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Design of Observer-based Compensators [electronic resource] :From the Time to the Frequency Domain / by Peter Hippe, Joachim Deutscher.

by Hippe, Peter [author.]; Deutscher, Joachim [author.]; SpringerLink (Online service).
Material type: materialTypeLabelBookPublisher: London : Springer London, 2009.Description: online resource.ISBN: 9781848825376.Subject(s): Engineering | Systems theory | Control engineering systems | Engineering | Control | Systems Theory, Control | Control , Robotics, MechatronicsDDC classification: 629.8 Online resources: Click here to access online
Contents:
Polynomial Matrix Fraction Descriptions -- State Feedback Control -- State Observers -- Observer-based Compensators -- Parametric Compensator Design -- Decoupling Control -- Disturbance Rejection Using the Internal Model Principle -- Optimal Control and Estimation -- Model-matching Control with Two Degrees of Freedom -- Observer-based Compensators with Disturbance Rejection for Discrete-time Systems -- Optimal Control and Estimation for Discrete-time Systems.
In: Springer eBooksSummary: Design of Observer-based Compensators presents the frequency domain design of observer-based controllers in complete correspondence to well-known time domain results and gives connecting relations at every design stage. This facilitates and adds transparency to the design in the frequency domain which is not as well-established among control engineers as time-domain design. The presentation of the design procedures starts with a short review of the time domain results; therefore, the book also provides quick access to state space methods for control system design. The frequency domain design of observer-based compensators of all orders from the full-order to the completely reduced-order compensator is covered. The design of decoupling and disturbance rejecting controllers is presented. Furthermore, solutions are given to the linear quadratic and the model matching problems. The pole assignment is facilitated by a new parametric approach which is formulated directly in the frequency domain. Anti-windup control is also investigated in the framework of the polynomial approach. Though mainly continuous-time systems are considered, the discrete-time results for disturbance rejection and linear quadratic control are also presented. The monograph contains worked examples that can easily be reproduced by the reader, and the results are illustrated by simulations. Design of Observer-based Compensators will be of use as a reference for control engineers, graduate students and researchers who are familiar with the time domain design and who want to become acquainted with the frequency domain design using polynomial matrices.
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Polynomial Matrix Fraction Descriptions -- State Feedback Control -- State Observers -- Observer-based Compensators -- Parametric Compensator Design -- Decoupling Control -- Disturbance Rejection Using the Internal Model Principle -- Optimal Control and Estimation -- Model-matching Control with Two Degrees of Freedom -- Observer-based Compensators with Disturbance Rejection for Discrete-time Systems -- Optimal Control and Estimation for Discrete-time Systems.

Design of Observer-based Compensators presents the frequency domain design of observer-based controllers in complete correspondence to well-known time domain results and gives connecting relations at every design stage. This facilitates and adds transparency to the design in the frequency domain which is not as well-established among control engineers as time-domain design. The presentation of the design procedures starts with a short review of the time domain results; therefore, the book also provides quick access to state space methods for control system design. The frequency domain design of observer-based compensators of all orders from the full-order to the completely reduced-order compensator is covered. The design of decoupling and disturbance rejecting controllers is presented. Furthermore, solutions are given to the linear quadratic and the model matching problems. The pole assignment is facilitated by a new parametric approach which is formulated directly in the frequency domain. Anti-windup control is also investigated in the framework of the polynomial approach. Though mainly continuous-time systems are considered, the discrete-time results for disturbance rejection and linear quadratic control are also presented. The monograph contains worked examples that can easily be reproduced by the reader, and the results are illustrated by simulations. Design of Observer-based Compensators will be of use as a reference for control engineers, graduate students and researchers who are familiar with the time domain design and who want to become acquainted with the frequency domain design using polynomial matrices.

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