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PDF(5750 KB)
PDF(5750 KB)
智慧韧性城市建设框架体系及路径研究
Framework System and Path of Smart Resilient City Construction
在极端天气、突发事件频发的背景下,加强韧性城市和智慧城市融合建设,将全面提升城市抵抗力和恢复力,促进城市管理的现代化、数字化、规范化、可持续。智慧韧性城市指融合智慧城市建设中的新一代信息技术、调度系统,据此强化城市应对突发重大事件的全周期韧性能力。本文阐述了智慧韧性城市的内涵与发展价值,分析了开展智慧韧性城市建设面临的挑战;提出了智慧韧性城市建设的框架、生态、路径、评估指标,相对全面地阐明了领域发展要素及模式。研究建议,合理增加公共财政投入、提升基础设施建设水平,建立健全应急法律法规、完善社会治理体系,注重智能信息技术建设、追求科技赋能发展,发挥政府统筹作用、推进多元协作共治,以此驱动智慧韧性城市建设、支撑城市高质量发展。
In the context of extreme weather and frequent emergencies, strengthening the integration of resilient cities and smart cities will comprehensively enhance the resilience of cities and promote the modernization, digitalization, standardization, and sustainability of urban management. Smart resilient cities refer to integrating the new-generation information technology and dispatching systems of smart cities in city construction, thus to strengthen cities’ full-cycle resilience capacity to cope with major emergencies. This study elaborates the implication and development values of smart resilient cities, and analyses the challenges faced in smart resilient city construction. Moreover, it proposes a framework, ecology, pathways, and assessment indicators for smart resilient city construction, and clarifies the development elements and modes. Furthermore, we propose the following suggestions: (1) increasing public financial investment to upgrade infrastructure construction, (2) establishing sound emergency laws and regulations to improve social governance systems, (3) focusing on intelligent information technology construction to pursue technology-enabled development, and (4) playing a coordinating role of the government to promote multi-dimensional collaboration and governance, thereby driving the construction of smart resilient cities and supporting high-quality urban development.
智慧韧性城市 / 数字化转型 / 城市管理 / 韧性城市 / 智慧城市
smart resilient cities / digital transformation / city management / resilient city / smart city
| [1] |
中华人民共和国应急管理部 . 应急管理部发布2021年全国自然灾害基本情况 [EBOL]. 2022-01-23 [ 2022-08-24 ]. https: www.mem.gov.cnxwyjglbgzdt202201t20220123_407204.shtml .
|
| [2] |
北京市规划和自然资源委员会 . 首都功能核心区控制性详细规划街区层面 2018 年— 2035 年 [EBOL]. 2020-08-30 [ 2022-08-24 ]. http: tamgw.beijing.gov.cnzhengwugongkaizcwj202009t20200917_2063824.html .
|
| [3] |
中华人民共和国商务部 . 中共中央关于制定国民经济和社会发展第十四个五年规划和二〇三五年远景目标的建议 [EBOL]. 2020-11-04 [ 2022-08-24 ]. http: zhs.mofcom.gov.cnarticlezt_shisiwusubjectcc20210720210703176009.shtml .
|
| [4] |
Lin P H, Wang N Y, Ellingwood B R. A risk de-aggregation framework that relates community resilience goals to building performance objectives [J]. Sustainable and Resilient Infrastructure, 2016, 1(1/2): 1‒13.
|
| [5] |
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 .
|
| [6] |
夏楚瑜 , 董照樱子 , 陈彬 . 城市生态韧性时空变化及情景模拟研究——以杭州市为例 [J]. 生态学报 , 2022 , 42 1 : 116 ‒ 126 .
|
| [7] |
孙阳 , 张落成 , 姚士谋 . 基于社会生态系统视角的长三角地级城市韧性度评价 [J]. 中国人口·资源与环境 , 2017 , 27 8 : 151 ‒ 158 .
|
| [8] |
陈智乾 , 胡剑双 , 王华伟 . 韧性城市规划理念融入国土空间规划体系的思考 [J]. 规划师 , 2021 , 37 1 : 72 ‒ 76, 92 .
