By using a Sylvester equation based parametrization, the minimum norm robust pole assignment problem for linear time-invariant systems is formulated as an unconstrained minimization problem for a suitably chosen cost function. The derived explicit expression of the gradient of the cost function allows the efficient solution of the minimization problem by using powerful gradient search based minimization techniques. We also discuss how requirements for a particular Jordan structure of the closed-loop state matrix or for partial pole asignment can be accomodated with the proposed approach.
Robust Pole Assignment via Sylvester Equation Based State Feedback Parametrization
2000 ; Anchorage, Alaska (USA)
2000-09-01
Conference paper
Electronic Resource
English
Robust pole assignment techniques via state feedback
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