基于水利工程施工进度方案优化研究
|
摘要
文章参阅了大量国内外文献资料,将模糊集理论与灰色关联理论以及折衷解理论进行融合,构建出了灰色多准则决策模模型,可以解决多准则群决策问题。使用改进的GRA-XIKOR方法对模糊信息群体决策的属性和决策权重进行了探索,通过转化权重语言变量为梯形模糊数来进行求解,并对各个决策者的群体效益值和个人遗憾值进行聚合处理。通过折衷解来对工程施工进度进行排序,从而找寻出最优组织方案。灰色多准则决策模模型的建立,有效的解决了工程信息数据的储存管理,避免数据信息出现误差,保证了决策数据信息的正确性和完备性。为此,文章以某水利工程施工进度方案为研究案例,对模型的实用性进行证明,以便为施工人员制定出科学的施工方案奠定研究依据。
By integrating the fuzzy set theory with grey correlation theory and eclectic solution theory,the grey multi-criteria decision model is constructed,which can solve the problems about multi-criteria group decision. The improved GRA-XIKOR method is used to research the property and decision weight of fuzzy information group decision,the weighted language variables are transformed as trapezoid fuzzy numbers to solve the problem,and the group benefit value and individual regret value of each decision maker are aggregated. By using the eclectic solution,the project construction schedule is sorted,and optimal organization scheme is found. The establishment of grey multi-criteria decision model can solve effectively the storage management of project information data and avoid errors from data information,which guarantees the correctness and completeness of data of decision-making. For this purpose,the construction schedule scheme of a water conservancy project as the researched case,the practicability of model is proved,so as to provide accordance for construction staff to carry out the scientific construction scheme.
By integrating the fuzzy set theory with grey correlation theory and eclectic solution theory,the grey multi-criteria decision model is constructed,which can solve the problems about multi-criteria group decision. The improved GRA-XIKOR method is used to research the property and decision weight of fuzzy information group decision,the weighted language variables are transformed as trapezoid fuzzy numbers to solve the problem,and the group benefit value and individual regret value of each decision maker are aggregated. By using the eclectic solution,the project construction schedule is sorted,and optimal organization scheme is found. The establishment of grey multi-criteria decision model can solve effectively the storage management of project information data and avoid errors from data information,which guarantees the correctness and completeness of data of decision-making. For this purpose,the construction schedule scheme of a water conservancy project as the researched case,the practicability of model is proved,so as to provide accordance for construction staff to carry out the scientific construction scheme.
引文
[1]王仁超,王帅,苏贝.基于区间直觉模糊 AHP 法的大坝浇筑方案选取[J].工程管理学报,2018,32(02):136-140.
[2]Chiclana F,Herrera-Viedma E.Intergrating three representation models in fuzzy multipurpose decision making based on fuzzy preference relations[J].Fuzzy Sets and Systems,1998,97(01):33-48.
[3]Ruspini E H.Fuzzy multiple attribute decision making:A review and new preference elicitation techniques[J].Fuzzy Set and Systems,1996,78(02):155-181.
[4]常建娥,蒋太立.层次分析法确定权重的研究[J].武汉理工大学学报:信息与管理工程版,2007(01):57-62.
[5]刘锋,魏光辉.基于灰色关联的水利工程方案模糊优选[J].水力发电学报,2012,31(01):10-14.
[6]付永强.灰色关联模糊聚类法的研究及应用[D].西安:西安建筑科技大学,2014.
[7]魏丹.基于三角模糊数层次分析法的地铁施工风险评价指标体系研究[J].建筑安全,2017,32(02):17 -19.
[8]吴云星.一种基于梯形模糊相似度量的风险投资评估方法[J].北京信息科技大学学报:自然科学版,2015,30(05):93-96.
[9]元云丽.基于模糊层次分析法(FAHP)的水利建设工程项目风险管理研究[D].重庆:重庆大学,2013.
[10]韦钢,刘佳,张鑫,等.配电网规划方案的综合决策[J].电力系统及其自动化学报,2009,21(03):36-40.
[11]姜丽,吴有坤.水利枢纽工程水土流失影响指数研究[J].水土保持应用技术,2016(02):6-8.
[12]杨昕馨.水利工程档案管理工作刍议[J].水利技术监督,2013(01):64-65.
[13]季琳.关于小型水利工程管理的思考[J].中国水能及电气化,2013(11):16-19.
[14]石增福.水利工程建设质量控制与优化管理措施探讨[J].水利规划与设计,2016(12):9-10+98.
[15]R.P Yager[J].A procedure for ordering fuzzy subsets of the unit interval,Information Sciences,2009,12(24):143-161.
[2]Chiclana F,Herrera-Viedma E.Intergrating three representation models in fuzzy multipurpose decision making based on fuzzy preference relations[J].Fuzzy Sets and Systems,1998,97(01):33-48.
[3]Ruspini E H.Fuzzy multiple attribute decision making:A review and new preference elicitation techniques[J].Fuzzy Set and Systems,1996,78(02):155-181.
[4]常建娥,蒋太立.层次分析法确定权重的研究[J].武汉理工大学学报:信息与管理工程版,2007(01):57-62.
[5]刘锋,魏光辉.基于灰色关联的水利工程方案模糊优选[J].水力发电学报,2012,31(01):10-14.
[6]付永强.灰色关联模糊聚类法的研究及应用[D].西安:西安建筑科技大学,2014.
[7]魏丹.基于三角模糊数层次分析法的地铁施工风险评价指标体系研究[J].建筑安全,2017,32(02):17 -19.
[8]吴云星.一种基于梯形模糊相似度量的风险投资评估方法[J].北京信息科技大学学报:自然科学版,2015,30(05):93-96.
[9]元云丽.基于模糊层次分析法(FAHP)的水利建设工程项目风险管理研究[D].重庆:重庆大学,2013.
[10]韦钢,刘佳,张鑫,等.配电网规划方案的综合决策[J].电力系统及其自动化学报,2009,21(03):36-40.
[11]姜丽,吴有坤.水利枢纽工程水土流失影响指数研究[J].水土保持应用技术,2016(02):6-8.
[12]杨昕馨.水利工程档案管理工作刍议[J].水利技术监督,2013(01):64-65.
[13]季琳.关于小型水利工程管理的思考[J].中国水能及电气化,2013(11):16-19.
[14]石增福.水利工程建设质量控制与优化管理措施探讨[J].水利规划与设计,2016(12):9-10+98.
[15]R.P Yager[J].A procedure for ordering fuzzy subsets of the unit interval,Information Sciences,2009,12(24):143-161.