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医院抗震韧性研究进展

孙智 裴顺顺 翟长海 于鹏

孙智, 裴顺顺, 翟长海, 于鹏. 医院抗震韧性研究进展[J]. 工业建筑, 2024, 54(2): 106-116. doi: 10.3724/j.gyjzG23121431
引用本文: 孙智, 裴顺顺, 翟长海, 于鹏. 医院抗震韧性研究进展[J]. 工业建筑, 2024, 54(2): 106-116. doi: 10.3724/j.gyjzG23121431
SUN Zhi, PEI Shunshun, ZHAI Changhai, YU Peng. Research Progress on Seismic Resilience of Hospitals[J]. INDUSTRIAL CONSTRUCTION, 2024, 54(2): 106-116. doi: 10.3724/j.gyjzG23121431
Citation: SUN Zhi, PEI Shunshun, ZHAI Changhai, YU Peng. Research Progress on Seismic Resilience of Hospitals[J]. INDUSTRIAL CONSTRUCTION, 2024, 54(2): 106-116. doi: 10.3724/j.gyjzG23121431

医院抗震韧性研究进展

doi: 10.3724/j.gyjzG23121431
基金项目: 

国家重点研发计划(2023YFC3805100);国家自然科学基金项目(51938004,51825801)。

详细信息
    作者简介:

    孙智,副研究员,主要从事工程建设标准化方面的研究。

    通讯作者:

    翟长海,主要从事建筑与基础设施韧性和智能防灾方面的研究,zch-hit@hit.edu.cn。

Research Progress on Seismic Resilience of Hospitals

  • 摘要: 近年来灾害频发,医院的脆弱性变得日益明显,医院韧性在防灾减灾和灾后恢复方面发挥着至关重要的作用。目前医院抗震韧性的研究不仅仅局限于医院结构的安全性,而是更多地关注医院内部非结构构件和医疗设备的抗震性能,以及医院震后功能量化和迅速恢复的研究。从工程维度探讨了医院韧性的内涵、韧性评价理论框架和建模方法。通过对国内外医院韧性研究的进展进行综述,分析了医院韧性相关概念的联系和区别,总结了医院抗震韧性评价的定性和定量方法,并结合现有研究的局限性对未来的方向和研究要点进行了展望。
  • [1] 唐海达.后疫情时代的低碳韧性医院设计[J].建筑技术, 2022, 53(12):1756-1758.
    [2] 秦靖,韩彩欣.医院韧性研究进展[J].中国医疗管理科学, 2023, 13(6):21-25.
    [3] SINGER A J, THODE JR H C, VICCELLIO P, et al. The association between length of emergency department boarding and mortality[J]. Academic Emergency Medicine, 2011, 18(12):1324-1329.
    [4] ACHOUR N, MIYAJIM M, KITAURA M, et al. Earthquake-Induced Structural and Nonstructural Damage in Hospitals[J]. Earthquake Spectra, 2011, 27(3):617-634.
    [5] ACHOUR N, MIYAJIMA M. Post-earthquake hospital functionality evaluation:The case of Kumamoto Earthquake 2016[J]. Earthquake Spectra, 2020, 36(4):1670-1694.
    [6] ACHOUR N, MIYAJIMA M, PASCALE F, et al. Hospital resilience to natural hazards:classification and performance of utilities[J]. Disaster Prevention and Management:an International Journal, 2014, 23(1):40-52.
    [7] KALAJA R, MYSHKETA R, SCALERA F. Service quality assessment in health care sector:the case of durres public hospital[J]. Procedia-Social and Behavioral Sciences, 2016, 235:557-565.
    [8] JACQUES C C, MCINTOSH J, GIOVINAZZI S, et al. Resilience of the canterbury hospital system to the 2011 Christchurch Earthquake[J]. Earthquake Spectra, 2014, 30(1):533-554.
    [9] YI P, GEORGE S K, PAUL J A, et al. Hospital capacity planning for disaster emergency management[J]. Socio-Economic Planning Sciences, 2010, 44(3):151-160.
