We are given a system's transfer function as 4. T(s) = %3D s2-4 Construct a state-space model for the given system using " Observer Canonical Form" method. Assuming that the full state information of this system is available, design a state-feedback controller for this system to put the desired closed loop poles at -2±j2. Now, assume that the state information of the system are not measurable, for this case what kind of controllo
We are given a system's transfer function as 4. T(s) = %3D s2-4 Construct a state-space model for the given system using " Observer Canonical Form" method. Assuming that the full state information of this system is available, design a state-feedback controller for this system to put the desired closed loop poles at -2±j2. Now, assume that the state information of the system are not measurable, for this case what kind of controllo
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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are given a system’s transfer function as T(s) = 21 Construct a state-space model for the given system using ” Observer Canonical Form” method. | that the full state information of this system is available, design a state-feedback controller for this put the desired closed loop poles at ~2+ 2. Now, assume that the state information of the system are measurable, for this case what kind of controller do you suggest? Design this controller so that the ¢ Joop poles of the system are located at —10 + 510.
Transcribed Image Text:We are given a system's transfer function as
4
T(e) =1
s2
Construct a state-space model for the given system using " Observer Canonical Form" method. Assuming
that the full state information of this system is available, design a state-feedback controller for this system to
put the desired closed loop poles at-2±j2. Now, assume that the state information of the system are not
measurable, for this case what kind of controller do you suggest? Design this controller so that the closed
loop poles of the system are located at-10±j10.
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