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J. Buchholz, J. Krieger, C. Bruschini, S. Burri, A. Ardelean, E. Charbon, and J. Langowski, “Widefield high frame rate single-photon SPAD imagers for SPIM-FCS,” Biophys. J. 114, 2455–2464 (2018).

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J. Buchholz, J. Krieger, C. Bruschini, S. Burri, A. Ardelean, E. Charbon, and J. Langowski, “Widefield high frame rate single-photon SPAD imagers for SPIM-FCS,” Biophys. J. 114, 2455–2464 (2018).

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P. Chandramouli, S. Burri, C. Bruschini, E. Charbon, and A. Kolb, “A little bit too much? High speed imaging from sparse photon counts,” arXiv preprint arXiv:1811.02396 (2018).

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O. A. Elgendy and S. H. Chan, “Optimal threshold design for quanta image sensor,” IEEE Trans. Comput. Imag. 4, 99–111 (2018).

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N. A. Dutton, I. Gyongy, L. Parmesan, S. Gnecchi, N. Calder, B. R. Rae, S. Pellegrini, L. A. Grant, and R. K. Henderson, “A SPAD-based QVGA image sensor for single-photon counting and quanta imaging,” IEEE Trans. Electron Devices 63, 189–196 (2016).

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N. A. W. Dutton, L. Parmesan, A. J. Holmes, L. A. Grant, and R. K. Henderson, “320×240 oversampled digital single photon counting image sensor,” in Proceedings of IEEE 2014 Symposium on VLSI Circuits Digest of Technical Papers, (IEEE, 2014).

I. Gyongy, N. A. Dutton, and R. K. Henderson, “Single-photon tracking for high-speed vision,” Sensors 18323 (2018).

[Crossref]

N. A. Dutton, I. Gyongy, L. Parmesan, and R. K. Henderson, “Single photon counting performance and noise analysis of CMOS SPAD-based image sensors,” Sensors 161122 (2016).

[Crossref]
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N. A. Dutton, I. Gyongy, L. Parmesan, S. Gnecchi, N. Calder, B. R. Rae, S. Pellegrini, L. A. Grant, and R. K. Henderson, “A SPAD-based QVGA image sensor for single-photon counting and quanta imaging,” IEEE Trans. Electron Devices 63, 189–196 (2016).

[Crossref]

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. J. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Linc. Lab. J. 13, 335–349 (2002).

I. Gyongy, N. A. Dutton, and R. K. Henderson, “Single-photon tracking for high-speed vision,” Sensors 18323 (2018).

[Crossref]

N. A. Dutton, I. Gyongy, L. Parmesan, and R. K. Henderson, “Single photon counting performance and noise analysis of CMOS SPAD-based image sensors,” Sensors 161122 (2016).

[Crossref]
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N. A. Dutton, I. Gyongy, L. Parmesan, S. Gnecchi, N. Calder, B. R. Rae, S. Pellegrini, L. A. Grant, and R. K. Henderson, “A SPAD-based QVGA image sensor for single-photon counting and quanta imaging,” IEEE Trans. Electron Devices 63, 189–196 (2016).

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N. A. W. Dutton, L. Parmesan, A. J. Holmes, L. A. Grant, and R. K. Henderson, “320×240 oversampled digital single photon counting image sensor,” in Proceedings of IEEE 2014 Symposium on VLSI Circuits Digest of Technical Papers, (IEEE, 2014).

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N. A. W. Dutton, L. Parmesan, A. J. Holmes, L. A. Grant, and R. K. Henderson, “320×240 oversampled digital single photon counting image sensor,” in Proceedings of IEEE 2014 Symposium on VLSI Circuits Digest of Technical Papers, (IEEE, 2014).

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[Crossref]

J. Buchholz, J. Krieger, C. Bruschini, S. Burri, A. Ardelean, E. Charbon, and J. Langowski, “Widefield high frame rate single-photon SPAD imagers for SPIM-FCS,” Biophys. J. 114, 2455–2464 (2018).

