Research keywords (5):
Cyber Security
, Information Security Human Resource Development
, Container-based Virtualization
, Cyber Range
, Information Security
Research theme for competitive and other funds (2):
2023 - 2026 Development of teaching materials for security using Border Gateway Protocol
2022 - 2024 AIを活用した水道使用量からの社会的価値の高いビッグデータ創出
Papers (10):
Keiichi Yonemura, Ryotaro Nakata, Hideyuki Kobayashi, Masaki Hashimoto, Shinya Oyama, Jun Sato, Tatsuki Fukuda, Hisashi Taketani, Manabu Hirano, Satoru Yamada, et al. Motivation in Teaching Expert Development Project by KOSEN Security Educational Community. IEEE Global Engineering Education Conference(EDUCON). 2023. 1-9
Ryotaro Nakata, Akira Otsuka. CyExec*: A High-Performance Container-Based Cyber Range With Scenario Randomization. IEEE Access. 2021. 9. 109095-109114
Ryotaro Nakata, Akira Otsuka. Evaluation of Vulnerability Reproducibility in Container-based Cyber Range. Proceedings of the 7th International Conference on Information Systems Security and Privacy(ICISSP). 2021. 635-642
Ryotaro Nakata, Akira Otsuka. CyExec*: Automatic Generation of Randomized Cyber Range Scenarios. Proceedings of the 7th International Conference on Information Systems Security and Privacy(ICISSP). 2021. 226-236
Examination of quantitative scoring methods using LLM for information security exercises. The 41st Symposium on Cryptgraphy and Information Security 2024. 2024
中田亮太郎, 中田亮太郎, 米田智紀, 大塚玲. Generating cyber range scenarios using an autonomous cyber reasoning system. 情報科学技術フォーラム講演論文集. 2023. 22nd
Nakata Ryotaro. Information Security Initiatives at Hitotsubashi University. 2022. 44-51
Ryotaro Nakata, Akira Otsuka. Automatic generating of cyber range scenarios using attack graph. The 39th Symposium on Cryptography and Information Security. 2022
CyExec*: Automatic Generation of Randomized Cyber Range Scenarios
(International Conference on Information Systems Security and Privacy (ICISSP) 2021)
Evaluation of Vulnerability Reproducibility in Container-based Cyber Range
(International Conference on Information Systems Security and Privacy (ICISSP) 2021)
Evaluation of vulnerability reproducibility in container-based Cyber Range
(Symposium on Cryptography and Information Security 2020)
Proposal of container-based virtualization Utilization to cyber security training environment ”Cyber Range”
(2019)
Education (1):
2018 - 2021 Institute of Information Security
Professional career (1):
PhD in Informatics (Institute of Information Security)
Work history (1):
2021/10 - 現在 Hitotsubashi University Office of Information Systems Management Information and Communication Technology Center