1. 1) Cabimet Office, Disaster prevention response examination based on earthquake observation and evaluation along the Nankai Trough Working Group : Evaluation of Disaster Prevention Based on Earthquake Observation and Evaluation along the Nankai Trough Direction of Working Group Together (Proposal), 2016. 7 (in Japanese)　内閣府：南海トラフ沿いの地震観測・評価に基づく防災対応検討ワーキンググループとりまとめ方向性（案）2016. 7(内閣府 HP： https://www.bousai.go.jp/jishin/nankai/taio_wg/taio_wg.html )

2. 2) ETRA : Seismic Design of Transmission Towers and Issues, Vol.73, No.3, 2018.3 (in Japanese)　電気協同研究会：送電用鉄塔耐震設計とその課題, 第 73 巻, 第 3 号, 2018. 3

3. 3) Nakamura, T., Terazawa, Y., and Takeuchi, T. : Simple Seismic Damage Evaluation of Transmission Tower considering Post Brace-Buckling Behavior, Journal of Structural and Construction Engineering (Transactions of AIJ), Vol.87, No.799, pp.932-943, 2022. 9 (in Japanese)　中村毅, 寺澤友貴, 竹内徹：腹材の座屈を考慮した送電用山形鋼鉄塔の耐震診断手法, 日本建築学会構造系論文集, 第 87 巻, 第 799 号, pp.932-943, 2022. 9 (DOI: https://doi.org/10.3130/aijs.87.932 )

4. 4) JASTA : Manufacturing Standards of Angle Steel Tower for Power Transmission, 2019. 8 (in Japanese)　日本鉄塔協会：送電用山形鋼鉄塔製作基準, 2019. 8

5. 5) Fujimoto, M., Nanba, T., Ookuma, T., Wada, A., Nakagome, T., Sasaki, S. and Ono, J. ; The Experimental Research Concern with Fracture and Deformation of Steel Brace under Dynamic Loading : Part 3 Study of Fracture and Deformation on Angle Brace Reinforced at Connecting Parts, Summaries of Technical Papers of Annual Meeting, Architectural Institute of Japan, Structure-Ⅱ, pp.795-796, 1987. 8 (in Japanese)　藤本盛久, 難波恒夫, 大熊武司, 和田章, 中込忠男, 佐々木聡, 小野潤一郎：衝撃的過荷重による鋼構造筋かいの破断と変形能力に関する実験的研究その 3 接合部補強型山形鋼筋かいの破断と変形能力について, 日本建築学会大会学術講演梗概集, 構造Ⅱ, pp.795-796, 1987. 8