Abstract

This paper presents the full technology chain supporting wide angle digital holographic television from holographic capture of real world objects/scenes to holographic display with an extended viewing angle. The data are captured with multiple CCD cameras located around an object. The display system is based on multiple tilted spatial light modulators (SLMs) arranged in a circular configuration. The capture-display system is linked by a holographic data processing module, which allows for significant decoupling of the capture and display systems. The presented experimental results, based on the reconstruction of real world, variable in time scenes, illustrates imaging dynamics, viewing angle and quality.

© 2014 Optical Society of America

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    [CrossRef]
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2013

J.-Y. Son, O. Chernyshov, M.-C. Park, W.-H. Son, B.-R. Lee, J.-W. Kim, “A holographic display based on a Spatial Multiplexing,” Proc. SPIE 8738, 87380G (2013).
[CrossRef]

Y.-Z. Liu, X.-N. Pang, S. Jiang, J.-W. Dong, “Viewing-angle enlargement in holographic augmented reality using time division and spatial tiling,” Opt. Express 21(10), 12068–12076 (2013).
[CrossRef] [PubMed]

2012

2011

T. Meeser, C. Falldorf, C. von Kopylow, R. B. Bergmann, “Reference wave adaptation in digital lensless Fourier holography by means of a spatial light modulator,” Proc. SPIE 8082, 808206 (2011).
[CrossRef]

N. Pandey, B. Hennelly, “Compensation of reference beam sphericity in a multi-perspective digital holography based record-display setup,” Proc. SPIE 8082, 80822D (2011).
[CrossRef]

L. Onural, F. Yaraş, H. Kang, “Digital holographic three-dimensional video displays,” Proc. IEEE 99(4), 576–589 (2011).
[CrossRef]

F. Yaraş, H. Kang, L. Onural, “Circular holographic video display system,” Opt. Express 19(10), 9147–9156 (2011).
[CrossRef] [PubMed]

T. Kozacki, “Holographic display with tilted spatial light modulator,” Appl. Opt. 50(20), 3579–3588 (2011).
[CrossRef] [PubMed]

J. Hong, Y. Kim, H.-J. Choi, J. Hahn, J.-H. Park, H. Kim, S.-W. Min, N. Chen, B. Lee, “Three-dimensional display technologies of recent interest: principles, status, and issues,” Appl. Opt. 50(34), H87–H115 (2011).
[CrossRef] [PubMed]

2010

T. Kozacki, “On resolution and viewing of holographic image generated by 3D holographic display,” Opt. Express 18(26), 27118–27129 (2010).
[CrossRef] [PubMed]

D. P. Kelly, D. S. Monaghan, N. Pandey, T. Kozacki, A. Michałkiewicz, G. Finke, B. M. Hennelly, M. Kujawinska, “Digital holographic capture and optoelectronic reconstruction for 3D displays,” Int. J. Digit. Multimed. Broadcast. 2010, 759323 (2010).
[CrossRef]

2009

L. Ahrenberg, A. J. Page, B. M. Hennelly, J. B. McDonald, T. J. Naughton, “Using commodity graphics hardware for real-time digital hologram view-reconstruction,” J. Disp. Technol. 5(4), 111–119 (2009).
[CrossRef]

2008

R. Häussler, A. Schwerdtner, N. Leister, “Large holographic displays as an alternative to stereoscopic displays,” Proc. SPIE 6803, 68030M (2008).
[CrossRef]

J. Hahn, H. Kim, Y. Lim, G. Park, B. Lee, “Wide viewing angle dynamic holographic stereogram with a curved array of spatial light modulators,” Opt. Express 16(16), 12372–12386 (2008).
[CrossRef] [PubMed]

2007

A. E. Shortt, T. J. Naughton, B. Javidi, “Histogram approaches for lossy compression of digital holograms of three-dimensional objects,” IEEE Trans. Image Process. 16(6), 1548–1556 (2007).
[CrossRef] [PubMed]

2006

2005

J.-Y. Son, B. Javidi, “3-dimensional imaging systems based on multiview images,” J. Disp. Technol. 1(1), 125–140 (2005).
[CrossRef]

