Papers (peer reviewed)
2024
Improving image quality of a phase-added stereogram using deep learning
M Baba, D Blinder, F Wang, T Birnbaum, P Schelkens, T Ito, T Shimobaba
Applied Optics 63 (28), G1-G8
Wide-viewing-angle holographic 3D display using lens array for point cloud data
S Fujimori, F Wang, T Ito, T Shimobaba
Displays, 102718
High-fidelity approximations for large holograms
Y Udjaja, A Gupta, F Wang, N Takada, T Ito, T Shimobaba
Optics Communications 556, 130265
Neural radiance fields-based holography
M Kang, F Wang, K Kumano, T Ito, T Shimobaba
arXiv preprint arXiv:2403.01137
2023
Tomoyoshi Shimobaba, Fan Wang, Joanna Starobrat, Adam Kowalczyk, Jarosław Suszek, and Tomoyoshi Ito
Applied Optics 62(28), 7471
Multi-depth hologram generation from two-dimensional images by deep learning
Y Ishii, F Wang, H Shiomi, T Kakue, T Ito, T Shimobaba
Optics and Lasers in Engineering 170, 107758
Point-polygon hybrid method for generating holograms
F Wang, D Blinder, T Ito, T Shimobaba
Optics Letters 48 (12), 3339-3342
Deep hologram converter from low-precision to middle-precision holograms
Harutaka Shiomi, David Blinder, Tobias Birnbaum, Yota Inoue, Fan Wang, Tomoyoshi Ito, Takashi Kakue, Peter Schelkens, Tomoyoshi Shimobaba
Applied Optics 62 (7), 1723-1729
High-speed rendering pipeline for polygon-based holograms
F Wang, T Ito, T Shimobaba
Photonics Research 11 (2), 313-328
Wavefront recording plane-like method for polygon-based holograms
F Wang, D Blinder, T Ito, T Shimobaba
Optics Express 31 (2), 1224-1233
Fully analytic shading model with specular reflections for polygon-based hologram
F Wang, H Shiomi, T Ito, T Kakue, T Shimobaba
Optics and Lasers in Engineering 160, 107235
2022
Strategies for the next generation of special-purpose computers for holography
T Shimobaba, T Takahashi, I Hoshi, F Wang, H Shiomi, T Hara, Y Udjaja, ...
Holography, Diffractive Optics, and Applications XII 12318, 254-260
Hilbert transform-like hologram calculation via deep learning
T Shimobaba, T Hirahara, H Shiomi, D Blinder, T Birnbaum, F Wang, ...
Hilbert transform-like hologram calculation via deep learning, 1-2
Controllable energy angular spectrum method
F Wang, T Shimobaba, T Kakue, T Ito
Optics Communications 520, 128506
Accelerating hologram generation using oriented-separable convolution and wavefront recording planes
T Shimobaba, M Makowski, H Shiomi, F Wang, T Hara, M Sypek, ...
Optics Express 30 (20), 36564-36575
Fast 3d analytical affine transformation for polygon-based computer-generated holograms
H Fan, B Zhang, Y Zhang, F Wang, W Qin, Q Fu, TC Poon
Applied Sciences 12 (14), 6873
Real-valued diffraction calculations for computational holography
T Shimobaba, T Tahara, I Hoshi, H Shiomi, F Wang, T Hara, T Kakue, T Ito
Applied Optics 61 (5), B96-B102
Polygon-based computer-generated holography: a review of fundamentals and recent progress
Y Zhang, H Fan, F Wang, X Gu, X Qian, TC Poon
Applied Optics 61 (5), B363-B374
2021
F Wang, T Shimobaba, Y Zhang, T Kakue, T Ito
Optics Express 29 (22), 35442-35455
Mitigating ringing artifacts in diffraction calculations using average subtractions
T Shimobaba, I Hoshi, H Shiomi, F Wang, T Hara, T Kakue, T Ito
Applied Optics 60 (22), 6393-6399
Motion parallax holograms generated from an existing hologram
T Shimobaba, S Katsuyama, T Nishitsuji, I Hoshi, H Shiomi, F Wang, ...
Applied Sciences 11 (7), 2933
2019
W Ren-De, Z Ya-Ping, Z Xu-Feng, W Fan, L Chong-Guang, Z Yong-An, ...
Acta Physica Sinica 68 (11)
2018
Nondestructive evaluation of residual stress via digital holographic photoelasticity
F Wang, Y Zhang, H Wang, W Xu, Y Zhang, C Li
Journal of Optics 47, 547-552
Fast generation of full analytical polygon-based computer-generated holograms
YP Zhang, F Wang, TC Poon, S Fan, W Xu
Optics express 26 (15), 19206-19224
F Shuang, Z Ya-Ping, W Fan, G Yun-Long, Q Xiao-Fan, Z Yong-An, X Wei, ...
ACTA PHYSICA SINICA 67 (9)
Conference
2023
F Wang, D Blinder, T Ito, T Shimobaba
Optical Design and Testing XIII 12765, 17-20
Lighter and memory-saving diffraction calculations
T Shimobaba, T Tahara, F Wang, H Shiomi, D Blinder, T Hara, T Nishitsuji, ...
Frontiers in Optics, FW5D. 1
“Polygon-based holograms production pipeline: from 3D modeling to optical reconstruction”,
Fan Wang, David Blinder, Tomoyoshi Ito, Tomoyoshi Shimobaba,
Digital Holography and Three-Dimensional Imaging, Boston, United States, August 2023
Diffraction Calculation Using low-Quantization Signals
Tomoyoshi Shimobaba, Tatsuki Tahara, Fan Wang, Harutaka Shiomi, David Blinder, Takayuki Hara, Takashi Nishitsuji, Atsushi Shiraki, Tomoyoshi Ito
Digital Holography and Three-Dimensional Imaging, Boston, United States, August 2023
Joint Color Optimization for Holographic Displays
David Blinder, Fan Wang, Peter Schelkens, Takashi Kakue, Tomoyoshi Shimobaba
Digital Holography and Three-Dimensional Imaging, Boston, United States, August 2023
"ホログラフィックパイプラインによる計算手法",
(Invited) Fan Wang, 伊藤智義, 下馬場朋禄,
ホログラフィックディスプレイ研究会2023年第2回研究会, 千葉市 (2023年6月)
2022
“Fast shading of polygon-based holograms under compact sampling of spectral energy”,
(Invited talk) Fan Wang, Tomoyoshi Shimobaba, Takashi Kakue, Tomoyoshi Ito,
The 13th International Conference on Information Optics and Photonics, Oral presentation, August 2022.
Strategies for the next generation of special-purpose computers for holography
T Shimobaba, T Takahashi, I Hoshi, F Wang, H Shiomi, T Hara, Y Udjaja, ...
Holography, Diffractive Optics, and Applications XII 12318, 254-260
2021
Analytical polygon hologram calculation using look-up tables and band-limited spectra
F Wang, T Shimobaba, T Kakue, T Ito
Frontiers in Optics, JTu1A. 68
Book/Thesis
Polygon-Based Hologram Calculation Methods (Chapter)
Fan Wang (2023). Polygon-Based Hologram Calculation Methods. In: Shimobaba, T., Ito, T. (eds) Hardware Acceleration of Computational Holography. Springer, Singapore.
Computer-generated holograms based on polygon algorithms (Doctoral thesis) [Text]
Fan Wang, Chiba University, 2023