S. Shroff and K. Berkner, “Image formation analysis and high resolution image reconstruction for plenoptic imaging systems,” Applied optics, 52, D22D31, (2013).

[Crossref]

P. Favaro, “A split-sensor light field camera for extended depth of field and superresolution,” in “SPIE Conference Series,” 8436. (2012).

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

T. Bishop and P. Favaro, “The light field camera: extended depth of field, aliasing and super-resolution,” IEEE Trans. Pattern Anal. Mach. Intell. 34. 972–986 (2012).

[Crossref]

J. Rosen, N. Siegel, and G. Brooker, “Theoretical and experimental demonstration of resolution beyond the Rayleigh limit by FINCH fluorescence microscopic imaging,” Opt. Express 19, 1506–1508 (2011).

[Crossref]

M. Bertero, P. Boccacci, G. Desidera, and G. Vicidomini, “Image deblurring with Poisson data: from cells to galaxies,” Inverse Problems 25, 123006 (2009).

[Crossref]

M. Levoy, Z. Zhang, and I. McDowell, “Recording and controlling the 4D light field in a microscope using microlens arrays,” Journal of Microscopy 235, 144–162 (2009).

[Crossref]
[PubMed]

W. Chan, E. Lam, M. Ng, and G. Mak, “Super-resolution reconstruction in a computational compound-eye imaging system,” Multidimensional Systems and Signal Processing 18. 83–101. (2007).

[Crossref]

R. Heintzmann, “Estimating missing information by maximum likelihood deconvolution,” Micron 38, 136–144 (2007)

[Crossref]

M. Levoy, R. Ng, A. Adams, M. Footer, and M. Horowitz, “Light field microscopy,” in Proceedings of ACM SIGGRAPH. (2006) 924–934.

[Crossref]

J. M. Bardsley and J. G. Nagy, “Covariance-preconditioned iterative methods for nonnegatively constrained astronomical imaging,” SIAM journal on matrix analysis and applications 27, 1184–1197 (2006).

[Crossref]

R. Ng, “Fourier slice photography,” in Proceedings of ACM SIGGRAPH(2005). 735–744.

[Crossref]

T. Pham, L. van Vliet, and K. Schutte, “Influence of signal-to-noise ratio and point spread function on limits of superresolution,” Proc. SPIE 5672, 169–180 (2005).

[Crossref]

S. Farsiu, D. Robinson, M. Elad, and P. Milanfar, “Advances and challenges in super-resolution,” International Journal of Imaging Systems and Technology 14, 47–57 (2004).

[Crossref]

S. Baker and T. Kanade, “Limits on super-resolution and how to break them,” IEEE Trans. Pattern Anal. Mach. Intell. 24. 1167–1183 (2002)

[Crossref]

M. R. Arnison and C. J. R. Sheppard, “A 3D vectorial optical transfer function suitable for arbitrary pupil functions,” Optics communications 211, 53–63 (2002).

[Crossref]

A. Egner and S. W. Hell, “Equivalence of the Huygens–Fresnel and Debye approach for the calculation of high aperture point-spread functions in the presence of refractive index mismatch,” Journal of Microscopy 193, 244–249 (1999).

[Crossref]

D. A. Agard, “Optical sectioning microscopy: cellular architecture in three dimensions,” Annual review of biophysics and bioengineering 13, 191–219. (1984).

[Crossref]
[PubMed]

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

M. Levoy, R. Ng, A. Adams, M. Footer, and M. Horowitz, “Light field microscopy,” in Proceedings of ACM SIGGRAPH. (2006) 924–934.

[Crossref]

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

D. A. Agard, “Optical sectioning microscopy: cellular architecture in three dimensions,” Annual review of biophysics and bioengineering 13, 191–219. (1984).

[Crossref]
[PubMed]

M. R. Arnison and C. J. R. Sheppard, “A 3D vectorial optical transfer function suitable for arbitrary pupil functions,” Optics communications 211, 53–63 (2002).

