Abstract

We describe a panoramic camera using one monocentric lens and an array of light field (LF) sensors to capture overlapping contiguous regions of the spherical image surface. Refractive sub-field consolidators divide the light before the image surface and concentrate the sub-images onto the optically active areas of adjacent CMOS sensors. We show the design of a 160° × 24° field-of-view (FOV) LF camera, and experimental test of a three sensor F/2.5 96° × 24° and five sensor (25 MPixel) F/4 140° × 24° camera. We demonstrate computational field curvature correction, refocusing, resolution enhancement, and depth mapping of a laboratory scene. We also present a 155° full circular field camera design compatible with LF or direct 164 MPixel sensing of 13 spherical sub-images, fitting within a one inch diameter sphere.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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References

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2018 (1)

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
[Crossref]

2017 (1)

2016 (2)

I. P. Agurok and J. E. Ford, “Angle-invariant imaging using a total internal reflection virtual aperture,” Appl. Opt. 55(20), 5345–5352 (2016).
[Crossref]

I. Ihrke, J. Restrepo, and L. Mignard-Debise, “Principles of light field imaging: Briefly revisiting 25 years of research,” IEEE Signal Process. Mag. 33(5), 59–69 (2016).
[Crossref]

2015 (1)

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

2014 (3)

C. Birklbauer and O. Bimber, “Panorama light-field imaging,” Comput. Graph. Forum 33(2), 43–52 (2014).
[Crossref]

Z. Xue, L. Baboulaz, P. Prandoni, and M. Vetterli, “Light field panorama by a plenoptic camera,” Proc. SPIE 9020, 90200S (2014).
[Crossref]

I. Stamenov, A. Arianpour, S. J. Olivas, I. P. Agurok, A. R. Johnson, R. A. Stack, R. L. Morrison, and J. E. Ford, “Panoramic monocentric imaging using fiber-coupled focal planes,” Opt. Express 22(26), 31708–31721 (2014).
[Crossref]

2013 (3)

G. Wetzstein, I. Ihrke, and W. Heidrich, “On plenoptic multiplexing and reconstruction,” Int. J. Comput. Vis. 101(2), 384–400 (2013).
[Crossref]

K. Marwah, G. Wetzstein, Y. Bando, and R. Raskar, “Compressive light field photography using overcomplete dictionaries and optimized projections,” ACM Trans. Graph. 32(4), 1–12 (2013).
[Crossref]

I. Stamenov, I. Agurok, and J. E. Ford, “Optimization of high-performance monocentric lenses,” Appl. Opt. 52(34), 8287–8304 (2013).
[Crossref]

2012 (2)

2011 (2)

G. Wetzstein, I. Ihrke, D. Lanman, and W. Heidrich, “Computational plenoptic imaging,” Comput. Graph. Forum 30(8), 2397–2426 (2011).
[Crossref]

H. S. Son, D. L. Marks, J. Hahn, J. Kim, and D. J. Brady, “Design of a spherical focal surface using close-packed relay optics,” Opt. Express 19(17), 16132–16138 (2011).
[Crossref]

2010 (1)

T. G. Georgiev and A. Lumsdaine, “Focused plenoptic camera and rendering,” J. Electron. Imaging 19(2), 021106 (2010).
[Crossref]

2005 (2)

D. Shechtman, J. Shallo-Hoffmann, J. Rumsey, P. Riordan-Eva, and P. Hardigan, “Maximum angle of ocular duction during visual fixation as a function of age,” Strabismus 13(1), 21–26 (2005).
[Crossref]

R. Ng, M. Levoy, M. Brédif, G. Duval, M. Horowitz, and P. Hanrahan, “Light field photography with a hand-held plenoptic camera,” Comput. Sci. Tech. Rep. 2, 1–11 (2005).

1993 (1)

1992 (1)

E. H. Adelson and J. Y. A. Wang, “Single lens stereo with a plenoptic camera,” IEEE Trans. Pattern Anal. Mach. Intell. 14(2), 99–106 (1992).
[Crossref]

Achtner, B.

H. Gross, F. Blechinger, and B. Achtner, Handbook of Optical Systems, vol. 4 (Wiley Online Library, 2008).

Adelson, E. H.