|
| [9] |
张明斗 , 吴庆帮 , 李维露 . 产业结构变迁、全要素生产率与城市经济韧性 [J]. 郑州大学学报哲学社会科学版 , 2021 , 54 6 : 51 ‒ 57 .
|
| [10] |
United Nations Office for Disaster Risk Reduction. 2009 UNISDR terminology on disaster risk reduction [EB/OL]. (2009-01-23)[2022-08-24]. https: //www.preventionweb.net/files/7817_UNISDRTerminologyEnglish.pdf.
|
| [11] |
师满江 , 曹琦 . 城乡规划视角下韧性理论研究进展及提升措施 [J]. 西部人居环境学刊 , 2019 , 34 6 : 32 ‒ 41 .
|
| [12] |
范维澄 . 以安全韧性城市建设推进公共安全治理现代化 [J]. 人民论坛·学术前沿 , 2022 Z 1 : 14 ‒ 24 .
|
| [13] |
郑艳 . 推动城市适应规划, 构建韧性城市——发达国家的案例与启示 [J]. 世界环境 , 2013 6 : 50 ‒ 53 .
|
| [14] |
曹莉萍 , 周冯琦 . 纽约弹性城市建设经验及其对上海的启示 [J]. 生态学报 , 2018 , 38 1 : 86 ‒ 95 .
|
| [15] |
Michael R B. A stronger, more resilient New York [R/OL]. (2013-06-11)[2022-08-24].https: //toolkit.climate.gov/reports/stronger-more-resilient-new-york.
|
| [16] |
Nickson A, Woolston H, Daniels J, et al. Managing risks and increasing resilience [R]. London: The Mayor´s Climate Change Adaptation Strategy, 2011.
|
| [17] |
Oregon Health Authority. Oregon climate and health resilience plan [EB/OL]. (2017-02-16)[2022-09-14]. https: //www.oregon.gov/oha/ph/HealthyEnvironments/climatechange/Pages/resilience-plan.aspx.
|
| [18] |
United Nations Office for Disaster Risk Reduction. Disaster resilience scorecard for cities [EB/OL]. (2017-01-15)[2022-09-14]. https: //www.undrr.org/publication/disaster-resilience-scorecard-cities.
|
| [19] |
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.
|
| [20] |
Alloso M I. City resilience profiling tool (CRPT) [EB/OL]. (2018-01-15)[2022-09-24]. https: //deathmarked.info/hq-and-office-affairs/city-resilience-profiling-tool-crpt.html.
|
| [21] |
European Commission Eu Science Hub. Geospatial risk and resilience assessment platform [EB/OL]. (2018-01-15)[2022-09-24]. https: //joint-research-centre.ec.europa.eu/geospatial-risk-and-resilience-assessment-platform-grrasp_en.
|
| [22] |
中华人民共和国中央人民政府 . 中共中央 国务院关于推进防灾减灾救灾体制机制改革的意见 [EBOL]. 2017-01-10 [ 2022-08-24 ]. http: www.gov.cnzhengce2017-0110content_5158595.htm .
|
| [23] |
中华人民共和国中央人民政府 . 关于推进城市安全发展的意见 [EBOL]. 2018-01-07 [ 2022-08-24 ]. http: www.gov.cnzhengce2018-0107content_5254181.htm .
|
| [24] |
中华人民共和国应急管理部 . 城市安全风险综合监测预警平台建设指南试行 [EBOL]. 2021-09-23 [ 2022-08-24 ]. https: www.mem.gov.cngkzfxxgkptfdzdgknr202110t20211009_399738.shtml .
|
| [25] |
中华人民共和国应急管理部 . 十四五国家综合防灾减灾规划 [EBOL]. 2022-06-19 [ 2022-08-24 ]. https: www.mem.gov.cngkzfxxgkptfdzdgknr202207t20220721_418698.shtml .
|
| [26] |
范维澄 . 构建智慧韧性城市的思考与建议 [J]. 中国建设信息化 , 2015 21 : 20 ‒ 21 .
|
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| 〈 |
|
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