2003

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

T. J. Naughton, J. B. McDonald, B. Javidi, “Efficient compression of Fresnel fields for Internet transmission of three-dimensional images,” Appl. Opt. 42(23), 4758–4764 (2003).
[CrossRef] [PubMed]

2002

2000

M. J. Weinberger, G. Seroussi, G. Sapiro, “The LOCO-I lossless image compression algorithm: Principles and standardization into JPEG-LS,” IEEE Trans. Image Process. 9(8), 1309–1324 (2000).
[CrossRef] [PubMed]

M. Sutkowski, M. Kujawinska, “Application of liquid crystal (LC) devices for optoelectronic reconstruction of digitally stored holograms,” Opt. Lasers Eng. 33(3), 191–201 (2000).
[CrossRef]

1999

I. Sexton, Y. Surman, “Stereoscopic and autostereoscopic display systems,” IEEE Signal Process. Mag. 16(3), 85–99 (1999).
[CrossRef]

1998

1993

T. Tommasi, B. Bianco, “Computer-generated holograms of tilted planes by a spatial frequency approach,” J. Opt. Soc. Am. A 10(2), 299–305 (1993).
[CrossRef]

N. Hashimoto, S. Morokawa, “Real-time electroholographic system using liquid crystal television spatial light modulators,” J. Electron. Imaging 2(2), 93–99 (1993).
[CrossRef]

Ahrenberg, L.

L. Ahrenberg, A. J. Page, B. M. Hennelly, J. B. McDonald, T. J. Naughton, “Using commodity graphics hardware for real-time digital hologram view-reconstruction,” J. Disp. Technol. 5(4), 111–119 (2009).
[CrossRef]

Bannister, R. W.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Bergmann, R. B.

T. Meeser, C. Falldorf, C. von Kopylow, R. B. Bergmann, “Reference wave adaptation in digital lensless Fourier holography by means of a spatial light modulator,” Proc. SPIE 8082, 808206 (2011).
[CrossRef]

Bertaux, N.

Bianco, B.

Cameron, C. D.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Chen, N.

Chernyshov, O.

J.-Y. Son, O. Chernyshov, M.-C. Park, W.-H. Son, B.-R. Lee, J.-W. Kim, “A holographic display based on a Spatial Multiplexing,” Proc. SPIE 8738, 87380G (2013).
[CrossRef]

Choi, H.-J.

Coomber, S. D.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Cresswell, I. G.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Delen, N.

Dong, J.-W.

Falldorf, C.

T. Meeser, C. Falldorf, C. von Kopylow, R. B. Bergmann, “Reference wave adaptation in digital lensless Fourier holography by means of a spatial light modulator,” Proc. SPIE 8082, 808206 (2011).
[CrossRef]

Finke, G.

T. Kozacki, M. Kujawińska, G. Finke, W. Zaperty, B. Hennelly, “Holographic capture and display systems in circular configurations,” J. Disp. Technol. 8(4), 225–232 (2012).
[CrossRef]

T. Kozacki, G. Finke, P. Garbat, W. Zaperty, M. Kujawińska, “Wide angle holographic display system with spatiotemporal multiplexing,” Opt. Express 20(25), 27473–27481 (2012).
[CrossRef] [PubMed]

T. Kozacki, M. Kujawińska, G. Finke, B. Hennelly, N. Pandey, “Extended viewing angle holographic display system with tilted SLMs in a circular configuration,” Appl. Opt. 51(11), 1771–1780 (2012).
[CrossRef] [PubMed]

D. P. Kelly, D. S. Monaghan, N. Pandey, T. Kozacki, A. Michałkiewicz, G. Finke, B. M. Hennelly, M. Kujawinska, “Digital holographic capture and optoelectronic reconstruction for 3D displays,” Int. J. Digit. Multimed. Broadcast. 2010, 759323 (2010).
[CrossRef]

Frauel, Y.

Garbat, P.

Hahn, J.

Hashimoto, N.