E. H. Adelson and J. Y. A. Wang, “Single lens stereo with a plenoptic camera,” IEEE Trans. Pattern Anal. Mach. Intell. 14(2), 99–106 (1992).
[Crossref]

Agurok, I.

Agurok, I. P.

I. P. Agurok and J. E. Ford, “Angle-invariant imaging using a total internal reflection virtual aperture,” Appl. Opt. 55(20), 5345–5352 (2016).
[Crossref]

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

I. Stamenov, A. Arianpour, S. J. Olivas, I. P. Agurok, A. R. Johnson, R. A. Stack, R. L. Morrison, and J. E. Ford, “Panoramic monocentric imaging using fiber-coupled focal planes,” Opt. Express 22(26), 31708–31721 (2014).
[Crossref]

I. Stamenov, I. P. Agurok, and J. E. Ford, “Optimization of two-glass monocentric lenses for compact panoramic imagers: general aberration analysis and specific designs,” Appl. Opt. 51(31), 7648–7661 (2012).
[Crossref]

G. M. Schuster, I. P. Agurok, J. E. Ford, D. G. Dansereau, and G. Wetzstein, “Panoramic monocentric light field camera,” in Optical Design and Fabrication (Optical Society of America, 2017), p. ITh4A.5.

J. Ford, I. Stamenov, S. J. Olivas, G. Schuster, N. Motamedi, I. P. Agurok, R. Stack, A. Johnson, and R. Morrison, “Fiber-coupled monocentric lens imaging,” in Imaging and Applied Optics (Optical Society of America, 2013), p. CW4C.2.

Alperovich, A.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Arianpour, A.

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

I. Stamenov, A. Arianpour, S. J. Olivas, I. P. Agurok, A. R. Johnson, R. A. Stack, R. L. Morrison, and J. E. Ford, “Panoramic monocentric imaging using fiber-coupled focal planes,” Opt. Express 22(26), 31708–31721 (2014).
[Crossref]

Arimura, T.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Artal, P.

Baba, M.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Baba, S.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Baba, T.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Baboulaz, L.

Z. Xue, L. Baboulaz, P. Prandoni, and M. Vetterli, “Light field panorama by a plenoptic camera,” Proc. SPIE 9020, 90200S (2014).
[Crossref]

Bando, Y.

K. Marwah, G. Wetzstein, Y. Bando, and R. Raskar, “Compressive light field photography using overcomplete dictionaries and optimized projections,” ACM Trans. Graph. 32(4), 1–12 (2013).
[Crossref]

Battisti, F.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Behaghel, T.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
[Crossref]

Bimber, O.

C. Birklbauer and O. Bimber, “Panorama light-field imaging,” Comput. Graph. Forum 33(2), 43–52 (2014).
[Crossref]

Birklbauer, C.

C. Birklbauer and O. Bimber, “Panorama light-field imaging,” Comput. Graph. Forum 33(2), 43–52 (2014).
[Crossref]

Blechinger, F.

H. Gross, F. Blechinger, and B. Achtner, Handbook of Optical Systems, vol. 4 (Wiley Online Library, 2008).

Bok, Y.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Bori, S.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Brady, D. J.

Brédif, M.

R. Ng, M. Levoy, M. Brédif, G. Duval, M. Horowitz, and P. Hanrahan, “Light field photography with a hand-held plenoptic camera,” Comput. Sci. Tech. Rep. 2, 1–11 (2005).

Brewer, P.

Brizzi, M.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Caplet, S.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
[Crossref]

Carli, M.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Chambion, B.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
[Crossref]

Choe, G.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Dansereau, D. G.

D. G. Dansereau, O. Pizarro, and S. B. Williams, “Decoding, calibration and rectification for lenselet-based plenoptic cameras,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2013), pp. 1027–1034.

D. G. Dansereau, “LFCamExplore,” https://github.com/doda42/LFCamExplore (2017).

D. G. Dansereau, G. Schuster, J. Ford, and G. Wetzstein, “A wide-field-of-view monocentric light field camera,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 5048–5057.

G. M. Schuster, I. P. Agurok, J. E. Ford, D. G. Dansereau, and G. Wetzstein, “Panoramic monocentric light field camera,” in Optical Design and Fabrication (Optical Society of America, 2017), p. ITh4A.5.

Diebold, M.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Duval, G.

