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Transpost: a novel approach to the display and transmission of 360 degrees-viewable 3D solid images

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Abstract:

Three-dimensional displays are drawing attention as next-generation devices. Some techniques which can reproduce three-dimensional images prepared in advance have already...Show More

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Abstract:

Three-dimensional displays are drawing attention as next-generation devices. Some techniques which can reproduce three-dimensional images prepared in advance have already been developed. However, technology for the transmission of 3D moving pictures in real-time is yet to be achieved. In this paper, we present a novel method for 360-degrees viewable 3D displays and the Transpost system in which we implement the method. The basic concept of our system is to project multiple images of the object, taken from different angles, onto a spinning screen. The key to the method is projection of the images onto a directionally reflective screen with a limited viewing angle. The images are reconstructed to give the viewer a three-dimensional image of the object displayed on the screen. The display system can present images of computer-graphics pictures, live pictures, and movies. Furthermore, the reverse optical process of that in the display system can be used to record images of the subject from multiple directions. The images can then be transmitted to the display in real-time. We have developed prototypes of a 3D display and a 3D human-image transmission system. Our preliminary working prototypes demonstrate new possibilities of expression and forms of communication.

Published in: IEEE Transactions on Visualization and Computer Graphics ( Volume: 12, Issue: 2, March-April 2006)

Page(s): 178 - 185

Date of Publication: 23 January 2006

ISSN Information:

PubMed ID: 16509377

DOI: 10.1109/TVCG.2006.38

Citations are not available for this document.

Contents

1 Introduction

The development of information equipment has expanded the range of information services available to people in daily life. In particular, many large high-resolution displays have been placed in public spaces. They are quite useful for announcements and advertisements because many people can see the displayed information at the same time. However, most of the displayed images are two-dimensional, whereas the real world in which we live is three-dimensional. Three-dimensional images might provide a greater feeling of reality.

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Praneeth Kumar, Pattie Maes, "Penetra3D: A penetrable, interactive, 360-degree viewable display", 2015 IEEE Symposium on 3D User Interfaces (3DUI), pp.169-170, 2015.

Show Article

Google Scholar

Chuanwei Sun, Jingao Liu, Mingming Cai, Jing Bei, Chen Zhang, "A Data Processing Method for Swept-Volumetric Three-Dimensional Display", 2012 Fourth International Symposium on Information Science and Engineering, pp.74-77, 2012.

Show Article

Google Scholar

Lina Sawalha, Monte P. Tull, Matthew B. Gately, James J. Sluss, Mark Yeary, Ronald D. Barnes, "A Large 3D Swept-Volume Video Display", Journal of Display Technology, vol.8, no.5, pp.256-268, 2012.

Show Article

Google Scholar

Yusuke Doyama, Atsushi Kodama, Koichi Hirota, Tomohiro Tanikawa, Michitaka Hirose, Kazuyoshi Tagawa, "CAGRA: Optimal parameter setting and rendering method for occlusion-capable automultiscopic three-dimensional display", 2010 IEEE Virtual Reality Conference (VR), pp.263-264, 2010.

Show Article

Google Scholar

Yuichi Taguchi, Takafumi Koike, Keita Takahashi, Takeshi Naemura, "TransCAIP: A Live 3D TV System Using a Camera Array and an Integral Photography Display with Interactive Control of Viewing Parameters", IEEE Transactions on Visualization and Computer Graphics, vol.15, no.5, pp.841-852, 2009.

Show Article

Google Scholar

Benjamin Mora, Ross Maciejewski, Min Chen, David S. Ebert, "Visualization and Computer Graphics on Isotropically Emissive Volumetric Displays", IEEE Transactions on Visualization and Computer Graphics, vol.15, no.2, pp.221-234, 2009.

Show Article

Google Scholar

Koichi Hirota, Kazuyoshi Tagawa, Yasuhiro Suzuki, "Automultiscopic display by revolving flat-panel displays", 2008 IEEE Virtual Reality Conference, pp.161-168, 2008.

Show Article

Google Scholar

Cites in Papers - Other Publishers (15)

Bin Chen, Lingyan Ruan, Miu-Ling Lam, "Light field display with ellipsoidal mirror array and single projector", Optics Express, vol.27, no.15, pp.21999, 2019.