    [10] CIMELLARO G P, REINHORN A M, BRUNEAU M. Performance-based metamodel for healthcare facilities[J]. Earthquake Engineering&Structural Dynamics, 2011, 40(11):1197-1217.
    [11] CIMELLARO G P, MALAVISI M, MAHIN S. Using discrete event simulation models to evaluate resilience of an emergency department[J]. Journal of Earthquake Engineering, 2016, 21(2):203-226.
    [12] REHAK D. Assessing and strengthening organisational resilience in a critical infrastructure system:Case study of the Slovak Republic[J/OL]. Safety Science, 2020, 123[2023-12-14]. https://doi.org/10.1016/j.ssci.2019.104573.
    [13] BRUNEAU M, CHANG S E, EGUCHI R T, et al. A framework to quantitatively assess and enhance the seismic resilience of communities[J]. Earthquake Spectra, 2003, 19(4):733-752.
    [14] ZHAI C, ZHAO Y, WEN W, et al. A novel urban seismic resilience assessment method considering the weighting of post-earthquake loss and recovery time[J/OL]. International Journal of Disaster Risk Reduction, 2023, 84[2023-12-14]. https://doi.org/10.1016/j.ijdrr.2022.103453.
    [15] BRUNEAU M, REINHORN A. Exploring the concept of seismic resilience for acute care facilities[J]. Earthquake Spectra, 2007, 23(1):41-62.
    [16] ZHONG S, CLARK M, HOU X Y, et al. Development of hospital disaster resilience:conceptual framework and potential measurement[J]. Emergency Medicine Journal, 2014, 31(11):930-938.
    [17] VUGRIN E D, VERZI S J, FINLEY P D, et al. Modeling Hospitals'Adaptive Capacity during a Loss of Infrastructure Services[J]. Healthcare Engineering, 2015, 6(1):85-120.
    [18] OLU O. Resilient health system as conceptual framework for strengthening public health disaster risk management:an african viewpoint[J/OL]. Front Public Health, 2017, 5[2023-12-14]. https://doi.org/10.3389/fpubh.2017.00263.
    [19] SHAHVERDI B, TARIVERDI M, MILLER-HOOKS E. Assessing hospital system resilience to disaster events involving physical damage and demand surge[J/OL]. Socio-Economic Planning Sciences, 2020, 70[2023-12-14]. https://doi.org/10.1016/j.seps.2019.07.005.
    [20] WIIG S, AASE K, BILLETT S, et al. Defining the boundaries and operational concepts of resilience in the resilience in healthcare research program[J/OL]. BMC Health Services Research, BMC Health Serv Res 2020, 20:1-9[2023-12-14]. https://doi.org/10.1186/s12913-020-05224-3.
    [21] MOITINHO DE ALMEIDA M, VAN LOENHOUT J A F, SINGH THAPA S, et al. Hospital resilience after the 2015 earthquake in nepal:results from semi-structured interviews with hospital staff[J/OL]. Front Public Health, 2021, 9[2023-12-14]. https://doi.org/10.3389/fpubh.2021.602509:602509.
    [22] OSORIO J, MADRAZO Z, VIDELA S, et al. Use of failure-to-rescue after emergency surgery as a dynamic indicator of hospital resilience during the COVID-19 pandemic:a multicenter retrospective propensity score-matched cohort study[J/OL]. International Journal of Surgery, 2022, 106[2023-12-14]. https://doi.org/10.1016/j.ijsu.2022.106890.
    [23] BARASA E W, CLOETE K, GILSON L. From bouncing back, to nurturing emergence:reframing the concept of resilience in health systems strengthening[J]. Health Policy and Planning, Health Policy Planning 2017, 32(S 3):91-94.
    [24] KRUK M E, MYERS M, VARPILAH S T, et al. What is a resilient health system?Lessons from Ebola[J]. Lancet, 2015, 385(9980):1910-1912.
    [25] BLANCHET K, NAM S L, RAMALINGAM B, et al. Governance and capacity to manage resilience of health systems:towards a new conceptual framework[J]. International Journal of Health Policy and Management, Int J Health Policy Manag, 2017, 6(8):431-435.