N. Hashimoto, S. Morokawa, “Real-time electroholographic system using liquid crystal television spatial light modulators,” J. Electron. Imaging 2(2), 93–99 (1993).
[CrossRef]

Häussler, R.

R. Häussler, A. Schwerdtner, N. Leister, “Large holographic displays as an alternative to stereoscopic displays,” Proc. SPIE 6803, 68030M (2008).
[CrossRef]

Heikkila, J.

J. Heikkila, O. Silven, “A four-step camera calibration procedure with implicit image correction,” in Proc. of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition (1997), pp. 1106–1112.
[CrossRef]

Hennelly, B.

T. Kozacki, M. Kujawińska, G. Finke, W. Zaperty, B. Hennelly, “Holographic capture and display systems in circular configurations,” J. Disp. Technol. 8(4), 225–232 (2012).
[CrossRef]

T. Kozacki, M. Kujawińska, G. Finke, B. Hennelly, N. Pandey, “Extended viewing angle holographic display system with tilted SLMs in a circular configuration,” Appl. Opt. 51(11), 1771–1780 (2012).
[CrossRef] [PubMed]

N. Pandey, B. Hennelly, “Compensation of reference beam sphericity in a multi-perspective digital holography based record-display setup,” Proc. SPIE 8082, 80822D (2011).
[CrossRef]

Hennelly, B. M.

D. P. Kelly, D. S. Monaghan, N. Pandey, T. Kozacki, A. Michałkiewicz, G. Finke, B. M. Hennelly, M. Kujawinska, “Digital holographic capture and optoelectronic reconstruction for 3D displays,” Int. J. Digit. Multimed. Broadcast. 2010, 759323 (2010).
[CrossRef]

L. Ahrenberg, A. J. Page, B. M. Hennelly, J. B. McDonald, T. J. Naughton, “Using commodity graphics hardware for real-time digital hologram view-reconstruction,” J. Disp. Technol. 5(4), 111–119 (2009).
[CrossRef]

Hong, J.

Hooker, B.

Hughes, J. R.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Hui, V.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Jackson, P. O.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Javidi, B.

Jiang, S.

Kang, H.

F. Yaraş, H. Kang, L. Onural, “Circular holographic video display system,” Opt. Express 19(10), 9147–9156 (2011).
[CrossRef] [PubMed]

L. Onural, F. Yaraş, H. Kang, “Digital holographic three-dimensional video displays,” Proc. IEEE 99(4), 576–589 (2011).
[CrossRef]

Kelly, D. P.

D. P. Kelly, D. S. Monaghan, N. Pandey, T. Kozacki, A. Michałkiewicz, G. Finke, B. M. Hennelly, M. Kujawinska, “Digital holographic capture and optoelectronic reconstruction for 3D displays,” Int. J. Digit. Multimed. Broadcast. 2010, 759323 (2010).
[CrossRef]

Kim, H.

Kim, J.-W.

J.-Y. Son, O. Chernyshov, M.-C. Park, W.-H. Son, B.-R. Lee, J.-W. Kim, “A holographic display based on a Spatial Multiplexing,” Proc. SPIE 8738, 87380G (2013).
[CrossRef]

Kim, Y.

Kozacki, T.

Kujawinska, M.

T. Kozacki, M. Kujawińska, G. Finke, W. Zaperty, B. Hennelly, “Holographic capture and display systems in circular configurations,” J. Disp. Technol. 8(4), 225–232 (2012).
[CrossRef]

T. Kozacki, G. Finke, P. Garbat, W. Zaperty, M. Kujawińska, “Wide angle holographic display system with spatiotemporal multiplexing,” Opt. Express 20(25), 27473–27481 (2012).
[CrossRef] [PubMed]

T. Kozacki, M. Kujawińska, G. Finke, B. Hennelly, N. Pandey, “Extended viewing angle holographic display system with tilted SLMs in a circular configuration,” Appl. Opt. 51(11), 1771–1780 (2012).
[CrossRef] [PubMed]

D. P. Kelly, D. S. Monaghan, N. Pandey, T. Kozacki, A. Michałkiewicz, G. Finke, B. M. Hennelly, M. Kujawinska, “Digital holographic capture and optoelectronic reconstruction for 3D displays,” Int. J. Digit. Multimed. Broadcast. 2010, 759323 (2010).
[CrossRef]

M. Sutkowski, M. Kujawinska, “Application of liquid crystal (LC) devices for optoelectronic reconstruction of digitally stored holograms,” Opt. Lasers Eng. 33(3), 191–201 (2000).
[CrossRef]

Lee, B.

