[ 1 ] 杨华勇 , 江媛 , 李喆 , 等‍‍ . 地下空间开发综合治理发展战略研究 [J]‍. 中国工程科学 , 2021 , 23 4 : 126 ‒ 136 ‍.
Yang H Y , Jiang Y , Li Z , al e t ‍. Research on the development strategy of comprehensive management of underground space development [J]‍. Strategic Study of CAE , 2021 , 23 4 : 126 ‒ 136 ‍.

[ 2 ] 中国工程院战略咨询中心 , 中国岩石力学与工程学会地下空间分会 , 中国城市规划学会‍ . 2022中国城市地下空间发展蓝皮书 [M]‍. 北京 : 科学出版社 , 2022 ‍.
Center for Strategic Studies of Chinese Academy of Engineering , Sub-society for Underground Space of CSRME , China Association of City Planning‍ . 2022 blue book of urban underground space [M]‍. Beijing : Science Press , 2022 ‍.

[ 3 ] 郑刚 , 程雪松 , 周海祚 , 等‍ . 岩土与地下工程结构韧性评价与控制 [J]‍. 土木工程学报 , 2022 , 55 7 : 1 ‒ 38 ‍.
Zheng G , Cheng X S , Zhou H Z , al e t ‍. Resilient evaluation and control in geotechnical and underground engineering [J]‍. Chinese Journal of Civil Engineering , 2022 , 55 7 : 1 ‒ 38 ‍.

[ 4 ] Shadabfar M, Mahsuli M, Zhang Y, al et‍. Resilience-based design of infrastructure: Review of models, methodologies, and computational tools [J]‍. ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, 2022, 8(1): 03121004‍.

[ 5 ] 中华人民共和国住房和城乡建设部‍ . 建筑结构可靠性设计统一标准 GB 50068—2018 [S]‍. 北京 : 中国建筑工业出版社 , 2018 ‍.
Ministry of Housing and Urban-Rural Development of the People´s Republic of China‍ . Unified standard for reliability design of building structures GB 50068—2018 [S]‍. Beijing : China Architecture Building Press , 2018 ‍.

[ 6 ] 建筑结构荷载规范 GB 50009—2012 [S]‍. 北京 : 中国建筑工业出版社 , 2012 ‍.
Load code for the design of building structures GB 50009—2012 [S]‍. Beijing : China Architecture Building Press , 2012 ‍.

[ 7 ] Khoshnevisan S, Gong W P, Juang C H, al et‍. Efficient robust geotechnical design of drilled shafts in clay using a spreadsheet [J]‍. Journal of Geotechnical & Geoenvironmental Engineering, 2015, 141(2): 04014092‍.

[ 8 ] 国家市场监督管理总局, 国家标准化管理委员会‍ . 建筑抗震韧性评价标准 GBT 38591—2020 [S]‍. 北京 : 中国质检出版社 , 2020 ‍.
State Administration for Market Regulation , Administration‍ Standardization . Evaluation standard for seismic toughness of buildings GBT 38591—2020 [S]‍. Beijing : China Quality Inspection Press , 2020 ‍.

[ 9 ] 陆化普 , 刘若阳 , 张永波 , 等‍ . 基于TOD模式的城市空间结构优化研究 [J]‍. 中国工程科学 , 2022 , 24 6 : 137 ‒ 145 ‍.
Lu H P , Liu R Y , Zhang Y B , al e t ‍. Optimization of urban spatial structure based on TOD model [J]‍. Strategic Study of CAE , 2022 , 24 6 : 137 ‒ 145 ‍.

[10] Admiraal H, Cornaro A‍. Future cities, resilient cities: The role of underground space in achieving urban resilience [J]‍. Underground Space, 2020, 5(3): 223‒228‍.

[11] Allen C R, Angeler D G, Garmestani A S, al et‍. Panarchy: Theory and application [J]‍. Ecosystems, 2014, 17(4): 578‒589‍.

[12] Cimellaro G P, Reinhorn A M, Bruneau M‍. Framework for analytical quantification of disaster resilience [J]‍. Engineering Structures, 2010, 32(11): 3639‒3649‍.

[13] 李海垒 , 张文新‍ . 心理韧性研究综述 [J]‍. 山东师范大学学报社会科学版 , 2006 , 51 3 : 149 ‒ 152 ‍.
Li H L , Zhang W X‍ . Review of research on psychological resilience [J]‍. Journal of Shandong Normal UniversitySocial Sciences , 2006 , 51 3 : 149 ‒ 152 ‍.

[14] U‍.S‍. Department of Energy‍. DOE fundamentals handbook: Thermodynamics, heat transfer, and fluid flow [R]‍. Washington, DC: U‍.S‍. Department of Energy, 1992‍.