R. Ng, M. Levoy, M. Brédif, G. Duval, M. Horowitz, and P. Hanrahan, “Light field photography with a hand-held plenoptic camera,” Comput. Sci. Tech. Rep. 2, 1–11 (2005).

Ezaki, T.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Ferrari, M.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
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Ford, J.

J. Ford, I. Stamenov, S. J. Olivas, G. Schuster, N. Motamedi, I. P. Agurok, R. Stack, A. Johnson, and R. Morrison, “Fiber-coupled monocentric lens imaging,” in Imaging and Applied Optics (Optical Society of America, 2013), p. CW4C.2.

D. G. Dansereau, G. Schuster, J. Ford, and G. Wetzstein, “A wide-field-of-view monocentric light field camera,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 5048–5057.

Ford, J. E.

Freeman, R.

Gaschet, C.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
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Geary, K.

Georgiev, T.

A. Lumsdaine and T. Georgiev, “The focused plenoptic camera,” in Proc. IEEE International Conference on Computational Photography, (IEEE, 2009), pp. 1–8.

Georgiev, T. G.

T. G. Georgiev and A. Lumsdaine, “Focused plenoptic camera and rendering,” J. Electron. Imaging 19(2), 021106 (2010).
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Gétin, S.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
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Goldluecke, B.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Gross, H.

H. Gross, F. Blechinger, and B. Achtner, Handbook of Optical Systems, vol. 4 (Wiley Online Library, 2008).

Guenter, B.

Gutsche, M.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Hahn, J.

Hammon, D.

Hanrahan, P.

R. Ng, M. Levoy, M. Brédif, G. Duval, M. Horowitz, and P. Hanrahan, “Light field photography with a hand-held plenoptic camera,” Comput. Sci. Tech. Rep. 2, 1–11 (2005).

Hardigan, P.

D. Shechtman, J. Shallo-Hoffmann, J. Rumsey, P. Riordan-Eva, and P. Hardigan, “Maximum angle of ocular duction during visual fixation as a function of age,” Strabismus 13(1), 21–26 (2005).
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Haruta, T.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Heidrich, W.

G. Wetzstein, I. Ihrke, and W. Heidrich, “On plenoptic multiplexing and reconstruction,” Int. J. Comput. Vis. 101(2), 384–400 (2013).
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G. Wetzstein, I. Ihrke, D. Lanman, and W. Heidrich, “Computational plenoptic imaging,” Comput. Graph. Forum 30(8), 2397–2426 (2011).
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Henry, D.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
[Crossref]

Herrera, G.

Hirayama, T.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Hirsch, M.

M. Hirsch, S. Sivaramakrishnan, S. Jayasuriya, A. Wang, A. Molnar, R. Raskar, and G. Wetzstein, “A switchable light field camera architecture with angle sensitive pixels and dictionary-based sparse coding,” in Proc. IEEE International Conference on Computational Photography, (IEEE, 2014), pp. 1–10.

Honauer, K.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Honda, Y.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Horowitz, M.

R. Ng, M. Levoy, M. Brédif, G. Duval, M. Horowitz, and P. Hanrahan, “Light field photography with a hand-held plenoptic camera,” Comput. Sci. Tech. Rep. 2, 1–11 (2005).

Hugot, E.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
[Crossref]

Hundley, J.

Ihrke, I.

I. Ihrke, J. Restrepo, and L. Mignard-Debise, “Principles of light field imaging: Briefly revisiting 25 years of research,” IEEE Signal Process. Mag. 33(5), 59–69 (2016).
[Crossref]

G. Wetzstein, I. Ihrke, and W. Heidrich, “On plenoptic multiplexing and reconstruction,” Int. J. Comput. Vis. 101(2), 384–400 (2013).
[Crossref]

G. Wetzstein, I. Ihrke, D. Lanman, and W. Heidrich, “Computational plenoptic imaging,” Comput. Graph. Forum 30(8), 2397–2426 (2011).
[Crossref]

Ikebe, N.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Itonaga, K.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Jahn, W.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
[Crossref]

Jayasuriya, S.

M. Hirsch, S. Sivaramakrishnan, S. Jayasuriya, A. Wang, A. Molnar, R. Raskar, and G. Wetzstein, “A switchable light field camera architecture with angle sensitive pixels and dictionary-based sparse coding,” in Proc. IEEE International Conference on Computational Photography, (IEEE, 2014), pp. 1–10.

