Session Details
[9p-PB6-1~21]3.2 Information photonics and image engineering
Wed. Sep 9, 2026 4:00 PM - 5:30 PM JST
Wed. Sep 9, 2026 7:00 AM - 8:30 AM UTC
Wed. Sep 9, 2026 7:00 AM - 8:30 AM UTC
PB6 (2nd Gymnasium)
[9p-PB6-1]Single-shot imaging on the microsecond timescale using the interferometric FRAME optical system with a galvanometer scanner
〇Kaito Yokoyama1, Masataka Kobayashi2, Hidekazu Nakamae2, Changsu Kim2,3, Takashi Ito3, Hidefumi Akiyama2,3, Junko Omachi1 (1.Kwansei Gakuin Univ., 2.ISSP, Univ. of Tokyo, 3.LDseed Co., Ltd)
[9p-PB6-2]Phase measurement using a common-path interferometer with a single-pixel detector
〇Yuma Sano1, Taro Iwasa1, Shuhei Yoshida1 (1.Kindai Univ.)
[9p-PB6-3]Anisotropic edge detection in motionless optical scanning holography
〇Arata Kawakami1, Yusuke Saita2, Takanori Nomura2 (1.Grad. Sch. Sys. Wakayama Univ., 2.Fac. Sys. Wakayama Univ.)
[9p-PB6-4]Computational Optical Scanning Holography Based on Scanning-Coordinate Phase Addition
〇Keisuke Ono1, Kenya Sugimoto1, Yushi Hasegawa1, Fan Wang1, Tomoyoshi Ito1, Tomoyoshi Shimobaba1 (1.Graduate School of Engineering, Chiba Univ.)
[9p-PB6-5]Image restoration filters under different speckle sizes in digital holographic microscopy using speckle illumination
〇(M2)Yuki Nagasawa1, Hideki Funamizu1 (1.Muroran Inst. Tech.)
[9p-PB6-6]Effect of model structure on machine-learning-based classification using morphological features of blood cells in quantitative phase images
〇(M2)Taiyo Kanezaki1, Hideki Funamizu1 (1.Muroran Inst. Tech.)
[9p-PB6-7]Accuracy improvement of optical diffraction tomography based on a multiple scattering model
〇Naoki Okada1, Yusuke Hodono1, Shuhei Yoshida1 (1.Kindai Univ.)
[9p-PB6-8]Complementary Frequency-Divided Integration of Kramers–Kronig-Based Holographic Reconstruction and Transport-of-Intensity Equation Phase Retrieval
〇Ryunosuke Ninomiya1, Yusuke Saita2 (1.Grad. Sch. Sys. Wakayama Univ., 2.Fac. Sys. Wakayama Univ.)
[9p-PB6-9]MLP-Based Batch Reading and Decoding for Holographic Memory
〇(M2)Fang Gao1,2, Hironori Ito2, Changqiu Yu1, Satoshi Honma2 (1.Hangzhou Dianzi Univ, 2.Univ of Yamanashi)
[9p-PB6-10]Correction of reconstruction position error in gradient-estimation-based in-system optimization of computer-generated holograms
〇(M1)Yuma Yasumura1, Kota Kumagai1, Yoshio Hayasaki1 (1.Utsunomiya Univ. CORE)
[9p-PB6-11]Diffraction Characteristics of Displayed Images on an External Display through a Volume Holographic Optical Element
〇Hayata Kon1, Shota Hasui1, Daisuke Barada1,2 (1.Opt.Eng. ,Utsunomiya Univ., 2.CORE, Utsunomiya Univ.)
[9p-PB6-12]Investigation of Observed Image Resolution in AR Glasses Using Volume Holographic Waveguid
〇Satoshi Ishihara1, Daisuke Barada1,2, Ryushi Fujimura1,2 (1.Opt. Eng., Utsunomiya Univ., 2.CORE, Utsunomiya Univ.)
[9p-PB6-13]Evaluation of diffraction efficiency characteristics in holographic waveguide for AR glasses
〇Shota Omori1, Daisuke Barada1,2, Ryushi Fujimura1,2 (1.Opt. Eng., Utsunomiya Univ., 2.CORE, Utsunomiya Univ.)
[9p-PB6-14]Investigation of a Recording Method for Transmission-Type Near-Field VolumeHolograms under Incoherent Illumination
〇Nana Bizen1, Shota Hasui2, Daisuke Barada1,2,3 (1.Fac. Eng., Utsunomiya Univ., 2.Grad. School. of Reg., Utsunomiya Univ., 3.CORE, Utsunomiya Univ.)
[9p-PB6-15]Dynamic Holographic 3D Display: A Motion-Compensated Predictive Synthesis Framework for Polygon-based holograms
〇(BC)Yuto Matsuo1, Tomoyoshi Shimobaba2, Tomoyoshi Ito2, Fan Wang2 (1.Faculty of Engineering, Chiba Univ., 2.Graduate School of Engineering, Chiba Univ.)
[9p-PB6-16]Light-field near-eye display using multilevel diffractive lens with large depth of field
〇Yasutaka Maeda1,3, Hayato Watanabe1, Naoto Okaichi1, Hisayuki Sasaki2, Hiroyuki Kawakita1, Takuya Handa1, Masahiro Yamaguchi3 (1.NHK STRL, 2.NHK Foundation, 3.Science Tokyo)
[9p-PB6-17]Temperature Distribution of an Aerial Heater by Use of a Metal Grating
〇Eita Kikuchi1, Rio Hiyane1, Akito Fukuda1, Shiro Suyama1, Hirotsugu Yamamoto1 (1.Utsunomiya Univ.)
[9p-PB6-18]Physics-Driven Phase Optimization for Holograms Using U-Net with Bottleneck KAN
〇Yuito Watanabe1, Kai Kumano1, Fan Wang1, Tomoyoshi Ito1, Tomoyoshi Shimobaba1 (1.Chiba Univ.)
[9p-PB6-19]Acceleration of Online Learning in
Magneto-Optical Diffractive Neural Networks (MO-DNN)
〇(M1C)Taiga Morimoto1, Kennichi Aoshima3, Tomonao Matsuya2, Teruyoshi Nobukawa3, Fatima Zahra Chafi2, Yasunobu Akiyama1, Takayuki Ishibashi2, Nobuhiko Funabashi3 (1.Toukai Univ., 2.Nagaoka Univ. Tech., 3.NHK STRL)
[9p-PB6-20]A Physics-Guided Machine Learning Framework for Two-Photon Absorption Spectra Determination
〇(M2C)Ian Ribeiro Andrade1, Leandro H. Zucolotto Cocca1 (1.Fed. Univ. of Goias)
[9p-PB6-21]All-Optical Nonlinear Activation Function Based on TPPS
〇Jin Nakamura1, Kazuaki Nakata1, Takayoshi Kobayashi2, Eiji Tokunaga1 (1.Tokyo Univ. of Sci., 2.National Yang Ming Chiao Tung Univ.)
