延拓

  • 网络continuation;Extension;Extend;prolongation
延拓延拓
  1. 并且我们根据CMS方案的需要将单圈积分函数表达式解析延拓到了复质量平面,并开发了计算包含复质量的单圈积分函数的程序。

    In this work we extend the expressions for calculating one-loop integral functions to the complex mass plane according to the requirement of the CMS method and develop the program codes for calculating one-loop integrals with complex masses .

  2. 进而提出通过建立同数据相拟合的AR(自回归)模型,将数据延拓,以克服由于FFT分批处理频率同锥扫频率之间的相互作用而带来的困难。

    Further , we suggest to extend the data by setting up the AR ( Autoregressive ) model fitting with the data , in order to overcome the difficulties caused by the interaction between the inherent frequency in the batch processing nature of the FFT and the conical scan frequency .

  3. 求解P0混合互补问题的一个非内点延拓方法

    A non-interior continuation method for a class of mixed complementarity problems

  4. 可延拓成N类函数的极值问题

    Extremal Problems for Some Functions to be Extended into Class N

  5. B样条曲线、曲面的延拓

    Extension of B - spline Curves and Surfaces

  6. C_0半群解析延拓问题的一个注记

    A Note on Analytic Extension of C_0-semigroups

  7. 指出了圆环上可向内可延拓成N类函数的延拓并不唯一;

    Point out that inner extension is not unique ;

  8. 区间值函数和Fuzzy值函数常微分方程解的存在区间及解的延拓性

    Existence Interval and Continuation of Solution of Ordinary Differential Equations for Interval Valued Functions and Fuzzy Valued Functions

  9. 提出了两种可实现非膨胀多小波分解精确重构的边界预后处理新方法,最佳增广型对称延拓法和r因子拟周期延拓法。

    They are best general symmetric extension method and r-factor pseudo periodic extension .

  10. 凸区域上椭圆方程弱解的边界唯一延拓性和Bp权特性

    The Boundary Unique Continuation and B_p Weight Properties for the Weak Solutions of Elliptic Equations in Convex Domains

  11. r因子拟周期延拓法

    R - factor Pseudo - circular Extension Method

  12. B型Q过程D~型延拓的另一种实现

    Another Realization of D ~ - type Extension of B-type Q Process

  13. G~2连续约束下三次Bézier曲线的延拓

    Extension of Cubic B é zier Curve with G2 Constraint

  14. 关于Hilbert空间单位球面上等距延拓的注记

    A Note on the Isometric Extension of Unit Spheres in Hilbert Space

  15. Banach空间上的单值延拓性质

    The single valued extension property on a Banach space

  16. Delphi预测方法的改进与延拓

    Improvement and Extension of Delphi Forecasting Method

  17. 交换Banach代数的谱延拓性质

    The spectral extension property of commutative Banach algebra

  18. 基于预测-校正的同伦延拓法追踪高维Hopf分岔点研究

    Prediction-correction homotopy continuation method for high-dimension Hopf bifurcation point tracking

  19. NURBS曲线曲率连续延拓的一种有效算法

    Automatically efficient extending algorithm for NURBS curves

  20. 提出隶属函数μA~(u)的扰动概念,给出了扰动隶属区间函数的定义作为一般隶属函数的一种延拓。

    It gives the concept of the disturbing sub function μ A ~ ( u ), which extends the general sub function .

  21. SU(N)各向同性连续Heisenberg模型的延拓结构和Kac-Moody代数

    Prolongation structure and Kac-Moody algebra for the su ( n ) isotropic continuous Heisenberg model

  22. 影响ICS方法的两个主要因素为延拓方向和变量的序。

    The ICS method depends on two factors : the prolongation direction and the variable ordering .

  23. 基于实时延拓法的PWMBDCM转矩消谐控制算法

    Harmonic elimination for the torque of PWM BDCM based on real-time homotopy algorithm

  24. 3用替换速度分别将接收点和炮点延拓到CMP位置的基准面;

    Separate continuation of receiver point and shot point to datum of CMP position by replaced velocity ;

  25. 但关于DFT中的延拓原理及计算结果的物理意义作者始终感到有些迷惑。

    However about the extension principle in the DFT and the physical meaning of its value , some engineers are often feeling puzzled .

  26. 延拓Kantorovich法解薄扁壳弯曲问题

    Computation of bending problems of thin shallow shells using the extended Kantorovich method

  27. jPDL和标准Java平台结合得非常紧密,它利用了来自过程虚拟机的工作执行器(jobexecutor)来提供异步延拓(continuation)和定时器。

    JPDL integrates very closely with standard Java and it leverages the job executor from the Process Virtual Machine to deliver asynchronous continuations and timers .

  28. 在实验的基础上,总结了对于ICS方法较好的延拓方向和变量的序。

    Based on the experiments , we try to select the best prolongation direction and the variable ordering for the ICS algorithm .

  29. Kantorovich不等式的延拓与均方误差比效率

    Extensions of the Kantorovich Inequality and the Error Ratio Efficiency of the Mean Square

  30. 根据该水平面上的初始值,用快速傅里叶变换(FFT)的方法向上延拓计算观测面上的位场值。

    With these initial values on the continuing horizontal plane , the potential field on the original plane is calculated using the Fast Fourier Transformation ( FFT ) .