Jeon, H.-G.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Johannsen, O.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Johnson, A.

J. Ford, I. Stamenov, S. J. Olivas, G. Schuster, N. Motamedi, I. P. Agurok, R. Stack, A. Johnson, and R. Morrison, “Fiber-coupled monocentric lens imaging,” in Imaging and Applied Optics (Optical Society of America, 2013), p. CW4C.2.

Johnson, A. R.

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

I. Stamenov, A. Arianpour, S. J. Olivas, I. P. Agurok, A. R. Johnson, R. A. Stack, R. L. Morrison, and J. E. Ford, “Panoramic monocentric imaging using fiber-coupled focal planes,” Opt. Express 22(26), 31708–31721 (2014).
[Crossref]

Joshi, N.

Kai, T.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Karbasi, S.

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

Kasahara, K.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Keefe, A.

Kim, J.

Kimizuka, N.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Kimura, M.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Kinoshita, Y.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Kishida, E.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Kondo, G.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Lanman, D.

G. Wetzstein, I. Ihrke, D. Lanman, and W. Heidrich, “Computational plenoptic imaging,” Comput. Graph. Forum 30(8), 2397–2426 (2011).
[Crossref]

LaReau, C.

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

Levoy, M.

R. Ng, M. Levoy, M. Brédif, G. Duval, M. Horowitz, and P. Hanrahan, “Light field photography with a hand-held plenoptic camera,” Comput. Sci. Tech. Rep. 2, 1–11 (2005).

Lombardo, S.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
[Crossref]

Lumsdaine, A.

T. G. Georgiev and A. Lumsdaine, “Focused plenoptic camera and rendering,” J. Electron. Imaging 19(2), 021106 (2010).
[Crossref]

A. Lumsdaine and T. Georgiev, “The focused plenoptic camera,” in Proc. IEEE International Conference on Computational Photography, (IEEE, 2009), pp. 1–8.

Makimoto, S.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Marks, D. L.

Marwah, K.

K. Marwah, G. Wetzstein, Y. Bando, and R. Raskar, “Compressive light field photography using overcomplete dictionaries and optimized projections,” ACM Trans. Graph. 32(4), 1–12 (2013).
[Crossref]

Matoba, Y.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Matsuda, K.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Matsumoto, K.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

McKnight, G.

Mignard-Debise, L.

I. Ihrke, J. Restrepo, and L. Mignard-Debise, “Principles of light field imaging: Briefly revisiting 25 years of research,” IEEE Signal Process. Mag. 33(5), 59–69 (2016).
[Crossref]

Molnar, A.

M. Hirsch, S. Sivaramakrishnan, S. Jayasuriya, A. Wang, A. Molnar, R. Raskar, and G. Wetzstein, “A switchable light field camera architecture with angle sensitive pixels and dictionary-based sparse coding,” in Proc. IEEE International Conference on Computational Photography, (IEEE, 2014), pp. 1–10.

Morrison, R.

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

J. Ford, I. Stamenov, S. J. Olivas, G. Schuster, N. Motamedi, I. P. Agurok, R. Stack, A. Johnson, and R. Morrison, “Fiber-coupled monocentric lens imaging,” in Imaging and Applied Optics (Optical Society of America, 2013), p. CW4C.2.

Morrison, R. L.

Motamedi, N.

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

J. Ford, I. Stamenov, S. J. Olivas, G. Schuster, N. Motamedi, I. P. Agurok, R. Stack, A. Johnson, and R. Morrison, “Fiber-coupled monocentric lens imaging,” in Imaging and Applied Optics (Optical Society of America, 2013), p. CW4C.2.

Mott, R.

Nagano, M.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Navarro, R.

Ng, R.

R. Ng, M. Levoy, M. Brédif, G. Duval, M. Horowitz, and P. Hanrahan, “Light field photography with a hand-held plenoptic camera,” Comput. Sci. Tech. Rep. 2, 1–11 (2005).

Niimi, T.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Nomura, Y.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Nowak, A.

Olivas, S. J.