    [26] ANDERSON J E, AASE K, BAL R, et al. Multilevel influences on resilient healthcare in six countries:an international comparative study protocol[J/OL]. BMJ Open, 2020, 10(12)[2023-12-14]. https://doi.org/10.1136/bmjopen-2020-039158.:e039158.
    [27] BAXTER D, CASADY C B. Proactive and strategic healthcare public-private partnerships (PPPs) in the coronavirus (COVID-19) epoch[J]. Sustainability, 2020, 12(12):5097-5114. BAXTER D, CASADY C B. Proactive and strategic healthcare public-private partnerships (PPPs) in the coronavirus (Covid-19) epoch[J]. Sustainability, 2020, 12(12):5097-5114.
    [28] 宁宁,吴群红,孙宏,等.卫生系统韧性研究概况及其展望[J].中国预防医学杂志, 2018, 19(11):869-870.
    [28] 宁宁,吴群红,孙宏,等.卫生系统韧性研究概况及其展望[J].中国预防医学杂志, 2018, 19(11):869-870.
    [29] 张进,陈宏,刘国栋,等.公立医院的组织韧性:一个概念框架[J].中国医院管理, 2019, 39(9):1-3.
    [29] 张进,陈宏,刘国栋,等.公立医院的组织韧性:一个概念框架[J].中国医院管理, 2019, 39(9):1-3.
    [30] 马亚,龚伟伟,申俊龙,等.突发公共卫生事件中医院韧性作用机制和建设策略研究[J].卫生软科学, 2023, 37(2):14-17.
    [30] 马亚,龚伟伟,申俊龙,等.突发公共卫生事件中医院韧性作用机制和建设策略研究[J].卫生软科学, 2023, 37(2):14-17.
    [31] PEI S S, ZHAI C H, WANG Z Q, et al. Resilience assessment of the interdependent transportation-healthcare system during emergency response[J]. Structure and Infrastructure Engineering, Struct Infrastruct Eng 2022:1-15.
    [31] PEI S S, ZHAI C H, WANG Z Q, et al. Resilience assessment of the interdependent transportation-healthcare system during emergency response[J]. Struct Infrastruct Eng, 2022:1-15.
    [32] PEI S S, ZHAI C H, WEN W P, et al. A dynamic patients dispatch and treatment model for resilience evaluation of interdependent transportation-healthcare system[J]. Journal of Earthquake Engineering, 2023:1-26.
    [32] PEI S S, ZHAI C H, WEN W P, et al. A dynamic patients dispatch and treatment model for resilience evaluation of interdependent transportation-healthcare system[J]. Journal of Earthquake Engineering, 2023:1-26.
    [33] FEMA. Multi-hazard loss estimation methodology, earthquake mode:Hazus-MH 2.1:Technical manual[S]. Washington, DC:FEMA, 2013.
    [34] 中华人民共和国住房和城乡建设部标准定额研究所.建筑抗震韧性评价标准:GB/T 38591-2020[S].国家标准化管理委员会,北京:中国标准出版社, 2020:68.
    [35] 中华人民共和国住房和城乡建设部.建筑抗震设计规范:GB 50011-2010[S].北京:中国建筑工业出版社, 2010.
    [36] SATO E, FURUKAWA S, KAKEHI A, et al. Full-scale shaking table test for examination of safety and functionality of base-isolated medical facilities[J]. Earthquake Engineering&Structural Dynamics, 2011, 40(13):1435-1453.
    [37] SHI Y, KURATA M, NAKASHIMA M. Disorder and damage of base-isolated medical facilities when subjected to near-fault and long-period ground motions[J]. Earthquake Engineering&Structural Dynamics, 2014, 43(11):1683-1701.
    [38] 丁焕龙,林涛,钟蔚秀,等.成都市第二人民医院龙潭医院结构抗震设计[J].建筑结构, 2016, 46(增刊2):235-238.
    [39] 徐敬海,李向阳,陈鼎超.面向抗震防灾规划的建筑物震害评估方法[J].城市问题, 2016(11):47-52.
