Three-Dimensional Imaging, Visualization, and Display
Published on 6. November 2014
Book
Paperback/Softback
XVII, 531 pages
978-1-4899-9209-3 (ISBN)
Description
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.
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.
More details
Edition
2009 ed.
Language
English
Place of publication
New York
United States
Target group
Professional and scholarly
Research
Illustrations
XVII, 531 p.
Dimensions
Height: 235 mm
Width: 155 mm
Thickness: 30 mm
Weight
826 gr
ISBN-13
978-1-4899-9209-3 (9781489992093)
DOI
10.1007/978-0-387-79335-1
Schweitzer Classification
Other editions
Additional editions
Bahram Javidi | Fumio Okano | Jung-Young Son
Three-Dimensional Imaging, Visualization, and Display
E-Book
07/2010
1st Edition
Springer
€96.29
Available for download
Bahram Javidi | Fumio Okano | Jung-Young Son
Three-Dimensional Imaging, Visualization, and Display
Book
12/2008
Springer
€106.99
Shipment within 5-7 days
Content
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.