1. 1) 東京都防災会議：首都直下地震等による東京の被害想定報告書，2022. [Tokyo Metropolitan Disaster Prevention Council: Report on Estimated Damage from the Tokyo inland earthquake, 2022.]

2. 2) Bruneau, M., Chang, S. E., Eguchi, R. T., Lee, G. C., O'Rourke, T. D., Reinhorn, A. M., Shinozuka, M., Tierney, K., Wallace, W. A. and von Winterfeldt, D. : A framework to quantitatively assess and enhance the seismic resilience of communities, Earthquake Spectra, Vol. 19, No. 4, pp. 733-752, 2003.

3. 5) 石橋寛樹，小島貴之，秋山充良，越村俊一：南海トラフ地震による強震動と津波を受ける道路ネットワークのリスク・レジリエンス評価手法の提案と構造物の補強優先度判定への適用，土木学会論文集 A1, Vol. 76, No. 4, pp. I_32-I_46, 2020. [Ishibashi, H., Kojima, T., Akiyama, M. and Koshimura, S.: Road network retrofitting prioritization under seismic and tsunami hazards caused by the anticipated Nankai trough earthquake based on the probabilistic risk and resilience, Journal of Japan Society of Civil Engineers A1, Vol. 76, No. 4, pp. I_32-I_46, 2020.]

4. 6) 松崎裕：道路橋および道路ネットワークのレジリエンス評価における性能指標および性能の回復過程のモデル化に関する現状と課題，構造工学論文集 A, Vol. 67, pp. 139-151, 2021. [Matsuzaki, H.: A review of performance indicators and recovery models for resilience assessment of road bridges and road networks, Journal of Structural Engineering A, Vol. 67, pp. 139-151, 2021.]

5. 7) Choi, J., Yoo, D. G. and Kang, D. : Post-earthquake restoration simulation model for water supply networks, Sustainability, Vol. 10, No. 10, 3618, 2018.