[1] 中央网络安全和信息化委员会."十四五"国家信息化规划[S].中共中央网络安全和信息化委员会办公室, 2021.(The Central Cyberspace Affairs Commission. The 14th FiveYear Plan for National Informatization[S]. Office of the Central Cyberspace Affairs Commission, 2021.)
[2] 樊舒.基于复杂网络的应急情报系统案例知识库构建与应用研究[J].情报杂志, 2022, 41(1):39-44.(FAN S. The construction and application of cases base and knowledge base in emergency intelligence system based on complex networks[J]. Journal of intelligence, 2022, 41(1):39-44.)
[3] 国务院办公厅.国家突发公共事件总体预案[S].中华人民共国国务院, 2005.(General Office of the State Council. National Master Plan for Public Emergencies[S]. The State Council of the People's Republic of China, 2005.)
[4] NI W, SHEN Q, LIU T, et al. Generating textual emergency plans for unconventional emergencies:a natural language processing approach[J]. Safety science, 2023, 160:106047.
[5] 王文靖,时训先,李晖,等.基于"事件-任务-角色-资源"的应急预案编制技术研究[J].中国安全生产科学技术, 2018, 14(5):75-81.(WANG W J, SHI X X, LI H, et al. Research on compiling technology of emergency plans based on "eventtask-role-resource"[J]. Journal of safety science and technology, 2018, 14(5):75-81.)
[6] BALOIAN N, FREZ J, PINO J A, et al. Technology support for collaborative preparation of emergency plans[J]. Sensors, 2019, 19(22):5040.
[7] YAN J, FAN Y, JING S. The research framework model of rapid assessment and emergency plan selection for urban flood disaster[J]. World journal of engineering and technology, 2017, 5(3):103-108.
[8] 王治莹,李勇建.行为决策对突发事件的干预机制及其预案启动策略研究[J].系统工程理论与实践, 2015, 35(7):1863-1870.(WANG Z Y, LI Y J. Intervention mechanism of behavioral decision-making on emergency and its starting strategy of contingency plan[J]. Systems engineering-theory&practice, 2015, 35(7):1863-1870.)
[9] ZHANG Z, YU Z, WENG W, et al. Study on the digitalization method of intelligent emergency plan of power system[C]//2020 International Conference on Artificial Intelligence and Computer Engineering. New York:IEEE, 2020:179-182.
[10] HUANG W, YANG J, ZHAO J, et al. Study on construction of emergency plan ontology model[J]. Information technology journal, 2012, 11(4):414-419.
[11] GU Y. Research and design on integrated management system of digitalized emergency preplan[C]//2011 international conference on advances in engineering. Amsterdam:Elsevier, 2011, 24:713-720.
[12] NI Z, RONG L, WANG N, CAO S. Knowledge model for emergency response based on contingency planning system of China[J]. International journal of information management, 2019, 46:10-22.
[13] 周义棋,刘畅,龙增,等.电网应急预案知识图谱构建方法与应用[J].中国安全生产科学技术, 2023, 19(1):5-13.(ZHOU Y Q, LIU C, LONG Z, et al. Construction method and application of knowledge graph in emergency plans for power grid[J]. Journal of safety science and technology, 2023, 19(1):5-13.)
[14] 董存祥,王文俊,杨鹏.应急预案体系本体模型(EPSOnto)及应用[J].计算机工程与应用, 2010, 46(10):235-238.(DONG C X, WANG W J, YANG P. Emergency Plan System Ontology and its application[J]. Computer engineering and applications, 2010, 46(10):235-238.)
[15] 王晰巍,王小天,李玥琪.重大突发事件网络舆情UGC的事理图谱构建研究——以自然灾害7·20河南暴雨为例[J].图书情报工作, 2022, 66(16):13-23.(WANG X W, WANG X T, LI Y Q. Research on the construction of the event evolution graph of UGC of network public opinions for major emergencies-taking the natural disaster 7·20 torrential rain in Henan as an example[J]. Library and information service, 2022, 66(16):13-23.)
[16] 王晰巍,王楠阿雪.数智驱动的重大突发事件应急情报管理:新机遇、新挑战、新趋势[J].图书情报工作, 2022, 66(16):4-12.(WANG X W, WANG N A X. Data intelligence-driven emergency information management of major emergencies:new opportunities, new challenges and new trends[J]. Library and information service, 2022, 66(16):4-12.)
