BIM技术在地震灾后重建房屋建筑工程造价控制方法中的研究
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摘要
基于系统动力学控制重建房屋造价结果时,缺乏对地震后建筑成本数据的归集和处理过程,无法深入控制各个成本环节,控制效果差。深入研究地震灾区灾后重建房屋建筑工程造价控制方法,采用引入BIM技术的重建房屋建筑工程造价控制模型,通过该模型对建筑工程的造价成本进行预算,依据预算结果使用BIM技术归集成本数据后使用BIM数据平台存储和控制归集后的成本数据。通过造价控制体系实现地震灾后重建房屋建筑工程造价的有效控制,并采用财务ERP系统把控每个成本环节,实现工程造价优化控制。实验结果显示,该研究方法预算造价值与实际造价值差距小,约为1 000元,并在控制所有费用后节省了原始预算造价费用的11.91%,说明该方法造价控制效果好,能够有效节约震后灾区重建房屋工程造价成本。
Methods based on system dynamics for controlling the cost of house reconstruction have poor control effects because they lack processes for the collection and processing of post-earthquake building cost data and cannot control cost links in depth. A method for the cost control of post-disaster housing reconstruction in earthquake disaster areas is studied, and the cost control model for building reconstruction based on BIM technology is introduced. The model can be used to budget the cost of construction projects. Based on the budget results, BIM technology is used to collect cost data, and the BIM data platform is then used to store and control the collected cost data. The cost of post-earthquake building reconstruction can be controlled effectively by using the cost control system, and the financial ERP system can be applied to control each cost link to optimize costs. Experimental results obtained by using the proposed method reveal a small gap of approximately 1 000 RMB between the budget cost and the actual construction cost. After controlling all costs, 11.91% of the original budget cost is saved. The proposed method has a good cost control effect and can effectively reduce the costs of building reconstruction projects in earthquake-stricken areas.
Methods based on system dynamics for controlling the cost of house reconstruction have poor control effects because they lack processes for the collection and processing of post-earthquake building cost data and cannot control cost links in depth. A method for the cost control of post-disaster housing reconstruction in earthquake disaster areas is studied, and the cost control model for building reconstruction based on BIM technology is introduced. The model can be used to budget the cost of construction projects. Based on the budget results, BIM technology is used to collect cost data, and the BIM data platform is then used to store and control the collected cost data. The cost of post-earthquake building reconstruction can be controlled effectively by using the cost control system, and the financial ERP system can be applied to control each cost link to optimize costs. Experimental results obtained by using the proposed method reveal a small gap of approximately 1 000 RMB between the budget cost and the actual construction cost. After controlling all costs, 11.91% of the original budget cost is saved. The proposed method has a good cost control effect and can effectively reduce the costs of building reconstruction projects in earthquake-stricken areas.
引文
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[14]孙潇.基于建筑信息模型技术的展览建筑过渡空间三维仿真系统设计[J].科学技术与工程,2018,18(22):216-221.SUN Xiao.Design of Three-dimensional Simulation System of Exhibition Building Transition Space Based on Building Information Modeling Technology[J].Science Technology and Engineering,2018,18(22):216-221.
[2]赵占军.BIM技术在施工阶段的成本控制管理[J].建筑技术,2016,47(6):567-570.ZHAO Zhanjun.Cost Control Management of BIM Technology in Construction Stage[J].Building Technology,2016,47(6):567-570.
[3]ZIMMERLING E,HFLINGER P J,SANDNER P G,et al.ASystem Framework for Gamified Cost Engineering[J].Information Systems Frontiers,2016,18(6):1-22.
[4]ZIMMERLING E,HFLINGER P J,SANDNER P G,et al.ASystem Framework for Gamified Cost Engineering[J].Information Systems Frontiers,2016,18(6):1063-1084.
[5]胡丹萍,陶学明.基于改进遗传算法的地震后重建工程造价模型改进设计[J].地震工程学报,2018,25(4):135-137.HU Danping,TAO Xueming.Improved Construction Cost Model for Post-earthquake Reconstruction Based on Improved Genetic Algorithm[J].China Earthquake Engineering Journal,2018,25(4):135-137.
[6]SHARMA M,SHARMA T,SAKPAL M.An Analytic Study and Implementation of Constructive System Engineering Cost Estimation Models[J].International Journal of Computer Applications,2016,135(6):4-7.
[7]吴继伟,梁兴文,朱汉波.FEMAP58新一代建筑抗震性能评估方法[J].地震工程与工程振动,2015,1(3):37-43.WU Jiwei,LIANG Xingwen,ZHU Hanbo.FEMAP58 New Generation Seismic Performance Evaluation Method for Buildings[J].Earthquake Engineering and Engineering Vibration,2015,1(3):37-43.
[8]申彤,闫维明,周大兴,等.超高层建筑施工塔吊的动力特性和地震响应规律[J].科学技术与工程,2017,17(27):255-262.SHEN Tong,YAN Weiming,ZHOU Daxing,et al.Seismic Response and Dynamic Characteristics of Cranes on High-rise Buildings[J].Science,Technology and Engineering,2017,17(27):255-262.
[9]ZHAO J,NING D.Reflection on the Development of Engineering Cost Consulting Business Under the New Normality[J].Journal of International Development,2015,27(2):155-169.
[10]杨理臣,卢宁,樊光洁,等.青海玉树7.1级地震灾后重建地区房屋地震易损性研究[J].地震工程学报,2016,38(2):314-318.YANG Lichen,LU Ning,FAN Guangjie,et al.The Analysis of Vulnerability of Reconstruction Buildings in the Area Stricken by Yushu 7.1Earthquake,Qinghai[J].China Earthquake Engineering Journal,2016,38(2):314-318.
[11]伍娇娇,刘霁.灾区震后重建中建筑工程造价快速评估技术研究[J].地震工程学报,2018,46(5):15-22.WU Jiaojiao,LIU Ji.Research on Rapid Evaluation Technology of Construction Engineering Cost in Post-earthquake Reconstruction in Disaster Area[J].China Earthquake Engineering Journal,2018,46(5):15-22.
[12]GUO S H,ZHU F L,XU L Y.Unknown Input Observer Design for Takagi-Sugeno Fuzzy Stochastic System[J].International Journal of Control,Automation and Systems,2015,13(4):1003-1009.
[13]陈永霞.建筑工程造价效益分配优化控制仿真[J].计算机仿真,2016,33(11):208-211.CHEN Yongxia.Construction Project Cost Benefit Allocation Optimization Control Simulation[J].Computer Simulation,2016,33(11):208-211.
[14]孙潇.基于建筑信息模型技术的展览建筑过渡空间三维仿真系统设计[J].科学技术与工程,2018,18(22):216-221.SUN Xiao.Design of Three-dimensional Simulation System of Exhibition Building Transition Space Based on Building Information Modeling Technology[J].Science Technology and Engineering,2018,18(22):216-221.
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