P. Cho, H. Anderson, R. Hatch, and P. Ramaswami, “Real-time 3D lidar imaging,” Lincoln Lab. J.16, 147–164 (2006).

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. H. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Lincoln Lab. J.13(2), 335–350 (2002).

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

N. J. Krichel, A. McCarthy, and G. S. Buller, “Resolving range ambiguity in a photon counting depth imager operating at kilometer distances,” Opt. Express18(9), 9192–9206 (2010).

[CrossRef]
[PubMed]

A. McCarthy, R. J. Collins, N. J. Krichel, V. Fernández, A. M. Wallace, and G. S. Buller, “Long-range time-of-flight scanning sensor based on high-speed time-correlated single-photon counting,” Appl. Opt.48(32), 6241–6251 (2009).

[CrossRef]
[PubMed]

J. S. Massa, A. M. Wallace, G. S. Buller, S. J. Fancey, and A. C. Walker, “Laser depth measurement based on time-correlated single-photon counting,” Opt. Lett.22(8), 543–545 (1997).

[CrossRef]
[PubMed]

P. Cho, H. Anderson, R. Hatch, and P. Ramaswami, “Real-time 3D lidar imaging,” Lincoln Lab. J.16, 147–164 (2006).

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. H. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Lincoln Lab. J.13(2), 335–350 (2002).

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. H. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Lincoln Lab. J.13(2), 335–350 (2002).

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

P. Cho, H. Anderson, R. Hatch, and P. Ramaswami, “Real-time 3D lidar imaging,” Lincoln Lab. J.16, 147–164 (2006).

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. H. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Lincoln Lab. J.13(2), 335–350 (2002).

M. S. Oh, H. J. Kong, T. H. Kim, D. H. Hong, B. W. Kim, and D. J. Park, “Time-of-flight analysis of three-dimensional imaging laser radar using a Geiger-mode avalanche photodiode,” Jpn. J. Appl. Phys.49(2), 026601 (2010).

[CrossRef]

M. S. Oh, H. J. Kong, T. H. Kim, D. H. Hong, B. W. Kim, and D. J. Park, “Time-of-flight analysis of three-dimensional imaging laser radar using a Geiger-mode avalanche photodiode,” Jpn. J. Appl. Phys.49(2), 026601 (2010).

[CrossRef]

H. J. Kong, T. H. Kim, S. E. Jo, and M. S. Oh, “Smart three-dimensional imaging LADAR using two Geiger-mode avalanche photodiodes,” Opt. Express19(20), 19323–19329 (2011).

[CrossRef]
[PubMed]

M. S. Oh, H. J. Kong, T. H. Kim, D. H. Hong, B. W. Kim, and D. J. Park, “Time-of-flight analysis of three-dimensional imaging laser radar using a Geiger-mode avalanche photodiode,” Jpn. J. Appl. Phys.49(2), 026601 (2010).

[CrossRef]

H. J. Kong, T. H. Kim, S. E. Jo, and M. S. Oh, “Smart three-dimensional imaging LADAR using two Geiger-mode avalanche photodiodes,” Opt. Express19(20), 19323–19329 (2011).

[CrossRef]
[PubMed]

M. S. Oh, H. J. Kong, T. H. Kim, D. H. Hong, B. W. Kim, and D. J. Park, “Time-of-flight analysis of three-dimensional imaging laser radar using a Geiger-mode avalanche photodiode,” Jpn. J. Appl. Phys.49(2), 026601 (2010).

[CrossRef]

N. J. Krichel, A. McCarthy, and G. S. Buller, “Resolving range ambiguity in a photon counting depth imager operating at kilometer distances,” Opt. Express18(9), 9192–9206 (2010).

[CrossRef]
[PubMed]

A. McCarthy, R. J. Collins, N. J. Krichel, V. Fernández, A. M. Wallace, and G. S. Buller, “Long-range time-of-flight scanning sensor based on high-speed time-correlated single-photon counting,” Appl. Opt.48(32), 6241–6251 (2009).

