10.11.3 Autostereoscopic, Glasses-Free Three Dimensional Displays

Chapter Contents (Back)
Display, Stereo. Stereo. Stereo Displays. Visualization. Glasses-Free.

Simon, W.[William],
A Three Dimensional Computer Display,
CGIP(4), No. 4, 1975, pp. 396-402.
Elsevier DOI 0501
autostereoscopic visual computer display. BibRef

Sexton, I., Surman, P.,
Stereoscopic and autostereoscopic display systems,
SPMag(16), No. 3, May 1999, pp. 85-99. 0201
BibRef

Kajiki, Y., Yoshikawa, H., Honda, T.,
Autostereoscopic 3-D Video Display Using Multiple Light Beams with Scanning,
CirSysVideo(10), No. 2, March 2000, pp. 254.
IEEE Top Reference. 0003
BibRef

Dodgson, N.A.,
Autostereoscopic 3D Displays,
Computer(38), No. 8, August 2005, pp. 31-36.
IEEE DOI 0508
BibRef

Konrad, J., Agniel, P.,
Subsampling Models and Anti-Alias Filters for 3-D Automultiscopic Displays,
IP(15), No. 1, January 2006, pp. 128-140.
IEEE DOI 0601
BibRef

Chaikalis, D.P., Sgouros, N.P., Maroulis, D.E., Sangriotis, M.S.,
Real-time compression architecture for efficient coding in autostereoscopic displays,
RealTimeIP(5), No. 1, March 2010, pp. xx-yy.
Springer DOI 1003
BibRef

Yendo, T.[Tomohiro], Fujii, T.[Toshiaki], Tanimoto, M.[Masayuki], Panahpour Tehrani, M.[Mehrdad],
The Seelinder: Cylindrical 3D display viewable from 360 degrees,
JVCIR(21), No. 5-6, July-August 2010, pp. 586-594.
Elsevier DOI 1007
Autostereoscopic display; Multi-view; Omnidirectional; Ray-space; Light field; Parallax barrier BibRef

Lawton, G.[George],
3D Displays without Glasses: Coming to a Screen near You,
Computer(44), No. 1, January 2011, pp. 17-19.
IEEE DOI 1101
Toplevel review, summary. BibRef

Urey, H., Chellappan, K.V., Erden, E., Surman, P.,
State of the Art in Stereoscopic and Autostereoscopic Displays,
PIEEE(99), No. 4, April 2011, pp. 540-555.
IEEE DOI 1103
BibRef

Kawakita, M.[Masahiro], Gurbuz, S.[Sabri], Iwasawa, S.[Shoichiro], Lopez-Gulliver, R.[Roberto], Ando, H.[Hiroshi], Inoue, N.[Noami], Yano, S.[Sumio],
3D video capturing for multiprojector realistic display,
SPIE(Newsroom), May 17, 2011.
DOI Link 1105
An experimental multicamera arrangement may provide a path to a full-motion, glasses-free, 3D television system. Many cameras, many projectors. BibRef

Iwasawa, S., Kawakita, M., Yano, S., Ando, H.,
Implementation of autostereoscopic HD projection display with dense horizontal parallax,
SPIE(7863), pp. 78630T, 2011.
DOI Link 1105
BibRef

Gurbuz, S., Kawakita, M.[Masahiro], Ando, H.[Hiroshi], Iwasawa, S., Ando, H.,
3D imaging for glasses-free multi-view 3D displays,
SPIE(7863), pp. 786320, 2011.
DOI Link 1105
BibRef

Lee, S.H.[Seung-Hyun],
Natural stereo images from a glasses-free, 3D display,
SPIE(Newsroom), November 10, 2011
DOI Link 1111
Among the many suggested display methods for viewing 3D content, an eye-tracking system using a variable parallax barrier provides the most natural stereo images. BibRef

