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Paper detail

Exponential Stabilization of Linear Systems using Nearest-Action Control with Countable Input Set

This paper studies stabilization of linear time-invariant (LTI) systems when control actions can only be realized in finitely many directions where it is possible to actuate uniformly or logarithmically extended positive scaling factors in each direction. Furthermore, a nearest-action selection approach is used to map the continuous measurements to a realizable action where we show that the approach satisfies a weak sector condition for multiple-input multiple-output (MIMO) systems. Using the notion of input-to-state stability, under some assumptions imposed on the transfer function of the system, we show that the closed-loop system converges to the target ball exponentially fast. Moreover, when logarithmic extension for the scaling factors is realizable, the closed-loop system is able to achieve asymptotic stability instead of only practical stability. Finally, we present an example of the application that confirms our analysis.

preprint2024arXivOpen access
Muhammad Zaki AlmuzakkiBayu JayawardhanaAneel TanwaniAntonis I. Vakis
Systems and Controleess.SYmath.OC
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Muhammad Zaki AlmuzakkiBayu JayawardhanaAneel TanwaniAntonis I. Vakis

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