| 2,577 | 22 | 117 |
| 下载次数 | 被引频次 | 阅读次数 |
随着韧性思想在城市研究中的不断深入,韧性与城市设计中的众多要素产生了愈加紧密的联系。基础设施作为城市环境的物质性基础,在遭遇灾害时其坚固程度决定了市民能否安全转移撤退、救援能否开展,其承载的内容与韧性关联性强,因此关于基础设施韧性的研究也显得愈发重要。以“基础设施韧性”为主题开展的研究资料有限,但涵盖韧性思想的基础设施相关研究不乏先例,需要通过有效的途径提取相关研究的关键信息,从而提供深入开展基础设施韧性研究的线索。本文通过直接检索、特征迭代检索、数据迭代检索三种方式进行文献的拓展搜索,借助科学制图的方式,分析基础设施韧性研究目前的研究重点、薄弱环节和未来趋势,由此形成对基础设施韧性研究更为全面的认识。从目前的文献数量分布来看,现有研究主要关注于风险领域,包括风险的种类、风险评估、风险管理三方面;关于基础设施韧性的坚固性研究、恢复性研究、优化措施研究、效能评估研究等方面较为薄弱,而这些主题在未来的研究蓝图中具有较大的挖掘潜力。
Abstract:The idea of resilient city has become influential in the urban study area as the concept of resilience is gradually implicated in the urban design method. Infrastructure, the material basis of the urban environment, decides whether citizens can safely transfer and rescue can be carried out when the disaster happens, which has a strong relation to the resilience. There is limited research material on the theme, “infrastructural resilience”, but there are precedent study cases on infrastructures, which encompassed the idea of resilience. What we need to do is extract key information concerning the correlative research by effective means, thereby providing clues for further research on the resilience of infrastructures. Using mixed methods, including direct retrieval, feature iteration of retrieval and data iteration of retrieval to extend the search scope of literature, as well as scientific mapping method to explore the current research focus, weak point, and future trends of the infrastructural resilience research, this paper aims to form a more comprehensive understanding in the infrastructural resilience study. The existing research mainly focuses on risk, including risk types, risk assessment and risk management; studies on robustness,recovery, optimization measures and effectiveness evaluation of foundation toughness are relatively weak. And these themes above have great potentials in future research.
[1]SIAMBABALA B M,O'BRIEN G,O'KEEFE P,et al.Disaster resilience:a bounce back or bounce forward ability?[J].Local environment,2011,16(5):417-424.
[2]ALEXANDER D E.Resilience and disaster risk reduction:an etymological journey[J].Natural hazards and earth system sciences,2013,13(11):2707-2716.
[3]The World Bank.Building urban resilience:principles,tools,and practice[M].JHA A K,MINER T W,STANTON-GEDDES Z,eds.World Bank Publications,2013.
[4]GAY L F,SINHA S K.Resilience of civil infrastructure systems:literature review for improved asset management[J].International journal of critical infrastructures,2013,9(4):330-350.
[5]Civil Contingencies Secretariat CO.Keeping the country running:natural hazards and infrastructure[R].London,2010.
[6]HAIMES Y Y,CROWTHER K,HOROWITZ B M.Homeland security preparedness:balancing protection with resilience in emergent systems[J].Systems engineering,2008,11(4):287-308.
[7]Department of Homeland Security.National infrastructure protection plan:partnering to enhance protection and resiliency[M].Washington,D C,2009.
[8]United Nations Secretary.Resilient people,resilient planet:a future worth choosing[R].New York:United Nations,2012.
[9]CHANG S E,McDANIELS T,FOX J,et al.Toward disaster-resilient cities:characterizing resilience of infrastructure systems with expert judgments[J].Risk analysis,2014,34(3):416434.
[10]Office of the Press Secretary,The White House,Presidential Policy Directive-Critical infrastructure security and resilience[EB/OL].(2013-02-12)[2020-10-30].http://www.whitehouse.gov/the-press-office/2013/02/12/presidential-policy-directive-critical-infrastructure-security-and-resil.
[11]ALDERSON D L,BROWN G G,CARLYLE W M.Operational models of infrastructure resilience[J].Risk analysis,2015,35(4):562-586.
[12]DARKO A,CHAN A P C,HUO X,et al.A scientometric analysis and visualization of global green building research[J].Building and environment,2019,149:501-511.
[13]WUNI I Y,SHEN G Q P,OSEI-KYEI R.Scientometric review of global research trends on green buildings in construction journals from 1992 to2018[J].Energy and buildings,2019,190:69-85.
[14]ZHAO X,ZUO J,WU G,et al.A bibliometric review of green building research 2000-2016[J].Architectural science review,2019,62(1):74-88.
[15]OLAWUMI T O,CHAN D W M.A scientometric review of global research on sustainability and sustainable development[J].Journal of cleaner production,2018,183:231-250.
[16]ZHAO X.A scientometric review of global BIM research:analysis and visualization[J].Automation in construction,2017,80:37-47.
