查询词典 integrable function
- 与 integrable function 相关的网络例句 [注:此内容来源于网络,仅供参考]
-
It also gets a unified condition which has a wider range than regulated function and comes to the conclusion that the function of bounded variation is the integrable function of Riemann.
通过定义多维零测度集将可积函数的特征扩展到多维情形,同样统一了多维情形的充分条件,建立了多维情形的可积性理论。
-
By getting Lebesgue characteristic of integrable function of Riemann from the definition of Gather zero measure, discussing the relation between almost continuous everywhere and existent of limit, it gets the theory which is from the function integrability to the consecution and from consecution to the limit existence .i.e. the almost limit existence is equal to the almost continuous everywhere in the integrable function of Riemann. It also gets a unified condition which has a wider range than regulated function and comes to the conclusion that the function of bounded variation is the integrable function of Riemann.
通过定义零测度集给出了可积函数的特征,讨论了其几乎处处连续与极限存在的关系,从而得到了从函数可积性到连续性,从连续性到极限存在性的函数特性理论,即可积函数中极限的几乎处处存在与几乎处处连续是等价的,得出比正规函数更加宽泛的统一条件,得出了有界变差函数是可积函数的结论。
-
The paper states the distinctions between Riemann integral and Lebesgue integral from the aspects of the definition of integral,the continuity of integrable function,the additivity of integral,integral limitation theorems and Newton-Leibnitz formula.
从积分的定义,可积函数的连续性,积分的可加性,积分极限定理,牛顿-莱布尼兹公式五个方面阐述了黎曼积分与勒贝格积分的区别。
-
By getting Lebesgue characteristic of integrable function of Riemann from the definition of gather zero measure, it discusses the relation between almost continuous everywhere and existent of limit, and gets that the almost continuous everywhere is equal to the almost limit existence everywhere in the integrable function of Riemann.
通过定义零测度集给出了可积函数的特征,讨论了其几乎处处连续与极限存在的关系,即可积函数中几乎处处连续与极限的几乎处处存在是等价的,得出了比正规函数更加广泛的统一条件,得出了有界变差函数是可积函数的结论。
-
In the second part, we give the definition of Loeb measure space ofσ- finite measure space, discuss its properties; Then the Loeb measure space of image measure has been constructed; Finally, the definition of Loeb counting measure is given, by which, a construction of Lebesgue measure has been given, and discuss some simple properties of Lebesgue measurable and integrable function.
在第二部分里,首先给出σ-有限测度空间的Loeb测度空间的定义,讨论该空间上的一些简单性质;接着讨论了像测度的Loeb测度的构造及其性质;随后定义了L(来源:A14BC论文网www.abclunwen.com)oeb计数测度,并用Loeb计数测度给出Lebesgue测度的一种构造形式,同时讨论了Lebesgue可测和可积函数的一些简单性质。
-
Gives three definitions for Omega definite integral for a real number function and three integrable function classes;Ⅻ.
精确陈述和严格证明了被称之为牛顿-莱布尼茨的公式,并将它改进为欧弥伽公式。
-
Any integrable function can be the in put signal for identification and convenient realization of recursive algorithm make the method especially suitable
实现方便及辨识精度高等优点;任何可积函数均可作为辨识输入信号及辨识过程可由递推算法实现这一特点使得BPF辨识法能方便有效地用于动态过程的系统实时在线辨识。
-
It expands Lebesgue characteristic of integrable function of Riemann through the definition of gather zero measure and builds up the theory of many integral calculus.
通过定义多维零测度集将可积函数的特征扩展到多维情形,同样统一了多维情形的充分条件,建立了多维情形的可积性理论。
-
It is proven that the radial wavelet family generated from a single radial wavelet can constitute a frame in L〓 and the square integrable function can be reconstructed from its dyadic radial wavelet transform.
得出这样的结论:由一个本质上为一维的径向小波的伸缩和平移可以构成n维平方可积函数空间L〓的框架。
-
The main tool is the notion of theLipschitz condition with positive nondecreasing integrable function L-average along thepieces one-parameter subgroup which includes the classical Lipschitz condition as well as theγ-condition as special cases.
我们在研究中引入沿着任意段单参数子群的关于取正值非减可积函数L-平均的Lipschitz条件。从而把李群上的Kantorovich定理及Smale理论放在统一的形式下进行研究。
- 推荐网络例句
-
I am accused of being overreligious," she said in her quiet, frank manner,"but that does not prevent me thinking the children very cruel who obstinately commit such suicide.""
客人们在卡罗利娜·埃凯家里,举止就文雅一些,因为卡罗利娜的母亲治家很严厉。
-
Designed by French fashion house Herm è s, this elegant uniform was manufactured in our home, Hong Kong, and was the first without a hat.
由著名品牌 Herm è s 设计,这件高贵的制服是香港本土制造,是我们第一套不配帽子的制服。
-
Do not 'inflate' your achievements and/or qualifications or skills .
不要 '夸大' 你的业绩或成果,条件或者技能。