[Crossref]

S. Baker and T. Kanade, “Limits on super-resolution and how to break them,” IEEE Trans. Pattern Anal. Mach. Intell. 24. 1167–1183 (2002)

[Crossref]

J. M. Bardsley and J. G. Nagy, “Covariance-preconditioned iterative methods for nonnegatively constrained astronomical imaging,” SIAM journal on matrix analysis and applications 27, 1184–1197 (2006).

[Crossref]

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

S. Shroff and K. Berkner, “Image formation analysis and high resolution image reconstruction for plenoptic imaging systems,” Applied optics, 52, D22D31, (2013).

[Crossref]

M. Bertero, P. Boccacci, G. Desidera, and G. Vicidomini, “Image deblurring with Poisson data: from cells to galaxies,” Inverse Problems 25, 123006 (2009).

[Crossref]

M. Bertero and C. de Mol, “III Super-resolution by data inversion,” in Progress in Optics (Elsevier, 1996) pp. 129–178.

[Crossref]

T. Bishop and P. Favaro, “The light field camera: extended depth of field, aliasing and super-resolution,” IEEE Trans. Pattern Anal. Mach. Intell. 34. 972–986 (2012).

[Crossref]

M. Bertero, P. Boccacci, G. Desidera, and G. Vicidomini, “Image deblurring with Poisson data: from cells to galaxies,” Inverse Problems 25, 123006 (2009).

[Crossref]

M. Born and E. Wolf, Principles of Optics, 7th ed. (Cambridge University, 1999).

J. Breckinridge, D. Voelz, and J. B. Breckinridge, Computational Fourier Optics: a MATLAB Tutorial (SPIE Press, 2011).

J. Breckinridge, D. Voelz, and J. B. Breckinridge, Computational Fourier Optics: a MATLAB Tutorial (SPIE Press, 2011).

J. Rosen, N. Siegel, and G. Brooker, “Theoretical and experimental demonstration of resolution beyond the Rayleigh limit by FINCH fluorescence microscopic imaging,” Opt. Express 19, 1506–1508 (2011).

[Crossref]

W. Chan, E. Lam, M. Ng, and G. Mak, “Super-resolution reconstruction in a computational compound-eye imaging system,” Multidimensional Systems and Signal Processing 18. 83–101. (2007).

[Crossref]

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

M. Bertero and C. de Mol, “III Super-resolution by data inversion,” in Progress in Optics (Elsevier, 1996) pp. 129–178.

[Crossref]

M. Bertero, P. Boccacci, G. Desidera, and G. Vicidomini, “Image deblurring with Poisson data: from cells to galaxies,” Inverse Problems 25, 123006 (2009).

[Crossref]

A. Egner and S. W. Hell, “Equivalence of the Huygens–Fresnel and Debye approach for the calculation of high aperture point-spread functions in the presence of refractive index mismatch,” Journal of Microscopy 193, 244–249 (1999).

[Crossref]

S. Farsiu, D. Robinson, M. Elad, and P. Milanfar, “Advances and challenges in super-resolution,” International Journal of Imaging Systems and Technology 14, 47–57 (2004).

[Crossref]

S. Farsiu, D. Robinson, M. Elad, and P. Milanfar, “Advances and challenges in super-resolution,” International Journal of Imaging Systems and Technology 14, 47–57 (2004).

[Crossref]

T. Bishop and P. Favaro, “The light field camera: extended depth of field, aliasing and super-resolution,” IEEE Trans. Pattern Anal. Mach. Intell. 34. 972–986 (2012).

[Crossref]

P. Favaro, “A split-sensor light field camera for extended depth of field and superresolution,” in “SPIE Conference Series,” 8436. (2012).

C. H. Lu, S. Muenzel, and J. Fleischer, “High-resolution light-field microscopy,” in “Computational Optical Sensing and Imaging, Microscopy and Tomography I (CTh3B),” (2013).

