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陈陈 编; 王杰 / 水利水电出版社 / 2011-03 / 平装
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Modern Control Theory Lecture (英文版)(现代控制理论与分析)(普通高等教育“十二五”规划双语系列教材)
本书将现代控制理论方法与电力工程实践紧密结合,主要介绍了控制系统的状态空间表达式、控制系统状态空间表达式的解、线性系统的能控性与能观性、稳定性与Lyapunov方法、线性定常系统的综合、最优控制等。 本书既可作为高等学校电气工程和自动化专业学生、教师的教学用书,也可作为从事相关专业技术研究人员的参考用书。
Introduction O.1 Development of control theory 0.2 Structural requirements and control features of thesystem 0.3 Nonlinear control in power system 0.4 The main content of modern control ll~eory Chapter 1 State-space expression of control system 1. 1 The basic concepts 1.2 The simulation structure diagram of state:spaceexpression 1.3 The construction of state-space expression 1.4 The construction of state-space expression from transferfunction 1.5 Transfer function and transfer function matrix fromtransfer function to state e 1.6 State-space expression of composite system 1.7 Linear transformation 1.8 State-space expression of discrete system Exercise Chapter 2 The solution of state-space expression of controlsystem 2.1 Solution of homogeneous state equation of lineartime-invariant system 2.2 Matrix exponent 2.3 Homogeneous solution of time-varying system 2.4 State transfer matrix 2.5 Solution of linear continuous system non-homogeneousstate equation 2.6 Solution of discrete-time system state equation 2.7 Discretization of continuous time-state-spaceexpression Exercise Chapter 3 Controllability and observability of linearsystem 3.1 Controllability of time-invariant discrete system 3.2 Controllability of time-invariable continuoussystem 3.3 Observability of time-invariant system 3.4 Controllability and observability of linear time-varyingsystem 3.5 The dual relation of controllability andobservability 3.6 Structural decomposition of linear time-invariantsystem 3.7 Relation of controllability, observability and transferfunction matrix 3.8 Controllability standard and observabilitystandard 3.9 System realization Exercise Chapter 4 Stability and Lyapnnov method 4.1 The basic concept of stability 4.2 The basic idea of Lyapunov function 4.3 Lyapunov function stability method 4.4 Asymptotic stability 4.5 Some common construction method of Lyapunovfunction 4.6 Vector Lyapunov function 4.7 Application of Lyapunov methods in linear system 4.8 Lyapunov method in Hamilton system Exercise Chapter 5 Synthesis of linear time-invariant system 5.1 Definition and property of state feedback 5.2 Pole assignment 5.3 System stabilization problem 5.4 System decoupling problem 5.5 State observer Exercise Chapter 6 Optimal control 6.1 Summary 6.2 Variational methods of solving optimal control 6.3 Hamilton function 6.4 Phorcha problem 6.5 Minimum principle 6.6 Dynamic programming 6.7 Linear quadratic optimal control problem Exercise
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