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We present a stochastic predictive controller for discrete time linear time invariant systems under incomplete state information. Our approach is based on a suitable choice of control policies, stability constraints, and employment of a Kalman filter to estimate the states of the system from incomplete and corrupt observations. We demonstrate that this approach yields a computationally tractable problem that should be solved online periodically, and that the resulting closed loop system is mean-square bounded for any positive bound on the control actions. Our results allow one to tackle the largest class of linear time invariant systems known to be amenable to stochastic stabilization under bounded control actions via output feedback stochastic predictive control.
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This page is a summary of: Output Feedback Stable Stochastic Predictive Control With Hard Control Constraints, IEEE Control Systems Letters, October 2017, Institute of Electrical & Electronics Engineers (IEEE),
DOI: 10.1109/lcsys.2017.2719606.
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