计算机科学 ›› 2021, Vol. 48 ›› Issue (6A): 613-618.doi: 10.11896/jsjkx.201000136

• 交叉&应用 • 上一篇    下一篇

一种应急指挥系统的设计与实现

宁玉辉1, 姚喜2   

  1. 1 山东省人防指挥保障中心 济南250014
    2 山东省水利勘测设计院 济南250013
  • 出版日期:2021-06-10 发布日期:2021-06-17
  • 通讯作者: 宁玉辉(ningyuhui@163.com)
  • 基金资助:
    2019年山东省人民防空科研计划项目(2018RF001)

Design and Implementation of Emergency Command System

NING Yu-hui1, YAO Xi2   

  1. 1 Shandong Command and Security Center for Civil Air Defense,Jinan 250014,China
    2 Shandong Survey and Design Institute of Water Conservancy,Jinan 250013,China
  • Online:2021-06-10 Published:2021-06-17
  • About author:NING Yu-hui,born in 1981,Ph.D,senior engineer.His main research interests include design and application of computer software,command communication and emergency command equipment.
  • Supported by:
    Shandong Civil Air Defense Research Program 2019(2018RF001).

摘要: 当前,应急事件在社会中不时发生,应急指挥对于处理应急事件、稳定社会秩序具有一定意义。但应急事件发生的种类、时间、程度具有不特定性,应急指挥决策、施策难度相应加大,如何提高应急指挥系统的智能性成为了一项研究课题。鉴于此,文中给出了一种应急指挥系统的设计与实现方法。对系统应用架构、系统功能进行了设计;对系统数据库构成、基于即时通讯的指挥通信等技术进行了详细阐述;将Petri网引入系统建模,并进行了适应性修改,实现了智能化应急预案析出、应急资源调度策略生成等功能。最后,搭建了真实的实验环境,通过实验验证了所提方法的有效性和优越性。

关键词: Petri网, 即时通讯, 应急预案, 应急指挥, 资源调度

Abstract: At present,emergency events occur from time to time in the society.Emergency command has a certain significance for dealing with emergency events and stabilizing social order.However,the types,time and degree of emergency events are not specific,and the difficulty of emergency command decision-making and implementation is correspondingly increased.How to improve the intelligence of emergency command system has become a research topic.In view of this,this paper presents a design and implementation method of emergency command system.The system application architecture and system functions are designed.The system database structure,command and communication technology based on instant messaging are elaborated in detail.The Petri net is introduced into the system modeling,and adaptive modification is carried out to realize the intelligent emergency plan precipitation,emergency resource scheduling strategy generation.Finally,the experimental environment verifies the effectiveness and superiority of the proposed method.

Key words: Emergency command, Emergency plan, Instant communication, Petri net, Resource scheduling

中图分类号: 

  • TP311
[1] YANG W X,FAN K L,LEUNG L P.The practice and safety profile of endotracheal intubation in an emergency department:A single-center study in Shenzhen,China [J].HongKong Journal of Emergency Medicine,2020,27(6):428-433.
[2] ANTONIO C,SARA N,DEBORA S,et al.Impact of COVID-19 on the Pattern of Access to a Pediatric Emergency Department in the Lombardy Region,Italy [J].Pediatric Emergency Care,2020,36(10):213-225.
[3] WANG X M.Research on mobile model and emergency communication system of post-earthquake emergency rescue [D].DongHua University,2020.
[4] TIAN Y.Design andimplementation of Emergency Mobile Communication Command Platform [D].Tianjin:Tianjin University,2018.
[5] SHAO J W.An emergency command system based on scattering communication [D].Xidian University,2015.
[6] JAMIE M,JANETTE T,RICHARD J,et al.Using machine-learning risk prediction models to triage the acuity of undifferentiated patients entering the emergency care system:a systematic review[J].Diagnostic and Prognostic Research,2020(10):725-734.
[7] GE Y,WANG T,XU Y B.Assessment of emergency management capability based on gray analytic hierarchy process [J].Journal of Safety Science and Technology,2014,10(12):80-86.
[8] SHEN H Z.Emergency sequential group decision-making andsupport system for sudden critical events [M].Beijing:Science Press,2011:79-85.
[9] DU Y Y,JIANG C J,ZHOU M C.A Petri net-based model for verification ofobligations and accountability in cooperative systems [J].IEEE Transactions on Systems,Man,and Cybernetics,Part A:Systems and Humans,2009,39(2):299-308.
[10] HSIEH M C,WANG M Y,LEE W C,et al.Application ofHFACS,fuzzy TOPSIS,and AHP for identifying important human error factors in emergency departments in Taiwan[J].International Journal of Industrial Ergonomics,2018,67:171-179.
[11] OZDEMIRA,TUYSUZ F.An Integrated Fuzzy DEMATEL and Fuzzy ANP Based Balanced Scorecard Approach:Application in Turkish Higher Education Institutions[J].Journal of Multiple-Valued Logic & Soft Computing,2017,28:251-287.
[12] CHEN E Y,YUAN J H,LI Z W.Research on JSON-based sensor source trust evaluation model for Environmental monitoring [J].Journal of the Xi'an University of Technology,2020(7).
[13] DU Y Y,NING Y H,LIANG Q.Reachability analysis of Logic Petri Nets using incidence matrix [J].Enterprise Information Systems,2014,8(6):630-647.
[14] DU Y Y,NING Y H.Property analysis of Logic Petri Nets using reachable marking graphs [J].Frontiers of Computer Science in China,2014,8(4):684-692.
[15] ZHEN S Z,DENG Y F.Evaluation System of Urban Public Emergency Response Capability and its application [J].Journal of the Liaoning Technical University,2006,25(6):943-946.
[16] WANG W,CAO Y.Evaluation of Government Emergency Management Capability based on BP neural network [J].Research on Science and Technology Management,2018(10):117-125.
[18] YUAN S J,LIANG R W.PSO algorithm based emergency logistics vehicle scheduling [J].Logistics Technology,2019(7):339-346.
[19] WANG F.Research on crowd evacuation method and simulation based on BAS algorithm [D].Jinan:Shandong Normal University,2019.
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