基于Matlab层次分析法的震后恢复重建项目质量评价研究
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摘要
以提高震后恢复重建项目质量评价的准确性,提出一种基于Matlab层次分析法的震后恢复重建项目质量评价体系。层次分析法是进行准确决策的一种有效方式,但在重建项目质量评价中,评价指标繁多,数据处理分析难度较大,单独应用层次分析法的计算效果欠佳。将层次分析法与Matlab软件相结合,并经过一些技术的处理,能在短时间内获取准确的分析结果,并建立一套新的评价指标,为震后恢复重建项目的快速评估提供一种新方法、新思路,本研究对提高震后恢复重建项目质量评价的智能化水平具有一定的参考意义。
To improve the accuracy of quality evaluation of post-earthquake recovery and reconstruction projects, this paper presents a quality evaluation system for post-earthquake recovery and reconstruction projects based on the Matlab analytic hierarchy process(AHP). AHP is an effective way to make an accurate decision, but the various indicators for the quality evaluation of reconstruction projects make the data process difficult, and the calculation effect is not good. In this paper, the AHP was combined with Matlab software to obtain accurate analysis results in short time, and a set of new evaluation indices was established. This study provides a new idea for the rapid evaluation of post-earthquake recovery and reconstruction projects, thus having certain reference significance for improving the intelligent level of quality evaluation of post-earthquake recovery and reconstruction projects.
To improve the accuracy of quality evaluation of post-earthquake recovery and reconstruction projects, this paper presents a quality evaluation system for post-earthquake recovery and reconstruction projects based on the Matlab analytic hierarchy process(AHP). AHP is an effective way to make an accurate decision, but the various indicators for the quality evaluation of reconstruction projects make the data process difficult, and the calculation effect is not good. In this paper, the AHP was combined with Matlab software to obtain accurate analysis results in short time, and a set of new evaluation indices was established. This study provides a new idea for the rapid evaluation of post-earthquake recovery and reconstruction projects, thus having certain reference significance for improving the intelligent level of quality evaluation of post-earthquake recovery and reconstruction projects.
引文
[1] 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,2018,40(5):1092-1097.WU Jiaojiao,LIU Ji.A Technique for the Rapid Assessment of Construction Costs in the Reconstruction of Post-Earthquake Disaster Areas[J].China Earthguake Engineering Journal,2018,40(5):1092-1097.
[2] 邱菀华.管理决策熵学及其应用[M].北京:中国电力出版社,2011.QIU Wanhua.Management Decision and Applied Entropy[M].Beijing:China Electric Power Publishing House,2011.
[3] 王毅,丁力,侯兴哲,等.基于层次分析法的加权力线窃电检测方法[J].科学技术与工程,2017,17(33):96-103.WANG Yi,DING Li,HOU Xingzhe,et al.Weighted LOF Stealing Detection Method Based on Analytic Hierarchy Process [J].Science Technology and Engineering,2017,17(33):96-103.
[4] 刘树林,汪子为,钟明航,等.基于Matlab的Boost变换器输出本安性能评价系统[J].煤炭学报,2017,42(增刊1):282-287.LIU Shulin,WANG Ziwei,ZHONG Minghang,et al.Evaluating System Based on Matlab for output-intrinsic Safety Performance of Boost Converter[J].Journal of China Coal Society,2017,42(Supp1):282-287.
[5] 张文.基于模糊数学的震后建筑火灾危险性评估模型研究[J].地震工程学报,2018,40(6):1372-1377.ZHANG Wen.A Model of Fire Risk Assessment of Post-earthquake Buildings Based on Fuzzy Mathematics[J].China Earthquake Engineering Journal,2018,40(6):1372-1377.
[6] 李国胜,华泽玺,苗轶如.基于MATLAB与VC++混合编程实现配电网重构算法[J].贵州大学学报(自然科学版),2012,29(3):51-54.LI Guosheng,HUA Zexi,MIAO Yiru.Algorithm of Distribution Network Reconfiguration Based on Mixed Programming of MATLAB and VC++[J].Journal of Guizhou University (Natural Sciences),2012,29(3):51-54.
