改进模糊层次分析法在车间布局评价中的应用
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摘要
针对传统模糊层次分析法中指标层基于专家主观评价来构造的两两判断矩阵的一致性问题,提出了一种改进模糊层次分析法应用于车间布局评价中。建立了用于车间布局评价的指标体系,通过分析各层次的指标确立了各层次指标权重的确定方法,在指标层权重确定中引入专家权重系数,降低了因专家水平不同带来的偏差,跟传统的模糊层次分析法相比更加科学。通过以某物流设备零件生产车间为研究对象,验证了文中方法的可行性。
Aiming at the consistency problem of the two-two judgment matrix constructed by the expert subjective evaluation in the traditional fuzzy analytic hierarchy process, an improved fuzzy analytic hierarchy process evaluation method is proposed for the workshop layout design.An index system for evaluation of workshop layout was established. The method of assigning index weights was established by analyzing the index system points. The expert weight coefficient was introduced in the evaluation process, which reduced the deviation caused by different expert levels, and the traditional fuzzy analytic hierarchy analysis. The law is more scientific. The feasibility of this method is verified by taking a logistics equipment parts production workshop as the research object.
Aiming at the consistency problem of the two-two judgment matrix constructed by the expert subjective evaluation in the traditional fuzzy analytic hierarchy process, an improved fuzzy analytic hierarchy process evaluation method is proposed for the workshop layout design.An index system for evaluation of workshop layout was established. The method of assigning index weights was established by analyzing the index system points. The expert weight coefficient was introduced in the evaluation process, which reduced the deviation caused by different expert levels, and the traditional fuzzy analytic hierarchy analysis. The law is more scientific. The feasibility of this method is verified by taking a logistics equipment parts production workshop as the research object.
引文
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[2] Braglia M,Zanon S,Zavanella L.Layout design in dynamic environments;Strategies and quantitative in dices [J].INT J PROD RES,2003.
[3] L C Lin,G P Sharp.Application of the integrated framework for the plant layout evaluation problem[J].European Journal of Operational Research,1999,166(1):118-138.
[4] 楼少敏.模糊综合评判在可重构制造系统中的应用研究[J].组合机床与自动化加工技术,2002(4):32-34,37.
[5] 王少卫,李山,孙根正,等.数字化车间布局模糊层次评价方法研究[J].计算机仿真,2009,26(7):290-293.
[6] 任甲举,刘丹.基于改进模糊层次分析法的食品机械设计方案评价[J].机械设计与制造,2017(3):20-22,27.
[7] 李亮,龚光红,陈金磊,等.群模糊层次分析法的改进及应用[J].北京航空航天大学学报,2014,40(8):1116-1120.
[8] 骆正清,杨善林.层次分析法中几种标度的比较[J].系统工程理论与实践,2004(9):51-60.
[9] 方景芳,安迪,王晓龙.基于SLP的发电机车间布局规划与评价[J].机械制造,2016,54(8):94-97.
[2] Braglia M,Zanon S,Zavanella L.Layout design in dynamic environments;Strategies and quantitative in dices [J].INT J PROD RES,2003.
[3] L C Lin,G P Sharp.Application of the integrated framework for the plant layout evaluation problem[J].European Journal of Operational Research,1999,166(1):118-138.
[4] 楼少敏.模糊综合评判在可重构制造系统中的应用研究[J].组合机床与自动化加工技术,2002(4):32-34,37.
[5] 王少卫,李山,孙根正,等.数字化车间布局模糊层次评价方法研究[J].计算机仿真,2009,26(7):290-293.
[6] 任甲举,刘丹.基于改进模糊层次分析法的食品机械设计方案评价[J].机械设计与制造,2017(3):20-22,27.
[7] 李亮,龚光红,陈金磊,等.群模糊层次分析法的改进及应用[J].北京航空航天大学学报,2014,40(8):1116-1120.
[8] 骆正清,杨善林.层次分析法中几种标度的比较[J].系统工程理论与实践,2004(9):51-60.
[9] 方景芳,安迪,王晓龙.基于SLP的发电机车间布局规划与评价[J].机械制造,2016,54(8):94-97.
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