[Crossref]
[PubMed]

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. J. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Linc. Lab. J. 13, 335–349 (2002).

J. Buchholz, J. Krieger, C. Bruschini, S. Burri, A. Ardelean, E. Charbon, and J. Langowski, “Widefield high frame rate single-photon SPAD imagers for SPIM-FCS,” Biophys. J. 114, 2455–2464 (2018).

[Crossref]
[PubMed]

C. Bruschini, S. Burri, S. Lindner, A. C. Ulku, C. Zhang, I. M. Antolovic, M. Wolf, and E. Charbon, “Monolithic SPAD arrays for high-performance, time-resolved single-photon imaging,” in Proceedings of International Conference on Optical MEMS and Nanophotonics, (IEEE, 2018).

T. Remez, O. Litany, and A. Bronstein, “A picture is worth a billion bits: Real-time image reconstruction from dense binary threshold pixels,” in Proceedings of IEEE International Conference on Computational Photography, (IEEE, 2016), 1–9.

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. J. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Linc. Lab. J. 13, 335–349 (2002).

F. Yang, Y. M. Lu, L. Sbaiz, and M. Vetterli, “Bits from photons: Oversampled image acquisition using binary Poisson statistics,” IEEE Trans. Image Process. 21, 1421–1436 (2012).

S. H. Chan and Y. M. Lu, “Efficient image reconstruction for gigapixel quantum image sensors,” in Proceedings of IEEE Global Conference on Signal and Information Processing, (IEEE, 2014), 312–316.

F. Yang, Y. M. Lu, L. Sbaiz, and M. Vetterli, “An optimal algorithm for reconstructing images from binary measurements,” in Computational Imaging VIII, vol. 7533 (International Society for Optics and Photonics, 2010), 75330K.

[Crossref]

R. A. Rojas, W. Luo, V. Murray, and Y. M. Lu, “Learning optimal parameters for binary sensing image reconstruction algorithms,” in Proceedings of IEEE International Conference on Image Processing, (IEEE, 2017), 2791–2795.

R. A. Rojas, W. Luo, V. Murray, and Y. M. Lu, “Learning optimal parameters for binary sensing image reconstruction algorithms,” in Proceedings of IEEE International Conference on Image Processing, (IEEE, 2017), 2791–2795.

J. Ma, S. Masoodian, D. A. Starkey, and E. R. Fossum, “Photon-number-resolving megapixel image sensor at room temperature without avalanche gain,” Optica 4, 1474–1481 (2017).

[Crossref]

J. Ma and E. R. Fossum, “A pump-gate jot device with high conversion gain for a quanta image sensor,” IEEE J. Electron Devices Soc. 3, 73–77 (2015).

J. Ma and E. R. Fossum, “Quanta image sensor jot with sub 0.3 e-rms read noise and photon counting capability,” IEEE Electron Device Lett. 36, 926–928 (2015).

[Crossref]

S. Masoodian, J. Ma, D. Starkey, Y. Yamashita, and E. R. Fossum, “A 1Mjot 1040fps 0.22 e-rms stacked BSI quanta image sensor with Cluster-Parallel Readout,” in Proceedings of the International Image Sensor Workshop, vol. 30 (IISS, 2017), 230–233.

M. Makitalo and A. Foi, “Optimal inversion of the Anscombe transformation in low-count Poisson image denoising,” IEEE Trans. Image Process., 20, 99–109 (2011).

[Crossref]

J. Ma, S. Masoodian, D. A. Starkey, and E. R. Fossum, “Photon-number-resolving megapixel image sensor at room temperature without avalanche gain,” Optica 4, 1474–1481 (2017).

[Crossref]

S. Masoodian, J. Ma, D. Starkey, Y. Yamashita, and E. R. Fossum, “A 1Mjot 1040fps 0.22 e-rms stacked BSI quanta image sensor with Cluster-Parallel Readout,” in Proceedings of the International Image Sensor Workshop, vol. 30 (IISS, 2017), 230–233.