Lee, B.-R.

J.-Y. Son, O. Chernyshov, M.-C. Park, W.-H. Son, B.-R. Lee, J.-W. Kim, “A holographic display based on a Spatial Multiplexing,” Proc. SPIE 8738, 87380G (2013).
[CrossRef]

Leister, N.

R. Häussler, A. Schwerdtner, N. Leister, “Large holographic displays as an alternative to stereoscopic displays,” Proc. SPIE 6803, 68030M (2008).
[CrossRef]

Lim, Y.

Liu, Y.-Z.

Matoba, O.

McDonald, J. B.

L. Ahrenberg, A. J. Page, B. M. Hennelly, J. B. McDonald, T. J. Naughton, “Using commodity graphics hardware for real-time digital hologram view-reconstruction,” J. Disp. Technol. 5(4), 111–119 (2009).
[CrossRef]

T. J. Naughton, J. B. McDonald, B. Javidi, “Efficient compression of Fresnel fields for Internet transmission of three-dimensional images,” Appl. Opt. 42(23), 4758–4764 (2003).
[CrossRef] [PubMed]

Meeser, T.

T. Meeser, C. Falldorf, C. von Kopylow, R. B. Bergmann, “Reference wave adaptation in digital lensless Fourier holography by means of a spatial light modulator,” Proc. SPIE 8082, 808206 (2011).
[CrossRef]

Michalkiewicz, A.

D. P. Kelly, D. S. Monaghan, N. Pandey, T. Kozacki, A. Michałkiewicz, G. Finke, B. M. Hennelly, M. Kujawinska, “Digital holographic capture and optoelectronic reconstruction for 3D displays,” Int. J. Digit. Multimed. Broadcast. 2010, 759323 (2010).
[CrossRef]

Milham, K. A.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Miller, R. J.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Min, S.-W.

Monaghan, D. S.

D. P. Kelly, D. S. Monaghan, N. Pandey, T. Kozacki, A. Michałkiewicz, G. Finke, B. M. Hennelly, M. Kujawinska, “Digital holographic capture and optoelectronic reconstruction for 3D displays,” Int. J. Digit. Multimed. Broadcast. 2010, 759323 (2010).
[CrossRef]

Morokawa, S.

N. Hashimoto, S. Morokawa, “Real-time electroholographic system using liquid crystal television spatial light modulators,” J. Electron. Imaging 2(2), 93–99 (1993).
[CrossRef]

Naughton, T. J.

Onural, L.

F. Yaraş, H. Kang, L. Onural, “Circular holographic video display system,” Opt. Express 19(10), 9147–9156 (2011).
[CrossRef] [PubMed]

L. Onural, F. Yaraş, H. Kang, “Digital holographic three-dimensional video displays,” Proc. IEEE 99(4), 576–589 (2011).
[CrossRef]

Page, A. J.

L. Ahrenberg, A. J. Page, B. M. Hennelly, J. B. McDonald, T. J. Naughton, “Using commodity graphics hardware for real-time digital hologram view-reconstruction,” J. Disp. Technol. 5(4), 111–119 (2009).
[CrossRef]

Pandey, N.

