1) vectors inner product inequation
向量内积不等式
1.
To solve this problem,mode storage structure and vectors inner product inequation are designed,the suitable storage allocating method and the I/O strategy are adopted.
针对已有的多数离群点检测算法存在扩展性差,不能有效应用于大数据集的问题,在已有的基于距离的离群点检测算法的基础上,设计模信息表存储结构,利用向量内积不等式关系以及合理的存储分配和调度策略,提出一种高效离群点检测算法DBoda。
2) bi-directional integral inequality
双向积分不等式
1.
On the basis of a fractional bi-directional integral inequality, this paper broadens and deepens Holder inequality, H·Minkowski inequality and Schlomilch inequality (power mean inequality) so that the research on them can be of greater depth and systematization.
利用一个分式型的双向积分不等式 ,将 H lder不等式、H。
3) reverse Hilbert's type integral inequality
反向积分不等式
4) vector Hanalay inequality
向量Hanalay不等式
5) vector trigonal inequality
向量三角不等式
1.
This paper offers several algorithms of vector,such as vector linear operation,vector trigonal inequality,vector scalar product,vector vectorial product and mixed product of vector to solve algebraic problems.
作为数学工具的向量有着广泛的应用,本文就初等代数方面,给出了如何利用向量的线性运算、向量三角不等式、向量数量积、向量向量积和向量混合积等解决问题,方法简明规范,且有利于培养学生的创造性思维能力。
6) vector variational inequality
向量变分不等式
1.
In this paper,we first establish an equivalence between a vector variational inequality problem and a generalized variational inequality problem.
文章首先建立了向量变分不等式与广义变分不等式之间的等价关系,然后利用这个结论,建立了向量变分不等式的Levitin-Polyak适定性与广义变分不等式的Levitin- Polyak适定性之间的等价关系。
2.
A class of generalized multi-valued vector variational inequality problem(in short GMVVIP) is studied in Hausdorff topological vector space.
研究了Hausdorff拓扑向量空间中一类广义多值向量变分不等式问题(GMVVIP),把定义在凸集上的GMVVIP部分地推广到了非凸集并运用KKM定理得到了这类GMVVIP解的存在性定理。
3.
By using the vector variational inequality related to radial epiderivative,we give a number of necessary and sufficient conditions for Henig efficiency,super efficiency and cone-super efficiency of set-valued optimization under the framework of locally convex topological vector spaces,which generalizes some known related results.
利用与仿射上导数相关的向量变分不等式的真有效性,对局部凸拓扑向量空间中的集值优化问题的Henig有效性、超有效性、锥超有效性等给出了一些充分、必要条件,从而推广了一些已知的相关结论。
补充资料:Harnack不等式(对偶Harnack不等式)
Harnack不等式(对偶Harnack不等式)
quality (dual Hatnack inequality) Harnack in-
【补注】一直到G的边界的H助nack不等式,见【AZI.l翻..‘不等式(对停H山丸朗k不等不)[ Har.改沁-勺函勺(d切红Hat’I犯‘k如为uaJ卿);rap.姗二p魄HcT助(月加湘oe)] 给出正调和函数的两个值之比u(x)/“(y)的上界和下界估计的一个不等式,由A.Hai,剐火(汇IJ)得到.令u)0是n维E议当d空间的区域G中的一个调和函数;令E。(y)是中心在点y处半径为;的球{x:}x一y!<;}.若闭包万了刃.CG,则对于所有的、“凡(,),o
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