Atsushi Shiraki
Atsushi Shiraki
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Cited by
Cited by
Computer generated holography using a graphics processing unit
N Masuda, T Ito, T Tanaka, A Shiraki, T Sugie
Optics Express 14 (2), 603-608, 2006
Special-purpose computer HORN-5 for a real-time electroholography
T Ito, N Masuda, K Yoshimura, A Shiraki, T Shimobaba, T Sugie
Optics Express 13 (6), 1923-1932, 2005
HORN-6 special-purpose clustered computing system for electroholography
Y Ichihashi, H Nakayama, T Ito, N Masuda, T Shimobaba, A Shiraki, ...
Optics Express 17 (16), 13895-13903, 2009
Computational wave optics library for C++: CWO++ library
T Shimobaba, J Weng, T Sakurai, N Okada, T Nishitsuji, N Takada, ...
Computer Physics Communications 183 (5), 1124-1138, 2012
Computational ghost imaging using deep learning
T Shimobaba, Y Endo, T Nishitsuji, T Takahashi, Y Nagahama, ...
Optics Communications 413, 147-151, 2018
Fast high-resolution computer-generated hologram computation using multiple graphics processing unit cluster system
N Takada, T Shimobaba, H Nakayama, A Shiraki, N Okada, M Oikawa, ...
Applied optics 51 (30), 7303-7307, 2012
High-performance parallel computing for next-generation holographic imaging
T Sugie, T Akamatsu, T Nishitsuji, R Hirayama, N Masuda, H Nakayama, ...
Nature Electronics 1 (4), 254-259, 2018
Simplified electroholographic color reconstruction system using graphics processing unit and liquid crystal display projector
A Shiraki, N Takada, M Niwa, Y Ichihashi, T Shimobaba, N Masuda, T Ito
Optics Express 17 (18), 16038-16045, 2009
Time-division color electroholography using one-chip RGB LED and synchronizing controller
M Oikawa, T Shimobaba, T Yoda, H Nakayama, A Shiraki, N Masuda, ...
Optics Express 19 (13), 12008-12013, 2011
Numerical calculation library for diffraction integrals using the graphic processing unit: the GPU-based wave optics library
T Shimobaba, T Ito, N Masuda, Y Abe, Y Ichihashi, H Nakayama, ...
Journal of Optics A: Pure and Applied Optics 10 (7), 075308, 2008
An electroholographic colour reconstruction by time division switching of reference lights
T Shimobaba, A Shiraki, N Masuda, T Ito
Journal of Optics A: Pure and Applied Optics 9 (7), 757, 2007
Digital holographic particle volume reconstruction using a deep neural network
T Shimobaba, T Takahashi, Y Yamamoto, Y Endo, A Shiraki, T Nishitsuji, ...
Applied optics 58 (8), 1900-1906, 2019
Design, implementation and characterization of a quantum-dot-based volumetric display
R Hirayama, M Naruse, H Nakayama, N Tate, A Shiraki, T Kakue, ...
Scientific reports 5 (1), 8472, 2015
Electroholographic display unit for three-dimensional display by use of special-purpose computational chip for holography and reflective LCD panel
T Shimobaba, A Shiraki, N Masuda, T Ito
Optics Express 13 (11), 4196-4201, 2005
Three-dimensional volume containing multiple two-dimensional information patterns
H Nakayama, A Shiraki, R Hirayama, N Masuda, T Shimobaba, T Ito
Scientific reports 3 (1), 1931, 2013
Convolutional neural network-based data page classification for holographic memory
T Shimobaba, N Kuwata, M Homma, T Takahashi, Y Nagahama, M Sano, ...
Applied optics 56 (26), 7327-7330, 2017
Interactive color electroholography using the FPGA technology and time division switching method
T Shimobaba, A Shiraki, Y Ichihashi, N Masuda, T Ito
IEICE Electronics Express 5 (8), 271-277, 2008
Autoencoder-based holographic image restoration
T Shimobaba, Y Endo, R Hirayama, Y Nagahama, T Takahashi, ...
Applied Optics 56 (13), F27-F30, 2017
Optical addressing of multi-colour photochromic material mixture for volumetric display
R Hirayama, A Shiraki, M Naruse, S Nakamura, H Nakayama, T Kakue, ...
Scientific reports 6 (1), 31543, 2016
One-unit system to reconstruct a 3-D movie at a video-rate via electroholography
Y Ichihashi, N Masuda, M Tsuge, H Nakayama, A Shiraki, T Shimobaba, ...
Optics Express 17 (22), 19691-19697, 2009
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