Kim, B.S.[Byeoung-Su], Lee, C.I.[Cho-Il], Ju, S.H.[Seong-Hwan], Kim, W.Y.[Whoi-Yul],
An Accurate User Position Estimation Method Using a Single Camera for 3D Display without Glasses,
IEICE(E96-D), No. 6, June 2013, pp. 1344-1350.
WWW Link. 1306
BibRef

Lou, Y.M.[Yi-Min], Ye, Y.[Yan], Pu, D.L.[Dong-Lin], Shen, S.[Su], Chen, L.[Linsen],
A large-scale diffractive glasses-free 3D display,
SPIE(Newsroom), October 27, 2014.
DOI Link 1501
A hybrid patterning system combining projection and interference lithography enables the fabrication of 14-inch 3D images. BibRef

Yoshida, S.[Shunsuke],
Real-time rendering of multi-perspective images for a glasses-free tabletop 3d display,
3DTV-CON13(1-4)
IEEE DOI 1309
Display;computer graphics;image generation;ray tracing;virtual reality BibRef

Yoshida, S.[Shunsuke], Kawakita, M.[Masahiro], Ando, H.[Hiroshi],
Light-field generation by several screen types for glasses-free tabletop 3D display,
3DTV11(1-4).
IEEE DOI 1105
BibRef

Choi, H.J.[Hee-Jin],
Improving a time-sequential autostereoscopic 3D display,
SPIE(Newsroom), January 2, 2015
DOI Link 1501
Vertical line dithering reduces flicker in time-sequential autostereoscopic 3D displays and also extends the number of viewpoints. BibRef

Lee, B.[Byoungho], Park, S.G.[Soon-Gi], Hong, K.[Keehoon], Hong, J.[Jisoo],
Multi-projection 3D displays using multiplexing techniques in autostereoscopic displays,
SPIE(Newsroom), June 6, 2017,
DOI Link 1706
Autostereoscopic (glasses-free) displays provide perspectives of images according to the position of the observer. BibRef

Nam, D., Lee, J.H., Cho, Y.H., Jeong, Y.J., Hwang, H., Park, D.S.,
Flat Panel Light-Field 3-D Display: Concept, Design, Rendering, and Calibration,
PIEEE(105), No. 5, May 2017, pp. 876-891.
IEEE DOI 1705
image resolution, rendering (computer graphics), flat panel light-field 3D display framework, integral image display, light-field rendering, multiview display, pixel resources, pixel value assigning algorithm, vision-based parameter calibration methods, Calibration, Image resolution, Mirrors, Rendering (computer graphics), Solid modeling, Visualization, 3-D display calibration, Autostereoscopic 3-D (A3D) display, integral imaging display, light-field reconstruction, light-field rendering, multiview display, multiview, rendering BibRef

Kim, J.Y.[Jong-Yoo], Kim, T.[Taewan], Lee, S.H.[Sang-Hoon], Bovik, A.C.,
Quality Assessment of Perceptual Crosstalk on Two-View Auto-Stereoscopic Displays,
IP(26), No. 10, October 2017, pp. 4885-4899.
IEEE DOI 1708
crosstalk, image texture, stereo image processing, visual perception, BPCP model, advanced binocular summation model, binocular perceptual crosstalk predictor, binocular pooling method, complementary 3D image property, complex naturalistic spatial characteristics, image texture, light intensity leakage, natural stereo imaging, perceptual crosstalk determinant, quality assessment, stereoscopic 3D image quality, structural correlation, structural duplication, structure masking algorithm, two-view autostereoscopic display, Correlation, Crosstalk, Distortion, Image edge detection, Stereo image processing, Visualization, Auto-stereoscopic display, human visual system BibRef
Earlier: A1, A2, A3, Only:
Quality assessment of perceptual crosstalk in autostereoscopic display,
ICIP14(3484-3487)
IEEE DOI 1502
Crosstalk BibRef