T. Kozacki, M. Kujawińska, G. Finke, B. Hennelly, N. Pandey, “Extended viewing angle holographic display system with tilted SLMs in a circular configuration,” Appl. Opt. 51(11), 1771–1780 (2012).
[CrossRef] [PubMed]

N. Pandey, B. Hennelly, “Compensation of reference beam sphericity in a multi-perspective digital holography based record-display setup,” Proc. SPIE 8082, 80822D (2011).
[CrossRef]

D. P. Kelly, D. S. Monaghan, N. Pandey, T. Kozacki, A. Michałkiewicz, G. Finke, B. M. Hennelly, M. Kujawinska, “Digital holographic capture and optoelectronic reconstruction for 3D displays,” Int. J. Digit. Multimed. Broadcast. 2010, 759323 (2010).
[CrossRef]

Pang, X.-N.

Park, G.

Park, J.-H.

Park, M.-C.

J.-Y. Son, O. Chernyshov, M.-C. Park, W.-H. Son, B.-R. Lee, J.-W. Kim, “A holographic display based on a Spatial Multiplexing,” Proc. SPIE 8738, 87380G (2013).
[CrossRef]

Payne, D. A.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Quarrel, J.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Sapiro, G.

M. J. Weinberger, G. Seroussi, G. Sapiro, “The LOCO-I lossless image compression algorithm: Principles and standardization into JPEG-LS,” IEEE Trans. Image Process. 9(8), 1309–1324 (2000).
[CrossRef] [PubMed]

Scattergood, D. C.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Schwerdtner, A.

R. Häussler, A. Schwerdtner, N. Leister, “Large holographic displays as an alternative to stereoscopic displays,” Proc. SPIE 6803, 68030M (2008).
[CrossRef]

Seroussi, G.

M. J. Weinberger, G. Seroussi, G. Sapiro, “The LOCO-I lossless image compression algorithm: Principles and standardization into JPEG-LS,” IEEE Trans. Image Process. 9(8), 1309–1324 (2000).
[CrossRef] [PubMed]

Sexton, I.

I. Sexton, Y. Surman, “Stereoscopic and autostereoscopic display systems,” IEEE Signal Process. Mag. 16(3), 85–99 (1999).
[CrossRef]

Shortt, A. E.

A. E. Shortt, T. J. Naughton, B. Javidi, “Histogram approaches for lossy compression of digital holograms of three-dimensional objects,” IEEE Trans. Image Process. 16(6), 1548–1556 (2007).
[CrossRef] [PubMed]

A. E. Shortt, T. J. Naughton, B. Javidi, “Compression of digital holograms of three-dimensional objects using wavelets,” Opt. Express 14(7), 2625–2630 (2006).
[CrossRef] [PubMed]

Silven, O.

J. Heikkila, O. Silven, “A four-step camera calibration procedure with implicit image correction,” in Proc. of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition (1997), pp. 1106–1112.
[CrossRef]

Slinger, C. W.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Smith, A. P.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Smith, M. A.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Son, J.-Y.

J.-Y. Son, O. Chernyshov, M.-C. Park, W.-H. Son, B.-R. Lee, J.-W. Kim, “A holographic display based on a Spatial Multiplexing,” Proc. SPIE 8738, 87380G (2013).
[CrossRef]

J.-Y. Son, B. Javidi, “3-dimensional imaging systems based on multiview images,” J. Disp. Technol. 1(1), 125–140 (2005).
[CrossRef]

Son, W.-H.

J.-Y. Son, O. Chernyshov, M.-C. Park, W.-H. Son, B.-R. Lee, J.-W. Kim, “A holographic display based on a Spatial Multiplexing,” Proc. SPIE 8738, 87380G (2013).
[CrossRef]

Stanley, M.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Surman, Y.

I. Sexton, Y. Surman, “Stereoscopic and autostereoscopic display systems,” IEEE Signal Process. Mag. 16(3), 85–99 (1999).
[CrossRef]

Sutkowski, M.

M. Sutkowski, M. Kujawinska, “Application of liquid crystal (LC) devices for optoelectronic reconstruction of digitally stored holograms,” Opt. Lasers Eng. 33(3), 191–201 (2000).
[CrossRef]

Tajahuerce, E.

Tipton, D. L.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Tommasi, T.

von Kopylow, C.

