Comparison of Machine Learning-Based Radioisotope Identifiers for Plastic Scintillation Detector
Byoungil Jeon, Jongyul Kim, Yonggyun Yu, Myungkook Moon
J. Radiat. Prot. Res. 2021;46(4):204-212. Published online 2021 Nov 27 DOI: https://doi.org/10.14407/jrpr.2021.00206
|
Citations to this article as recorded by
Identification of radioactive isotopes in decommissioning of nuclear facilities using ensemble learning
Jaehyun Park, Gyohyeok Song, Wonku Kim, Junhyeok Kim, Jisung Hwang, Hyunduk Kim, Gyuseong Cho
Radiation Physics and Chemistry.2024; 220: 111598. CrossRef Image reconstruction method of gamma emission tomography based on prior-aware information and machine learning for partial-defect detection of PWR-type spent nuclear fuel
Hyung-Joo Choi, Jaewon Jeong, Hakjae Lee, Seong Gon Kim, Jae Joon Ahn, Hyun Cheol Lee, Chul Hee Min
Nuclear Engineering and Technology.2024;[Epub] CrossRef Automatic energy calibration of radiation portal monitors using deep learning and spectral remapping
Byoungil Jeon, Jaeheong Park, Kyutae Park, Joohyun Lee, Myungkook Moon
Journal of Instrumentation.2023; 18(01): P01031. CrossRef Design of pedestrian radiation portal monitor with NaIL dual-particle detector
Jimin Shin, Hee Seo
Radiation Physics and Chemistry.2023; 207: 110858. CrossRef A Low-Power Radiation Detection SoC With Neural Network Accelerator for Radioisotope Identification
Samuel J. Murray, Joseph A. Schmitz, Sina Balkır, Michael W. Hoffman
IEEE Transactions on Nuclear Science.2023; 70(3): 272. CrossRef Effects of rainfall and temperature on background signal of radiation portal monitor
Hayoung Sim, Hyosang Choi, Seungho Baek, Hee Seo, Hyeonjun Choi, Haneul Kim, Jaeho Jang
Radiation Protection Dosimetry.2023; 199(8-9): 710. CrossRef
|