X. Ren, Y. Altmann, R. Tobin, A. Mccarthy, S. Mclaughlin, and G. S. Buller, “Wavelength-time coding for multispectral 3d imaging using single-photon lidar,” Opt.Express 26, 30146–30161 (2018).

X. Ren, Y. Altmann, R. Tobin, A. Mccarthy, S. Mclaughlin, and G. S. Buller, “Wavelength-time coding for multispectral 3d imaging using single-photon lidar,” Opt.Express 26, 30146–30161 (2018).

K. Hirakawa, X. Meng, and P. J. Wolfe, “A framework for wavelet-based analysis and processing of color filter array images with applications to denoising and demosaicing,” in IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 1 (IEEE, 2007), 597–600.

R. A. Rojas, W. Luo, V. Murray, and Y. M. Lu, “Learning optimal parameters for binary sensing image reconstruction algorithms,” in Proceedings of IEEE International Conference on Image Processing, (IEEE, 2017), 2791–2795.

N. A. Dutton, I. Gyongy, L. Parmesan, S. Gnecchi, N. Calder, B. R. Rae, S. Pellegrini, L. A. Grant, and R. K. Henderson, “A SPAD-based QVGA image sensor for single-photon counting and quanta imaging,” IEEE Trans. Electron Devices 63, 189–196 (2016).

[Crossref]

N. A. Dutton, I. Gyongy, L. Parmesan, and R. K. Henderson, “Single photon counting performance and noise analysis of CMOS SPAD-based image sensors,” Sensors 161122 (2016).

[Crossref]
[PubMed]

N. A. W. Dutton, L. Parmesan, A. J. Holmes, L. A. Grant, and R. K. Henderson, “320×240 oversampled digital single photon counting image sensor,” in Proceedings of IEEE 2014 Symposium on VLSI Circuits Digest of Technical Papers, (IEEE, 2014).

N. A. Dutton, I. Gyongy, L. Parmesan, S. Gnecchi, N. Calder, B. R. Rae, S. Pellegrini, L. A. Grant, and R. K. Henderson, “A SPAD-based QVGA image sensor for single-photon counting and quanta imaging,” IEEE Trans. Electron Devices 63, 189–196 (2016).

[Crossref]

N. A. Dutton, I. Gyongy, L. Parmesan, S. Gnecchi, N. Calder, B. R. Rae, S. Pellegrini, L. A. Grant, and R. K. Henderson, “A SPAD-based QVGA image sensor for single-photon counting and quanta imaging,” IEEE Trans. Electron Devices 63, 189–196 (2016).

[Crossref]

T. Remez, O. Litany, and A. Bronstein, “A picture is worth a billion bits: Real-time image reconstruction from dense binary threshold pixels,” in Proceedings of IEEE International Conference on Computational Photography, (IEEE, 2016), 1–9.

X. Ren, Y. Altmann, R. Tobin, A. Mccarthy, S. Mclaughlin, and G. S. Buller, “Wavelength-time coding for multispectral 3d imaging using single-photon lidar,” Opt.Express 26, 30146–30161 (2018).

R. A. Rojas, W. Luo, V. Murray, and Y. M. Lu, “Learning optimal parameters for binary sensing image reconstruction algorithms,” in Proceedings of IEEE International Conference on Image Processing, (IEEE, 2017), 2791–2795.

F. Yang, Y. M. Lu, L. Sbaiz, and M. Vetterli, “Bits from photons: Oversampled image acquisition using binary Poisson statistics,” IEEE Trans. Image Process. 21, 1421–1436 (2012).

F. Yang, Y. M. Lu, L. Sbaiz, and M. Vetterli, “An optimal algorithm for reconstructing images from binary measurements,” in Computational Imaging VIII, vol. 7533 (International Society for Optics and Photonics, 2010), 75330K.

[Crossref]

S. Masoodian, J. Ma, D. Starkey, Y. Yamashita, and E. R. Fossum, “A 1Mjot 1040fps 0.22 e-rms stacked BSI quanta image sensor with Cluster-Parallel Readout,” in Proceedings of the International Image Sensor Workshop, vol. 30 (IISS, 2017), 230–233.

