“PID”是“Proportional Integral Derivative”的缩写,意思是“比例积分导数”


    英语缩略词“PID”经常作为“Proportional Integral Derivative”的缩写来使用,中文表示:“比例积分导数”。本文将详细介绍英语缩写词PID所代表英文单词,其对应的中文拼音、详细解释以及在英语中的流行度。此外,还有关于缩略词PID的分类、应用领域及相关应用示例等。
    “PID”(“比例积分导数)释义
  • 英文缩写词:PID
  • 英文单词:Proportional Integral Derivative
  • 缩写词中文简要解释:比例积分导数
  • 中文拼音:bǐ lì jī fēn dǎo shù
  • 缩写词流行度:926
  • 缩写词分类:Academic & Science
  • 缩写词领域:Electronics

    以上为Proportional Integral Derivative英文缩略词PID的中文解释,以及该英文缩写在英语的流行度、分类和应用领域方面的信息。
     英文缩略词PID的扩展资料
  1. Based on the LMI ( Linear Matrix Inequality ) method, the PID ( Proportional Integral Derivative(PID) ) control law was combined with robust control technique, and the subsection switch skill of PI output feedback control design with constraint of control input for aero-engine was proposed.
        基于LMI(linearmatrixinequality,线性矩阵不等式)的方法,将PID控制律与鲁棒技术交叉结合,考虑了控制受限条件,提出了一种基于LMI的输出反馈PI控制器分段设计的切换方法。
  2. An excitation controller based on improved single nerve cell PID ( Proportional Integral Derivative(PID) ) control is introduced, in which the nerve cell proportional coefficient K is modified adaptively on line.
        介绍了一种新型的基于改进单神经元自适应比例积分微分(PID)的励磁控制器,使神经元比例系数K在线自适应修正。
  3. Laser beam excursion control principle was briefly described, and it was indicated that system coupling is unavoidable in given direction laser beam excursion control process, and the coupling phenomenon could not be well restrained by conventional proportional integral derivative ( PID ) uncoupling control.
        简述了激光光束漂移量控制原理,并指出在特定方向(一维)激光光束漂移量控制过程中存在严重耦合问题。传统PID(ProportionalIntegralDerivative)解耦控制难以很好抑制耦合现象。
  4. The control software of the electron speed regulator was developed based on the software platform of uC / OS ⅱ. Object-oriented technology and a proportional integral derivative ( PID ) cascade control algorithm were used to develop and manage software objects.
        以实时操作系统μC/OSⅡ为软件平台,运用面向对象技术编程,采用PID串级控制算法,实现了电子调速系统控制软件的开发。
  5. In this paper the author adopts some reasonable assumptions and then analyses the action principle of this controller and its characteristics in detail, demonstrating that it is nonlinear in its proportional and integral and derivative actions.
        本文采取比较合理的假设,对这种调节器的工作原理和特性作了详细的分析,证明了不管在比例作用,还是在积分作用和微分作用方面,其特性都是非线的。

    上述内容是“Proportional Integral Derivative”作为“PID”的缩写,解释为“比例积分导数”时的信息,以及英语缩略词PID所代表的英文单词,其对应的中文拼音、详细解释以及在英语中的流行度和相关分类、应用领域及应用示例等。