le Callet
16.5.3. Focus and blurring effects / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.5.4. Visual attention / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.5.5. Flaws or absence of the motion parallax / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.5.6. Exposure duration and training / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.6. Predicting visual fatigue and discomfort: first models / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.7. Conclusion / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
16.8. Bibliography / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
ch. 17 2D-3D Conversion / Matthieu Urvoy / Patrick Le Callet / Jing Li / Marcus Barkowsky
17.1. Introduction / David Grogna / Benoit Michel / Antoine Lejeune
17.2. 2D-3D conversion workflow / David Grogna / Benoit Michel / Antoine Lejeune
17.3. Preparing content for conversion / David Grogna / Benoit Michel / Antoine Lejeune
17.3.1. Depth script / David Grogna / Antoine Lejeune / Benoit Michel
17.3.2. advantage of video over fixed images / David Grogna / Benoit Michel / Antoine Lejeune
17.3.3. automatic conversion trap / David Grogna / Benoit Michel / Antoine Lejeune
17.3.4. Specific cases of automatic conversion / David Grogna / Benoit Michel / Antoine Lejeune
17.3.5. Optimal content for 2D-3D conversion / David Grogna / Benoit Michel / Antoine Lejeune
17.4. Conversion stages / David Grogna / Benoit Michel / Antoine Lejeune
17.4.1. segmentation stage / David Grogna / Benoit Michel / Antoine Lejeune
17.4.2. Depth maps: calculation and propagation / David Grogna / Benoit Michel / Antoine Lejeune
17.4.3. Missing image generation / David Grogna / Benoit Michel / Antoine Lejeune
17.5. 3D-3D conversion / David Grogna / Benoit Michel / Antoine Lejeune
17.6. Conclusion / David Grogna / Benoit Michel / Antoine Lejeune
17.7. Bibliography / David Grogna / Benoit Michel / Antoine Lejeune
ch. 18 3D Model Retrieval / David Grogna / Benoit Michel / Antoine Lejeune
18.1. Introduction / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.2. General principles of shape retrieval / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.3. Global 3D shape descriptors / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.3.1. Distribution of a shape descriptor / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.3.2. Spherical harmonics / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.4. 2D view oriented methods / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.5. Local 3D shape descriptors / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.5.1. 3D shape spectrum descriptor / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.5.2. 3D shape contexts / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.5.3. Spin images / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.5.4. Heat kernel signature / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.6. Similarity between 3D shapes / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.6.1. Reeb graphs / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.6.2. Bag-of-words / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.7. Shape recognition in 3D video / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.7.1. Action recognition in 3D videos / Hedi Tabia / Jean-Philippe Vandeborre / Mohamed Daoudi
18.7.2. Facial expression recognition in 3D videos / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.8. Evaluation of the performance of indexing methods / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.8.1. Statistical evaluation tools / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.8.2. Benchmarks / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.9. Applications / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.9.1. Browsing a collection of 3D models / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.9.2. Modeling by example / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.9.3. Decision-making tools / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.9.4. 3D facial recognition / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.10. Conclusion / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
18.11. Bibliography / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
ch. 19 3D HDR Images and Videos: Acquisition and Restitution / Jean-Philippe Vandeborre / Mohamed Daoudi / Hedi Tabia
19.1. Introduction / Jennifer Bonnard / Gilles Valette / Céline Loscos / Jean-Michel Nourrit
19.2. HDR and 3D acquisition / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
19.2.1. 1D subspace: HDR images / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
19.2.2. 2D subspace: HDR videos / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
19.2.3. 2D subspace: 3D HDR images / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
19.2.4. Extension to the whole space: 3D HDR videos / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
19.3. 3D HDR restitution / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
19.3.1. Rendering on a 3D-dedicated display / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
19.3.2. Displaying on an HDR-dedicated screen / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
19.4. Conclusion / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
19.5. Bibliography / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
ch. 20 3D Visualization for Life Sciences / Jennifer Bonnard / Jean-Michel Nourrit / Céline Loscos / Gilles Valette
20.1. Introduction / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.2. Scientific visualization / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.2.1. 3D construction / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.2.2. Interactivity / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
Contents note continued: 20.2.3. 3D visualization / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.3. Medical imaging / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.3.1. Volumetric visualization / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.3.2. 3D medical imaging / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.4. Molecular modeling / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.4.1. Classic visualization modes / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.4.2. Molecular modeling in 3D / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.5. Conclusion / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
20.6. Bibliography / Aassif Benassarou / Sylvia Piotin / Manuel Dauchez / Dimitri Papathanassiou
ch. 21 3D Reconstruction of Sport Scenes / Aassif Benassarou / Dimitri Papathanassiou / Manuel Dauchez / Sylvia Piotin
21.1. Introduction / Jean Sequeira / Sébastien Mavromatis
21.2. Automatic selection of a region of interest (ROI) / Jean Sequeira / Sébastien Mavromatis
21.2.1. ROI characterization / Jean Sequeira / Sébastien Mavromatis
21.2.2. Color coherence / Jean Sequeira / Sébastien Mavromatis
21.2.3. Spatial coherence / Jean Sequeira / Sébastien Mavromatis
21.3. Hough transform / Jean Sequeira / Sébastien Mavromatis
21.3.1. Detection of ellipse arcs / Jean Sequeira / Sébastien Mavromatis
21.4. Matching image features to the geometric model / Jean Sequeira / Sébastien Mavromatis
21.4.1. Converging lines / Jean Sequeira / Sébastien Mavromatis
21.5. Conclusion / Jean Sequeira / Sébastien Mavromatis
21.6. Bibliography / Jean Sequeira / Sébastien Mavromatis
ch. 22 Experiments in Live Capture and Transmission of Stereoscopic 3D Video Images / Jean Sequeira / Sébastien Mavromatis
22.1. Introduction / Jacques G. Verly / David Grogna
22.2. Retransmissions of various shows / Jacques G. Verly / David Grogna
22.2.1. Capture / Jacques G. Verly / David Grogna
22.2.2. Transmission / Jacques G. Verly / David Grogna
22.2.3. Visualization / Jacques G. Verly / David Grogna
22.3. Retransmissions of surgical operations / Jacques G. Verly / David Grogna
22.3.1. Capture / Jacques G. Verly / David Grogna
22.3.2. Transmission / Jacques G. Verly / David Grogna
22.3.3. Visualization / Jacques G. Verly / David Grogna
22.4. Retransmissions of "steadicam" interviews / Jacques G. Verly / David Grogna
22.4.1. Capture / Jacques G. Verly / David Grogna
22.4.2. Transmission / Jacques G. Verly / David Grogna
22.4.3. Visualization / Jacques G. Verly / David Grogna
22.5. Retransmission of a transatlantic video presentation / Jacques G. Verly / David Grogna
22.5.1. Capture / Jacques G. Verly / David Grogna
22.5.2. Transmission / Jacques G. Verly / David Grogna
22.5.3. Visualization / Jacques G. Verly / David Grogna
22.6. Retransmissions of bicycle races / Jacques G. Verly / David Grogna
22.6.1. Capture / Jacques G. Verly / David Grogna
22.6.2. Transmission / Jacques G. Verly / David Grogna
22.6.3. Visualization / Jacques G. Verly / David Grogna
22.7. Conclusion / Jacques G. Verly / David Grogna
22.8. Bibliography / Jacques G. Verly / David Grogna.

3D video : from capture to diffusion /

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