M. Levoy, R. Ng, A. Adams, M. Footer, and M. Horowitz, “Light field microscopy,” in Proceedings of ACM SIGGRAPH. (2006) 924–934.

[Crossref]

J. Goodman, Introduction to Fourier Optics, 2nd ed. (MaGraw-Hill, 1996).

K. Grochenig and T. Strohmer, “Numerical and theoretical aspects of nonuniform sampling of band-limited images,” in “Nonuniform Sampling,” F. Marvasti, ed.. Information Technology: Transmission, Processing, and Storage, 283–324 (SpringerUS, 2010).

M. Gu, Advanced Optical Imaging Theory (Springer, 1999).

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

R. Heintzmann, “Estimating missing information by maximum likelihood deconvolution,” Micron 38, 136–144 (2007)

[Crossref]

A. Egner and S. W. Hell, “Equivalence of the Huygens–Fresnel and Debye approach for the calculation of high aperture point-spread functions in the presence of refractive index mismatch,” Journal of Microscopy 193, 244–249 (1999).

[Crossref]

M. Levoy, R. Ng, A. Adams, M. Footer, and M. Horowitz, “Light field microscopy,” in Proceedings of ACM SIGGRAPH. (2006) 924–934.

[Crossref]

S. Baker and T. Kanade, “Limits on super-resolution and how to break them,” IEEE Trans. Pattern Anal. Mach. Intell. 24. 1167–1183 (2002)

[Crossref]

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

W. Chan, E. Lam, M. Ng, and G. Mak, “Super-resolution reconstruction in a computational compound-eye imaging system,” Multidimensional Systems and Signal Processing 18. 83–101. (2007).

[Crossref]

M. Levoy, Z. Zhang, and I. McDowell, “Recording and controlling the 4D light field in a microscope using microlens arrays,” Journal of Microscopy 235, 144–162 (2009).

[Crossref]
[PubMed]

M. Levoy, R. Ng, A. Adams, M. Footer, and M. Horowitz, “Light field microscopy,” in Proceedings of ACM SIGGRAPH. (2006) 924–934.

[Crossref]

C. H. Lu, S. Muenzel, and J. Fleischer, “High-resolution light-field microscopy,” in “Computational Optical Sensing and Imaging, Microscopy and Tomography I (CTh3B),” (2013).

W. Chan, E. Lam, M. Ng, and G. Mak, “Super-resolution reconstruction in a computational compound-eye imaging system,” Multidimensional Systems and Signal Processing 18. 83–101. (2007).

[Crossref]

M. Levoy, Z. Zhang, and I. McDowell, “Recording and controlling the 4D light field in a microscope using microlens arrays,” Journal of Microscopy 235, 144–162 (2009).

[Crossref]
[PubMed]

S. Farsiu, D. Robinson, M. Elad, and P. Milanfar, “Advances and challenges in super-resolution,” International Journal of Imaging Systems and Technology 14, 47–57 (2004).

[Crossref]

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

C. H. Lu, S. Muenzel, and J. Fleischer, “High-resolution light-field microscopy,” in “Computational Optical Sensing and Imaging, Microscopy and Tomography I (CTh3B),” (2013).

J. M. Bardsley and J. G. Nagy, “Covariance-preconditioned iterative methods for nonnegatively constrained astronomical imaging,” SIAM journal on matrix analysis and applications 27, 1184–1197 (2006).

[Crossref]

W. Chan, E. Lam, M. Ng, and G. Mak, “Super-resolution reconstruction in a computational compound-eye imaging system,” Multidimensional Systems and Signal Processing 18. 83–101. (2007).

[Crossref]

M. Levoy, R. Ng, A. Adams, M. Footer, and M. Horowitz, “Light field microscopy,” in Proceedings of ACM SIGGRAPH. (2006) 924–934.

