控制参量

  • 网络control parameter
控制参量控制参量
  1. 加荷速率是材料试验过程中的一个重要控制参量。

    The loaded speed rate is an important control parameter in the material testing process .

  2. 管线断裂控制参量的研究

    Research on Pipeline Fracture Control Parameter

  3. 通过产验数据处理得到了局部解的控制参量KⅢ,J和适用区域。

    Control parameters k ⅲ, J and applicable region of local solution are obtained by experimental data processing .

  4. σPM参量为具有一定普遍意义的疲劳控制参量,由?

    σ PM is a universal fatigue restraining parameter , the fatigue intension expressed by ?

  5. 对于HDPE管道材料,威布尔应力可以作为有效的断裂控制参量。

    For HDPE pipe material , the weibull stress maybe an effective fracture parameter .

  6. 20g钢高温裂纹扩展控制参量

    Fracture Mechanics Parameter of Controlling Crack Propagation for 20g Steel at High Temperature

  7. 因此,采用J积分作为用来预测焊接结构安全性的控制参量是不正确的。

    Therefore , it can be concluded that J-integral as controlling parameter used to estimate the safety of welded structures is not always valid .

  8. 应用最小标准误差原理,解决了Laplace反演变换中各控制参量(λ·N·T)的选定。

    The least criterion error principle on the numerical inversion of Laplace transform is presented in this paper . The reasonable selection of relative controlling parameters (λ, N , T , etc. )

  9. 在这种情况下,最好是以εz为控制参量。

    In such circumstances , better use ε _z as the control variable , At the end of the paper , the design conditions of rigid composite frame are also given .

  10. 通过变换一个简单的线性变换,可将岩石孔隙非Darcy渗流动力系统转化成一个不含控制参量的非线性微分动力系统。

    Through a simple translation , the control equations of non Darcy flow system can be changed into a nonlinear partial differential equation without control parameters .

  11. 针对Logistic人口增长模型由稳定状态,通过控制参量的变化进入倍周期分岔及混沌,提出了一种基于Lyapunov指数的状态反馈控制策略,使混沌状态的Logistic模型变成为可测。

    A state feedback control strategy based on Lyapunov exponent is put forward , by change of control parameter into double periodicity fork and primal chaos . It makes Logistic model of primal chaos state measurable .

  12. 有机玻璃疲劳裂纹扩展表达式及控制参量

    Formulae and governing parameters of fatigue crack propagation in polymethyl methacrylate

  13. 步进扫描投影光刻机剂量控制参量优化新算法研究

    Novel Optimization Algorithm for Dose Control Parameters in Step and Scan Lithography

  14. 拟人多关节假手位置控制参量算法的研究

    A Study on the Calculation of Displacement-controlled Variables of Anthropomorphic Multi-joint Prosthesis

  15. 提出用含控制参量的参数系数矩阵构造参数三次曲线、曲面的数学方法。

    So finally we get the cubic parametric curve with the minimum energy .

  16. 在拓扑向量空间中,考虑了带有控制参量的向量优化问题。

    The vector optimization problems with control parameters in topological vector spaces are considered .

  17. 异种钢接头沿界面蠕变脆断的力学控制参量

    On Mechanical Parameter Controlling Creep Brittle Rupture Along Interface of Dissimilar Metal Welded Joints

  18. 带有控制参量的向量优化问题研究

    Study of vector optimization with control parameters

  19. 这些工作为并联结构系列化设计提供了理论依据,并对并联机床的运动分析、运动控制参量求解都有直接的意义。

    These are useful for design of this machine , kinematics analysis and control parameters .

  20. 通过设定不同的控制参量,分析了控制参量和同步速度之间的关系。

    The relationship between control parameter and synchronization speed was analyzed by setting different control parameters .

  21. 进行了含夹杂粉末冶金涡轮盘裂纹扩展控制参量和裂纹扩展寿命计算。

    The control parameters and growth lives of cracks are calculated using the method of submodel .

  22. 用应变因子和应变量作为控制参量估算构件低周疲劳寿命

    Evaluation of Low Cycle Fatigue Life of Constructional Elements using Strain Factors and Strain Values as Controlling Parameters

  23. 分析实验结果得出结论为:输入功率适合作为放电功率的控制参量。

    The conclusion that input power is fit for being used as the control parameter of discharge power is showed .

  24. 当被控制参量产生波动时,波动会在回路中产生振荡,影响网络的稳定运行,增加控制难度。

    When controlled parameters were changed , it would result in concussion to , and affect the stability of , the loops .

  25. 分析了联合作战系统的序参量以及控制参量;并对联合作战系统的受力进行了分析;

    First , we analyzes the order parameter and control parameter in the combined operations and analyzes the instance of force standing .

  26. 并且详细讨论了光栅制作过程中的各种控制参量如曝光时间及强度对光栅衍射效率的影响。

    Furthermore , the related controlling parameters , such as the exposure time and intensity which influence the diffraction efficiency , are discussed in detail .

  27. 这种不稳定是阵发性的,适当的调节控制参量,可使器件工作在所需的定态或极限环振荡态上;

    This instability is intermittent so that the device can operate in expected steady states or limit cycle oscillation states by slightly adjusting the parameter .

  28. 这就意味着,当控制参量越过临界值时,基态单点保真度可以捕捉自发对称性破缺。

    This implies that the ground-state fidelity per lattice site enables us to capture spontaneous symmetry breaking when the control parameter crosses the critical value .

  29. 上位机软件实现对距离、角度、时间三个运动控制参量进行处理,将其转化为相应运动控制信息,并发送至主驱动模块和摆臂驱动模块。

    After three parameters about position and velocity are converted into motion control information which is sent to main drive module and arm drive module .

  30. 以无功电流差补值作为控制参量,并以高次谐波电流作为谐振保护信号,由专家系统给出投切无功补偿电容的控制指令。

    Then , adopting reactive current margin and harmonics as control and protection variable , an expert system was formed to control thyristor switched capacitor .