[17] 张海涛,李佳玮,刘伟利,等.重大突发事件事理图谱构建研究[J].图书情报工作, 2021, 65(18):133-140.(ZHANG H T, LI J W, LIU W L, et al. Research on the construction of event knowledge graph of major emergencies[J]. Library and information service, 2021, 65(18):133-140.)
[18] 刘雅姝,栾宇,周红磊,等.基于事理图谱的重大突发事件动态演变研究[J].图书情报工作, 2022, 66(10):143-151.(LIU Y S, LUAN Y, ZHOU H L, et al. Research on the dynamic evolution of major emergencies based on event knowledge graph[J]. Library and information service, 2022, 66(10):143-151.)
[19] 栾宇,张海涛,庞宇飞,等.面向重大突发事件的智慧政府情报决策系统构建研究[J].情报理论与实践, 2023, 46(3):51-59.(LUAN Y, ZHANG H T, PANG Y F, et al. Research on the construction of intelligent government information decisionmaking system for major emergencies[J]. Information studies:theory&application, 2023, 46(3):51-59.)
[20] SUN J M, WANG Y H, ZHANG C L, et al. The design of emergency management plan library for urban fuel gas system using case-based reasoning method[C]//Proceedings of the 28th Chinese control and decision conference. New York:IEEE, 2016:6322-6327.
[21] LIANG J, XIE J, WANG X, et al. Research on the construction and application mode of digital plans for sudden water pollution events[J]. Processes, 2022, 10(5):833.
[22] 隋雷.应急平台预案库建设中需要加强的环节[J].科技信息, 2012(12):97-98.(SUI L. The link needs to be strengthened in the construction of emergency platform preplan database[J]. Science&technology information, 2012(12):97-98.)
[23] 王世文,刘劲.基于本体的重大突发事件网络舆情案例数据库数据模型研究[J].情报理论与实践, 2023, 46(10):163-173.(WANG S W, LIU J. Research on ontology-based data model of network public opinion case database for major emergencies[J]. Information studies:theory&application, 2023, 46(10):163-173.)
[24] 王世文,杨晨雁,刘劲,等.面向重大突发事件网络舆情的元数据框架研究[J].情报杂志, 2023, 42(11):105-112.(WANG S W, YANG C Y, LIU J, et al. Research on the metadata framework for network public opinion in major emergencies[J]. Journal of intelligence, 2023, 42(11):105-112.)
[25] 夏登友,郑策,陈昶霖,等.不完全信息下的重大事故应急决策方法研究[J].安全与环境学报, 2023, 23(5):1498-1504.(XIA D Y, ZHENG C, CHEN C L, et al. Research on emergency decision-making approach for major accidents under incomplete information[J]. Journal of safety and environment, 2023, 23(5):1498-1504.)
[26] 陈祖琴,苏新宁.基于情景划分的突发事件应急响应策略库构建方法[J].图书情报工作, 2014, 58(19):105-110.(CHEN Z Q, SU X N. The model of constructing emergency response strategy library by scenario division[J]. Library and information service, 2014, 58(19):105-110.)
[27] 陈甲华,鲍桂爽.核安保事件应急决策的情景库构建与情景匹配研究[J].南华大学学报(社会科学版), 2022, 23(6):1-9.(CHEN J H, BAO G S. Research on Scenario database construction and scenario matching for emergency decisionmaking of nuclear security incidents[J]. Journal of University of South China (social science edition), 2022, 23(6):1-9.)
[28] 张承伟,戴文超,李建伟,等.基于知识元的突发事件情景库研究[J].情报杂志, 2013, 32(8):159-164, 135.(ZHANG C W, DAI W C, LI J W, et al. On emergency scenario library based on knowledge element[J]. Journal of intelligence, 2013, 32(8):159-164, 135.)
[29] 夏正霖,夏登友.基于模糊规则推理的商业综合体火灾情景构建方法研究[J].中国安全生产科学技术, 2017, 13(10):75-79.(XIA Z L, XIA Y D. Study on scenario construction method of commercial complex fire based on fuzzy rule reasoning[J]. Journal of safety science and technology, 2017, 13(10):75-79.)
