Session Details
[1P01-07]Applied Simulation
Wed. Sep 10, 2025 10:00 AM - 12:00 PM JST
Wed. Sep 10, 2025 1:00 AM - 3:00 AM UTC
Wed. Sep 10, 2025 1:00 AM - 3:00 AM UTC
Room P(AIM3F Meeting Room 315)
Chair:KAZUYUKI DEMACHI(UTokyo)
[1P01]Development of a Reduced-Order Model for Gas–Liquid-Solid Three Phase Flows with Deep Learning
*Masato Kuzasa1, Toshiki Imatani1, Michael Castro1, Kai-En YANG1, Mikio Sakai1 (1. UTokyo)
[1P02]Advanced Development of Exposure Reduction Technologies by Digitalization of Environment and Radioactive Source Distribution(1) Outline of the Whole Scheme
*Yoichi AKIYAMA1, Masahiro SUZUKI1, Masahiko MACHIDA1 (1. Japan Atomic Energy Agency)
[1P03]Advanced Development of Exposure Reduction Technologies by Digitalization of Environment and Radioactive Source Distribution(2)Overview of Developed System and its Verification in 1F
*Masahiko Machida1, Susumu Yamada1, Kim Minsik1, Hiroko Miyamura1, Masahiro Suzuki1 (1. Japan Atomic Energy Agency)
[1P04]Advanced Development of Exposure Reduction Technologies by Digitalization of Environment and Radioactive Source Distribution(3) Prediction of Dust Dispersion using CFD
*Hiroki Nakamura1, Youichi Tsubota1, Masahiko Machida1, Masahiro Suzuki1 (1. JAEA)
Time reserved for Chair
[1P05]Advanced Development of Exposure Reduction Technologies by Digitalization of Environment and Radioactive Source Distribution(4) Development of Dose Evaluation Tool for Estimation of Radioactive Source Distribution and Radiation Map
*Naoya Furutachi1, Toru Yoshida1, Hideaki Yanagi1, Susumu Yamada2, Yukihiro Hasegawa1, Masahiko Machida2 (1. RIST, 2. JAEA)
[1P06]Advanced Development of Exposure Reduction Technologies by Digitalization of Environment and Radioactive Source Distribution(5) A Strategy for Selecting Additional Observation Points to Estimate Radiation Source Distribution using LASSO
*Susumu Yamada1, Masahiko Machida1 (1. JAEA)
[1P07]Advanced Development of Exposure Reduction Technologies by Digitalization of Environment and Radioactive Source Distribution(6)Data Management and Visualization System
*Ryo Furukawahara1, Kazuhiro Nanaumi1, Shunji Mukaida1, Shigeru Ijima1, Kazuhisa Aoki1 (1. JAEA)