Kuo, P., Lo, K., Tseng, H., Lee, K., Liu, B., Yang, J.,
Stereoview to Multiview Conversion Architecture for Auto-Stereoscopic 3D Displays,
CirSysVideo(28), No. 11, November 2018, pp. 3274-3287.
IEEE DOI 1811
Hardware, Computer architecture, Transforms, Complexity theory, virtual view synthesis BibRef

Liu, R.[Ran], Liu, M.M.[Ming-Ming], Zhang, Y.Z.[Yan-Zhen], Li, D.[Dehao], Zheng, Y.T.[Yang-Ting],
Real-time ultra-high definition multiview glasses-free 3D display system,
VC(35), No. 3, March 2019, pp. 303-321.
Springer DOI 1906
Based on Depth Image Based Rendering. BibRef

Surman, P., Zhang, X., Song, W., Xia, X., Wang, S., Zheng, Y.,
Glasses-Free 3-D and Augmented Reality Display Advances: From Theory to Implementation,
MultMedMag(27), No. 1, January 2020, pp. 17-26.
IEEE DOI 2004
Light fields, Liquid crystal displays, Head, Spatial resolution, Prototypes, accommodation/convergence conflict BibRef


Huang, Y., Swash, M.R., Boulgouris, N.V.,
Glasses-Free Led Holoscopic 3D Wall with Effective Pixel Mapping,
ICIP19(499-503)
IEEE DOI 1910
Holoscopic 3D image, integral imaging, 3D display, LED display, pixel mapping, autostereoscopic display BibRef

Battin, B., Valette, G., Lehuraux, J., Remion, Y., Lucas, L.,
A premixed autostereoscopic OptiX-based volume rendering,
IC3D15(1-5)
IEEE DOI 1603
ray tracing BibRef

Zhuang, Z., Wang, H., Surman, P., Sun, X.W.,
Viewable floating displays using simple secondary optical elements,
VCIP15(1-1)
IEEE DOI 1605
Mirrors BibRef

Guo, S., Surman, P., Zhuang, Z., Sun, X.W.,
A real-time head tracker for autostereoscopic display,
VCIP15(1-1)
IEEE DOI 1605
Head BibRef

Wang, S., Zhang, X., Cheng, Q., Rajendran, K., Surman, P., Yuan, J., Sun, X.W.,
Glasses-free light field 3D display,
VCIP15(1-1)
IEEE DOI 1605
Graphics BibRef

Surman, P., Wang, S., Zhang, X., Zhang, L., Sun, X.W.,
Head tracked multiview 3D display,
VCIP15(1-1)
IEEE DOI 1605
Head BibRef

Fan, H., Zhou, Y., Liang, H., Wang, J., Krebs, P., Lin, D., Su, J., Li, K., Chen, H., Wang, X., Zhou, J.,
Glasses-free 3D display with glasses-assisted quality: Key innovations for smart directional backlight autostereoscopy,
VCIP15(1-4)
IEEE DOI 1605
Bars BibRef

Chen, A.C.[An-Che], Hou, Y.H.[Yung-Hua],
A user-controlled assessment approach to perceptual quality in autostereoscopic displays for mobile gaming,
IC3D15(1-5)
IEEE DOI 1603
computer games BibRef

Bartmann, R., Kuhlmey, M., Netzbandt, R., de la Barre, R.,
Simulation of autostereoscopic displays by geometrical ray tracing and implication of optical effects,
3DTV-CON14(1-4)
IEEE DOI 1409
Fraunhofer diffraction BibRef

Shin, H.C.[Hong-Chang], Cheong, W.S.[Won-Sik], Lee, G.S.[Gwang-Soon], Hur, N.H.[Nam-Ho],
Scalable multiplexing for depth adjustment of ROI in 3D display,
3DTV-CON13(1-4)
IEEE DOI 1309
3D Display; Autostereoscopic; Depth Adjustment; Scalable multiplexing BibRef

