Structured matrices occur in many scientific and engineering applications, and structured matrix eigenvalue problems are widely used.
结构矩阵在很多领域出现,结构矩阵特征值问题有着非常广泛的应用。
The main problem considered in this paper is how to find efficiently a nonzero element in the kernel of a given structured matrix by the displacement approach.
研究如何应用位移秩的方法有效地求出一个给定的结构矩阵的核空间中的一个非零元素。
Some software implementation technology is adopted, such as object oriented programming technology, vector matrix encapsulation technology, structured storage and compound file technology, and so on.
采用了面向对象编程技术,向量、矩阵运算的封装技术,结构化存储与复合文档等软件实现技术。
It is also observed that all of the available sufficient conditions can be regarded as upper bounds of the structured singular value (SSV) of a related matrix.
发现现有的稳定性充分条件都可以被看作是某个矩阵的结构化奇异值(SSV)的上界。
We also derive the sufficient conditions of robust stability by rank-1 decomposition of the matrix under the assumption that uncertainty is matrix polytope structured uncertainty.
假设不确定性为矩阵多胞形结构不确定性,利用矩阵的秩- 1分解,得出系统鲁棒稳定的充分条件。
In this paper, backward errors for seven kinds of structured unitary matrix eigenvalue problems are discussed.
本文讨论了七类结构酉矩阵特征值问题的向后误差。
The paper analyzes a model of the line structured light sensor, and also derives imaging formulas by matrix transformation way.
分析了结构光传感器的模型,从矩阵变换的角度推导出了传感器的成像公式。
Fabrication of biomimetic laminated composite by mimicking the cyclical matrix control process to form the highly structured Mollusca nacre was presented in this paper.
以模拟软体动物珍珠层的周期性基质控制形成过程制备仿生层状复合材料。
Through AHP, the judgment matrix is structured and the weight of each factor is determined.
采用层次分析法,通过构造判断矩阵,确定各个因素的权重。
Ceramic matrix composites (CMCs) is one of newly developed thermal-structured materials. Self-joining of CMCs and its joining to metals become an important task to facilitate their application.
陶瓷基复合材料是一种新兴的热结构材料,解决其自身及其与金属的连接工艺,是实现其推广应用的重要课题之一。
By studying the application of sandwich-structured synthetic diamond core bits, following results are concluded: Matrix hardness can be HRC3-5 higher than that of similar ordinary ones;
通过对夹层结构金刚石钻头的应用研究发现,与同类普通金刚石钻头相比,该钻头的胎体配方硬度可以高HRC3~5;
By studying the application of sandwich-structured synthetic diamond core bits, following results are concluded: Matrix hardness can be HRC3-5 higher than that of similar ordinary ones;
通过对夹层结构金刚石钻头的应用研究发现,与同类普通金刚石钻头相比,该钻头的胎体配方硬度可以高HRC3~5;
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