X. Ren, Y. Altmann, R. Tobin, A. Mccarthy, S. Mclaughlin, and G. S. Buller, “Wavelength-time coding for multispectral 3d imaging using single-photon lidar,” Opt.Express 26, 30146–30161 (2018).

C. Bruschini, S. Burri, S. Lindner, A. C. Ulku, C. Zhang, I. M. Antolovic, M. Wolf, and E. Charbon, “Monolithic SPAD arrays for high-performance, time-resolved single-photon imaging,” in Proceedings of International Conference on Optical MEMS and Nanophotonics, (IEEE, 2018).

F. Yang, Y. M. Lu, L. Sbaiz, and M. Vetterli, “Bits from photons: Oversampled image acquisition using binary Poisson statistics,” IEEE Trans. Image Process. 21, 1421–1436 (2012).

F. Yang, Y. M. Lu, L. Sbaiz, and M. Vetterli, “An optimal algorithm for reconstructing images from binary measurements,” in Computational Imaging VIII, vol. 7533 (International Society for Optics and Photonics, 2010), 75330K.

[Crossref]

S. H. Chan, X. Wang, and O. A. Elgendy, “Plug-and-play ADMM for image restoration: Fixed-point convergence and applications,” IEEE Trans. Comput. Imag. 384–98 (2017).

S. H. Chan, O. A. Elgendy, and X. Wang, “Images from bits: Non-iterative image reconstruction for quanta image sensors,” Sensors 16, 1961 (2016).

[Crossref]
[PubMed]

C. Bruschini, S. Burri, S. Lindner, A. C. Ulku, C. Zhang, I. M. Antolovic, M. Wolf, and E. Charbon, “Monolithic SPAD arrays for high-performance, time-resolved single-photon imaging,” in Proceedings of International Conference on Optical MEMS and Nanophotonics, (IEEE, 2018).

K. Hirakawa, X. Meng, and P. J. Wolfe, “A framework for wavelet-based analysis and processing of color filter array images with applications to denoising and demosaicing,” in IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 1 (IEEE, 2007), 597–600.

S. Masoodian, J. Ma, D. Starkey, Y. Yamashita, and E. R. Fossum, “A 1Mjot 1040fps 0.22 e-rms stacked BSI quanta image sensor with Cluster-Parallel Readout,” in Proceedings of the International Image Sensor Workshop, vol. 30 (IISS, 2017), 230–233.

F. Yang, Y. M. Lu, L. Sbaiz, and M. Vetterli, “Bits from photons: Oversampled image acquisition using binary Poisson statistics,” IEEE Trans. Image Process. 21, 1421–1436 (2012).

F. Yang, Y. M. Lu, L. Sbaiz, and M. Vetterli, “An optimal algorithm for reconstructing images from binary measurements,” in Computational Imaging VIII, vol. 7533 (International Society for Optics and Photonics, 2010), 75330K.

[Crossref]

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. J. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Linc. Lab. J. 13, 335–349 (2002).

C. Bruschini, S. Burri, S. Lindner, A. C. Ulku, C. Zhang, I. M. Antolovic, M. Wolf, and E. Charbon, “Monolithic SPAD arrays for high-performance, time-resolved single-photon imaging,” in Proceedings of International Conference on Optical MEMS and Nanophotonics, (IEEE, 2018).

F. J. Anscombe, “The transformation of Poisson, binomial and negative-binomial data,” Biometrika 35, 246–254 (1948).

[Crossref]

J. Buchholz, J. Krieger, C. Bruschini, S. Burri, A. Ardelean, E. Charbon, and J. Langowski, “Widefield high frame rate single-photon SPAD imagers for SPIM-FCS,” Biophys. J. 114, 2455–2464 (2018).

[Crossref]
[PubMed]

J. Ma and E. R. Fossum, “Quanta image sensor jot with sub 0.3 e-rms read noise and photon counting capability,” IEEE Electron Device Lett. 36, 926–928 (2015).

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