semigroup method
英
美
网络 半群法
双语例句
- By a system of linear equations on multiplicative semigroup, we present a general mathematical method to solve the inverse lattice problems in physics.
用乘法半群上的线性方程组来求解晶体原子间对势反演的逆问题.这种方法是解决此类问题的一般性方法。 - The Application of Semigroup Method in Transpiration Control Problem
半群方法在发汗控制问题中的应用 - In the third chapter, we analyze the global attractor of Hopfield reaction-diffusion neural networks with time-varying delays using the semigroup theory of operators, the inequality skills and the imbedding method in Sobolev space.
第三章利用算子半群理论,不等式技巧以及Sobolev空间的嵌入方法分析了如下的变时滞Hopfield反应扩散方程的全局吸引子。 - Results concerning the existence, uniqueness, approximability of the minimum-norm control of the transpiration ablation system are presented by using operator semigroup theory and the method of geometry in Hilbert Space.
通过应用算子半群理论和Hilbert空间的几何方法,得到了系统的最小范数控制的存在性、唯一性和可逼近性的结果。 - In this paper, based on the relation between normal subgroup and congruence, another depiction of normal series power semigroup is given from the angles of congruence by the method of analogy.
首先在正规子群与同余的关系的基础上,采用类比的方法,从同余的角度给出了群的正规列幂半群的另一种刻画。 - To verify the necessary compactness of semigroup, in Chapter 4 we develop a new method to prove asymptotic compactness which seems tailored for hyperbolic equations.
为了验证必要的紧性条件,我们在第四章给出了一种特别适用于验证半线性波方程所诱导的半群或过程的渐近紧性的新方法。 - A new kind of semigroup, left ( right) strongly π-inverse semigroup is defined, the least group congruence on a left ( right) strongly π inverse semigroup is characterized by method of the idempotents means.
定义了一种新的左(右)强π-逆半群,利用幂等元方法给出了左(右)强π-逆半群的一个最小群同余。 - Semigroup Method in Combinatorics on Words
字的组合的半群方法 - This paper offers a characterization of the minimum group congruence on strongly π-inverse semigroup by using the method of localization and gives several forms of the minimum group congruence.
用局部化方法刻划了强π-逆半群上最小群同余,给出了最小群同余的几种表现形式。 - By virtue of nonlinear semigroup theory, energy-perturbed approach and exponential multiplier method, we show that the vibration of the beam under the proposed control action decays exponentially or in negative power of time t as t →∞.
首先利用非线性半群理论和能量摄动方法,证明了文中所给出的非线性耗散边界反馈控制可以镇定闭环系统的能量,并导出了闭环系统的能量的衰减速度。