I. Stamenov, A. Arianpour, S. J. Olivas, I. P. Agurok, A. R. Johnson, R. A. Stack, R. L. Morrison, and J. E. Ford, “Panoramic monocentric imaging using fiber-coupled focal planes,” Opt. Express 22(26), 31708–31721 (2014).
[Crossref]

J. Ford, I. Stamenov, S. J. Olivas, G. Schuster, N. Motamedi, I. P. Agurok, R. Stack, A. Johnson, and R. Morrison, “Fiber-coupled monocentric lens imaging,” in Imaging and Applied Optics (Optical Society of America, 2013), p. CW4C.2.

Park, J.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Patterson, P.

Pizarro, O.

D. G. Dansereau, O. Pizarro, and S. B. Williams, “Decoding, calibration and rectification for lenselet-based plenoptic cameras,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2013), pp. 1027–1034.

Prandoni, P.

Z. Xue, L. Baboulaz, P. Prandoni, and M. Vetterli, “Light field panorama by a plenoptic camera,” Proc. SPIE 9020, 90200S (2014).
[Crossref]

Raskar, R.

K. Marwah, G. Wetzstein, Y. Bando, and R. Raskar, “Compressive light field photography using overcomplete dictionaries and optimized projections,” ACM Trans. Graph. 32(4), 1–12 (2013).
[Crossref]

M. Hirsch, S. Sivaramakrishnan, S. Jayasuriya, A. Wang, A. Molnar, R. Raskar, and G. Wetzstein, “A switchable light field camera architecture with angle sensitive pixels and dictionary-based sparse coding,” in Proc. IEEE International Conference on Computational Photography, (IEEE, 2014), pp. 1–10.

Restrepo, J.

I. Ihrke, J. Restrepo, and L. Mignard-Debise, “Principles of light field imaging: Briefly revisiting 25 years of research,” IEEE Signal Process. Mag. 33(5), 59–69 (2016).
[Crossref]

Riordan-Eva, P.

D. Shechtman, J. Shallo-Hoffmann, J. Rumsey, P. Riordan-Eva, and P. Hardigan, “Maximum angle of ocular duction during visual fixation as a function of age,” Strabismus 13(1), 21–26 (2005).
[Crossref]

Rumsey, J.

D. Shechtman, J. Shallo-Hoffmann, J. Rumsey, P. Riordan-Eva, and P. Hardigan, “Maximum angle of ocular duction during visual fixation as a function of age,” Strabismus 13(1), 21–26 (2005).
[Crossref]

Schilling, H.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Schubert, R.

Schuster, G.

J. Ford, I. Stamenov, S. J. Olivas, G. Schuster, N. Motamedi, I. P. Agurok, R. Stack, A. Johnson, and R. Morrison, “Fiber-coupled monocentric lens imaging,” in Imaging and Applied Optics (Optical Society of America, 2013), p. CW4C.2.

D. G. Dansereau, G. Schuster, J. Ford, and G. Wetzstein, “A wide-field-of-view monocentric light field camera,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 5048–5057.

Schuster, G. M.

G. M. Schuster, I. P. Agurok, J. E. Ford, D. G. Dansereau, and G. Wetzstein, “Panoramic monocentric light field camera,” in Optical Design and Fabrication (Optical Society of America, 2017), p. ITh4A.5.

Shallo-Hoffmann, J.

D. Shechtman, J. Shallo-Hoffmann, J. Rumsey, P. Riordan-Eva, and P. Hardigan, “Maximum angle of ocular duction during visual fixation as a function of age,” Strabismus 13(1), 21–26 (2005).
[Crossref]

Shechtman, D.

D. Shechtman, J. Shallo-Hoffmann, J. Rumsey, P. Riordan-Eva, and P. Hardigan, “Maximum angle of ocular duction during visual fixation as a function of age,” Strabismus 13(1), 21–26 (2005).
[Crossref]

Sheng, H.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Sherman, E.

Si, L.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Sivaramakrishnan, S.

M. Hirsch, S. Sivaramakrishnan, S. Jayasuriya, A. Wang, A. Molnar, R. Raskar, and G. Wetzstein, “A switchable light field camera architecture with angle sensitive pixels and dictionary-based sparse coding,” in Proc. IEEE International Conference on Computational Photography, (IEEE, 2014), pp. 1–10.

So Kweon, I.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Son, H. S.

Stack, R.

