基于SLP和梯形模糊数的沥青热再生拌合站设施布置优化研究
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摘要
通过对现有厂拌热再生沥青拌合站的工艺过程及存在问题进行分析,将再生沥青拌合站进行有根据的单元细化,通过SLP方法对拌合厂进行定量的设施布置,得到若干可行的布置方案,同时建立梯形直觉模糊数决策模型进行方案的评价,梯形模糊数的表示可较全面地表达决策者对各方案的态度,有效减轻评价过程中权重确定的主观性,再对各比选方案进行量化分析评判,得到各方案的优劣排序,通过与现有拌合站的对比分析,证实布局优化方法的有效性,从而提供相对科学、有效的布置方案.
Based on the analysis of the process of asphalt mixing station of thermal regeneration,this paper divided the asphalt mixing station into several units.Through the SLP to the mixing station facilities layout,a number of possible layouts were got and selected and compared the schemes through establishing the Trapezoidal intuitionistic fuzzy model.The representation of trapezoidal fuzzy number can express the attitude of the decision maker in a more comprehensive way and effectively reduce the subjectivity of weight determination in the evaluation process.Through the quantitative analysis and evaluation of each alternative,the ranking of each scheme is obtained.By comparing with the existing mixing stations,the validity of the layout optimization method is proved,so as to provide a relatively scientific and effective layout scheme.
Based on the analysis of the process of asphalt mixing station of thermal regeneration,this paper divided the asphalt mixing station into several units.Through the SLP to the mixing station facilities layout,a number of possible layouts were got and selected and compared the schemes through establishing the Trapezoidal intuitionistic fuzzy model.The representation of trapezoidal fuzzy number can express the attitude of the decision maker in a more comprehensive way and effectively reduce the subjectivity of weight determination in the evaluation process.Through the quantitative analysis and evaluation of each alternative,the ranking of each scheme is obtained.By comparing with the existing mixing stations,the validity of the layout optimization method is proved,so as to provide a relatively scientific and effective layout scheme.
引文
[1]杨艳妮.外燃式混合料加热滚筒设计及热能利用研究[D].长安大学,2012.
[2]季晗豪.新型旧沥青混凝土回收料干燥加热装置设计[D].长沙理工大学,2013.
[3]Raman D,Gurd SVNBW.A genetic algorithm and queuing theory based methodology for facilities layout problem[J].International Journal of Production Research,2009,47(20):5611-5635.
[4]李易衡,吴中元,吕成功.基于SLP的热轧车间设施规划及仿真[J].东南大学学报(哲学社会科学版),2014(s1):102-108.
[5]薛顺,许志沛,洪浩,等.运用系统布置设计方法的生产设施布置设计[J].工业工程,2011,14(4):135-138.
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[7]张惠,李成松,成斌,等.小微型农机制造企业设施布置方法研究[J].农机化研究,2014(5):102-105.
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[9]牟琼,杨春德.一种基于梯形模糊数互补判断矩阵确定权重的方法[J].重庆邮电大学学报自然科学版,2006,18(6):809-812.
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[11]高岩,周德群,章玲.基于直觉梯形模糊数的关联变权多属性决策方法[J].系统工程,2011(5):102-107.
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[13]吴坚.一种新的梯形模糊数互补判断矩阵的排序方法[J].中国管理科学,2010,18(3):95-100.
[14]ShuM H,et al.Using intuitionostic fuzzy sets for fault tree analysis on printed circuit board assembly[J].Microelectronics Reliability,2006,46(12):2139-2148.
[15]王瑛,张璐,蒋晓东.EDW与梯形直觉模糊数结合的科技奖励评价[J].软科学,2014,28(10):121-124.
[16]陈晓红,胡文华,曹裕,等.基于梯形模糊数的分层多目标线性规划模型在多属性不确定决策问题中的应用[J].管理工程学报,2012,26(4):192-198.
[17]汪新凡,杨小娟.基于区间直觉梯形模糊数的群决策方法[J].湖南工业大学学报,2012,26(3):1-8.
[18]吴坚.一种新的梯形模糊数互补判断矩阵的排序方法[J].中国管理科学,2010,18(3):95-100.
[19]南江霞.梯形直觉模糊数排序方法及在多属性决策中应用[J].经济数学,2014(3):87-91.
[20]王坚强,张忠等.基于直觉梯形模糊数的信息不完全确定的多准则决策方法[J].控制与决策,2009,24(2):226-230.
[2]季晗豪.新型旧沥青混凝土回收料干燥加热装置设计[D].长沙理工大学,2013.
[3]Raman D,Gurd SVNBW.A genetic algorithm and queuing theory based methodology for facilities layout problem[J].International Journal of Production Research,2009,47(20):5611-5635.
[4]李易衡,吴中元,吕成功.基于SLP的热轧车间设施规划及仿真[J].东南大学学报(哲学社会科学版),2014(s1):102-108.
[5]薛顺,许志沛,洪浩,等.运用系统布置设计方法的生产设施布置设计[J].工业工程,2011,14(4):135-138.
[6]李琴,李泽蓉.某生产车间物流设施布置分析与设计[J].现代制造工程,2011(8):67-70.
[7]张惠,李成松,成斌,等.小微型农机制造企业设施布置方法研究[J].农机化研究,2014(5):102-105.
[8]Zilka M,Doubravsky F.A compromise ratio ranking method of triangular intuitionistic fuzzy numbers and its application to madm problems[J].Iranian Journal of Fuzzy Systems,2013,10(6):21-37.
[9]牟琼,杨春德.一种基于梯形模糊数互补判断矩阵确定权重的方法[J].重庆邮电大学学报自然科学版,2006,18(6):809-812.
[10]叶新苗.区间数互反判断矩阵权重与群决策方法研究[D].广西大学,2012.
[11]高岩,周德群,章玲.基于直觉梯形模糊数的关联变权多属性决策方法[J].系统工程,2011(5):102-107.
[12]万树平,董九英.多属性群决策的直觉梯形模糊数法[J].控制与决策,2010(5):773-776.
[13]吴坚.一种新的梯形模糊数互补判断矩阵的排序方法[J].中国管理科学,2010,18(3):95-100.
[14]ShuM H,et al.Using intuitionostic fuzzy sets for fault tree analysis on printed circuit board assembly[J].Microelectronics Reliability,2006,46(12):2139-2148.
[15]王瑛,张璐,蒋晓东.EDW与梯形直觉模糊数结合的科技奖励评价[J].软科学,2014,28(10):121-124.
[16]陈晓红,胡文华,曹裕,等.基于梯形模糊数的分层多目标线性规划模型在多属性不确定决策问题中的应用[J].管理工程学报,2012,26(4):192-198.
[17]汪新凡,杨小娟.基于区间直觉梯形模糊数的群决策方法[J].湖南工业大学学报,2012,26(3):1-8.
[18]吴坚.一种新的梯形模糊数互补判断矩阵的排序方法[J].中国管理科学,2010,18(3):95-100.
[19]南江霞.梯形直觉模糊数排序方法及在多属性决策中应用[J].经济数学,2014(3):87-91.
[20]王坚强,张忠等.基于直觉梯形模糊数的信息不完全确定的多准则决策方法[J].控制与决策,2009,24(2):226-230.
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