China Safety Science Journal ›› 2023, Vol. 33 ›› Issue (3): 118-125.doi: 10.16265/j.cnki.issn1003-3033.2023.03.0712
Previous Articles Next Articles
YAN Jun1(), ZUO Zhe2,3,**(), WANG Yongzhu1, LIU Zhiqiang2,3, ZHANG Yuting2,3
Received:
2022-10-11
Revised:
2023-01-14
Online:
2023-03-28
Published:
2023-11-28
YAN Jun, ZUO Zhe, WANG Yongzhu, LIU Zhiqiang, ZHANG Yuting. Evaluation index system and index construction for urban safe development[J]. China Safety Science Journal, 2023, 33(3): 118-125.
Add to citation manager EndNote|Ris|BibTeX
URL: http://www.cssjj.com.cn/EN/10.16265/j.cnki.issn1003-3033.2023.03.0712
[1] |
徐锡伟, 王中根, 许冲, 等. 我国主要城市群自然灾害风险分析与防范对策[J]. 城市与减灾, 2021(6):1-6.
|
|
|
[2] |
|
[3] |
国务院. 中国落实2030年可持续发展议程国别方案[Z],2016-09-16.
|
[4] |
The United Nations Human Settlements Programme. New urban agenda: quito declaration on sustainable cities and human settlements for all[Z].2016-10-17.
|
[5] |
国务院. 中国落实2030年可持续发展议程进展报告(2019)[R], 2019.
|
[6] |
国务院. 中国落实2030年可持续发展议程进展报告(2021)[R], 2021.
|
[7] |
国务院. 关于推进城市安全发展的意见[Z],2018-01-07.
|
[8] |
约翰·H·霍兰. 隐秩序:适应性造就复杂性[M].周晓枚, 韩晖,译. 上海: 上海科技教育出版社, 2000:46-48.
|
|
|
[9] |
陈志端, 仇保兴, 陈鸿. 韧性城市系统韧健水平提升与强健模型研究:基于复杂适应系统理论(CAS)[J]. 城市发展研究, 2021, 28(8):1-9.
|
|
|
[10] |
刘春成. 城市隐秩序:复杂适应系统理论的城市应用[M]. 北京: 社会科学文献出版社, 2017: 38-47.
|
[11] |
王思成. 风险治理导向下滨海城市综合防灾规划路径研究[D]. 天津: 天津大学, 2020.
|
|
|
[12] |
仇保兴. “韧性”:未来城市设计的要点[J]. 未来城市设计与运营, 2022(1):7-14.
|
|
|
[13] |
邱爱军, 白玮, 关婧. 全球100韧性城市战略编制方法探索与创新:以四川省德阳市为例[J]. 城市发展研究, 2019, 26(2):38-44,73.
|
|
|
[14] |
张庆霞. 城市洪涝灾害治理的社会韧性研究[D]. 兰州: 兰州大学, 2021.
|
|
|
[15] |
李彤玥. 基于“暴露—敏感—适应”的城市脆弱性空间研究:以兰州市为例[J]. 经济地理, 2017, 37(3):86-95.
|
|
|
[16] |
杨佩国, 靳京, 赵东升, 等. 基于历史暴雨洪涝灾情数据的城市脆弱性定量研究:以北京市为例[J]. 地理科学, 2016, 36(5):733-741.
doi: 10.13249/j.cnki.sgs.2016.05.011 |
doi: 10.13249/j.cnki.sgs.2016.05.011 |
|
[17] |
|
[18] |
范维澄, 苗鸿雁, 袁亮, 等. 我国安全科学与工程学科“十四五”发展战略研究[J]. 中国科学基金, 2021, 35(6):864-870.
|
|
|
[19] |
范维澄. 安全韧性城市发展趋势[J]. 劳动保护, 2020(3):18-23.
|
[20] |
肖翠仙. 中国城市韧性综合评价研究[D]. 南昌: 江西财经大学, 2021.
|
|
|
[21] |
罗通元. 安全韧性学基本概念和理论体系探讨[J]. 安全与环境学报, 2022, 22(1):280-291.
|
|
|
[22] |
黄浪, 吴超, 杨冕, 等. 韧性理论在安全科学领域中的应用[J]. 中国安全科学学报, 2017, 27(3):1-6.