J. Ford, I. Stamenov, S. J. Olivas, G. Schuster, N. Motamedi, I. P. Agurok, R. Stack, A. Johnson, and R. Morrison, “Fiber-coupled monocentric lens imaging,” in Imaging and Applied Optics (Optical Society of America, 2013), p. CW4C.2.

Stack, R. A.

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

I. Stamenov, A. Arianpour, S. J. Olivas, I. P. Agurok, A. R. Johnson, R. A. Stack, R. L. Morrison, and J. E. Ford, “Panoramic monocentric imaging using fiber-coupled focal planes,” Opt. Express 22(26), 31708–31721 (2014).
[Crossref]

Stamenov, I.

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

I. Stamenov, A. Arianpour, S. J. Olivas, I. P. Agurok, A. R. Johnson, R. A. Stack, R. L. Morrison, and J. E. Ford, “Panoramic monocentric imaging using fiber-coupled focal planes,” Opt. Express 22(26), 31708–31721 (2014).
[Crossref]

I. Stamenov, I. Agurok, and J. E. Ford, “Optimization of high-performance monocentric lenses,” Appl. Opt. 52(34), 8287–8304 (2013).
[Crossref]

I. Stamenov, I. P. Agurok, and J. E. Ford, “Optimization of two-glass monocentric lenses for compact panoramic imagers: general aberration analysis and specific designs,” Appl. Opt. 51(31), 7648–7661 (2012).
[Crossref]

J. Ford, I. Stamenov, S. J. Olivas, G. Schuster, N. Motamedi, I. P. Agurok, R. Stack, A. Johnson, and R. Morrison, “Fiber-coupled monocentric lens imaging,” in Imaging and Applied Optics (Optical Society of America, 2013), p. CW4C.2.

Stoakley, R.

Strecke, M.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Sulc, A.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Tai, Y.-W.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Takachi, T.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Takagi, E.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Tanabe, N.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Tenill, R.

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

Terahata, K.

K. Itonaga, T. Arimura, K. Matsumoto, G. Kondo, K. Terahata, S. Makimoto, M. Baba, Y. Honda, S. Bori, T. Kai, K. Kasahara, M. Nagano, M. Kimura, Y. Kinoshita, E. Kishida, T. Baba, S. Baba, Y. Nomura, N. Tanabe, N. Kimizuka, Y. Matoba, T. Takachi, E. Takagi, T. Haruta, N. Ikebe, K. Matsuda, T. Niimi, T. Ezaki, and T. Hirayama, “A novel curved cmos image sensor integrated with imaging system,” in Proc. IEEE Symposium on VLSI Technology, (IEEE, 2014), pp. 1–2.

Tremblay, E. J.

Vandeneynde, A.

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
[Crossref]

Vetterli, M.

Z. Xue, L. Baboulaz, P. Prandoni, and M. Vetterli, “Light field panorama by a plenoptic camera,” Proc. SPIE 9020, 90200S (2014).
[Crossref]

Wang, A.

M. Hirsch, S. Sivaramakrishnan, S. Jayasuriya, A. Wang, A. Molnar, R. Raskar, and G. Wetzstein, “A switchable light field camera architecture with angle sensitive pixels and dictionary-based sparse coding,” in Proc. IEEE International Conference on Computational Photography, (IEEE, 2014), pp. 1–10.

Wang, J. Y. A.

E. H. Adelson and J. Y. A. Wang, “Single lens stereo with a plenoptic camera,” IEEE Trans. Pattern Anal. Mach. Intell. 14(2), 99–106 (1992).
[Crossref]

Wang, Q.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Wang, T.-C.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Wanner, S.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Wetzstein, G.

K. Marwah, G. Wetzstein, Y. Bando, and R. Raskar, “Compressive light field photography using overcomplete dictionaries and optimized projections,” ACM Trans. Graph. 32(4), 1–12 (2013).
[Crossref]

G. Wetzstein, I. Ihrke, and W. Heidrich, “On plenoptic multiplexing and reconstruction,” Int. J. Comput. Vis. 101(2), 384–400 (2013).
[Crossref]

G. Wetzstein, I. Ihrke, D. Lanman, and W. Heidrich, “Computational plenoptic imaging,” Comput. Graph. Forum 30(8), 2397–2426 (2011).
[Crossref]

M. Hirsch, S. Sivaramakrishnan, S. Jayasuriya, A. Wang, A. Molnar, R. Raskar, and G. Wetzstein, “A switchable light field camera architecture with angle sensitive pixels and dictionary-based sparse coding,” in Proc. IEEE International Conference on Computational Photography, (IEEE, 2014), pp. 1–10.

