4.9.8.2 Single-Photon Imaging, Single Photon

Chapter Contents (Back)
Single Photon Imaging. For SPECT, medical area:
See also Single Photon emission computed tomography -- SPECT.

Umasuthan, M., Wallace, A.M., Massa, J.S., Buller, G.S., Walker, A.C.,
Processing Time-Correlated Single-Photon Counting Data to Acquire Range Images,
VISP(145), No. 4, August 1998, pp. 237-243. 9810
BibRef
Earlier: A3, A1, A2, A4, A5:
Rangefinder Using Time Correlated Single Photon Counting,
3DIM97(2 - Sensors) 9702
BibRef

Shin, D.[Dongeek], Shapiro, J.H., Goyal, V.K.,
Single-Photon Depth Imaging Using a Union-of-Subspaces Model,
SPLetters(22), No. 12, December 2015, pp. 2254-2258.
IEEE DOI 1512
In time-of-flight sensors. Low light applications. Poisson equation BibRef

Altmann, Y., Ren, X., McCarthy, A., Buller, G.S., McLaughlin, S.,
Lidar Waveform-Based Analysis of Depth Images Constructed Using Sparse Single-Photon Data,
IP(25), No. 5, May 2016, pp. 1935-1946.
IEEE DOI 1604
Bayes methods BibRef

Chen, S., Halimi, A., Ren, X., McCarthy, A., Su, X., McLaughlin, S., Buller, G.S.,
Learning Non-Local Spatial Correlations To Restore Sparse 3D Single-Photon Data,
IP(29), 2020, pp. 3119-3131.
IEEE DOI 2002
Single photon, 3D Lidar imaging, Poisson statistics, image restoration, ADMM, Laplacian regularization, graph, multi-scale analysis BibRef

Bronzi, D., Zou, Y., Villa, F., Tisa, S., Tosi, A., Zappa, F.,
Automotive Three-Dimensional Vision Through a Single-Photon Counting SPAD Camera,
ITS(17), No. 3, March 2016, pp. 782-795.
IEEE DOI 1603
Arrays BibRef

Degnan, J.J.[John J.],
Scanning, Multibeam, Single Photon Lidars for Rapid, Large Scale, High Resolution, Topographic and Bathymetric Mapping,
RS(8), No. 11, 2016, pp. 958.
DOI Link 1612
BibRef

Gasparini, L.[Leonardo], Bessire, B.[Bänz], Unternährer, M.[Manuel], Stefanov, A.[André], Boiko, D.[Dmitri], Perenzoni, M.[Matteo], Stoppa, D.[David],
Novel CMOS sensors for improved quantum imaging,
SPIE(Newsroom), April 11, 2017
DOI Link 1704
Fully digital arrays of single-photon avalanche diodes enable simpler experimental setups and faster data aquisition rates compared with standard technologies. BibRef

Wang, X.[Xiao], Glennie, C.L.[Craig L.], Pan, Z.G.[Zhi-Gang],
Weak Echo Detection from Single Photon Lidar Data Using a Rigorous Adaptive Ellipsoid Searching Algorithm,
RS(10), No. 7, 2018, pp. xx-yy.
DOI Link 1808
BibRef

Brown, R.[Rebecca], Hartzell, P.[Preston], Glennie, C.[Craig],
Evaluation of SPL100 Single Photon Lidar Data,
RS(12), No. 4, 2020, pp. xx-yy.
DOI Link 2003
BibRef

Altmann, Y., McLaughlin, S., Davies, M.E.,
Fast Online 3D Reconstruction of Dynamic Scenes From Individual Single-Photon Detection Events,
IP(29), 2020, pp. 2666-2675.
IEEE DOI 2001
3D reconstruction, single-photon Lidar, Bayesian filtering, online estimation BibRef

Rapp, J., Tachella, J., Altmann, Y., McLaughlin, S., Goyal, V.K.,
Advances in Single-Photon Lidar for Autonomous Vehicles: Working Principles, Challenges, and Recent Advances,
SPMag(37), No. 4, July 2020, pp. 62-71.
IEEE DOI 2007
Photonics, Laser radar, Detectors, Lighting, Optical reflection, Optical attenuators BibRef

Legros, Q., Tachella, J., Tobin, R., Mccarthy, A., Meignen, S., Buller, G.S., Altmann, Y., Mclaughlin, S., Davies, M.E.,
Robust 3D Reconstruction of Dynamic Scenes From Single-Photon Lidar Using Beta-Divergences,
IP(30), 2021, pp. 1716-1727.
IEEE DOI 2101
Image reconstruction, Photonics, Estimation, Lighting, Imaging, Laser radar, 3D reconstruction, variational methods BibRef

Chang, J.[Jiying], Li, J.[Jining], Chen, K.[Kai], Liu, S.[Shuai], Wang, Y.[Yuye], Zhong, K.[Kai], Xu, D.G.[De-Gang], Yao, J.Q.[Jian-Quan],
Dithered Depth Imaging for Single-Photon Lidar at Kilometer Distances,
RS(14), No. 21, 2022, pp. xx-yy.
DOI Link 2212
BibRef