[17]WANG Z Y,LI G,LI C Y,et al.Research on the semantic-based co-word analysis[J].Scientometrics,2012,90(3):855-875.
[18]HAMILTON M C,LAMBERT J H,VALVERDE L J.Climate and related uncertainties influencing research and development priorities[J].ASCEASME Journal of risk and uncertainty in engineering systems,part a:civil engineering,2015,1(2):04015005.
[19]NOGAL M,O'CONNOR A,MARTINEZ-PASTOR B,et al.Novel probabilistic resilience assessment framework of transportation networks against extreme weather events[J].ASCE-ASME journal of risk and uncertainty in engineering systems,part a:civil engineering,2017,3(3):04017003.
[20]ZIO E.The future of risk assessment[J].Reliability engineering and system safety,2018,177:176-190.
[21]MASOOMI H,VAN DE LINDT J W.Restoration and functionality assessment of a community subjected to tornado hazard[J].Structure and infrastructure engineering,2018,14(3):275-291.
[22]PAGANO A,PLUCHINOTTA I,GIORDANO R,et al.Drinking water supply in resilient cities:notes from L'Aquila earthquake case study[J].Sustainable cities and society,2017,28:435-449.
[23]PANTELI M,PICKERING C,WILKINSON S,et al.Power system resilience to extreme weather:fragility modeling,probabilistic impact assessment,and adaptation measures[J].IEEE transactions on power systems,2017,32(5):3747-3757.
[24]GOMEZ C,BAKER J W.An optimization-based decision support framework for coupled pre-and post-earthquake infrastructure risk management[J].Structural safety,2019,77:1-9.
[25]HELM P.Risk and resilience:strategies for security[J].Civil engineering and environmental systems,2015,32:100-118.
[26]CROWTHER K G.Decentralized risk management for strategic preparedness of critical infrastructure through decomposition of the inoperability input-output model[J].International journ al of criticalinfrastructure protection,2008,1:53-67.
[27]KLEIN R J T,SMIT M I,GOOSEN H,et al.Resilience and vulnerability:coastal dynamics or Dutch dikes?[J].Geographical journal,1998,164(3):259-268.
[28]WEICHSELGARTNER J,BERTENS J.Natural disasters:acts of god,nature or society?on the social relation to natural hazards[J].Management information systems,2000(1):3-12.
[29]The United Nations International Strategy for Disaster Reduction.Hyogo framework for action 2005-2015:building the resilience of nations and communities to disasters[C].Geneva:UNISDR,2005.
[30]MANYENA S B.The concept of resilience revisited[J].Disasters,2006,30(4):433-450.
[31]BILLINGTON R,ALLAN R N.Reliability evaluation of engineering systems:concepts and techniques[M].London:Pitman Press,1983.
[32]MATTSSON L G,JENELIUS E.Vulnerability and resilience of transport systems-a discussion of recent research[J].Transportation research part a:policy and practice,2015,81:16-34.
[33]REHAK D,SENOVSKY P,SLIVKOVA S.Resilience of critical infrastructure elements and its main factors[J].Systems,2018,6(2):21.
[34]REHAK D,HROMADA M,Failures in a critical infrastructure system[M]//NAKAMURA T.System of system failures.Rijeka:IntechOpen,2018.
[35]FRANCIS R,BEKERA B.A metric and frameworks for resilience analysis of engineered and infrastructure systems[J].Reliability engineering and system safety,2014,121:90-103.
[36]VUGRIN E D,WARREN D E,EHLEN M A.A resilience assessment framework for infrastructure and economic systems:quantitative and qualitative resilience analysis of petrochemical supply chains to a hurricane[J].Process safety progress,2011,30(3):280-290.
[37]National Infrastructure Advisory Council.Critical infrastructure resilience final report and recommendations[R].Washington,DC:National Infrastructure Advisory Council,2009.
[38]JAYARAMAN V,CHANDRASEKHAR M G,RAO U R.Managing the natural disasters from space technology inputs[J].Acta astronautica,1997,40(2/8):291-325.
[39]OGIE R I,DUNN S,HOLDERNESS T,et al.Assessing the vulnerability of pumping stations to trash blockage in coastal mega-cities of developing nations[J].Sustainable cities and society,2017,28:53-66.
基本信息:
DOI:10.19830/j.upi.2020.399
中图分类号:G353.1;F283
引用信息:
[1]邬尚霖,刘少瑜.基础设施韧性的研究现状与发展趋势——基于国际文献综述的解析[J].国际城市规划,2023,38(02):31-38.DOI:10.19830/j.upi.2020.399.
基金信息:
广东省基础与应用基础研究基金联合基金青年基金项目(2019A1515110998); 佛山市智慧型陆海土工材料工程技术研究开发中心资助
2020-07-10
2020
2023-06-27
2023
4
2020-11-12
2020-11-12
2020-11-12