L. Mignard-debise, J. Restrepo, and I. Ihrke, A unifying first-order model for light-field cameras: the equivalent camera array, IEEE Transactions on Computational Imaging, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01692127

G. Lippmann, Epreuves reversibles donnant la sensation du relief, J. Phys. Theor. Appl, vol.7, issue.1, pp.821-825, 1908.
URL : https://hal.archives-ouvertes.fr/jpa-00241406

E. H. Adelson and J. Y. Wang, Single lens stereo with a plenoptic camera, IEEE Transactions on Pattern Analysis & Machine Intelligence, issue.2, pp.99-106, 1992.

R. Ng, M. Levoy, M. Brédif, G. Duval, M. Horowitz et al., Light field photography with a hand-held plenoptic camera, Computer Science Technical Report CSTR, vol.2, issue.11, 2005.

A. Lumsdaine and T. Georgiev, The focused plenoptic camera, Computational Photography (ICCP), pp.1-8, 2009.

B. Wilburn, N. Joshi, V. Vaish, M. Levoy, and M. Horowitz, Highspeed videography using a dense camera array, Proceedings of the 2004 IEEE Computer Society Conference on, vol.2, p.294, 2004.

B. Wilburn, N. Joshi, V. Vaish, E. Talvala, E. Antunez et al., High performance imaging using large camera arrays, ACM Transactions on Graphics (TOG), vol.24, issue.3, pp.765-776, 2005.

K. Venkataraman, D. Lelescu, J. Duparré, A. Mcmahon, G. Molina et al., Picam: An ultra-thin high performance monolithic camera array, ACM Transactions on Graphics (TOG), vol.32, issue.6, p.166, 2013.

I. Light, Light website, pp.2017-2025, 2017.

T. Georgiev and C. Intwala, Light field camera design for integral view photography, 2003.

T. Yamamoto, M. Kojima, and T. Naemura, Liflet: Light field live with thousands of lenslets, ACM SIGGRAPH 2004 Emerging technologies, p.16, 2004.

K. Ueda, T. Koike, K. Takahashi, and T. Naemura, Adaptive integral photography imaging with variable-focus lens array, Proc SPIE: Stereoscopic Displays and Applications XIX, pp.68-99, 2008.

Y. Taguchi, A. Agrawal, A. Veeraraghavan, S. Ramalingam, and R. Raskar, Axial-cones: Modeling spherical catadioptric cameras for wide-angle light field rendering, ACM Trans. Graph, vol.29, issue.6, pp.172-173, 2010.

J. Unger, A. Wenger, T. Hawkins, A. Gardner, and P. Debevec, Capturing and rendering with incident light fields, DTIC Document, Tech. Rep, 2003.

M. Levoy, B. Chen, V. Vaish, M. Horowitz, I. Mcdowall et al., Synthetic aperture confocal imaging, ACM Transactions on Graphics (ToG), vol.23, pp.825-834, 2004.

M. Fuchs, M. Kächele, and S. Rusinkiewicz, Design and fabrication of faceted mirror arrays for light field capture, Computer Graphics Forum, vol.32, issue.8, pp.246-257, 2013.

I. Ihrke, I. Reshetouski, A. Manakov, A. Tevs, M. Wand et al.,

. Seidel, A kaleidoscopic approach to surround geometry and reflectance acquisition, Computer Vision and Pattern Recognition Workshops (CVPRW), pp.29-36, 2012.

I. Reshetouski, A. Manakov, H. Seidel, and I. Ihrke, Threedimensional kaleidoscopic imaging, Computer Vision and Pattern Recognition (CVPR), 2011 IEEE Conference on, pp.353-360, 2011.

A. Manakov, J. Restrepo, O. Klehm, R. Hegedüs, H. Seidel et al., A reconfigurable camera add-on for high dynamic range, multispectral, polarization, and light-field imaging, SIGGRAPH'13), vol.32, pp.1-47, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00835898

S. Pacheco and R. Liang, Snapshot, reconfigurable multispectral and multi-polarization telecentric imaging system, Optics express, vol.22, issue.13, pp.16-377, 2014.

M. Levoy, R. Ng, A. Adams, M. Footer, and M. Horowitz, Light field microscopy, ACM Transactions on Graphics (TOG), vol.25, issue.3

T. Georgiev, C. Intwala, S. Babakan, and A. Lumsdaine, Unified frequency domain analysis of lightfield cameras, pp.224-237, 2008.

C. Hahne, A. Aggoun, S. Haxha, V. Velisavljevic, and J. C. Fernández, Light field geometry of a standard plenoptic camera, Optics Express, vol.22, issue.22, pp.26-659, 2014.

C. Liang and R. Ramamoorthi, A light transport framework for lenslet light field cameras, ACM Transactions on Graphics (TOG), vol.34, issue.2, p.16, 2015.

M. Damghanian, R. Olsson, and M. Sjostrom, Extraction of the lateral resolution in a plenoptic camera using the spc model, 3D Imaging (IC3D), 2012 International Conference on, pp.1-5, 2012.

D. Cho, M. Lee, S. Kim, and Y. Tai, Modeling the calibration pipeline of the lytro camera for high quality light-field image reconstruction, Computer Vision (ICCV), pp.3280-3287, 2013.

C. Thomason, B. Thurow, and T. Fahringer, Calibration of a microlens array for a plenoptic camera, 52nd Aerospace Sciences Meeting, p.396, 2014.

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

O. Johannsen, C. Heinze, B. Goldluecke, and C. Perwaß, On the calibration of focused plenoptic cameras, Time-of-Flight and Depth Imaging. Sensors, Algorithms, and Applications, pp.302-317, 2013.

C. Heinze, S. Spyropoulos, S. Hussmann, and C. Perwass, Automated robust metric calibration of multi-focus plenoptic cameras, Instrumentation and Measurement Technology Conference (I2MTC), 2015.

, IEEE International. IEEE, pp.2038-2043, 2015.

D. C. O'shea, Elements of modern optical design, 1985.

L. Mignard-debise, Tools for the paraxial optical design of light field imaging systems, 2018.
URL : https://hal.archives-ouvertes.fr/tel-01764949

J. Chaves, Introduction to nonimaging optics, 2008.

M. Schambach and F. P. Leon, Algorithms for microlens center detection, Forum Bildverarbeitung, p.229, 2018.

Y. Wang, J. Qiu, C. Liu, D. He, X. Kang et al., Virtual image points based geometrical parameters calibration for focused light field camera, IEEE Access, vol.6, pp.71-317, 2018.