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机构地区:[1]苏州科技大学商学院,江苏苏州215009 [2]苏州大学商学院,江苏苏州215021
出 处:《计算机集成制造系统》2016年第7期1717-1725,共9页Computer Integrated Manufacturing Systems
基 金:国家自然科学基金资助项目(71071141z);教育部人文社会科学基金资助项目(13YJC630199)~~
摘 要:为有效实现多粒度复杂产品供应链的低碳设计,改进三角模糊数法和Hamming距离贴近度法,转换分析复杂产品供应链各责任主体的低碳需求。利用Euclidean距离法和逼近理想解法分别确定多粒度产品效用和碳足迹因子,推理低碳设计绩效,拣选低碳设计的目标产品粒度层次及生命功能周期。再构建矛盾矩阵描述主体低碳需求和低碳设计措施映射关系,借助工程参数和发明原理消除低碳设计技术冲突,提出低碳设计建议。通过液晶显示器实例证明,该方法有效提升了低碳设计的通用性,降低了不确定性。To realize supply chain low-carbon design of multi-granularity complex product,the triangular fuzzy number method and Hamming distance closeness method were improved to transform the low-carbon needs of main responsibility for supply chain.Euclidean distance method and TOPSIS method were used to obtain the multi-granularity product utility and the factor of carbon footprint.The granularity level and life cycle of low-carbon design product were selected by carbon design performance.Based on constructing of the main contradiction matrix which described mapping relationship of low-carbon needs and design measures,the technical conflict was eliminated by engineering parameters and invention principles,and the suggestions of low-carbon design was put forward.Through the example of liquid crystal display,the versatility of low-carbon design was increased effectively with proposed method,and the uncertainty was reduced.
分 类 号:TH166[机械工程—机械制造及自动化]
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