3D displays
This book addresses electrical engineers, physicists, designers of flat panel displays (FDPs), students and also scientists from other disciplines interested in understanding the various 3D technologies. A timely guide is provided to the present status of development in 3D display technologies, read...
| Autor principal: | |
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| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Hoboken, N.J. :
Wiley
2012.
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| Edición: | 1st edition |
| Colección: | Wiley SID series in display technology.
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| Materias: | |
| Ver en Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009628244106719 |
Tabla de Contenidos:
- 3D Displays; Contents; Preface; Series Preface; Introduction; 1 The Physiology of 3D Perception; 1.1 Binocular Viewing or Human Stereopsis; 1.2 The Mismatch of Accommodation and Disparity and the Depths of Focus and of Field; 1.3 Distance Scaling of Disparity; 1.4 Interocular Crosstalk; 1.5 Psychological Effects for Depth Perception; 1.6 High-Level Cognitive Factor; Acknowledgments; References; 2 Stereoscopic Displays; 2.1 Stereoscopic Displays with Area Multiplexing; 2.1.1 Retarders for the generation of polarizations; 2.1.2 Wire grid polarizers for processing of the second view
- 2.1.3 Stereoscopic display with two LCDs2.2 Combined Area and Time Division Multiplex for 3D Displays; 2.3 Stereoscopic Time Sequential Displays; 2.3.1 Time sequential viewing with an active retarder; 2.3.2 Fast time sequential 3D displays by the use of OCB LCDs; 2.3.3 Time sequential 3D displays with black insertions; 2.4 Special Solutions for Stereoscopic Displays; 2.5 Stereoscopic Projectors; 2.6 Interleaved, Simultaneous, and Progressive Addressing of AMOLEDs and AMLCDs; 2.7 Photo-Induced Alignment for Retarders and Beam Splitters; Acknowledgments; References; 3 Autostereoscopic Displays
- 3.1 Spatially Multiplexed Multiview Autostereoscopic Displays with Lenticular Lenses3.2 Spatially Multiplexed Multiview Autostereoscopic Displays with Switchable Lenticular Lenses; 3.3 Autostereoscopic Displays with Fixed and Switchable Parallax Barriers; 3.4 Time Sequential Autostereoscopic Displays and Directional Backlights; 3.4.1 Time sequential displays with special mirrors or 3D films; 3.4.2 Time sequential displays with directionally switched backlights; 3.5 Depth-Fused 3D Displays; 3.6 Single and Multiview 3D Displays with a Light Guide
- 3.7 Test of 3D Displays and Medical ApplicationsAcknowledgments; References; 4 Assessment of Quality of 3D Displays; 4.1 Introduction and Overview; 4.2 Retrieving Quality Data from Given Images; 4.3 Algorithms Based on Objective Measures Providing Disparity or Depth Maps; 4.3.1 The algorithm based on the sum of absolute differences; 4.3.2 Smoothness and edge detection in images; 4.4 An Algorithm Based on Subjective Measures; 4.5 The Kanade-Lucas-Toman (KLT) Feature Tracking Algorithm; 4.6 Special Approaches for 2D to 3D Conversion; 4.6.1 Conversion of 2D to 3D images based on motion parallax
- 4.6.2 Conversion from 2D to 3D based on depth cues in still pictures4.6.3 Conversion from 2D to 3D based on gray shade and luminance setting; 4.7 Reconstruction of 3D Images from Disparity Maps Pertaining to Monoscopic 2D or 3D Originals; 4.7.1 Preprocessing of the depth map; 4.7.2 Warping of the image creating the left and the right eye views; 4.7.3 Disocclusions and hole-filling; 4.7.4 Special systems for depth image-based rendering (DIBR); Acknowledgments; References; 5 Integral Imaging; 5.1 The Basis of Integral Imaging
- 5.2 Enhancement of Depth, Viewing Angle, and Resolution of 3D Integral Images
