控制系统的数学模型 • 概述 • 传递函数 • 典型环节 • 方块图 • 常用的传递函数 本章基本要求: 掌握控制系统微分方程式建立的一般方法; 正确理解传递函数的定义、性质和意义; 理解系统的开环传递函数、闭环传递函数、对控制和对干扰的传递函数、误差传递函数及典型环节的传递函数等概念,并掌握其求解方法; 掌握结构变换的基本规则,并能正确且熟练的运用进行方框图简化;
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1.1 什么是控制 1.2 自动控制发展的四个阶段 1.3 控制论的创立和发展 1.4 控制系统的分类与组成 1.5 控制系统的性能要求
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《控制理论》课程教学资源(参考书籍)Morari M, Zafiriou E.《Robust Process Control》(2/2)
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《控制理论》课程教学资源(参考书籍)Morari M, Zafiriou E.《Robust Process Control》(1/2)
文件格式: PDF大小: 11.22MB页数: 200
《控制理论》课程教学资源(参考书籍)定量过程控制理论 Quantitative Process Control Theory_Chapter 09 Complex Control Strategies
《控制理论》课程教学资源(参考书籍)定量过程控制理论 Quantitative Process Control Theory_Chapter 09 Complex Control Strategies
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《控制理论》课程教学资源(参考书籍)定量过程控制理论 Quantitative Process Control Theory_Chapter 08 Control of Unstable Plants
1 8.1 Controller Parameterization for General Plants 2 8.2 H∞ PID Controllers for Unstable Plants 3 8.3 H2 PID Controllers for Unstable Plants 4 8.4 Performance Limitation and Robustness 5 8.5 Maclaurin PID Controllers for Unstable Plants 6 8.6 PID Design for the Best Achievable Performance 7 8.6 All Stabilizing PID Controllers for Unstable Plants
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1 7.1 The Feature of Integrating Systems 2 7.2 H∞ PID Controllers for Integrating Plants 3 7.3 H2 PID Controllers for Integrating Plants 4 7.4 Controller Design for General Integrating Plants 5 7.5 Maclaurin PID Controllers for Integrating Plants 6 7.6 Best Achievable Performance of a PID Controllers
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1 6.1 The Quasi-H∞ Smith Predictor 2 6.2 The H2 Optimal Controller and the Smith Predictor 3 6.3 Equivalents of the Optimal Controller 4 6.4 The PID Controller and High-Order Controllers 5 6.5 Choice of Weighting Functions 6 6.6 Simplified Tuning for Quantitative Robustness
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1 5.1 H2 PID Controllers for the First-Order Plant 2 5.2 Quantitative Tuning of H2 PID Controllers 3 5.3 H2 PID Controllers for the Second-Order Plant 4 5.4 Control of Inverse Response Processes 5 5.5 PID Controllers Based on the Maclaurin Series Expansion 6 5.6 PID Controllers with the Best Achievable Performance 7 5.7 Choice of the Filter
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1 4.1 Traditional Design Methods 2 4.2 H∞ PID Controllers for the First-Order Plant 3 4.3 H∞ PID controller and the Smith Predictor 4 4.4 Quantitative Performance and Robustness 5 4.5 H∞ PID Controllers for the Second-Order Plant 6 4.6 All Stabilizing PID Controllers for Stable Plants
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