基于ARIO模型的震后重建施工现场安全管理方法
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摘要
为提高受灾地区重建安全性,提出基于ARIO模型的震后重建施工现场安全管理方法。在将建筑设计影响因素划分为直接因素与间接因素的基础上,将ARIO模型引入震后重建施工现场安全管理中,利用其分析施工过程中各产业技术与该地区经济的联系,在考虑经济因素的基础上实现震后施工现场安全管理。设计并构建施工初期数据采集系统、施工前安全管理系统、施工过程中安全管理系统,将ARIO与VR结合,使各系统运行时施工人员能够在虚拟漫游中以第一视角完成虚拟施工,掌握整个工期、流程、所用设备等有关信息,并由辅助专家作出相应指导,实现震后重建施工现场安全系统化管理。提出施工安全辅助建议,以完善灾后重建安全管理方法。实验结果表明,该方法运行后安全系数大于当前方法,其科学性和鲁棒性较强。
To improve the safety of reconstruction in disaster-stricken areas,a safety management method for post-earthquake reconstruction site based on the ARIO model was proposed.On the basis of dividing the influencing factors of architectural design into direct factors and indirect factors,the ARIO model was introduced into the post-earthquake reconstruction site safety management,and was used to analyze the connection between various industrial technologies and the regional economy during the construction process.The initial data acquisition system,pre-construction safety management system,and safety management system during construction were designed and established.The ARIO model was combined with VR,so that the builders can complete the virtual construction in a virtual roaming system during the operation of each system andmaster relevant information such as construction period,process,and utilized equipment.Then the assisted experts can provide detailed guidance for the safe and systematic management of the reconstruction site after earthquake occurrence.The experimental results showed that the safety factor of this method exceeds that of the current method.Moreover,the method is highly scientific and robust.
To improve the safety of reconstruction in disaster-stricken areas,a safety management method for post-earthquake reconstruction site based on the ARIO model was proposed.On the basis of dividing the influencing factors of architectural design into direct factors and indirect factors,the ARIO model was introduced into the post-earthquake reconstruction site safety management,and was used to analyze the connection between various industrial technologies and the regional economy during the construction process.The initial data acquisition system,pre-construction safety management system,and safety management system during construction were designed and established.The ARIO model was combined with VR,so that the builders can complete the virtual construction in a virtual roaming system during the operation of each system andmaster relevant information such as construction period,process,and utilized equipment.Then the assisted experts can provide detailed guidance for the safe and systematic management of the reconstruction site after earthquake occurrence.The experimental results showed that the safety factor of this method exceeds that of the current method.Moreover,the method is highly scientific and robust.
引文
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[2]车高凤,刘红玫,柴少峰,等.甘肃岷县漳县MS6.6地震王家沟灾后重建场地滑坡危险性评价[J].地震工程学报,2016,38(增刊2):325-328.CHE Gaofeng,LIU Hongmei,CHAI Shaofeng,et al.Landslide Risk Assessment of Wangjiagou Post-earthquake Reconstruction Site after the Minxian-Zhangxian MS6.6Earthquake[J].China Earthquake Engineering Journal,2016,38(Supp2):325-328.
[3]杨月巧,郭继东,袁志祥.基于ISM的地震灾后恢复重建影响因素分析[J].数学的实践与认识,2017,47(11):26-34.YANG Yueqiao,GUO Jidong,YUAN Zhixiang.Influencefactors Analysis of Post-earthquake Recovery and Reconstruction Based on ISM[J].Mathematics in Practice and Theory,2017,47(11):26-34.
[4]汤家法,胥忞旻,张雅茜.北川震后重建居民点存在的问题与调控对策[J].山地学报,2016,34(2):242-248.TANG Jiafa,XU Minmin,ZHANG Yaxi.Some Problems and Its Adjustment Measures of Reconstructed Settlements after Earthquake in Beichuan[J].Journal of Mountain Science,2016,34(2):242-248.
[5]张加庆.基于大数据的地震损失价值评估模型设计[J].地震工程学报,2018,40(2):356-362.ZHANG Jiaqing.Design of Earthquake Loss Value Evaluation Model Based on Big Data[J].China Earthquake Engineering Journal,2018,40(2):356-362.
[6]张宪洲,王小丹,高清竹,等.开展高寒退化生态系统恢复与重建技术研究,助力西藏生态安全屏障保护与建设[J].生态学报,2016,36(22):7083-7087.ZHANG Xianzhou,WANG Xiaodan,GAO Qingzhu,et al.Research in Ecological Restoration and Reconstruction Technology for Degraded Alpine Ecosystem,Boosting the Protection and Construction of Ecological Security Barrier in Tibet[J].Acta Ecologica Sinica,2016,36(22):7083-7087.
[7]孟继慧,牟奕欣,胡炜.丰满水电站重建工程碾压混凝土坝施工质量实时监控系统应用与分析[J].水利水电技术,2016,47(6):103-106.MENG Jihui,MU Yixin,HU Wei.Application and Analysis of Real-time Monitoring System for Construction Quality of RCCDam of Fengman Hydropower Station Reconstruction Project[J].Water Resources and Hydropower Engineering,2016,47(6):103-106.
[8]马时强.中小学灾后重建施工技术若干问题的讨论[J].四川建筑科学研究,2016,42(3):136-139.MA Shiqiang.Discussion on Several Problems of Construction Technology in Primary and Secondary Schools Disaster Reconstruction[J].Sichuan Building Science,2016,42(3):136-139.
[9]刘英,高扬,王少元.5·12地震灾后学校体育设施重建及利用研究[J].成都体育学院学报,2016,42(5):65-70.LIU Ying,GAO Yang,WANG Shaoyuan.Study on the Reconstruction and Utilization of School Sports Facilities after the5·12Earthquake[J].Journal of Chengdu Sport University,2016,42(5):65-70.
[10]谭斯颖.中国模式的灾后重建:精英化的景观改造实践---以汶川地震灾后重建为例[J].城市发展研究,2016,23(11):39-44.TAN Siying.Post Disaster Reconstruction in China:the Landscape Recreate by Elites:Case Studies in Wenchuan Earthquake[J].Urban Development Studies,2016,23(11):39-44.
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