[7] 王丽,王志祥.建筑工程绿色施工质量与环境成本分析[J].施工技术,2016,45(12):103-106.WANG Li,WANG Zhixiang.Analysis of Green Construction Quality and Environmental Cost in Construction Engineering[J].Construction Technology,2016,45(12):103-106.
[8] 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.Influence-factors Analysis of Post-earthquake Recovery and Reconstruction Based on ISM[J].Mathematics in Practice and Theory,2017,47(11):26-34.
[9] 华建兵,吴韬,蒋敏,等.大震下村镇建筑砌体结构的抗震性能数值分析[J].地震工程学报,2017,39(1):52-57.HUA Jianbing,WU Tao,JIANG Min,et al.Numerical Analysis of Seismic Behaviors of Masonry Structures in Village Buildings During Strong Earthquakes[J].China Earthquake Engineering Journal,2017,39(1)52-57.
[10] 黄建文,王东,张瑞,等.基于Euclid理论的震后恢复重建民用建筑工程质量评价[J].灾害学,2016,31(1):11-16.HUANG Jianwen,WANG Dong,ZHANG Rui,et al.Quality Evaluation for Post-earthquake Civil Building Reconstruction Based on Gray Euclid Theory[J].Journal of Catastrophology,2016,31(1):11-16.
[11] 史华.基于复杂网络的建筑物强震下抗毁性估计模型[J].地震工程学报,2017,39(6):1024-1028.SHI Hua.Invulnerability Estimation Model of Buildings with Complex Networks under Strong Earthauakes[J].China Earthquake Engineering Journal,2017,39(6):1024-1028.
[12] 朱天曈,丁坚勇,郑旭.基于改进TOPSIS法和德尔菲:熵权综合权重法的电网规划方案综合决策方法[J].电力系统保护与控制,2018,46(12):91-99.ZHU Tiantong,DING Jianyong,ZHENG Xu.A Comprehensive Decision-Making Method for Power Network Planning Schemes Based on the Combination of the Improved TOPSIS Method with Delphi-Entropy Weight Method[J].Power System Protection and Control,2018,46(12):91-99.
[13] 吴育华,高荣.区间层次分析法—IAHP[J].天津大学学报,1995(5):700-705.WU Yuhua,GAO Rong.Interval Approach to Analysis of Hierarchy Process[J].Journal of Tianjin University (Science and Technology),1995(5):700-705.
[14] 赵宏.基于GA的BP神经网络在本安参数评定中的应用[J].自动化仪表,2011,32(4):29-3135.ZHAO Hong.Application of GA-based BP Neural Network in Parameter Assessment of Intrinsic Safety[J].Automation Instrumentation,2011,32(4):29-31,35.
[15] 刘淑金,朱国庆,张磊.基于Matlab层次分析法的建筑火灾人员安全疏散系统研究[J].安全与环境工程,2014,21(4):110-114.LIU Shujin,ZHU Guoqing,ZHANG Lei.Research on the Personnel Evacation System for Building Fire Based on Matlab AHP[J].Safety and Environmental Engineering,2014,21(4):110-114.
[2] 邱菀华.管理决策熵学及其应用[M].北京:中国电力出版社,2011.QIU Wanhua.Management Decision and Applied Entropy[M].Beijing:China Electric Power Publishing House,2011.
[3] 王毅,丁力,侯兴哲,等.基于层次分析法的加权力线窃电检测方法[J].科学技术与工程,2017,17(33):96-103.WANG Yi,DING Li,HOU Xingzhe,et al.Weighted LOF Stealing Detection Method Based on Analytic Hierarchy Process [J].Science Technology and Engineering,2017,17(33):96-103.
[4] 刘树林,汪子为,钟明航,等.基于Matlab的Boost变换器输出本安性能评价系统[J].煤炭学报,2017,42(增刊1):282-287.LIU Shulin,WANG Ziwei,ZHONG Minghang,et al.Evaluating System Based on Matlab for output-intrinsic Safety Performance of Boost Converter[J].Journal of China Coal Society,2017,42(Supp1):282-287.