Melidonis, S.[Savvas], Dobson, P.[Paul], Altmann, Y.[Yoann], Pereyra, M.[Marcelo], Zygalakis, K.C.[Konstantinos C.],
Efficient Bayesian Computation for Low-Photon Imaging Problems,
SIIMS(16), No. 3, 2023, pp. 1195-1234.
DOI Link 2309
BibRef

Melidonis, S., Holden, M., Altmann, Y.[Yoann], Pereyra, M.[Marcelo], Zygalakis, K.C.[Konstantinos C.],
Empirical Bayesian Imaging With Large-Scale Push-Forward Generative Priors,
SPLetters(31), 2024, pp. 631-635.
IEEE DOI 2403
Bayes methods, Imaging, Uncertainty, Monte Carlo methods, Estimation, Superresolution, Optimization, Computational imaging, stochastic optimisation BibRef


Po, R.[Ryan], Pediredla, A.[Adithya], Gkioulekas, I.[Ioannis],
Adaptive Gating for Single-Photon 3D Imaging,
CVPR22(16333-16342)
IEEE DOI 2210
Imaging, Logic gates, Sensors, Pattern recognition, Task analysis, Computational photography, 3D from multi-view and sensors BibRef

Gutierrez-Barragan, F.[Felipe], Ingle, A.[Atul], Seets, T.[Trevor], Gupta, M.[Mohit], Velten, A.[Andreas],
Compressive Single-Photon 3D Cameras,
CVPR22(17833-17843)
IEEE DOI 2210
Couplings, Histograms, Semiconductor lasers, Cameras, Encoding, Time measurement, Computational photography, Physics-based vision and shape-from-X BibRef

Sundar, V.[Varun], Ma, S.Z.[Si-Zhuo], Sankaranarayanan, A.C.[Aswin C.], Gupta, M.[Mohit],
Single-Photon Structured Light,
CVPR22(17844-17854)
IEEE DOI 2210
Image resolution, Prototypes, Lighting, Sensors, Pattern recognition, Error correction codes, Computational photography, Physics-based vision and shape-from-X BibRef

Tan, H., Peng, J., Xiong, Z., Liu, D., Huang, X., Li, Z.P., Hong, Y., Xu, F.,
Deep Learning Based Single-Photon 3D Imaging with Multiple Returns,
3DV20(1196-1205)
IEEE DOI 2102
Imaging, Photonics, Single-photon avalanche diodes, Task analysis, depth reconstruction BibRef

Remondino, F.,
Investigation Into The Potential of Single Photon Airborne Laser Scanning Technology,
Laser19(927-934).
DOI Link 1912
BibRef

Lehtola, V.V., Hyyti, H., Keränen, P., Kostamovaara, J.,
Single Photon Lidar in Mobile Laser Scanning: The Sampling Rate Problem And Initial Solutions Via Spatial Correlations,
Optical3D19(91-97).
DOI Link 1912
BibRef

Gupta, A., Ingle, A., Gupta, M.,
Asynchronous Single-Photon 3D Imaging,
ICCV19(7908-7917)
IEEE DOI 2004
Award, Marr Prize, HM. avalanche diodes, cameras, data acquisition, image reconstruction, image resolution, image sensors, stereo image processing, Laser modes BibRef

Gupta, A.[Anant], Ingle, A.[Atul], Velten, A.[Andreas], Gupta, M.[Mohit],
Photon-Flooded Single-Photon 3D Cameras,
CVPR19(6763-6772).
IEEE DOI 2002
BibRef

Ingle, A.[Atul], Velten, A.[Andreas], Gupta, M.[Mohit],
High Flux Passive Imaging With Single-Photon Sensors,
CVPR19(6753-6762).
IEEE DOI 2002
BibRef

O'Toole, M., Heide, F., Lindell, D.B., Zang, K., Diamond, S., Wetzstein, G.,
Reconstructing Transient Images from Single-Photon Sensors,
CVPR17(2289-2297)
IEEE DOI 1711
Histograms, Holography, Image resolution, Photonics, Sensors, Transient, analysis BibRef

Shin, D., Shapiro, J.H., Goyal, V.K.,
Computational single-photon depth imaging without transverse regularization,
ICIP16(973-977)
IEEE DOI 1610
Detectors BibRef

Shin, D.[Dongeek], Kirmani, A.[Ahmed], Goyal, V.K.[Vivek K.], Shapiro, J.H.[Jeffrey H.],
Information in a photon: Relating entropy and maximum-likelihood range estimation using single-photon counting detectors,
ICIP13(83-87)
IEEE DOI 1402
Detectors BibRef

Colaco, A.[Andrea], Kirmani, A.[Ahmed], Howland, G.A.[Gregory A.], Howell, J.C.[John C.], Goyal, V.K.[Vivek K.],
Compressive depth map acquisition using a single photon-counting detector: Parametric signal processing meets sparsity,
CVPR12(96-102).
IEEE DOI 1208
This led to depth sensor that won the MIT competition
HTML Version. BibRef

Chapter on Computational Vision, Regularization, Connectionist, Morphology, Scale-Space, Perceptual Grouping, Wavelets, Color, Sensors, Optical, Laser, Radar continues in
Acoustic, Sonar Sensors for Range, Underwater Acoustic Sensing .


Last update:Jun 17, 2024 at 21:38:11