Three-Dimensional Imaging, Visualization, and Display
Springer-Verlag New York Inc.
978-0-387-79334-4 (ISBN)
The history of visual media is characterized by drawing, painting, photo, stereoscope, TV and displays, Holography, and HDTV. Three-dimensional (3-D) imaging, visualization, and display technology is the next phase in this historicaldevelopment.Thereisnodoubtthat3-DTVand3-Ddisplayarethe visualmediathatwillsucceedHDTVinnearfuture.Theevolutionarymerging of communication and broadcast technologies will be enhanced by 3-D vi- alization, including multimedia communication centers which can respond to all the services and functions provided by the future communication systems. Comparison of a scene presented by 2-D and 3-D images reveals that the 3-Dimage providesmuch more pleasing and realisticinformationthan its 2-D version. The bene?ts provided by 3-D images result from the depth infor- tion they preserve.Depth gives viewers the feeling of being in the place where the 3-D image is captured (i.e., immersive feeling) and the feeling of being present (presence feeling). Depth increases e?ciencies in remote site ope- tions,suchasremotemedicalandtele-operations,bymakingviewersperceive the scene as more real from within their living environments.
The accuracy andthepresencefeelingarethemainmotivesofdemandsfor3-Dimagesinthe areasofcommunication,broadcasting,entertainment,medicaloperations,v- tual world presentations, advertisement, training, edutainment (education + entertainment), telemarketing, tele-presence, tele-conference, visualization of experimental results, and so on.
3-D Image Display and Generation Techniques Based on I.P.- Three-Dimensional Integral Television Using High-Resolution Video System with 2000 Scanning Lines.- High Depth-of-Focus Integral Imaging with Asymmetric Phase Masks.- Integral Imaging Using Multiple Display Devices.- 3-D to 2-D Convertible Displays Using Liquid Crystal Devices.- Effect of Pickup Position Uncertainty in Three-Dimensional Computational Integral Imaging.- 3-D Image Reconstruction with Elemental Images Printed on Paper.- Multiview Image Acquisition, Processing and Display.- Viewing Zones of IP and Other Multi-view Image Methods.- Rich Media Services for T-DMB: 3-D Video and 3-D Data Applications.- Depth Map Generation for 3-D TV: Importance of Edge and Boundary Information.- Large Stereoscopic LED Display by Use of a Parallax Barrier.- Synthesizing 3-D Images with Voxels.- Multi-view Image Acquisition and Display.- 3-D Video Processing for 3-D TV.- 3-D Image Acquisition, Processing and Display Based on Digital Holography.- Imaging 3-D Objects by Extending the Depth of Focus in Digital Holography.- Extraction of Three-dimensional Information from Reconstructions of In-Line Digital Holograms.- Polarimetric Imaging of 3-D Object by Use of Wavefront-Splitting Phase-Shifting Digital Holography.- Three-dimensional Display with Data Manipulation based on Digital Holography.- Other 3-D Image Acquisition and Display Techniques, and Human Factors.- A 3-D Display System Using Motion Parallax.- Dynamic Three-Dimensional Human Model.- Electronic Holography for Real Objects Using Integral Photography.- Working Towards Developing Human Harmonic Stereoscopic Systems.- Development of Time-Multiplexed Autostereoscopic Display Based on LCD Panel.- 3-D Nano Object Recognition by Use of Phase Sensitive Scatterometry.
| Zusatzinfo | XVII, 531 p. |
|---|---|
| Verlagsort | New York, NY |
| Sprache | englisch |
| Maße | 155 x 235 mm |
| Themenwelt | Naturwissenschaften ► Physik / Astronomie ► Optik |
| Technik ► Elektrotechnik / Energietechnik | |
| ISBN-10 | 0-387-79334-8 / 0387793348 |
| ISBN-13 | 978-0-387-79334-4 / 9780387793344 |
| Zustand | Neuware |
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