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CH 1 Introduction

CH 1 Introduction. Prof. Ming-Shaung Ju Dept. of Mechanical Engineering NCKU. 1. Introduction. What is adaptive control? An adaptive controller is a controller with adjustable parameters and a mechanism for adjusting the parameters. Adaptive control systems have two loops

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CH 1 Introduction

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  1. CH 1 Introduction Prof. Ming-Shaung Ju Dept. of Mechanical Engineering NCKU

  2. 1. Introduction • What is adaptive control? An adaptive controller is a controller with adjustable parameters and a mechanism for adjusting the parameters. • Adaptive control systems have two loops • A normal feedback with process and controller • A parameter adjustment loop (slower dynamics)

  3. Structure of Adaptive Systems

  4. History of adaptive control theory • 1950s design of autopilots for high performance aircraft (gain scheduling) speeds & altitude • 1960s control theories : state space & stability, dynamic programming, system identification • 1970s different estimation schemes combined with various design methods • Late 1970s-1980s proofs for stability of adaptive systems, merge of robust control and system identification

  5. USA X-15 experimental aircraft

  6. History of adaptive control theory (cont’d) • 1990s robustness of adaptive controllers, nonlinear system theory help understanding adaptive control • 2000s related to learning in computer science, artificial intelligence

  7. Why adaptive control system? • Linear feedback has limited capability to cope with parameter changes of the process and variations in disturbance characteristics • Process variations may due to • Nonlinear actuators • Large deviation of operating point • Examples of variations in disturbance • frequency contents of disturbance

  8. Adaptive Schemes • Gain scheduling • Model-reference adaptive control • Self-tuning regulator • Dual control

  9. Gain Scheduling Speed (Mach no.) Altitude Note: command & control signal are not utilized

  10. Model-Reference Adaptive Control Performance specification e = ym-y

  11. Self-Tuning Regulator Indirect adaptive Desired System identification Certainty equivalent principle: estimates are used as if they are true parameters

  12. Dual Control • Limitation of above schemes: parameter uncertainties not considered • When Certainty Equivalence Principle is not valid • Augment process state and parameters into a new state and formulate a nonlinear stochastic control problem (stochastic optimal control ) • Nonlinear estimator: conditional probability distribution of state p(z|y, u) (hyper-state) • Feedback controller maps hyperstate to control • Maintain good control and small estimation errors (dual)

  13. Dual Control

  14. Adaptive Control Problem • Process Model • State space model • Transfer function (matrix) • Continuous-time or discrete-time • Controller structure • A controller with adjustable parameters • Direct adaptive control • Parameters tuned without characteristics of the process and its disturbance • Indirect adaptive control • Process model and disturbance characteristics are estimated then use these information to design the controller

  15. Design Procedures • Characterize desired behavior of closed-loop system (stability, performance) • Determine a control law with adjustable parameters • Find a mechanism for adjusting the parameters • Implement the control law

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