1) reachable neighbor
可达邻域
1.
In order to solve the two problems,this paper introduces a new notion of outlier based on reachable neighbor,which is called RN-Outlier,and proposes novel and fast algorithms for outlier detection.
提出了可达邻域的概念,定义了基于可达邻域的异常RN-Outlier。
3) reachable region
可达区域
1.
At first, the extremal control of the system was got, then the reachable region of the time reversed system and the controllable region of the system were given.
首先求取系统极端控制,进而给出时间反转系统的可达区域和系统的可控区域。
4) accessible domain
可达域
1.
The concepts of accessible domain, optimum accessible domain and optimum accessible value for goal programming were investigated, and their properties were studied as well.
给出了目标规划模型的可达域、最优可达域以及最优可达值等概念 ,同时研究了它们的性质 ,并介绍了最优可达值的求解方法 ,为决策者合理的决策提供了科学依据 ,从而获得更大的收
5) regional accessibility
区域可达性
1.
Using MapX component and Delphi programming tool, regional accessibility calculation and analysis information system based on minimal pass-time is developed, with which mark diffusing figure could be generated.
利用MapX控件和Delphi编程工具,开发了基于时间最短的区域可达性计算与分析信息系统,生成了可达性的分值扩散图。
2.
In order to derive the regional dual-nuclei structure by the method of building mathematical model, this paper redefines regional accessibility and establishes the formula to calculate it.
研究表明,现有关于区域可达性的计算公式,其实质都是给定区域中某一质点的居中性的测量,因此,现有的区域可达性其实仅指区内可达性。
3.
Taking regional accessibility as the cut-in point, an.
本文以区域可达性为切入点,以时空演变为基础,运用投资优化的方法,探讨了基于可达性的区域空间结构优化问题,并以江西省为例进行了实证研究。
6) achievable capacity region
可达容量域
1.
When the per sensor power is fixed,analyze the network achievable capacity region based on the beamforming communication method,and deduce that the transport capacity of each process is O(log(N)),and the number of process that can be simultaneously monitored is O(Nβ).
当网络中传感器节点的功率固定时,分析了采用基于波束成形的通信方式时网络的可达容量域,推导出每个过程可获得的传输容量为专(log(N)),并进一步分析了该网络可以同时观察到的随机过程的数目为O(N茁)。
补充资料:超导电性的局域和非局域理论(localizedandnon-localizedtheoriesofsuperconductivity)
超导电性的局域和非局域理论(localizedandnon-localizedtheoriesofsuperconductivity)
伦敦第二个方程(见“伦敦规范”)表明,在伦敦理论中实际上假定了js(r)是正比于同一位置r的矢势A(r),而与其他位置的A无牵连;换言之,局域的A(r)可确定该局域的js(r),反之亦然,即理论具有局域性,所以伦敦理论是一种超导电性的局域理论。若r周围r'位置的A(r')与j(r)有牵连而影响j(r)的改变,则A(r)就为非局域性质的。由于`\nabla\timesbb{A}=\mu_0bb{H}`,所以也可以说磁场强度H是非局域性的。为此,超导电性需由非局域性理论来描绘,称超导电性的非局域理论。皮帕德非局域理论就是典型的超导电性非局域唯象理论。
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