CrossRef Google Scholar

Che-Hao Hsu, Yi-Leh Wu, Wen-Huang Cheng, Yu-Jen Chen, Kai-Lung Hua, "HoloTube: a low-cost portable 360-degree interactive autostereoscopic display", Multimedia Tools and Applications, vol.76, no.7, pp.9099, 2017.

CrossRef Google Scholar

Hirofumi Yabu, Yusuke Takeuchi, Kayo Yoshimoto, Hideya Takahashi, Kenji Yamada, "360-degree three-dimensional flat panel display using holographic optical elements", Stereoscopic Displays and Applications XXVI, vol.9391, pp.93910M, 2015.

CrossRef Google Scholar

Yukying Lu, Shara W.Y. Lee, Khaw Kim, Ruxu Du, "A Holographic Displaying System for Gastroscopy Diagnosis", MATEC Web of Conferences, vol.32, pp.04003, 2015.

CrossRef Google Scholar

Dongdong Teng, Lilin Liu, Biao Wang, "Generation of 360° three-dimensional display using circular-aligned OLED microdisplays", Optics Express, vol.23, no.3, pp.2058, 2015.

CrossRef Google Scholar

Dong Zhao, Baiquan Su, Guowen Chen, Hongen Liao, "360 degree viewable floating autostereoscopic display using integral photography and multiple semitransparent mirrors", Optics Express, vol.23, no.8, pp.9812, 2015.

CrossRef Google Scholar

Daisuke Miyazaki, Go Miyazaki, Yuki Maeda, Takaaki Mukai, "Floated integral imaging display viewable from surrounding area", Imaging and Applied Optics 2014, pp.DW2B.5, 2014.

CrossRef Google Scholar

Yasuhiro Takaki, Junya Nakamura, "Generation of 360-degree color three-dimensional images using a small array of high-speed projectors to provide multiple vertical viewpoints", Optics Express, vol.22, no.7, pp.8779, 2014.

CrossRef Google Scholar

Dongdong Teng, Lilin Liu, Zixin Wang, Yueli Zhang, Biao Wang, "Interactive holographic three-dimensional display with a spatial mouse", Optics Communications, vol.306, pp.121, 2013.

CrossRef Google Scholar

10.

Yasuhiro Takaki, Shigeki Uchida, "Table screen 360-degree three-dimensional display using a small array of high-speed projectors", Optics Express, vol.20, no.8, pp.8848, 2012.

CrossRef Google Scholar

11.

Byoungho Lee, Youngmin Kim, Optical Imaging and Metrology, pp.31, 2012.

CrossRef

12.

Tomohiro Yendo, Toshiaki Fujii, Masayuki Tanimoto, Mehrdad Panahpour Tehrani, "The Seelinder: Cylindrical 3D display viewable from 360 degrees", Journal of Visual Communication and Image Representation, vol.21, no.5-6, pp.586, 2010.

CrossRef Google Scholar

13.

Xinxing Xia, Zhenrong Zheng, Xu Liu, Haifeng Li, Caijie Yan, "Omnidirectional-view three-dimensional display system based on cylindrical selective-diffusing screen", Applied Optics, vol.49, no.26, pp.4915, 2010.

CrossRef Google Scholar

14.

Takeshi Takai, Takashi Matsuyama, "Harmonized Texture Mapping", The Journal of The Institute of Image Information and Television Engineers, vol.63, no.4, pp.488, 2009.

CrossRef Google Scholar

15.

Andrew Jones, Ian McDowall, Hideshi Yamada, Mark Bolas, Paul Debevec, "Rendering for an interactive 360° light field display", ACM Transactions on Graphics, vol.26, no.3, pp.40, 2007.

CrossRef Google Scholar

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Transpost: a novel approach to the display and transmission of 360 degrees-viewable 3D solid images

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1 Introduction

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Cites in Papers - Other Publishers (15)

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Transpost: a novel approach to the display and transmission of 360 degrees-viewable 3D solid images

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Abstract:

Metadata

Abstract:

ISSN Information:

1 Introduction

Cites in Papers - IEEE (7) | Other Publishers (15)

Cites in Papers - IEEE (7)

Cites in Papers - Other Publishers (15)

References

IEEE Account

Purchase Details

Profile Information

Need Help?

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