系统响应

  • 网络system response;systematic response;Responsiveness Requirements
系统响应系统响应
  1. 模糊调节器根据闭环系统响应的不同阶段,在线调节PI参数,从而改善了闭环系统的整体性能。

    According to the fuzzy rules , PI parameters varies in the different stage of the closed system response .

  2. 基于卷积技术的LTI系统响应时域算法

    Time-Domain algorithm of LTI system response based on convolution technology

  3. 并通过系统响应曲线图对设计的PID控制器的性能进行评估。

    And evaluate the performance of PID controller by the step response of the system .

  4. 提高CORBA应用系统响应的混合优先多线程机制

    Using Mixture and Priority Policy of Multi-thread to Improve the Responsibility of the CORBA Application System

  5. 提高河北南网协调控制系统响应AGC速率的方法

    Method of Raising AGC Response Speed of Hebei South Network Coordinated Control System

  6. 通过实时对PID控制器的比例参数、积分参数、微分参数以及模糊控制器参数的在线调节,实现对系统响应曲线的优化。

    By the real-time adjustment of proportion parameter , integral parameter , differential coefficient and fuzzy controller parameter , we can optimize the response curve of system .

  7. 采用微机控制的弧焊逆变电源控制灵活、精度高、系统响应高的特点,能够极大提高脉冲MIG焊的控制水平。

    Microcomputer controlled arc welding inverter power source can raises greatly controlled level of pulse MIG welding for its flexible control , high accuracy , high system response .

  8. 因为MSP430内部中断资源丰富,键盘扫描、温度转换、定时等均采用中断触发,减少了系统响应时间,提高了软件执行效率。

    As for the software design , main sub - programs , such as keyboard scanning , temperature measur - ing and timing , are all triggered by system interrupts . Therefore , it reduces system response time and improved working efficiency .

  9. 提出了一种基于变结构和积分分离的VS-IS控制方法,使用该方法,系统响应速度快,多余力抑制能力强,取得了较理想的控制效果;

    A new method called VS-IS based on the PI of variable structure and the PI of integral separating was introduced . The system has quicker response and stronger ability to restrain the surplus force by using this method .

  10. 阻尼对系统响应有很大影响。

    Damping coefficient has a large influences on the system response .

  11. 宽带激励下非线性振动系统响应的最小化控制

    Control for Minimizing the Response of Non-Linear System under Wide-Band Excitation

  12. 辐射脉冲测量系统响应的计算与应用

    Computing technology and Application of response functions in radiation pulse measurement

  13. 基于系统响应的模态截断方法的研究

    A Solution for Modal Reduction Criterion Based on the System Response

  14. 该系统响应速度快,适应性和鲁棒性强,具有推广应用价值。

    The system has fast response speed and strong robustness .

  15. 自然生态系统响应气候变化的脆弱性评价研究进展

    Research advances in vulnerability assessment of natural ecosystem response to climate change

  16. 状态转移矩阵及系统响应函数

    State transfer matrix and system response function

  17. 工程车辆双液转换型全动力制动系统响应特性研究

    On Responding Characteristics of Full Power Braking System with Dual Fluid Converter for Construction Vehicles

  18. 干摩擦振动系统响应计算方法研究综述

    An overview on study of methods of response computation for the dry frictionally damped vibration systems

  19. 路面结构动力系统响应问题的求解

    Dynamic Response of Pavement Structure System

  20. 在超临界转速区,系统响应以混沌、周期分频和拟周期为主要运动形式。

    But the main responses are chaotic , periodical and quasi-periodical motions in supercritical speed range .

  21. 系统响应时间10-6s。

    System reponse time 10-6s .

  22. 模糊推理的变权综合算法及其构造的模糊系统响应能力分析

    Variable Weighted Synthesis Method for Fuzzy Inference and Analysis of Response Ability of the Constructed Fuzzy Systems

  23. 为更加准确地分析系统响应,需要引入不确定性分析方法。

    To analyze the response of system more accurately , uncertain analysis methods need to be introduced .

  24. 建筑物系统响应模型

    Building System Response Model

  25. 最后文章提出了一种试图解决入侵检测系统响应模块问题的思路。

    At last a notion is brought out to solves the response module problems of invasion examination system .

  26. 分析激励、调谐值、阻尼等对系统响应曲线的影响;

    Numerical analysis on the influence of excitation , detuning and damping on the system is carried out .

  27. 基于人-机系统响应特性可揭示出驾驶员工作负荷和系统动态特性之间相互影响。

    On the basis of pilot aircraft system response the interplay between pilot workload and system dynamics is exposed .

  28. 实验结果表明,空气系统响应时间显著缩短,并具有良好的稳态控制效果。

    Further test results verifies that the system response time is improved significantly by the algorithm with good steady-state performance .

  29. 全状态反馈控制所引入的微分控制,可以预见系统响应趋势,它的引入可以有效地抑制速度响应超调。

    Differential control introduced by all state feedback control could forecast the trend of system response , and effectively restrain speed overshoot .

  30. 但是,在大规模并行计算技术、非稳态激励下的系统响应计算技术以及集成测试技术等方面,仍然还有很多问题有待解决。

    For large-scale computation , and broad-band and non-stationary excitation , many problems still remain unsolved on computation and integration measurement technique .