Transcription of Chapter 5 Dynamic and Closed-Loop Control
{{id}} {{{paragraph}}}
Chapter 5 Dynamic and Closed-Loop ControlClarence W. Rowley Princeton University, Princeton, NJBelinda A. Batten Oregon State University, Corvalis, Fundamental principles of feedback .. Models of multi-input, multi-output (MIMO) systems .. Controllability, Observability .. State Space vs. Frequency Domain ..83 Classical Closed-Loop PID feedback .. Transfer functions .. Closed-Loop stability .. Gain and phase margins and robustness .. Sensitivity function and fundamental limitations .. Full-state Feedback: Linear Quadratic Regulator Problem .. Observers for state estimation .. Observer-based feedback .. Robust Controllers: MinMax Control .. Examples .. Galerkin projection .. Proper Orthogonal Decomposition .. Balanced truncation ..27 Associate Professor, Mechanical and Aerospace Engineering, Senior Member AIAA Professor, Mechanical Engineering, Member AIAAC opyrightc 2008 by Rowley and Batten.
sensor noise covariance matrix y sensed output z controlled output: this vector contains quantities an optimal controller strives to keep small µ vector of parameters ϕ basis function Φ Poincaré map. 1 Introduction. In this chapter, we present techniques for feedback control, focusing on those aspects
Domain:
Source:
Link to this page:
Please notify us if you found a problem with this document:
{{id}} {{{paragraph}}}