[15] 路德春 , 马超 , 杜修力 , 等‍ . 城市地下结构抗震韧性研究进展 [J]‍. 中国科学: 技术科学 , 2022 , 52 10 : 1469 ‒ 1483 ‍.
Lu D C , Ma C , Du X L , al e t ‍. Earthquake resilience of urban underground structures: State of the art [J]‍. Scientia Sinica Technologica , 2022 , 52 10 : 1469 ‒ 1483 ‍.

[16] 杨静 , 李大鹏 , 翟长海 , 等‍ . 城市抗震韧性的研究现状及关键科学问题 [J]‍. 中国科学基金 , 2019 , 33 5 : 525 ‒ 532 ‍.
Yang J , Li D P , Zhai C H , al e t ‍. Key scientific issues in the urban earthquake resilience [J]‍. Bulletin of National Natural Science Foundation of China , 2019 , 33 5 : 525 ‒ 532 ‍.

[17] 吕西林‍ . 可恢复功能防震结构: 基本概念与设计方法 [M]‍. 北京 : 中国建筑工业出版社 , 2019 ‍.
L‍ Lyu X . Earthquake resilient structures: Basic concept and design methodology [M]‍. Beijing : China Architecture Building Press , 2019 ‍.

[18] Applied Technology Council‍. Seismic performance assessment of buildings volume 1: Methology [R]‍. Washington, DC: Federal Emergency Management Agency, 2012‍.

[19] Arup‍. City resilience index: Understanding and measuring city resilience [R]‍. London: Arup, 2019‍.

[20] United Nations Office for Disaster Risk Reduction‍. Disaster resilience scorecard for cities [EB/OL]‍. (2017-03-15)[2022-10-15]‍. https://www‍.undrr‍.org/publication/disaster-resilience-scorecard-cities‍. 链接1

[21] 国家市场监督管理总局, 国家标准化管理委员会‍ . 安全韧性城市评价指南 GBT 40947—2021 [S]‍. 北京 : 中国质检出版社 , 2021 ‍.
State Administration for Market Regulation , Administration‍ Standardization . Guidelines for the evaluation of safe and resilient cities GBT 40947—2021 [S]‍. Beijing : China Quality Inspection Press , 2021 ‍.

[22] 方东平 , 李在上 , 李楠 , 等‍ . 城市韧性——基于"三度空间下系统的系统"的思考 [J]‍. 土木工程学报 , 2017 , 50 7 : 1 ‒ 7 ‍.
Fang D P , Li Z S , Li N , al e t ‍. Urban resilience: A perspective of system of systems in trio spaces [J]‍. China Civil Engineering Journal , 2017 , 50 7 : 1 ‒ 7 ‍.

[23] 柳长森 , 郭建华 , 金浩 , 等‍ . 基于WSR方法论的企业安全风险管控模式研究——"11 · 22"中石化管道泄漏爆炸事故案例分析 [J]‍. 管理评论 , 2017 , 29 1 : 265 ‒ 272 ‍.
Liu C S , Guo J H , Jin H , al e t ‍. Research on the safety risk management and control model for enterprise based on WSR methodology: Case analysis of "11·22" Sinopec oil pipeline leakage and explosion accident [J]‍. Management Review , 2017 , 29 1 : 265 ‒ 272 ‍.

[24] 徐雪松 , 闫月 , 陈晓红 , 等‍ . 智慧韧性城市建设框架体系及路径研究 [EBOL]‍. 2022-08-26 [ 2022-11-15 ]‍. https:kns‍.cnki‍.netkcmsdetail11‍.4421‍.G3‍.20220825‍.1306‍.004‍.html‍ .
Xu X S , Yan Y , Chen X H , al e t ‍. Framework system and path of smart resilient city construction [EBOL]‍. 2022-08-26 [ 2022-11-15 ]‍. https:kns‍.cnki‍.netkcmsdetail11‍.4421‍.G3‍.20220825‍.1306‍.004‍.html‍ . 链接1

[25] 陈强 , 陈桂香 , 尤建新‍ . 对地下空间灾害管理问题的探讨 [J]‍. 地下空间与工程学报 , 2006 , 2 1 : 52 ‒ 55 ‍.
Chen Q , Chen G X , You J X‍ . Study on the disaster management of underground space [J]‍. Chinese Journal of Underground Space and Engineering , 2006 , 2 1 : 52 ‒ 55 ‍.

[26] 陈国兴 , 陈苏 , 杜修力 , 等‍ . 城市地下结构抗震研究进展 [J]‍. 防灾减灾工程学报 , 2016 , 36 1 : 1 ‒ 23 ‍.
Chen G X , Chen S , Du X L , al e t ‍. R Review of seismic damage, model test, available design and analysis methods of urban underground structures: Retrospect and prospect [J]‍. Journal of Disaster Prevention and Mitigation Engineering , 2016 , 36 1 : 1 ‒ 23 ‍.

