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Design of proportional-plus-derivative output feedback for pole assignment

Design of proportional-plus-derivative output feedback for pole assignment

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The paper studies the problem of pole assignment in linear multivariable systems using proportional-plus-derivative output feedback. A simple expression is obtained for the closed loop characteristic polynomial in terms of the unity-rank proportional and derivative feedback matrices. It is shown that when the system order does not exceed twice the number of inputs or outputs, all system poles can be assigned arbitrarily, and the required feedback matrices are obtained from linear equations. When the system order exceeds this value, the pole assignment problem becomes nonlinear and may be solved using the available numerical methods. Examples are given for illustration.

Inspec keywords: multivariable control systems; linear systems; poles and zeros; feedback; control system synthesis; two-term control

Other keywords: closed loop characteristic polynomial; derivative feedback matrices; pole assignment; linear multivariable systems; linear equations; proportional plus derivative output feedback design; unity rank proportional matrices

Subjects: Multivariable control systems; Control system analysis and synthesis methods

References

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      • E.J. Davison . On pole assignment in linear systems with incomplete state feedback. IEEE Trans. , 348 - 351
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      • H. Seraji . Pole assignment techniques for multivariable systems using unity-rank output feedback. Int. J. Control , 945 - 954
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