doi: 10.16265/j.cnki.issn1003-3033.2017.03.001 |
doi: 10.16265/j.cnki.issn1003-3033.2017.03.001 |
|
[23] |
ISO22300-2021, Security and resilience-vocabulary[S].
|
[24] |
The United Nations Statistical Commission. Global urban monitoring framework[R], 2022.
|
[25] |
国务院安委会办公室. 关于印发《国家安全发展示范城市评价细则(2019版)》的通知[Z].2019-11-28.
|
[26] |
黄浪, 吴超, 杨冕, 等. 韧性理论在安全科学领域中的应用[J]. 中国安全科学学报, 2017, 27(3):1-6.
doi: 10.16265/j.cnki.issn1003-3033.2017.03.001 |
doi: 10.16265/j.cnki.issn1003-3033.2017.03.001 |
|
[27] |
《中国减灾》编辑部. 2021年汛期:在考验中求索治理前路[J]. 中国减灾, 2021(17):14-22.
|
[1] | ZHOU Shijie, LIU Donghai, JIN Rui. Multi-evidence fusion comprehensive evaluation of importance of safety accident causation in hydropower project construction [J]. China Safety Science Journal, 2023, 33(3): 103-110. |
[2] | LIU Guangqian, GU Xiaobo. Storage safety evaluation of hazardous materials based on improved FAHP-Entropy method [J]. China Safety Science Journal, 2023, 33(3): 147-152. |
[3] | CHEN Chen, CHENG Jia, DOU Zhiping. Safety assessment of existing escalators and moving walks [J]. China Safety Science Journal, 2023, 33(2): 103-109. |
[4] | KE Lihua, MENG Yaoyao, YAO Nan, WANG Qihu, TANG Huaqian. Evaluation of goaf stability based on fuzzy statistical method [J]. China Safety Science Journal, 2023, 33(2): 59-67. |
[5] | ZHANG Yongliang, ZHENG Dawei. Durability assessment model of concrete bridge based on multi-evidence fusion under NRS [J]. China Safety Science Journal, 2023, 33(1): 169-176. |
[6] | WU Aizhi. Large-space virtual reality-based emergency drill training system for road transportation accidents of hazardous chemicals [J]. China Safety Science Journal, 2022, 32(S1): 189-196. |
[7] | ZHAO Hongxiang, LI Shaopeng, LIU Yazhao. Safety standard promotion of oil-hydrogen refueling station based on resilience theory [J]. China Safety Science Journal, 2022, 32(S1): 39-44. |
[8] | BIAN Binbin, HUANG Yuqing, LIU Zhijian, TIAN Xianmin, ZHANG Kai. Construction of safety evaluation index system based on double prevention mechanism [J]. China Safety Science Journal, 2022, 32(S1): 45-50. |
[9] | LUO Qirui, ZHANG Daowen, ZHOU Hua, PANG Shaorong, LI Xiaoyan, WANG Chaojian. Evaluation on driving scenarios for safety of intended functionality of intelligent vehicles [J]. China Safety Science Journal, 2022, 32(8): 140-145. |
[10] | CHEN Changhua, XU Shuaishuai, JIANG Yuxiang, YANG Xiaojie, XIONG Guanghui. Research on multi-factor-modified workload evaluation model of replenishment operation and its simulation [J]. China Safety Science Journal, 2022, 32(8): 201-207. |
[11] | XIE Quanmin, MA Wei, YANG Wendong. Design and implementation of SHM system for highway tunnels [J]. China Safety Science Journal, 2022, 32(7): 56-62. |
[12] | LI Jingqiang, FAN Tianchen. Safety inspection ability model of statutory self-inspection personnel in civil aviation [J]. China Safety Science Journal, 2022, 32(7): 7-13. |
[13] | CAO Yuan, YU Xiao, SUN Yongkui. Research on safety headway control of GTS based on intersection condition evaluation [J]. China Safety Science Journal, 2022, 32(6): 144-150. |
[14] | WANG Jianguang. POE assessment on rail traffic environment for barrier-free travels [J]. China Safety Science Journal, 2022, 32(6): 151-156. |
[15] | HUANG Yajiang, LI Shuquan, LI Yixin, ZHENG Han. Comprehensive evaluation on subway operation safety resilience based on DEMATEL-ISM-ANP [J]. China Safety Science Journal, 2022, 32(6): 171-177. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||