[CrossRef]
[PubMed]

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. H. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Lincoln Lab. J.13(2), 335–350 (2002).

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. H. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Lincoln Lab. J.13(2), 335–350 (2002).

L. A. Magruder, M. E. Wharton, K. D. Stout, and A. L. Neuenschwander, “Noise filtering techniques for photon-counting LIDAR data,” Proc. SPIE8379, 83790Q (2012).

[CrossRef]

N. J. Krichel, A. McCarthy, and G. S. Buller, “Resolving range ambiguity in a photon counting depth imager operating at kilometer distances,” Opt. Express18(9), 9192–9206 (2010).

[CrossRef]
[PubMed]

A. McCarthy, R. J. Collins, N. J. Krichel, V. Fernández, A. M. Wallace, and G. S. Buller, “Long-range time-of-flight scanning sensor based on high-speed time-correlated single-photon counting,” Appl. Opt.48(32), 6241–6251 (2009).

[CrossRef]
[PubMed]

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

L. A. Magruder, M. E. Wharton, K. D. Stout, and A. L. Neuenschwander, “Noise filtering techniques for photon-counting LIDAR data,” Proc. SPIE8379, 83790Q (2012).

[CrossRef]

H. J. Kong, T. H. Kim, S. E. Jo, and M. S. Oh, “Smart three-dimensional imaging LADAR using two Geiger-mode avalanche photodiodes,” Opt. Express19(20), 19323–19329 (2011).

[CrossRef]
[PubMed]

M. S. Oh, H. J. Kong, T. H. Kim, D. H. Hong, B. W. Kim, and D. J. Park, “Time-of-flight analysis of three-dimensional imaging laser radar using a Geiger-mode avalanche photodiode,” Jpn. J. Appl. Phys.49(2), 026601 (2010).

[CrossRef]

M. S. Oh, H. J. Kong, T. H. Kim, D. H. Hong, B. W. Kim, and D. J. Park, “Time-of-flight analysis of three-dimensional imaging laser radar using a Geiger-mode avalanche photodiode,” Jpn. J. Appl. Phys.49(2), 026601 (2010).

[CrossRef]

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

P. Cho, H. Anderson, R. Hatch, and P. Ramaswami, “Real-time 3D lidar imaging,” Lincoln Lab. J.16, 147–164 (2006).

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

L. A. Magruder, M. E. Wharton, K. D. Stout, and A. L. Neuenschwander, “Noise filtering techniques for photon-counting LIDAR data,” Proc. SPIE8379, 83790Q (2012).

[CrossRef]

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]

A. McCarthy, R. J. Collins, N. J. Krichel, V. Fernández, A. M. Wallace, and G. S. Buller, “Long-range time-of-flight scanning sensor based on high-speed time-correlated single-photon counting,” Appl. Opt.48(32), 6241–6251 (2009).

[CrossRef]
[PubMed]

J. S. Massa, A. M. Wallace, G. S. Buller, S. J. Fancey, and A. C. Walker, “Laser depth measurement based on time-correlated single-photon counting,” Opt. Lett.22(8), 543–545 (1997).

[CrossRef]
[PubMed]

L. A. Magruder, M. E. Wharton, K. D. Stout, and A. L. Neuenschwander, “Noise filtering techniques for photon-counting LIDAR data,” Proc. SPIE8379, 83790Q (2012).

[CrossRef]

B. F. Aull, A. H. Loomis, D. J. Young, R. M. Heinrichs, B. H. Felton, P. J. Daniels, and D. J. Landers, “Geiger-mode avalanche photodiodes for three-dimensional imaging,” Lincoln Lab. J.13(2), 335–350 (2002).

P. Yuan, R. Sudharsanan, X. G. Bai, J. Boisvert, P. McDonald, E. Labios, M. S. Salisbury, G. M. Stuart, H. Danny, A. A. Portillo, A. B. Roybal, S. Van Duyne, G. Pauls, and S. Gaalema, “32 x 32 Geiger-mode LADAR cameras,” Proc. SPIE7684, 76840C (2010).

[CrossRef]