[Crossref]

R. Ng, “Fourier slice photography,” in Proceedings of ACM SIGGRAPH(2005). 735–744.

[Crossref]

T. Pham, L. van Vliet, and K. Schutte, “Influence of signal-to-noise ratio and point spread function on limits of superresolution,” Proc. SPIE 5672, 169–180 (2005).

[Crossref]

M. Pluta, Advanced Light Microscopy, Vol. 1.(Elsevier, 1988).

S. Farsiu, D. Robinson, M. Elad, and P. Milanfar, “Advances and challenges in super-resolution,” International Journal of Imaging Systems and Technology 14, 47–57 (2004).

[Crossref]

J. Rosen, N. Siegel, and G. Brooker, “Theoretical and experimental demonstration of resolution beyond the Rayleigh limit by FINCH fluorescence microscopic imaging,” Opt. Express 19, 1506–1508 (2011).

[Crossref]

T. Pham, L. van Vliet, and K. Schutte, “Influence of signal-to-noise ratio and point spread function on limits of superresolution,” Proc. SPIE 5672, 169–180 (2005).

[Crossref]

S. Shroff and K. Berkner, “Image formation analysis and high resolution image reconstruction for plenoptic imaging systems,” Applied optics, 52, D22D31, (2013).

[Crossref]

J. Rosen, N. Siegel, and G. Brooker, “Theoretical and experimental demonstration of resolution beyond the Rayleigh limit by FINCH fluorescence microscopic imaging,” Opt. Express 19, 1506–1508 (2011).

[Crossref]

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

K. Grochenig and T. Strohmer, “Numerical and theoretical aspects of nonuniform sampling of band-limited images,” in “Nonuniform Sampling,” F. Marvasti, ed.. Information Technology: Transmission, Processing, and Storage, 283–324 (SpringerUS, 2010).

T. Pham, L. van Vliet, and K. Schutte, “Influence of signal-to-noise ratio and point spread function on limits of superresolution,” Proc. SPIE 5672, 169–180 (2005).

[Crossref]

M. Bertero, P. Boccacci, G. Desidera, and G. Vicidomini, “Image deblurring with Poisson data: from cells to galaxies,” Inverse Problems 25, 123006 (2009).

[Crossref]

J. Breckinridge, D. Voelz, and J. B. Breckinridge, Computational Fourier Optics: a MATLAB Tutorial (SPIE Press, 2011).

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

M. Born and E. Wolf, Principles of Optics, 7th ed. (Cambridge University, 1999).

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

M. Levoy, Z. Zhang, and I. McDowell, “Recording and controlling the 4D light field in a microscope using microlens arrays,” Journal of Microscopy 235, 144–162 (2009).

[Crossref]
[PubMed]

D. A. Agard, “Optical sectioning microscopy: cellular architecture in three dimensions,” Annual review of biophysics and bioengineering 13, 191–219. (1984).

[Crossref]
[PubMed]

S. Shroff and K. Berkner, “Image formation analysis and high resolution image reconstruction for plenoptic imaging systems,” Applied optics, 52, D22D31, (2013).

[Crossref]

S. Baker and T. Kanade, “Limits on super-resolution and how to break them,” IEEE Trans. Pattern Anal. Mach. Intell. 24. 1167–1183 (2002)

[Crossref]

T. Bishop and P. Favaro, “The light field camera: extended depth of field, aliasing and super-resolution,” IEEE Trans. Pattern Anal. Mach. Intell. 34. 972–986 (2012).

[Crossref]

S. Farsiu, D. Robinson, M. Elad, and P. Milanfar, “Advances and challenges in super-resolution,” International Journal of Imaging Systems and Technology 14, 47–57 (2004).

[Crossref]

M. Bertero, P. Boccacci, G. Desidera, and G. Vicidomini, “Image deblurring with Poisson data: from cells to galaxies,” Inverse Problems 25, 123006 (2009).

