1) counting directed tree
有向树计数
1.
It is given that general principles, in a sense of minimally counting directed trees, are proposed to select a root vertex of the directed tree.
有向树计数的大小,是影响线性网络拓扑分析运算效率的一个重要因素。
2) oriented subtrees
有向子树
3) directed tree
有向树
1.
Direct product generation of composite graph s directed tree set;
混合图有向树集直积生成
2.
A directed tree based approach for mining maximum frequent access patterns in Web logs;
一种基于有向树挖掘Web日志中最大频繁访问模式的方法
3.
The topological representation of a directed tree is proposed for an arbitrary k-order co-factor of an indefinite admittance matrix and the theorem of decomposition for generating the directed tree polynomial of a directed graph associated with an electrical network is given.
提出了不定导纳矩阵任意k阶余因式的有向树拓扑表示式;给出了通过混合分割产生有向树多项式的分解定理。
4) rooted directed tree
根有向树
1.
Gives an algorithm to find effective paths by using the rooted directed tree.
利用根有向树给出一个求有效路径的算法,从而得到一个计算多级互联网络可靠度的简捷方法。
5) directed rooted tree
有向根树
1.
The Rrotation graph of a hexagonal system is a directed rooted tree.
六角系统的R-旋转图是1棵有向根树,但冠状系统的R-旋转图是一个有向森林,其底图不一定连通。
2.
A directed rooted tree refers to a directed tree which has one vertex with out-degree 0 and all the other vertices with out-degree 1.
有向根树就是只有一个顶点的出度为0,其余顶点的出度均为1的有向树。
3.
defined the R-conception of the rotation, and with which they established a hierarchical structure on the set of perfect matchings of a cata-hexagonal system, which could be represented by a directed rooted tree, and was called the R-rotation graph.
1981年Ohkami等提出了R-旋转变换的概念,并由此变换建立了cata型六角系统的完美匹配集上的一种层次组织结构,它可用一个有向根树来表示,称它为该六角系统的R-旋转图。
6) directed k-hypertree
有向k超树
补充资料:各向同性和各向异性
物理性质可以在不同的方向进行测量。如果各个方向的测量结果是相同的,说明其物理性质与取向无关,就称为各向同性。如果物理性质和取向密切相关,不同取向的测量结果迥异,就称为各向异性。造成这种差别的内在因素是材料结构的对称性。在气体、液体或非晶态固体中,原子排列是混乱的,因而就各个方向而言,统计结果是等同的,所以其物理性质必然是各向同性的。而晶体中原子具有规则排列,结构上等同的方向只限于晶体对称性所决定的某些特定方向。所以一般而言,物理性质是各向异性的。例如, α-铁的磁化难易方向如图所示。铝的弹性模量E沿[111]最大(7700kgf/mm2),沿[100]最小(6400kgf/mm2)。对称性较低的晶体(如水晶、方解石)沿空间不同方向有不同的折射率。而非晶体(过冷液体),其折射率和弹性模量则是各向同性的。晶体的对称性很高时,某些物理性质(例如电导率等)会转变成各向同性。当物体是由许多位向紊乱无章的小单晶组成时,其表观物理性质是各向同性的。一般合金的强度就利用了这一点。倘若由于特殊加工使多晶体中的小单晶沿特定位向排列(例如金属的形变"织构"、定向生长的两相晶体混合物等),则虽然是多晶体其性能也会呈现各向异性。硅钢片就是这种性质的具体应用。
介于液体和固体之间的液晶,有的虽然分子的位置是无序的,但分子取向却是有序的。这样,它的物理性质也具有了各向异性。
介于液体和固体之间的液晶,有的虽然分子的位置是无序的,但分子取向却是有序的。这样,它的物理性质也具有了各向异性。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条