    [40] 吴筑海.医院建筑抗震特性分析及结构设计[J].建筑结构, 2011, 41(4):52-56.
    [41] 王玉梅,熊立红,许卫晓.芦山7.0级地震医疗建筑震害与启示[J].地震工程与工程振动, 2013, 33(4):44-53.
    [42] PLANNING C O O S H, DEVELOPMENT, AYRES, et al. Northridge earthquake hospital water damage study[M]. Office of Statewide Health Planning&Development, Division of Facilities Development, 1996. AYERS J M, PHILLIPS R. Northridge earthquake hospital water damage study[J]. Ayers Ezers Associates, Inc Los Angeles, California, 1996.
    [43] PERRONE D, CALVI P M, NASCIMBENE R, et al. Seismic performance of non-structural elements during the 2016 Central Italy earthquake[J]. Bulletin of Earthquake Engineering, 2018, 17(10):5655-5677.
    [44] 贺思维,曲哲,周惠蒙,等非结构构件抗震性能试验方法综述[J].土木工程学报, 2017, 50(9):16-27.
    [45] 尚庆学,李吉超,王涛.管线系统抗震性能研究方法综述[J].世界地震工程, 2018, 34(4):174-1781.
    [46] 尚庆学.管线系统抗震性能研究及易损性分析[D].哈尔滨:中国地震局工程力学研究所, 2019.
    [47] MYRTLE R C, MASRI S F, NIGBOR R L, et al. Classification and prioritization of essential systems in hospitals under extreme events[J]. Earthquake Spectra, 2005, 21(3):779-802.
    [48] NEBIL A, MIYAJIMA M, IKEMOTO T, et al. Damage analysis of health care facilities in the 2004 niigata-ken chuetsu earthquake[C]//proceedings of the Proceedings of the JSCE Earthquake Engineering Symposium. Japan Society of Civil Engineers, 2005.
    [49] MASI A, SANTARSIERO G, GALLIPOLI M R, et al. Performance of the health facilities during the 2012 Emilia (Italy) earthquake and analysis of the Mirandola hospital case study[J]. Bulletin of Earthquake Engineering, 2014, 12:2419-2443.
    [50] MIRANDA E, MOSQUEDA G, RETAMALES R, et al. Performance of nonstructural components during the 27 February 2010 Chile earthquake[J]. Earthquake Spectra, Earthquake Spectra, 2012, 28(S1):453-471.
    [51] PRICE H J, DE SORTIS A, SCHOTANUS M. Performance of the San Salvatore Regional Hospital in the 2009 L'Aquila Earthquake[J]. Earthquake Spectra, 2012, 28(1):239-256.
    [52] WANG D, DAI J, NING X. Shaking table tests of typical B-ultrasound model hospital room in a simulation of the Lushan earthquake[J]. Bulletin of the New Zealand Society for Earthquake Engineering, 2016, 49(1):116-124.
    [53] NIKFAR F, KONSTANTINIDIS D. Experimental study on the seismic response of equipment on wheels and casters in base-isolated hospitals[J/OL]. Journal of Structural Engineering, 2019, 145(3)[2023-12-14]. https://doi.org/10.1061/(ASCE) ST.1943-541X.0002266
    [54] LIU J, ZHAI C, YU P, et al. Experimental and numerical analysis of wheeled medical equipment with adjacent wall subjected to earthquakes[J/OL]. Journal of Building Engineering, 2023, 72[2023-12-14]. https://doi.org/10.1016/j.jobe.2023.106635.
    [55] KUO K C, SUZUKI Y, KATSURAGI S, et al. Shake table tests on clutter levels of typical medicine shelves and contents subjected to earthquakes[J]. Earthquake Engineering Structural Dynamics, Earthquake engineering structural dynamics, 2011, 40(12):1367-1386.
    [56] SHANG Q, LI J, DU C, et al. Seismic fragility analysis of freestanding hospital cabinets based on shaking table tests[J]. Journal of Earthquake Engineering, 2023, 27(8):1993-2012.
