[1] 李俊梅,胡成,李炎锋,等.不同类型疏散通道人群密度对行走速度的影响研究[J].建筑科学,2014,30(8): 122-129. LI Junmei, HU Cheng, LI Yanfeng, et al. Influence of crow density on the movement speed on different egress paths[J]. Building Science,2014,30(8): 122-129. [2] 张青松,刘金兰,赵国敏,等.大型公共场所人群拥挤踩踏事故机理初探[J].自然灾害学报,2009,18(6): 81-86. ZHANG Qingsong, LIU Jinlan, ZHAO Guomin. Discussion on cause mechanism of crowd crushing and trampling accident in large scale public places [J]. Journal of Natural Disasters,2009,18(6): 81-86. [3] 刘晓芳,吝涛,郑千惠,等.城市街巷型公共空间人群聚集安全风险量化评估[J].中国安全科学学报,2016,26(12): 134-139. LIU Xiaofang, LIN Tao, ZHENG Qianhui, et al. Quantitative risk assessment of crowd safety in urban public space in street form[J]. China Safety Science Journal,2016,26(12): 134-139. [4] WIERINGA S. Planning safe pedestrian mass events: proposing a framework for mitigating risks of crowd disasters at mass events in the public urban space[D]. Delft: Delft University of Technology, 2015. [5] LIAN Liping, SONG Weiguo, RICHARD Y, et al. Long-range dependence and time-clustering behavior in pedestrian movement patterns in stampedes: the Love Parade case-study[J]. Physica a Statistical Mechanics & Its Applications, 2016, 469: 265-274. [6] 乔来明.体育赛场拥挤踩踏事故风险评估体系研究[J].武汉体育学院学报,2011,45(11): 43-47. QIAO Laiming. Risk assessment system of stampede accidents in sports stadiums[J]. Journal of Wuhan Institute of Physical Education, 2011,45(11): 43-47. [7] 刘莉媛.人群聚集体育比赛场所踩踏风险评估[J].灾害学,2018,33(3): 52-54. LIU Liyuan. Risk assessment of stampede in sports competition venues[J]. Journal of Catastrophology, 2018, 33(3): 52-54. [8] 刘箴,黄鹏.人行桥上突发事件下的人群恐慌行为模型研究[J].系统仿真学报,2012,24(9): 1 950-1 953. LIU Zhen, HUANG Peng. Study of panic behavior model for crowd on pedestrian bridge in emergent event[J]. Journal of System Simulation, 2012,24(9): 1 950-1 953. [9] YE Huan, SONG Zhigang. A simplified estimation of critical pedestrian number on lateral vibrating footbridge based on social force model[J]. Applied Mechanics & Materials, 2011, 99/100: 268-272. [10] 徐海秋. 山地城市阶梯路段行人交通特性研究[D]. 重庆: 重庆交通大学,2013. XU Haiqiu. Pedestrian traffic characteristics of ladder sections in mountain city[D]. Chongqing: Chongqing Jiaotong University, 2013. [11] 刘艳,汪彤,丁辉,等.地铁车站拥挤踩踏事故风险评价DEA模型研究[J].中国安全科学学报,2013,23(10): 100-104. LIU Yan, WANG Tong, DING Hui, et al. Research on risk assessment DEA model of crowd crushing and trampling accidents in subway stations[J]. China Safety Science Journal, 2013,23(10): 100-104. [12] 郭树祥,岳俊林,祝曦,等.铁路客运系统风险管理应用研究[J].中国安全科学学报,2018,28(增1): 172-177. GUO Shuxiang,YUE Junlin,ZHU Xi, et al. Application research on railway passenger safety system based on risk management[J]. China Safety Science Journal, 2018,28(S1): 172-177. [13] ALONSOMARROQUIN F, LOZANO C, RAMIREZGOMEZ A, et al. Simulation of counterflow pedestrian dynamics using spheropolygons[J]. Physical Review E Statistical Nonlinear & Soft Matter Physics, 2014, 90(6):063305. [14] 冯大鹏、马意翀. 河南濮阳县一小学发生踩踏事故 目前已致1人死亡20余人受伤[EB/OL]. [2017-03-22].http://news.cctv.com/special/hunancaita/shouye/. [15] 玫瑰金. 坐地铁的人儿你伤不起[N]. 检察日报, 2011-07-07(第5版). [16] 蔡牧夫. 开放型公共场所踩踏事件人群密度分析与风险预警研究及应用[D]. 广州:暨南大学,2017. CAI Mufu. The research and application of the crowd density analysis and risk early warning of stampedes occurred in open public places[D]. Guangzhou: Ji'nan University, 2017. |