Salvador-Balaguer, E.[Eva], Sotoca, J.M.[Jose Martinez], Ba˝ˇn, F.P.[Filiberto Pla],
View Synthesis for Real Scene Visualisation on Autostereoscopic Displays,
IbPRIA13(839-846).
Springer DOI 1307
BibRef

Grimaldi, L.[Lucia], Wegener, M.[Matthias], Neddens, A.[Arion], Schuur, K.[Klaas],
A comparative study of 3D transmission formats for 4K auto-stereoscopic displays,
3DTV-CON13(1-4)
IEEE DOI 1309
2D+Z BibRef

Surman, P.[Phil], Day, S.[Sally], Aksit, K.[Kaan], Urey, H.[Hakan], Benjamin, J.[Joshua], Jain, K.[Kuber], Chen, H.[Hao],
Single and multi-user head tracked glasses-free 3D displays,
3DTV-CON13(1-4)
IEEE DOI 1309
Autostereoscopic BibRef

Shin, H.C.[Hong-Chang], Um, G.M.[Gi-Mun], Kim, C.[Chan], Cheong, W.S.[Won-Sik],
Autostereoscopic 3D video generation from stereoscopic videos using FPGA and GPU,
IC3D12(1-5)
IEEE DOI 1503
dynamic programming BibRef

Wang, J.[Jiang], Ronningen, L.A.,
Real time believable stereo and virtual view synthesis engine for autostereoscopic display,
IC3D12(1-6)
IEEE DOI 1503
VLSI BibRef

Priot, A.E., Neveu, P., Priot, B., Prablanc, C., Roumes, C., LaboissiŔre, R.,
Adaptive estimates of egocentric distance from vergence in telestereoscopic viewing: Von Hofsten's model revisited,
IC3D15(1-8)
IEEE DOI 1603
adaptive estimation BibRef

Kuhlmey, M.[Mathias], Bartmann, R.[Roland],
Subpixel-area based simulation for autostereoscopic displays with lenticular arrays,
IC3D15(1-5)
IEEE DOI 1603
optical arrays BibRef

Bartmann, R.[Roland], Kuhlmey, M.[Mathias], Netzbandt, R.[Ronny], de la Barre, R.[Rene],
Validation of subpixel area based simulation for autostereoscopic displays with parallax barriers,
IC3D14(1-7)
IEEE DOI 1503
Assembly BibRef

Yen, W.T.[Wei-Ting], Chen, F.H.[Fu-Hao], Chen, W.L.[Wu-Li], Liou, J.C.[Jian-Chiun], Tsai, C.H.[Chao-Hsu],
Enhance light efficiency for slim light-strip array backlight on autostereoscopic display,
3DTV12(1-4).
IEEE DOI 1212
BibRef

Sandin, D.J., Sandor, E., Cunnally, W., Resch, M., de Fanti, T., Brown, M.,
Computer-generated barrier-strip autostereography,
SPIE(1083), 1989, pp. 65-75. BibRef 8900

Jumisko-Pyykko, S.[Satu], Haustola, T.[Tomi], Boev, A.[Atanas], Gotchev, A.[Atanas],
Juxtaposition between compression and depth for stereoscopic image quality on portable auto-stereoscopic display,
3DTV11(1-4).
IEEE DOI 1105
BibRef

Brar, R.S.[Rajwinder Singh], Surman, P.[Phil], Sexton, I.[Ian], Hopf, K.[Klaus],
Multi-user glasses free 3D display using an optical array,
3DTV10(1-4).
IEEE DOI 1006
BibRef

Agus, M.[Marco], Gobbetti, E.[Enrico], Guitian, J.A.I.[Jose Antonio Iglesias], Marton, F.[Fabio],
Evaluating layout discrimination capabilities of continuous and discrete automultiscopic displays,
3DPVT10(xx-yy).
WWW Link. 1005
BibRef