    [57] DI SARNO L, MAGLIULO G, D'ANGELA D, et al. Experimental assessment of the seismic performance of hospital cabinets using shake table testing[J]. Earthquake Engineering Structural Dynamics, 2019, 48(1):103-123.
    [58] KONSTANTINIDIS D, MAKRIS N. Experimental and analytical studies on the response of freestanding laboratory equipment to earthquake shaking[J]. Earthquake Engineering&Structural Dynamics, 2009, 38(6):827-848.
    [59] HUTCHINSON T C, CHAUDHURI S R. Bench-shelf system dynamic characteristics and their effects on equipment and contents[J]. Earthquake Engineering Structural Dynamics, Earthquake Engineering Structural Dynamics, 2006, 35(13):1631-1651.
    [60] NIKFAR F, KONSTANTINIDIS D. Shake table investigation on the seismic performance of hospital equipment supported on wheels/casters[J]. Earthquake Engineering Structural Dynamics, 2017, 46(2):243-266.
    [61] MOSQUEDA G, RETAMALES R, FILIATRAULT A, et al. Testing facility for experimental evaluation of non-structural components under full-scale floor motions[J]. The Structural Design of Tall Special Buildings, 2009, 18(4):387-404.
    [62] SATO E, FURUKAWA S, KAKEHI A, et al. Full-scale shaking table test for examination of safety and functionality of base-isolated medical facilities[J]. Earthquake Engineering Structural Dynamics, 2011, 40(13):1435-1453.
    [63] PANTOLI E, CHEN M C, WANG X, et al. Full-scale structural and nonstructural building system performance during earthquakes:Part II-NCS damage states[J]. Earthquake Spectra, 2016, 32(2):771-794.
    [64] MORALES E, FILIATRAULT A, AREF A. Seismic floor isolation using recycled tires for essential buildings in developing countries[J]. Bulletin of Earthquake Engineering, 2018, 16(12):6299-6333.
    [65] PELLECCHIA D, LO FEUDO S, VAIANA N, et al. A procedure to model and design elastomeric-based isolation systems for the seismic protection of rocking art objects[J]. Computer-Aided Civil Infrastructure Engineering, 2022, 37(10):1298-1315.
    [66] DESTRO BISOL G, DEJONG M, LIBERATORE D, et al. Analysis of seismically-isolated two-block systems using a multi-rocking-body dynamic model[J]. Computer-Aided Civil Infrastructure Engineering, 2023, 38(12):1583-1604.
    [67] CHAI J, LIN F. Seismic retrofit and shaking table test of medical equipment in a hospital[C]//Proceedings of the Ninth Pacific Conference on Earthquake Engineering Building an Earthquake-Resilient Society. Auckland, New Zealand, 2011:14-16. CHAI J, LIN F. Seismic retrofit and shaking table test of medical equipment in a hospital; proceedings of the Proceedings of the Ninth Pacific Conference on Earthquake Engineering Building an Earthquake-Resilient Society, F, 2011[C].
    [68] COMERIO M C, STALLMEYER J C. Laboratory equipment:estimating losses and mitigation costs[J]. Earthquake Spectra, 2003, 19(4):779-797.
    [69] COMERIO M C, STALLMEYER J. Nonstructural loss estimation:the UC Berkerly case study[M]. Berkeley:Pacific Earthquake Engineering Research Center, 2001.
    [70] PETRONE C, DI SARNO L, MAGLIULO G, et al. Numerical modelling and fragility assessment of typical freestanding building contents[J]. Bulletin of Earthquake Engineering, 2017, 15:1609-1633.
    [71] YU P, ZHAI C, LIU J, et al. Shake table tests for the seismic performance assessment of desktop medical laboratory equipment considering the effect of adjacent walls and restrainers[C]//Proceedings of the Structures. Elsevier, 2023.
    [72] 尚庆学.医疗系统抗震韧性评价方法研究[D].哈尔滨:中国地震局工程力学研究所, 2022.
    [73] WORLD HEALTH O, PAN AMERICAN HEALTH O. Hospital safety index:guide for evaluators[M]. 2nd ed. Geneva:World Health Organization, 2015.