D. G. Dansereau, G. Schuster, J. Ford, and G. Wetzstein, “A wide-field-of-view monocentric light field camera,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 5048–5057.

G. M. Schuster, I. P. Agurok, J. E. Ford, D. G. Dansereau, and G. Wetzstein, “Panoramic monocentric light field camera,” in Optical Design and Fabrication (Optical Society of America, 2017), p. ITh4A.5.

Williams, D. R.

Williams, S. B.

D. G. Dansereau, O. Pizarro, and S. B. Williams, “Decoding, calibration and rectification for lenselet-based plenoptic cameras,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2013), pp. 1027–1034.

Xiong, Z.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Xue, Z.

Z. Xue, L. Baboulaz, P. Prandoni, and M. Vetterli, “Light field panorama by a plenoptic camera,” Proc. SPIE 9020, 90200S (2014).
[Crossref]

Yang, L.

Yu, J.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Zhang, S.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

Zhu, H.

O. Johannsen, K. Honauer, B. Goldluecke, A. Alperovich, F. Battisti, Y. Bok, M. Brizzi, M. Carli, G. Choe, M. Diebold, M. Gutsche, H.-G. Jeon, I. So Kweon, J. Park, J. Park, H. Schilling, H. Sheng, L. Si, M. Strecke, A. Sulc, Y.-W. Tai, Q. Wang, T.-C. Wang, S. Wanner, Z. Xiong, J. Yu, S. Zhang, and H. Zhu, “A taxonomy and evaluation of dense light field depth estimation algorithms,” in Proc. IEEE Conference on Computer Vision and Pattern Recognition, (IEEE, 2017), pp. 1795–1812.

ACM Trans. Graph. (1)

K. Marwah, G. Wetzstein, Y. Bando, and R. Raskar, “Compressive light field photography using overcomplete dictionaries and optimized projections,” ACM Trans. Graph. 32(4), 1–12 (2013).
[Crossref]

Appl. Opt. (4)

Comput. Graph. Forum (2)

G. Wetzstein, I. Ihrke, D. Lanman, and W. Heidrich, “Computational plenoptic imaging,” Comput. Graph. Forum 30(8), 2397–2426 (2011).
[Crossref]

C. Birklbauer and O. Bimber, “Panorama light-field imaging,” Comput. Graph. Forum 33(2), 43–52 (2014).
[Crossref]

Comput. Sci. Tech. Rep. (1)

R. Ng, M. Levoy, M. Brédif, G. Duval, M. Horowitz, and P. Hanrahan, “Light field photography with a hand-held plenoptic camera,” Comput. Sci. Tech. Rep. 2, 1–11 (2005).

IEEE Signal Process. Mag. (1)

I. Ihrke, J. Restrepo, and L. Mignard-Debise, “Principles of light field imaging: Briefly revisiting 25 years of research,” IEEE Signal Process. Mag. 33(5), 59–69 (2016).
[Crossref]

IEEE Trans. Pattern Anal. Mach. Intell. (1)

E. H. Adelson and J. Y. A. Wang, “Single lens stereo with a plenoptic camera,” IEEE Trans. Pattern Anal. Mach. Intell. 14(2), 99–106 (1992).
[Crossref]

Int. J. Comput. Vis. (1)

G. Wetzstein, I. Ihrke, and W. Heidrich, “On plenoptic multiplexing and reconstruction,” Int. J. Comput. Vis. 101(2), 384–400 (2013).
[Crossref]

J. Electron. Imaging (1)

T. G. Georgiev and A. Lumsdaine, “Focused plenoptic camera and rendering,” J. Electron. Imaging 19(2), 021106 (2010).
[Crossref]

J. Opt. Soc. Am. A (1)

Opt. Express (3)

Proc. SPIE (3)

S. Karbasi, I. Stamenov, N. Motamedi, A. Arianpour, A. R. Johnson, R. A. Stack, C. LaReau, R. Tenill, R. Morrison, I. P. Agurok, and J. E. Ford, “Curved fiber bundles for monocentric lens imaging,” Proc. SPIE 9579, 95790G (2015).
[Crossref]