T. Meeser, C. Falldorf, C. von Kopylow, R. B. Bergmann, “Reference wave adaptation in digital lensless Fourier holography by means of a spatial light modulator,” Proc. SPIE 8082, 808206 (2011).
[CrossRef]

Watson, P. J.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Webber, P. J.

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

Weinberger, M. J.

M. J. Weinberger, G. Seroussi, G. Sapiro, “The LOCO-I lossless image compression algorithm: Principles and standardization into JPEG-LS,” IEEE Trans. Image Process. 9(8), 1309–1324 (2000).
[CrossRef] [PubMed]

Yaras, F.

L. Onural, F. Yaraş, H. Kang, “Digital holographic three-dimensional video displays,” Proc. IEEE 99(4), 576–589 (2011).
[CrossRef]

F. Yaraş, H. Kang, L. Onural, “Circular holographic video display system,” Opt. Express 19(10), 9147–9156 (2011).
[CrossRef] [PubMed]

Zaperty, W.

T. Kozacki, G. Finke, P. Garbat, W. Zaperty, M. Kujawińska, “Wide angle holographic display system with spatiotemporal multiplexing,” Opt. Express 20(25), 27473–27481 (2012).
[CrossRef] [PubMed]

T. Kozacki, M. Kujawińska, G. Finke, W. Zaperty, B. Hennelly, “Holographic capture and display systems in circular configurations,” J. Disp. Technol. 8(4), 225–232 (2012).
[CrossRef]

Zhang, Y.

Y. Zhang, “Flexible camera calibration by viewing a plane from unknown orientations,” in Proc. of the Seventh IEEE International Conference on Computer Vision (1999), pp. 666–673.
[CrossRef]

Appl. Opt.

IEEE Signal Process. Mag.

I. Sexton, Y. Surman, “Stereoscopic and autostereoscopic display systems,” IEEE Signal Process. Mag. 16(3), 85–99 (1999).
[CrossRef]

IEEE Trans. Image Process.

A. E. Shortt, T. J. Naughton, B. Javidi, “Histogram approaches for lossy compression of digital holograms of three-dimensional objects,” IEEE Trans. Image Process. 16(6), 1548–1556 (2007).
[CrossRef] [PubMed]

M. J. Weinberger, G. Seroussi, G. Sapiro, “The LOCO-I lossless image compression algorithm: Principles and standardization into JPEG-LS,” IEEE Trans. Image Process. 9(8), 1309–1324 (2000).
[CrossRef] [PubMed]

Int. J. Digit. Multimed. Broadcast.

D. P. Kelly, D. S. Monaghan, N. Pandey, T. Kozacki, A. Michałkiewicz, G. Finke, B. M. Hennelly, M. Kujawinska, “Digital holographic capture and optoelectronic reconstruction for 3D displays,” Int. J. Digit. Multimed. Broadcast. 2010, 759323 (2010).
[CrossRef]

J. Disp. Technol.

L. Ahrenberg, A. J. Page, B. M. Hennelly, J. B. McDonald, T. J. Naughton, “Using commodity graphics hardware for real-time digital hologram view-reconstruction,” J. Disp. Technol. 5(4), 111–119 (2009).
[CrossRef]

T. Kozacki, M. Kujawińska, G. Finke, W. Zaperty, B. Hennelly, “Holographic capture and display systems in circular configurations,” J. Disp. Technol. 8(4), 225–232 (2012).
[CrossRef]

J.-Y. Son, B. Javidi, “3-dimensional imaging systems based on multiview images,” J. Disp. Technol. 1(1), 125–140 (2005).
[CrossRef]

J. Electron. Imaging

N. Hashimoto, S. Morokawa, “Real-time electroholographic system using liquid crystal television spatial light modulators,” J. Electron. Imaging 2(2), 93–99 (1993).
[CrossRef]

J. Opt. Soc. Am. A

Opt. Express

Opt. Lasers Eng.