    [74] MOJTAHEDI M, SUNINDIJO R Y, LESTARI F, et al. Developing hospital emergency and disaster management index using TOPSIS method Developing hospital emergency and disaster management index using TOPSIS method[J]. Sustainability, 2021, 13(9):5213.
    [75] SUNINDIJO R Y, LESTARI F, WIJAYA O. Hospital safety index:assessing the readiness and resiliency of hospitals in Indonesia[J]. Facilities, 2020, 38(1/2):39-51.
    [76] CRUZ-VEGA F, ELIZONDO-ARGUETA S, SÁNCHEZ-ECHEVERRÍA J C, et al. Hospitals of the Mexican Institute of Social Security in the Face of September 2017 earthquakes:analysis from the perspective of the safe hospital program[J]. Gaceta Medica de Mexico, Gac Med Mex, 2018, 154:575-581.
    [77] LUKE J, FRANKLIN R C, DYSON J, et al. Building toward a disaster resilient health system:a study of hospital resilience[J/OL]. Disaster Med Public Health Prep, 2022, 17[2023-12-14]. https://doi.org.10.1017/dmp.2022.204.
    [78] ZHONG S, HOU X Y, CLARK M, et al. Disaster resilience in tertiary hospitals:a cross-sectional survey in Shandong Province, China[M]//International Disaster Health Care. Apple Academic Press, 2017:63-96. ZHONG S, HOU X Y, CLARK M, et al. Disaster resilience in tertiary hospitals:a cross-sectional survey in Shandong Province, China[J]. BMC Health Services Research, 2014.
    [79] ZHONG S, CLARK M, HOU X Y, et al. Development of key indicators of hospital resilience:a modified Delphi study[J]. Journal of Health Services Research&Policy, J Health Serv Res Policy, 2015, 20(2):74-82. ZHONG S, CLARK M, HOU X Y, et al. Development of key indicators of hospital resilience:a modified Delphi study[J]. J Health Serv Res Policy, 2015, 20(2):74-82.
    [80] ZHONG S, CLARK M, HOU X Y, et al. Validation of a framework for measuring hospital disaster resilience using factor analysis[J]. International Journal of Environmental Research and Public Health, 2014, 11(6):6335-6353.
    [81] CIMELLARO G P, MALAVISI M, MAHIN S. Factor analysis to evaluate hospital resilience[J/OL]. ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A:Civil Engineering, 2018, 4(1)[2023-12-14]. https://doi.org/10.1061/AJRUA6.0000952.
    [82] FALLAH-ALIABADI S, OSTADTAGHIZADEH A, ARDALAN A, et al. Towards developing a model for the evaluation of hospital disaster resilience:a systematic review[J]. BMC Health Services Research, BMC Health Serv Res, 2020, 20(1):1-11.
    [83] 尚庆学,李吉超,王涛.医疗系统抗震韧性评估指标体系[J].工程力学, 2019, 36(增刊1):106-110.
    [84] CIMELLARO G P, REINHORN A M, BRUNEAU M. Framework for analytical quantification of disaster resilience[J]. Engineering Structures, Eng Struct, 2010, 32(11):3639-3649.
    [85] YU P, ZHAI C, LIU J, et al. Resilience assessment methods for hospitals subjected to earthquakes:State of the art[J]. Earthquake Engineering and Resilience, 2022, 1(1):40-59.
    [86] LEE W S, GROSH D L, TILLMAN F A, et al. Fault tree analysis, methods, and applications:review[J]. IEEE Transactions on Reliability, 1985, R-34(3):194-203.
    [87] MAHADEVAN S, ZHANG R, SMITH N. Bayesian networks for system reliability reassessment[J]. Structural Safety, 2001, 23(3):231-251.
    [88] YOUANCE S, NOLLET M J, MCCLURE G. Effect of critical sub-system failures on the post-earthquake functionality of buildings:A case study for Montral hospitals[J]. Canadian Journal of Civil Engineering, Can J Civ Eng, 2016, 43(10):929-942.