B. Chambion, C. Gaschet, T. Behaghel, A. Vandeneynde, S. Caplet, S. Gétin, D. Henry, E. Hugot, W. Jahn, S. Lombardo, and M. Ferrari, “Curved sensors for compact high-resolution wide-field designs: prototype demonstration and optical characterization,” Proc. SPIE 10539, 1053913 (2018).
[Crossref]

Z. Xue, L. Baboulaz, P. Prandoni, and M. Vetterli, “Light field panorama by a plenoptic camera,” Proc. SPIE 9020, 90200S (2014).
[Crossref]

Strabismus (1)

D. Shechtman, J. Shallo-Hoffmann, J. Rumsey, P. Riordan-Eva, and P. Hardigan, “Maximum angle of ocular duction during visual fixation as a function of age,” Strabismus 13(1), 21–26 (2005).
[Crossref]

Other (10)

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Figures (14)

Fig. 1.
Fig. 1. Conceptual diagram of a focused plenoptic configuration with a monocentric main lens.
Fig. 2.
Fig. 2. Sequential ray trace diagram of the monocentric lens and single consolidator. The largest (gold) and second largest (red) fields correspond to the diagonal and horizontal extremes of the sensor respectively. The lenslets are not modeled in the sequential design, but their position is shown in the inset.
Fig. 3.
Fig. 3. Monochromatic MTF plots of the sequential design at the spherical intermediate sub-image of light passing through the full (a), top (b), center (c), and bottom (d) regions of the aperture stop. The poor performance seen in the full aperture (a), which is equivalent to direct image capture, is improved by aperture division by the LF relay (b through d).
Fig. 4.
Fig. 4. Monochromatic geometrical spot diagrams for the sequential design at the intermediate image of light passing through the full, top, center, and bottom regions of the aperture stop.
Fig. 5.
Fig. 5. Top down non-sequential ray trace diagram of five horizontal fields at infinite conjugates.
Fig. 6.
Fig. 6. Non-sequential detectors capturing light from polychromatic collimated (top) and Lambertian (bottom) sources for the center (left), horizontal extreme (middle), and diagonal extreme (right) fields. Each detector is 264.25 µm (151 pixels) square and the zoomed insets are 26.25 µm (15 pixels) square.
Fig. 7.
Fig. 7. (a) CAD assembly of the five sensor array behind a monocentric lens with an exploded sensor stack to the lower left. (b) CAD and fabricated consolidator after wedge cut and with microlens array attached (c). Final assembled consolidating LF image sensor on flex (g) and after assembly into the full panoramic array (e).
Fig. 8.
Fig. 8. Photo of the lab scene taken with a fish-eye lens (left), F/2.5 three sensor camera (top right), and F/4 five sensor camera (bottom right).
Fig. 9.
Fig. 9. RAW LF data (after demosaicing) of the lab scene for the F/2.5 three sensor camera (top) and F/4 five sensor camera (bottom) with zoomed insets showing the difference between balanced under and over-filling and under-filling for the F/2.5 and F/4 lenses respectively.
Fig. 10.
Fig. 10. At the seams between fields, lenslet images appear truncated, because the sub-aperture views are being split between fields. In this work we deal with fields individually, compensating for this effect with weight-aware refocus, super-resolution, and depth estimation algorithms. A complete solution calibrates the capture and stitches together fields to yield a seamless LF.
Fig. 11.
Fig. 11. Processed LF data of the lab scene taken with the F/2.5 three sensor camera. The red region of interest from the full LF (top) shows parallax between two different vertically shifted perspectives contained within a single exposure. The green region of interest from the 3× super resolved image (middle) shows refocusing between near and far objects. The corresponding relative depth map for this image is shown at the bottom.
Fig. 12.
Fig. 12. Processed LF data of the lab scene taken with the F/4 five sensor camera. The red region of interest from the full LF (top) shows parallax between two different vertically shifted perspectives contained within a single exposure. The green region of interest from the 3× super resolved image (middle) shows refocusing between near and far objects. The corresponding relative depth map for this image is shown at the bottom.
Fig. 13.
Fig. 13. CAD renderings of the 155° full field lens design with short fiber bundle coupled image sensors.
Fig. 14.
Fig. 14. Spot diagrams (left) and MTF resolution plot (right) for the full field lens design.

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