[Crossref]

A. Egner and S. W. Hell, “Equivalence of the Huygens–Fresnel and Debye approach for the calculation of high aperture point-spread functions in the presence of refractive index mismatch,” Journal of Microscopy 193, 244–249 (1999).

[Crossref]

M. Levoy, Z. Zhang, and I. McDowell, “Recording and controlling the 4D light field in a microscope using microlens arrays,” Journal of Microscopy 235, 144–162 (2009).

[Crossref]
[PubMed]

R. Heintzmann, “Estimating missing information by maximum likelihood deconvolution,” Micron 38, 136–144 (2007)

[Crossref]

W. Chan, E. Lam, M. Ng, and G. Mak, “Super-resolution reconstruction in a computational compound-eye imaging system,” Multidimensional Systems and Signal Processing 18. 83–101. (2007).

[Crossref]

S. Abrahamsson, J. Chen, B. Hajj, S. Stallinga, A. Y. Katsov, J. Wisniewski, G. Mizuguchi, P. Soule, F. Mueller, C. D. Darzacq, X. Darzacq, C. Wu, C. I. Bargmann, D. A. Agard, M. G. L. Gustafsson, and M. Dahan, “Fast multicolor 3D imaging using aberration-corrected multifocus microscopy,” Nat. Meth.1–6. (2012).

J. Rosen, N. Siegel, and G. Brooker, “Theoretical and experimental demonstration of resolution beyond the Rayleigh limit by FINCH fluorescence microscopic imaging,” Opt. Express 19, 1506–1508 (2011).

[Crossref]

M. R. Arnison and C. J. R. Sheppard, “A 3D vectorial optical transfer function suitable for arbitrary pupil functions,” Optics communications 211, 53–63 (2002).

[Crossref]

T. Pham, L. van Vliet, and K. Schutte, “Influence of signal-to-noise ratio and point spread function on limits of superresolution,” Proc. SPIE 5672, 169–180 (2005).

[Crossref]

M. Levoy, R. Ng, A. Adams, M. Footer, and M. Horowitz, “Light field microscopy,” in Proceedings of ACM SIGGRAPH. (2006) 924–934.

[Crossref]

R. Ng, “Fourier slice photography,” in Proceedings of ACM SIGGRAPH(2005). 735–744.

[Crossref]

J. M. Bardsley and J. G. Nagy, “Covariance-preconditioned iterative methods for nonnegatively constrained astronomical imaging,” SIAM journal on matrix analysis and applications 27, 1184–1197 (2006).

[Crossref]

P. Favaro, “A split-sensor light field camera for extended depth of field and superresolution,” in “SPIE Conference Series,” 8436. (2012).

C. H. Lu, S. Muenzel, and J. Fleischer, “High-resolution light-field microscopy,” in “Computational Optical Sensing and Imaging, Microscopy and Tomography I (CTh3B),” (2013).

M. Pluta, Advanced Light Microscopy, Vol. 1.(Elsevier, 1988).

J. Goodman, Introduction to Fourier Optics, 2nd ed. (MaGraw-Hill, 1996).

J. Breckinridge, D. Voelz, and J. B. Breckinridge, Computational Fourier Optics: a MATLAB Tutorial (SPIE Press, 2011).

M. Born and E. Wolf, Principles of Optics, 7th ed. (Cambridge University, 1999).

M. Bertero and C. de Mol, “III Super-resolution by data inversion,” in Progress in Optics (Elsevier, 1996) pp. 129–178.

[Crossref]

M. Gu, Advanced Optical Imaging Theory (Springer, 1999).

K. Grochenig and T. Strohmer, “Numerical and theoretical aspects of nonuniform sampling of band-limited images,” in “Nonuniform Sampling,” F. Marvasti, ed.. Information Technology: Transmission, Processing, and Storage, 283–324 (SpringerUS, 2010).