    [89] LUPOI A, CAVALIERI F, FRANCHIN P. Probabilistic seismic assessment of health-care systems at regional scale[C]//proceedings of The 15WCEE-15th World Conference on Earthquake Engineering. Rome, Italy:2012.
    [90] HASSAN E M, MAHMOUD H. Full functionality and recovery assessment framework for a hospital subjected to a scenario earthquake event[J]. Engineering Structures, 2019, 188:165-177.
    [91] LUPOI A, CAVALIERI F, FRANCHIN P. Component fragilities and system performance of health care facilities[M]//SYNER-G:Typology Definition and Fragility Functions for Physical Elements at Seismic Risk:Buildings, Lifelines, Transportation Networks and Critical Facilities. Dordrecht:Springer Netherlands, 2013:357-384.
    [92] MINIATI R, CAPONE P, HOSSER D. Decision support system for rapid seismic risk mitigation of hospital systems. Comparison between models and countries[J]. International Journal of Disaster Risk Reduction, International Journal of Disaster Risk Reduction, 2014(9):12-25.
    [93] SHANG Q, WANG T, LI J. Seismic resilience assessment of emergency departments based on the state tree method[J/OL]. Structural Safety, 2020, 85:101944[2023-12-14]. https://doi.org/10.1016/j.strusafe.2020.101944.
    [94] YU P, WEN W, JI D, et al. A Framework to Assess the Seismic Resilience of Urban Hospitals[J]. Advances in Civil Engineering, 2019, 2019:1-11.
    [95] WILSON A G, HUZURBAZAR A V. Bayesian networks for multilevel system reliability[J]. Reliability Engineering&System Safety, 2007, 92(10):1413-1420.
    [96] PRZYTULA K W, THOMPSON D. Construction of Bayesian networks for diagnostics[C]//2000 IEEE Aerospace Conference Proceedings (Cat No 00TH8484), IEEE. Montana, USA:2000.
    [97] KHAKZAD N, KHAN F, AMYOTTE P. Safety analysis in process facilities:comparison of fault tree and Bayesian network approaches[J]. Reliability Engineering&System Safety, Reliab Eng Syst Saf, 2011, 96(8):925-932.
    [98] BOBBIO A, PORTINALE L, MINICHINO M, et al. Improving the analysis of dependable systems by mapping fault trees into Bayesian networks[J]. Reliability Engineering&System Safety, 2001, 71(3):249-260.
    [99] LIU J, ZHAI C, YU P. A probabilistic framework to evaluate seismic resilience of hospital buildings using bayesian networks[J]. Reliability Engineering&System Safety, 2022,226:226-241.
    [100] PEI S, ZHAI C, HU J, et al. Seismic functionality of healthcare network considering traffic congestion and hospital malfunctioning:A medical accessibility approach[J]. International Journal of Disaster Risk Reduction, 2023:97-117.
    [101] MALAVISI M, CIMELLARO G P, TERZIC V, et al. Hospital Emergency Response Network for Mass Casualty Incidents[C]//Structures Congress 2015. Porland, Oregon:2015:1573-1584.
    [102] FAVIER P, POULOS A, VASQUEZ J A, et al. Seismic risk assessment of an emergency department of a chilean hospital using a patient-oriented performance model[J]. Earthquake Spectra, Earthq Spectra, 2019, 35(2):489-512.
    [103] TAKAHASHI A, ISHII N, KAWASHIMA T, et al. Assessment of medical response capacity in the time of disaster:the estimated formula of Hospital Treatment Capacity (HTC), the maximum receivable number of patients in hospital[J]. The Kobe Journal of Medical Sciences, The Kobe Journal of Medical Sciences, 2007, 53(5):189-198.
    [104] 住房和城乡建设部标准定额研究所.城市工程系统抗震韧性评价导则:RISN-TG041-2022[S].北京:中国建筑工业出版社, 2022.
    [105] MINIATI R, IASIO C. Methodology for rapid seismic risk assessment of health structures:case study of the hospital system in Florence, Italy[J]. International Journal of Disaster Risk Reduction, 2012, 2:16-24.