[30] BANNOUR W, MAALEL A, BEN G H. Emergency management case-based reasoning systems:a survey of recent developments[J]. Journal of experimental&theoretical artificial intelligence, 2023, 35(1):35-58.
[31] 张奕,卜凡亮.基于CBR与RBR的应急决策支持系统设计与实现[J].软件导刊, 2019, 18(2):55-59.(ZHANG Y, BU F L. Design and implementation of emergency decision support system based on CBR and RBR[J]. Software guide, 2019, 18(2):55-59.)
[32] 王傲然.基于本体的应急案例库系统的构建[J].计算机应用与软件, 2019, 36(1):330-333.(WANG A R. Construction of emergency case base system based on ontology[J]. Computer applications and software, 2019, 36(1):330-333.)
[33] XIE Z, PENG P, YANG M. The research on modeling of unconventional emergency decision making process under scenario evolution[C]//2019 IEEE 3rd information technology, networking, electronic and automation control conference. New York:IEEE, 2019:1517-1521.
[34] 张峰,韩燕波,陈欣,等.基于数字预案的应急处置流程构造方法[J].计算机集成制造系统, 2013, 19(8):1802-1809.(ZHANG F, HAN Y B, CHEN X, et al. Emergency response process construction based on digital plans[J]. Computer integrated manufacturing systems, 2013, 19(8):1802-1809.)
[35] SHAO J, LIANG C, LIU Y, et al. Relief demand forecasting based on intuitionistic fuzzy case-based reasoning[J]. Socioeconomic planning sciences, 2020, 74:100932.
[36] SLAM N, SLAMU W, WANG P. A case representation and similarity measurement model with experience-grounded semantics[J]. International journal of software engineering and knowledge engineering, 2020, 30(1):119-146.
[37] ZHANG K, LUO N, LI Y. STGA-CBR:a case-based reasoning method based on spatiotemporal trajectory similarity assessment[J]. IEEE access, 2020, 8:22378-22385.
[38] SUN J, DU J, HU J, et al. A case-based reasoning method with rank aggregation[J]. IOP conference series:materials science and engineering, 2018, 322(6):062023.
[39] 蔡胜胜,卜凡亮.基于案例推理和规则推理的公安突发事件辅助决策算法[J].计算机与现代化, 2019(9):7-11.(CAI S S, BU F L. An assistant decision-making algorithm for public security emergencies based on case-based reasoning and rulebased reasoning[J]. Computer and modernization, 2019(9):7-11.)
[40] 郭可新,张鹏.基于案例推理的地震灾害应急决策方法[J].中国人民警察大学学报, 2023, 39(6):61-65.(GUO K X, ZHANG P. Case-based reasoning research on earthquake emergency decision method[J]. Journal of China People's Police University, 2023, 39(6):61-65.)
[41] 樊舒.基于复杂网络的应急情报系统案例知识库构建与应用研究[J].情报杂志, 2022, 41(1):39-44.(FAN S. The construction and application of cases base and knowledge base in emergency intelligence system based on complex networks[J]. Journal of intelligence, 2022, 41(1):39-44.)
[42] 刘鹏.知识表示与处理[M].北京:电子工业出版社, 2021.(LIU P. Knowledge representation and processing[M]. Beijing:Publishing House of Electronics Industry, 2021.)
[43] 岳丽欣,刘文云.国内外领域本体构建方法的比较研究[J].情报理论与实践, 2016, 39(8):119-125.(YUE L X, LIU W Y. A comparative study of the construction method of domain ontology at home and abroad[J]. Information studies:theory&application, 2016, 39(8):119-125.)
[44] 朱文跃,刘宗田.基于事件本体的突发事件领域知识建模[J].计算机工程与应用, 2018, 54(21):148-155.(ZHU W Y, LIU Z T. Emergency domain knowledge modeling based on event ontology[J]. Computer engineering and applications, 2018, 54(21):148-155.)
[45] 仲秋雁,郭艳敏,王宁,等.基于知识元的非常规突发事件情景模型研究[J].情报科学, 2012, 30(1):115-120.(ZHONG Q Y, GUO Y M, WANG N, et al. Research on unconventional emergency scenario model based on knowledge element[J]. Information science, 2012, 30(1):115-120.)
[46] WANG D L, WAN K D, MA W X. Emergency decision-making model of environmental emergencies based on case-based reasoning method[J]. Journal of environmental management, 2020, 262:110382.
