英语翻译课程描述:主要介绍经典控制理论.通过本课程的学习,使学生系统地掌握基于经典控制理论进行控制系统分析和设计的基本原理与基本方法,能够应用经典控制理论进行控制系统的分析与设计,以及能够应用MATLAB等软件工具和实验装置进行控制系统的仿真分析及设计.课程主要内容:自动控制系统的基本介绍、控制系统的数学模型、控制系统的运动分析(时域分析)、控制系统的复数域分析(根轨迹法)、控制系统的频域分析、控制系统的设计和校正、非线性控制系统分析等七部分.
2019-06-02
英语翻译
课程描述:主要介绍经典控制理论.通过本课程的学习,使学生系统地掌握基于经典控制理论进行控制系统分析和设计的基本原理与基本方法,能够应用经典控制理论进行控制系统的分析与设计,以及能够应用MATLAB等软件工具和实验装置进行控制系统的仿真分析及设计.
课程主要内容:自动控制系统的基本介绍、控制系统的数学模型、控制系统的运动分析(时域分析)、控制系统的复数域分析(根轨迹法)、控制系统的频域分析、控制系统的设计和校正、非线性控制系统分析等七部分.
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The Principle of Automatic Control
Course Description:
"The Principle of Automatic Control " is a core course for students of Automatic Control engineering. It contains basic concepts and principles, analysis methods of automatic control systems that is widely applied to the field of industry, agriculture and high-technology areas. In order to training the practice ability of students in automatic control design, six hours experiments are planned. The MATLAB software and the simulation based on it are Introduced too.
Course main content:
Introduction to design of feedback control systems,
Properties and advantages of feedback systems,
Time-domain and frequency-domain performance measures, stability and degree of stability.
Root locus method, nyquist criterion
Frequency-domain design
System compensation
Analysis of discrete time control systems.
The Principle of Automatic Control
Course Description:
"The Principle of Automatic Control " is a core course for students of Automatic Control engineering. It contains basic concepts and principles, analysis methods of automatic control systems that is widely applied to the field of industry, agriculture and high-technology areas. In order to training the practice ability of students in automatic control design, six hours experiments are planned. The MATLAB software and the simulation based on it are Introduced too.
Course main content:
Introduction to design of feedback control systems,
Properties and advantages of feedback systems,
Time-domain and frequency-domain performance measures, stability and degree of stability.
Root locus method, nyquist criterion
Frequency-domain design
System compensation
Analysis of discrete time control systems.