    [106] 李在上.基于混合建模的医疗系统地震韧性定量评估与提升方法[D].北京:清华大学, 2022.
    [107] MACAL C M, NORTH M J. Tutorial on agent-based modeling and simulation[C]//proceedings of the Proceedings of the Winter Simulation Conference. IEEE, 2005.
    [108] 赵军平,杨宏桥,郭华源,等.基于Multi-Agent的医院系统建模仿真方法研究[J].生物医学工程学杂志, 2010, 27(6):1346-1349.
    [109] STAINSBY H, TABOADA M, LUQUE E. Towards an agent-based simulation of hospital emergency departments[C]//proceedings of the 2009 IEEE International Conference on Services Computing, IEEE, 2009.
    [110] 汪云峰.基于空间认知智能体的医院流线结构评价[J].系统仿真学报, 2019, 31(2):181-188.
    [111] TABOADA M, CABRERA E, IGLESIAS M L, et al. An agent-based decision support system for hospitals emergency departments[J]. Procedia Computer Science, 2011, 4:1870-1879.
    [112] KAUSHAL A, ZHAO Y, PENG Q, et al. Evaluation of fast track strategies using agent-based simulation modeling to reduce waiting time in a hospital emergency department[J]. Socio-Economic Planning Sciences, 2015, 50:18-31.
    [113] GUNAL M M. A guide for building hospital simulation models[J]. Health Systems, 2012, 1(1):17-25.
    [114] ZHANG X. Application of discrete event simulation in health care:a systematic review[J]. BMC Health Services Research, 2018, 18(1):1-11.
    [115] GUL M, GUNERI A F. A comprehensive review of emergency department simulation applications for normal and disaster conditions[J]. Computers&Industrial Engineering, 2015, 83:327-344.
    [116] CHANG A Y, OGBUOJI O, ATUN R, et al. Dynamic modeling approaches to characterize the functioning of health systems:a systematic review of the literature[J]. Social Science Medicine, 2017, 194:160-167.
    [117] LUBYANSKY A. A system dynamics model of health care surge capacity[C]//Proceedings of the 23rd International Conference of the System Dynamics Society. Boston, USA:2005.
    [118] CASSETTARI L, ORFEO A, ROLANDO F, et al. A system dynamics study of an emergency department impact on the management of hospital's surgery activities[C]//Special Session on Health Applications. Reykjavík, Iceland:2013., F, 2013[C]. SCITEPRESS.
    [119] HIRSCH G B. Modeling the consequences of major incidents for health care systems[C]//proceedings of the 22nd International Conference of the System Dynamics Society. Oxford, England:2004.
    [120] ARBOLEDA C A, ABRAHAM D M, LUBITZ R J J O P O C F. Simulation as a tool to assess the vulnerability of the operation of a health care facility[J]. Journal of Performance of Constructed Facilities, 2007, 21(4):302-312.
    [121] KHANMOHAMMADI S, FARAHMAND H, KASHANI H. A system dynamics approach to the seismic resilience enhancement of hospitals[J]. International Journal of Disaster Risk Reduction, Int J Disaster Risk Reduct, 2018, 31:220-233.
    [122] LI Z, LI N, CIMELLARO G P, et al. System dynamics modeling-based approach for assessing seismic resilience of hospitals methodology and a case in China[J]. Journal of Management in Engineering, 2020, 36(5):04020050.
    [123] SHANG Q, WANG T, LI J. A quantitative framework to evaluate the seismic resilience of hospital systems[J]. Journal of Earthquake Engineering, 2020, 26(7):3364-3388.
    [124] PREZ JIMNEZ F J, MORILLAS L. Effect of the Importance factor on the seismic performance of health facilities in medium seismicity regions[J]. Journal of Earthquake Engineering, 2019, 26(1):546-562.
    [125] MITRANI-REISER J, MAHONEY M, HOLMES W T, et al. A functional loss assessment of a hospital system in the bio-bio province[J]. Earthquake Spectra, 2012, 28(S1):473-502.
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  • 收稿日期:  2023-12-14
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