1) λ-fuzzy degree
λ-模糊度
1.
In this paper, the authors introduce the concepts of λ-fuzzy element set and λ-fuzzy generated set and establish the λ-fuzzy degree that can be used to measure the fuzziness of fuzzy set,and discuss the relation between the total mean fuzzy degree, demi-fuzzy degree and λ-fuzzy degree.
引入了λ-模糊因素集、λ-模糊生成集的概念,建立了度量模糊集的模糊性的λ-模糊度,讨论了全平均模糊度、次模糊度及λ-模糊度之间的关系。
2) λ fuzzy measures
λ模糊测度
1.
Multi-attribute decision making with variable weight and relationship based on λ fuzzy measures;
基于λ模糊测度的变权关联多属性决策分析
2.
Research on the relationships among the λ fuzzy measures,Mbius representation and interaction representation;
λ模糊测度及其Mbius变换和关联系数间关系的推导
3.
λ fuzzy measures are calculated based on given information of Shapley and λ values which was provided by decision makers.
考虑到指标间存在交互作用,研究基于λ模糊测度和R-WGA算子方法的课程教学质量评价方法。
3) λ-fuzzy measure
λ-模糊测度
4) λ-fuzzy Measures
λ-可加模糊测度
5) fuzzy λ-maps
模糊λ-映射
6) fuzzy A-homomorphisms
模糊λ-同态
补充资料:几何学模糊度
几何学模糊度
放射学术语。由X线管有效焦点大小,即由几何投影因素所产生的照片模拟、影像边界的不锐利程度,又称半影。几何学模糊度(Hf)是X线成像技术中影像模糊的最主要成因。几何模糊度与有效焦点(F)成正比,与物-片距(c)成正比,与靶-物距成反比。若用公式表示,几何学模糊度的值为:Hf=〓〓c〓〓b-c〓〓F(b代表靶-片距)。焦点的大小对产生影像半影的关系很大,用小焦点或微焦点可提高照片的清晰度。例如,放大摄影时C值增加,若用小焦点X线管投照则可弥补由于物-片距增加而增加的几何学模糊度。
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参考词条