[27] 罗冰洁 , 彭芳乐 , 刘思聪 , 等‍ . 城市地下空间韧性评价指标及模型探讨研究 [EBOL]‍. 2022-11-22 [ 2022-12-05 ]‍. https:doi‍.org10‍.19713j‍.cnki‍.43-1423u‍.T20221866‍ .
Luo B J , Peng F L , Liu S C , al e t ‍. Research on evaluation indicators and models of urban underground space resilience [EBOL]‍. 2022-11-22 [ 2022-12-05 ]‍. https:doi‍.org10‍.19713j‍.cnki‍.43-1423u‍.T20221866‍ . 链接1

[28] 杜修力 , 王子理 , 刘洪涛‍ . 基于韧性设计的一种地下框架结构抗震新体系研究 [J]‍. 震灾防御技术 , 2018 , 13 3 : 493 ‒ 501 ‍.
Du X L , Wang Z L , Liu H T‍ . Study of a seismic new system of underground frame structure based on toughness design [J]‍. Technology for Earthquake Disaster Prevention , 2018 , 13 3 : 493 ‒ 501 ‍.

[29] 杜修力 , 阴孟莎 , 刘洪涛 , 等‍ . 柱脚可更换的地下结构抗震截断柱技术性能分析 [J]‍. 震灾防御技术 , 2019 , 14 3 : 524 ‒ 534 ‍.
Du X L , Yin M S , Liu H T , al e t ‍. Analysis of technical performance of underground structure seismic truncated columns with replaceable column foot [J]‍. Technology for Earthquake Disaster Prevention , 2019 , 14 3 : 524 ‒ 534 ‍.

[30] 刘德军 , 仲飞 , 黄宏伟 , 等‍ . 运营隧道衬砌病害诊治的现状与发展 [J]‍. 中国公路学报 , 2021 , 34 11 : 178 ‒ 199 ‍.
Liu D J , Zhong F , Huang H W , al e t ‍. Present status and development trend of diagnosis and treatment of tunnel lining diseases [J]‍. China Journal of Highway and Transport , 2021 , 34 11 : 178 ‒ 199 ‍.

[31] 张冬梅 , 邹伟彪 , 闫静雅‍ . 软土盾构隧道横向大变形侧向注浆控制机理研究 [J]‍. 岩土工程学报 , 2014 , 36 12 : 2203 ‒ 2212 ‍.
Zhang D M , Zou W B , Yan J Y‍ . Effective control of large transverse deformation of shield tunnels using grouting in soft deposits [J]‍. Chinese Journal of Geotechnical Engineering , 2014 , 36 12 : 2203 ‒ 2212 ‍.

[32] 夏曾银 , 盛鲁腾 , 程雪松 , 等‍ . 基坑引发隧道变形控制中注浆参数的敏感性分析研究 [J]‍. 建筑结构 , 2022 , 52 S1 : 2546 ‒ 2553 ‍.
Xia Z Y , Sheng L T , Cheng X S , al e t ‍. Sensitivity analysis of grouting parameters in tunnel deformation control caused by foundation pit [J]‍. Building Structure , 2022 , 52 S1 : 2546 ‒ 2553 ‍.

[33] 赵帅 , 张东明 , 邵华 , 等‍ . 盾构隧道微扰动注浆对土体强度和衬砌横向收敛的影响 [J]‍. 同济大学学报自然科学版 , 2022 , 50 8 : 1145 ‒ 1153 ‍.
Zhao S , Zhang D M , Shao H , al e t ‍. Influence of perturbation grouting of shield tunnel on soil strength and transverse convergence of tunnel linings [J]‍. Journal of Tongji UniversityNatural Science , 2022 , 50 8 : 1145 ‒ 1153 ‍.

[34] 郭翔 , 佘廉‍ . 城市地下空间韧性建设研究 [M]‍. 北京 : 科学出版社 , 2021 ‍.
Guo X , She L‍ . Study on resilience construction of urban underground space [M]‍. Beijing : Science Press , 2021 ‍.

[35] 彭建 , 柳昆 , 阎治国 , 等‍ . 地下空间安全问题及管理对策探讨 [J]‍. 地下空间与工程学报 , 2010 , 6 1 : 1 ‒ 7 ‍.
Peng J , Liu K , Yan Z G , al e t ‍. Discussion on safety problems of underground space and appropriate managing measures [J]‍. Chinese Journal of Underground Space and Engineering , 2010 , 6 1 : 1 ‒ 7 ‍.

[36] 朱合华 , 骆晓 , 彭芳乐 , 等‍ . 我国城市地下空间规划发展战略研究 [J]‍. 中国工程科学 , 2017 , 19 6 : 12 ‒ 17 ‍.
Zhu H H , Luo X , Peng F L , al e t ‍. Development strategy on urban underground space planning in China [J]‍. Strategic Study of CAE , 2017 , 19 6 : 12 ‒ 17 ‍.

[37] Pan S J, Zhao Z Y, Lim H W, al et‍. Restored quality of life-based approach(REQUALIFE) for urban seismic resilience assessment: Quantitative method [J]‍. International Journal of Disaster Risk Reduction, 2022, 79: 103169‍‍.