M. Sutkowski, M. Kujawinska, “Application of liquid crystal (LC) devices for optoelectronic reconstruction of digitally stored holograms,” Opt. Lasers Eng. 33(3), 191–201 (2000).
[CrossRef]

Proc. IEEE

L. Onural, F. Yaraş, H. Kang, “Digital holographic three-dimensional video displays,” Proc. IEEE 99(4), 576–589 (2011).
[CrossRef]

Proc. SPIE

J.-Y. Son, O. Chernyshov, M.-C. Park, W.-H. Son, B.-R. Lee, J.-W. Kim, “A holographic display based on a Spatial Multiplexing,” Proc. SPIE 8738, 87380G (2013).
[CrossRef]

R. Häussler, A. Schwerdtner, N. Leister, “Large holographic displays as an alternative to stereoscopic displays,” Proc. SPIE 6803, 68030M (2008).
[CrossRef]

M. Stanley, R. W. Bannister, C. D. Cameron, S. D. Coomber, I. G. Cresswell, J. R. Hughes, V. Hui, P. O. Jackson, K. A. Milham, R. J. Miller, D. A. Payne, J. Quarrel, D. C. Scattergood, A. P. Smith, M. A. Smith, D. L. Tipton, P. J. Watson, P. J. Webber, C. W. Slinger, “100-megapixel computer generated holographic images from active tiling: a dynamic and scalable electro-optic modulator system,” Proc. SPIE 5005, 247–258 (2003).
[CrossRef]

T. Meeser, C. Falldorf, C. von Kopylow, R. B. Bergmann, “Reference wave adaptation in digital lensless Fourier holography by means of a spatial light modulator,” Proc. SPIE 8082, 808206 (2011).
[CrossRef]

N. Pandey, B. Hennelly, “Compensation of reference beam sphericity in a multi-perspective digital holography based record-display setup,” Proc. SPIE 8082, 80822D (2011).
[CrossRef]

Other

Y. Zhang, “Flexible camera calibration by viewing a plane from unknown orientations,” in Proc. of the Seventh IEEE International Conference on Computer Vision (1999), pp. 666–673.
[CrossRef]

J. Heikkila, O. Silven, “A four-step camera calibration procedure with implicit image correction,” in Proc. of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition (1997), pp. 1106–1112.
[CrossRef]

H. J. Caufield, ed., The Art and Science of Holography: A Tribute to Emmeth Lieth and Yuri Denisyuk (SPIE Press, 2004).

Supplementary Material (3)

» Media 1: MOV (3916 KB)     
» Media 2: MOV (2963 KB)     
» Media 3: MOV (3256 KB)     

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Figures (9)

Fig. 1
Fig. 1

The digital holographic capture system: (a) the scheme and (b) the photo of the setup.

Fig. 2
Fig. 2

Numerical reconstructions of digital holograms of a watch captured by different sensors at the same time.

Fig. 3
Fig. 3

The digital holographic display: (a) the scheme and (b) photo.

Fig. 4
Fig. 4

Illustration of capture system calibration, image of calibration target from (a) most right “1” and (b) most left “6” CCD; (c) CCD positions and orientations calculated from six recordings (axes in mm).

Fig. 5
Fig. 5

(a) The 3D scene with five cross hairs on three planes; (b) Numerical reconstruction of CGH for (b) left most and (c) right most SLM. The centre cross hair is difficult to see because it is very narrow.

Fig. 6
Fig. 6

The data flow in the holographic television system. The numbers determine the alternative location of data processing: (1) on the capture side, (2) on the display side, or (3) partially on both sides; P, C, and D denote processing, compression, and decompression, respectively.

Fig. 7
Fig. 7

Overview of the data manipulation and transfer stages between capture and display.

Fig. 8
Fig. 8

GPU Processing and data transfer after decompression.

Fig. 9
Fig. 9

Images and videos of reconstructions from MWFs by separate SLMs 1-6 for (a) watch (Media 1) and (b) chicks (Media 2) objects in the display system acquired during test transfer and the videos of wide viewing angle image of static and running watch combined from all SLMs images (Media 3).

Tables (1)

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Table 1 The frame rates for SingleGPU / MultiGPU solutions

Equations (1)

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h 1 = z 1 λ 1 Δ 1 ,

Metrics