Aksit, K.[Kaan], Olcer, S.[Selim], Erden, E.[Erdem], Kishore, V.C., Urey, H.[Hakan], Willman, E.[Eero], Baghsiahi, H.[Hadi], Day, S.E.[Sally E.], Selviah, D.R.[David R.], Fernandez, F.A.[F. Anibal], Surman, P.[Phil],
Light engine and optics for HELIUM3D auto-stereoscopic laser scanning display,
3DTV11(1-4).
IEEE DOI 1105
BibRef

Chen, W.L.[Wu-Li], Wu, C.S.[Chang-Shuo], Chen, C.Y.[Chang-Ying], Cheng, S.C.[Shu-Chuan], Tsai, C.H.[Chao-Hsu],
Development of an autostereoscopic display system using projectors array,
3DTV10(1-4).
IEEE DOI 1006
BibRef

Boev, A., Bregovic, R., Damyanov, D., Gotchev, A.,
Anti-aliasing filtering of 2D images for multi-view auto-stereoscopic displays,
LNLA09(87-97).
IEEE DOI 0908
BibRef

Nashel, A.[Andrew], Fuchs, H.[Henry],
Random Hole Display: A non-uniform barrier autostereoscopic display,
3DTV09(1-4).
IEEE DOI 0905
BibRef

Dimitropoulos, K., Semertzidis, T., Grammalidis, N.,
3D content generation for autostereoscopic displays,
3DTV09(1-4).
IEEE DOI 0905
BibRef

Yanaka, K.[Kazuhisa], Motegi, H.[Hirokazu],
Input system for moving integral imaging using full HD camcoder and fly's eye lens,
3DTV09(1-4).
IEEE DOI 0905
Integral imaging for 3D display, does not need special glasses. BibRef

Ramachandra, V.[Vikas], Zwicker, M.[Matthias], Nguyen, T.Q.[Truong Q.],
Display dependent coding for 3D video on automultiscopic displays,
ICIP08(2436-2439).
IEEE DOI 0810
BibRef

Kim, M.B.[Man-Bae], Lee, S.[Seno], Choi, C.Y.[Chang-Yeol], Um, G.M.[Gi-Mun], Hur, N.H.[Nam-Ho], Kim, J.W.[Jin-Woong],
Depth Scaling of Multiview Images for Automultiscopic 3D Monitors,
3DTV08(181-184).
IEEE DOI 0805

See also Depth Image Based Rendering for 3D Data Service Over T-DMB. BibRef

Strohmeier, D.[Dominik], Jumisko-Pyykko, S.[Satu],
How Does My 3D Video Sound Like? Impact of Loudspeaker Set-Ups on Audiovisual Quality on Mid-Sized Autostereoscopic Display,
3DTV08(73-76).
IEEE DOI 0805
BibRef

Kalaiah, A.[Aravind], Capin, T.K.[Tolga K.],
A Unified Graphics Rendering Pipeline for Autostereoscopic Rendering,
3DTV07(1-4).
IEEE DOI 0705
BibRef

Boev, A.[Atanas], Gotchev, A.[Atanas], Egiazarian, K.O.[Karen O.],
Crosstalk Measurement Methodology for Auto-Stereoscopic Screens,
3DTV07(1-4).
IEEE DOI 0705
BibRef

Park, D.C.[Dae-Chul], Kim, K.T.[Kyung-Tae], Lee, C.H.[Cheon-Hee], Son, J.Y.[Jung-Young], Lee, Y.B.[Yong-Beom],
Lenticular stereoscopic imaging and displaying techniques with no special glasses,
ICIP95(III: 137-140).
IEEE DOI 9510
BibRef

Chapter on Stereo: Three Dimensional Descriptions from Two or More Views, Binocular, Trinocular continues in
Three Dimensional Visualization for Medical Data .


Last update:Oct 24, 2021 at 16:35:58