[5] 张文.基于模糊数学的震后建筑火灾危险性评估模型研究[J].地震工程学报,2018,40(6):1372-1377.ZHANG Wen.A Model of Fire Risk Assessment of Post-earthquake Buildings Based on Fuzzy Mathematics[J].China Earthquake Engineering Journal,2018,40(6):1372-1377.
[6] 李国胜,华泽玺,苗轶如.基于MATLAB与VC++混合编程实现配电网重构算法[J].贵州大学学报(自然科学版),2012,29(3):51-54.LI Guosheng,HUA Zexi,MIAO Yiru.Algorithm of Distribution Network Reconfiguration Based on Mixed Programming of MATLAB and VC++[J].Journal of Guizhou University (Natural Sciences),2012,29(3):51-54.
[7] 王丽,王志祥.建筑工程绿色施工质量与环境成本分析[J].施工技术,2016,45(12):103-106.WANG Li,WANG Zhixiang.Analysis of Green Construction Quality and Environmental Cost in Construction Engineering[J].Construction Technology,2016,45(12):103-106.
[8] 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.Influence-factors Analysis of Post-earthquake Recovery and Reconstruction Based on ISM[J].Mathematics in Practice and Theory,2017,47(11):26-34.
[9] 华建兵,吴韬,蒋敏,等.大震下村镇建筑砌体结构的抗震性能数值分析[J].地震工程学报,2017,39(1):52-57.HUA Jianbing,WU Tao,JIANG Min,et al.Numerical Analysis of Seismic Behaviors of Masonry Structures in Village Buildings During Strong Earthquakes[J].China Earthquake Engineering Journal,2017,39(1)52-57.
[10] 黄建文,王东,张瑞,等.基于Euclid理论的震后恢复重建民用建筑工程质量评价[J].灾害学,2016,31(1):11-16.HUANG Jianwen,WANG Dong,ZHANG Rui,et al.Quality Evaluation for Post-earthquake Civil Building Reconstruction Based on Gray Euclid Theory[J].Journal of Catastrophology,2016,31(1):11-16.
[11] 史华.基于复杂网络的建筑物强震下抗毁性估计模型[J].地震工程学报,2017,39(6):1024-1028.SHI Hua.Invulnerability Estimation Model of Buildings with Complex Networks under Strong Earthauakes[J].China Earthquake Engineering Journal,2017,39(6):1024-1028.
[12] 朱天曈,丁坚勇,郑旭.基于改进TOPSIS法和德尔菲:熵权综合权重法的电网规划方案综合决策方法[J].电力系统保护与控制,2018,46(12):91-99.ZHU Tiantong,DING Jianyong,ZHENG Xu.A Comprehensive Decision-Making Method for Power Network Planning Schemes Based on the Combination of the Improved TOPSIS Method with Delphi-Entropy Weight Method[J].Power System Protection and Control,2018,46(12):91-99.
[13] 吴育华,高荣.区间层次分析法—IAHP[J].天津大学学报,1995(5):700-705.WU Yuhua,GAO Rong.Interval Approach to Analysis of Hierarchy Process[J].Journal of Tianjin University (Science and Technology),1995(5):700-705.
[14] 赵宏.基于GA的BP神经网络在本安参数评定中的应用[J].自动化仪表,2011,32(4):29-3135.ZHAO Hong.Application of GA-based BP Neural Network in Parameter Assessment of Intrinsic Safety[J].Automation Instrumentation,2011,32(4):29-31,35.
[15] 刘淑金,朱国庆,张磊.基于Matlab层次分析法的建筑火灾人员安全疏散系统研究[J].安全与环境工程,2014,21(4):110-114.LIU Shujin,ZHU Guoqing,ZHANG Lei.Research on the Personnel Evacation System for Building Fire Based on Matlab AHP[J].Safety and Environmental Engineering,2014,21(4):110-114.
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