Imaging and Applied Optics 2016 2016
DOI: 10.1364/dh.2016.dw5i.6
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Acceleration method for computer generated hologram using random-sampled wavefront recording plane

Chen-Xiao Shi
1
,
Cheolsu Shin
2
,
Jong-Rae Jeong
3
et al.
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Cited by 2 publications
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“…They are based on point sets, primitive meshes and Fourier transform methods. There are also efforts to extend the usual computer graphics tools to address issues of CGH tasks, such as ray tracing to obtain correct occlusion [25], the scattering-transmission function [15] or random-phase method to speckle noise reduction [21]. These approaches can work both in object and in image/SLM space:…”
Section: Math For Hologram Synthesismentioning
confidence: 99%

SLM Simulation and MonteCarlo Path Tracing for Computer-Generated Holograms

Magallón
1
,
Blesa
2
,
Serón
3
2021
SN COMPUT. SCI.
1
0
1
0
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“…They are based on point sets, primitive meshes and Fourier transform methods. There are also efforts to extend the usual computer graphics tools to address issues of CGH tasks, such as ray tracing to obtain correct occlusion [25], the scattering-transmission function [15] or random-phase method to speckle noise reduction [21]. These approaches can work both in object and in image/SLM space:…”
Section: Math For Hologram Synthesismentioning
confidence: 99%

SLM Simulation and MonteCarlo Path Tracing for Computer-Generated Holograms

Magallón
1
,
Blesa
2
,
Serón
3
2021
SN COMPUT. SCI.
1
0
1
0
View full textAdd to dashboardCite
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An accelerated hologram calculation using the wavefront recording plane method and wavelet transform

Arai
1
,
Shimobaba
2
,
Nishitsuji
3
et al. 2017
Optics Communications
29
0
9
0
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